Holmboe, Cecilie Marie Hartvig; Riis, Tenna; Pastor, Ada (2024): N water chemistry from small Arctic streams in relation to vegetation cover [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.965140
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Abstract:
In the Arctic, little information is available, especially in terms of N availability and composition (i.e., nitrate, ammonium, and dissolved organic nitrogen) from small, flowing waters. This data set aims to quantify N concentrations across small Arctic streams and explore the link between terrestrial vegetation and stream water N concentration. The data set is the result of a literature study where data on N water chemistry was collected and combined from peer-reviewed, published articles and data sets selected by specific criteria. 20 articles met the selected criteria along with four datasets from databases resulting in a total of 2381 observations on N water chemistry from Arctic flowing waters from 1996 to 2021. Bioclimate subzones, NDVI and phytomass describe vegetation. Data on dissolved organic nitrogen (DON) was scarce: only 161 of the 2381 observations contained DON data. We found that nitrate (NO3-), ammonium (NH4+) and DON ranged undetectable to 1155, 547 and 1587 µg N/l, respectively. We found that sparsely vegetated areas had higher stream water N-concentrations, while barren areas and higher vegetated areas had lower stream water N-concentrations.
Supplement to:
Holmboe, Cecilie Marie Hartvig; Pastor, Ada; Riis, Tenna (2024): Stream Nitrogen Concentrations Across Arctic Vegetation Gradients. Global Biogeochemical Cycles, 38(2), e2023GB007840, https://doi.org/10.1029/2023GB007840
Source:
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References:
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Julien, Yves; Sobrino, José Antonio; Verhoef, Wout (2006): Changes in land surface temperatures and NDVI values over Europe between 1982 and 1999. Remote Sensing of Environment, 103(1), 43-55, https://doi.org/10.1016/j.rse.2006.03.011
Lembrechts, Jonas J; van den Hoogen, Johan; Aalto, Juha; et al. (2021): Global maps of soil temperature. Global Change Biology, 28(9), 3110-3144, https://doi.org/10.1111/gcb.16060
Raynolds, Martha K; Walker, Donald A; Maier, H A (2006): NDVI patterns and phytomass distribution in the circumpolar Arctic. Remote Sensing of Environment, 102(3-4), 271-281, https://doi.org/10.1016/j.rse.2006.02.016
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Funding:
Coverage:
Median Latitude: 70.411016 * Median Longitude: -102.616162 * South-bound Latitude: 66.117611 * West-bound Longitude: -149.725998 * North-bound Latitude: 78.946300 * East-bound Longitude: 66.090000
Event(s):
Comment:
Data was collected through a systematic search on the Web of Science (WOS) search engine to find relevant, scientific peer-reviewed articles on N water chemistry from Arctic flowing waters. A "topic" search performed on 4 November 2021 yielded 175 articles: (((stream* OR river* OR watercourse* OR tributary OR creek OR brook) AND (Arctic* OR Greenland* OR Svalbard* OR Siberia*) AND (nitrate* OR ammonium* OR nitrogen*) NOT (sea* OR ocean* OR lake* OR pond*))). The articles from this search were combined with data obtained from The Greenland Ecosystem Monitoring (GEM) database (Greenland Ecosystem Monitoring, 2020b; doi:10.1016/j.rse.2006.03.011, 2020a; doi:10.17897/ZJK8-0B45 ), the National Science Foundation's Long Term Ecological Research (LTER) database (Bowden, 2021),and published articles that were not initially found through the main keyword search. This resulted in 215 articles in total. This was also combined with 21 unpublished data points of our group.
After retrieval, all articles and data were systematically scanned for data adhering to the following criteria: (a) data on N water concentration (NO3-, NH4+, DON and/or TDN) for a particular year from Arctic flowing waters; and (b) not to include streams that was impacted by human nutrient enrichment. The initial search did not yield any data regarding particulate N and, therefore, we did not assess this N type. In this study, the Arctic is defined as everything above the treeline (i.e. the northernmost latitude at which trees can grow and sustain themselves (CAVM, 2003). Data from figures were extracted using the WebPlotDigitizer. In order to also include sites with solute concentrations below detection limit we dealt with these low values in the following way: if the detection limit was specified in the study, the values below the detection limit were substituted for the limit of detection divided by 2. If there was no information on the limit of detection (i.e., if only the abbreviation was presented), we excluded the values from the analyses (See dataset in Supporting Information.)
Bioclimate subzones
We divided the Arctic into bioclimate subzones A-E, which is based on vegetation height and July temperature (Walker, 2005, doi:10.1111/j.1654-1103.2005.tb02365.x). The bioclimate subzone GeoTiff dataset was downloaded from the Circumpolar Arctic Vegetation Mapping Project (https://www.geobotany.uaf.edu/cavm/data/index.html) created by the Alaska Geobotany Center (Fig. 1A). Within this classification, temperature and vegetation height increase from north to south corresponding to Subzone A to Subzone E (Walker, 2005, doi:10.1111/j.1654-1103.2005.tb02365.x).
Out of the 215 published articles, 20 articles met our criteria along with four datasets from databases (Holmboe et al., 2024). Combined with the 21 unpublished data points from our group, we obtained 2381 observations on N water chemistry from' Arctic flowing waters from 1996 to 2021 (see Excel sheet in Supporting Information). The data included water samples collected during summer, primarily July and August. We tested for temporal trends that could have been caused by climate change since 1996 by dividing the data into the first and second half sample period (i.e.1996-2008 (early) and 2009-2021 (late). However, in an initial test of patterns found in the early period versus the patterns found in late period we did not find any noticeable differences (Fig. S2 & S3 in Supporting Information). We therefore did the analyses with all years lumped together within the single period 1996-2021.
NDVI and Phytomass
To assess the effect of vegetation more directly, we used two other vegetation parameters; Normalized difference vegetation index (NDVI) and Phytomass (Raynolds et al., 2006; doi:10.1016/j.rse.2006.02.016). Both GeoTiff datasets come from the Circumpolar Arctic Vegetation Mapping Project (https://www.geobotany.uaf.edu/cavm/data/index.html) created by the Alaska Geobotany Center, and information about the data can be found in Raynolds et al. (2006; doi:10.1016/j.rse.2006.02.016). The NDVI measures the relative greenness of an area and is derived from satellite images containing information about the spectral reflectance in the near-infrared (NIR) and red (R) spectral area that can be extracted and used to calculate NDVI. NDVI can be calculated as: NDVI = (NIR - R) / (NIR + R). Values vary from -1 to +1, where values closer to 1 indicate more vegetated areas. We focussed on the maximum NDVI in an area, divided into six categories (Raynolds et al., 2006): NDVI [< 0.03], [0.03 - 0.14], [0.15 - 0.26], [0.27 - 0.38], [0.39 - 0.50] and [0.51 - 0.56]. In general, NDVI has been shown to correlate with the bioclimate subzones and decreases from south to north (Raynolds et al., 2006). Phytomass is the above-ground plant biomass measured in g/m² and is calculated from a regression relationship between NDVI and field measured phytomass derived from clip harvest data collected on the North Slope of Alaska, as described in detail in Raynolds et al. (2006) and Walker et al. (2003). Phytomass is divided into six categories; [< 30 g/m²], [30 - 70 g/m²], [70 - 160 g/m²], [160 - 370 g/m²], [370 - 850 g/m²] and [850 - 1300 g/m²]. We use the same colours as the original legend by Raynolds et al. (2006) for both NDVI and phytomass. In the dataset, NDVI and phytomass are respresented as categorical values from 1 to 6. For NDVI 1 corresponds to NDVI > 0.03 and 7 corresponds to NDVI 0.51-0.56. For Phytomass, 1 corresponds to < 30 g/m2 and 6 corresponds to 850-1300 g/m².
Interpreting the vegetation parameters
To be able to interpret the vegetation parameters more precisely, we have divided the sites into three categories according to the following criteria; "Barren" (Bioclimate subzones A and B, NDVI < 0.14, phytomass < 70 g/m²), "Sparsely vegetated" (Bioclimate subzones C, D and E, 0.15 < NDVI < 0.5, 70 g/m² < phytomass < 850 g/m²) and "Moderately vegetated" (Bioclimate Subzone E, 0.5 < NDVI < 0.56, 850 g/m² < phytomass < 1300 g/m²) (Julien et al., 2006 (doi:10.1016/j.rse.2006.03.011); Raynolds et al., 2006 (doi:10.1016/j.rse.2006.02.016); Sobrino & Raissouni, 2000 (doi:10.1080/014311600210876)). The data in this study was not located in areas with dense vegetation, where NDVI reaches values above 0.6 (Corrales et al., 2018, doi:10.1007/978-3-030-04447-3_7).
Climatic variables
Several climatic variables were used to support the vegetation parameters and test the relationship with N concentrations in streams. Annual mean air temperature (°C, Air temp.), Annual precipitation (mm, Precipitation), Maximum temperature of Warmest Month (°C, Max air temp.) and Minimum temperature of Coldest Month (°C, Min. air temp.) were extracted from the WorldClim database of Bioclimatic variables (version 2, 2020) in 1 km² resolution (Fick & Hijmans, 2017, doi:10.1002/joc.5086). These values are an average for the years 1970-2000. Annual mean soil temperature (°C, Soil temp.) data were extracted from the Global Soil Bioclimate variables based on data from 1979-2013 in two depth intervals: 0-5 cm and 5-15 cm (Lembrechts et al., 2021; doi:10.1111/gcb.16060). The soil organic carbon content (SOCC, kg C/m² at 30 and 100 cm depth was extracted from the Northern Circumpolar Soil Carbon Database version 2 (NCSCDv2) (https://bolin.su.se/data/ncscd/).
Parameter(s):
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
65302 data points
Data
1 ID (OBJECT) | 2 Reference | 3 URL ref | 4 Name (Stream name) | 5 Latitude | 6 Longitude | 7 ID (Paper) | 8 Year pub | 9 Year sampl | 10 Cat | 11 Month | 12 Date | 13 Description | 14 Country | 15 Area | 16 [NO3]- [µg/l] | 17 [NH4]+ [µg/l] | 18 [NH4]+/[NO3]- | 19 DIN [µg/l] | 20 TDN [µg/l] | 21 DON [µg/l] | 22 DIN/DON | 23 MAT [°C] (SBIO1 0-5cm) | 24 MAT [°C] (SBIO1 5-15cm) | 25 SOC [kg/m2] (NCSCDv2_Circumpolar_WGS84_SOC...) | 26 SOC [kg/m2] (NCSCDv2_Circumpolar_WGS84_SOC...) | 27 MAAT [°C] (30s) | 28 MAP [mm] (30s) | 29 TxTxTx [°C] (Warm month 30s) | 30 TnTnTn [°C] (Cold month 30s) | 31 Subzone (Bioclimate) | 32 NDVI (Class 060118) | 33 Biom abovegr [g/m2] (Phytomass class 060118) |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | Ada Pastor | unkown | 69.1257 | -104.9939 | Unpublished_Pastor_CadaCHARS | 2019 | late | July | 2019-07-07 | low-arctic | Canada | Nuvut, Cambridge Bay | 0.807 | 28.600 | 35.425 | 29.407 | 475.600 | 446.20 | 0.066 | -8.000 | -9.400 | 389 | 116 | -13.833 | 137 | 13.500 | -36.300 | Subzone D | 3 | 3 | ||
2 | Webster et al. (2003) | doi:10.1046/j.1365-2427.2003.01094.x | E1 Outlet | 68.6333 | -149.6333 | Webster2003_FreshwaterBiology | 2003 | 1997 | early | July | 1997-07-01 | low-arctic | US | Alaska | 35.700 | 1.400 | 0.039 | 37.100 | -4.500 | -6.100 | 35 | 35 | -9.571 | 237 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||
3 | Bowden et al. (2008) | doi:10.1029/2007JG000470 | T54 | 68.6333 | -149.6333 | Bowden2008_JournalOfGeophysicalResearch | 2008 | 2004 | early | August | 2004-08-04 | low-arctic | US | Alaska | 3.220 | 3.920 | 1.217 | 7.140 | -4.500 | -6.100 | 35 | 35 | -9.571 | 237 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||
4 | Bowden et al. (2008) | doi:10.1029/2007JG000470 | T54 | 68.6333 | -149.6333 | Bowden2008_JournalOfGeophysicalResearch | 2008 | 2004 | early | August | 2004-08-04 | low-arctic | US | Alaska | 9.800 | 158.280 | 16.143 | 168.080 | -4.500 | -6.100 | 35 | 35 | -9.571 | 237 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||
5 | Bowden et al. (2008) | doi:10.1029/2007JG000470 | T42 | 68.6333 | -149.6333 | Bowden2008_JournalOfGeophysicalResearch | 2008 | 2004 | early | August | 2004-08-04 | low-arctic | US | Alaska | 7.980 | 3.220 | 0.404 | 11.210 | -4.500 | -6.100 | 35 | 35 | -9.571 | 237 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||
6 | Bowden et al. (2008) | doi:10.1029/2007JG000470 | T42 | 68.6333 | -149.6333 | Bowden2008_JournalOfGeophysicalResearch | 2008 | 2004 | early | August | 2004-08-04 | low-arctic | US | Alaska | 6.720 | 68.490 | 10.188 | 75.220 | -4.500 | -6.100 | 35 | 35 | -9.571 | 237 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||
7 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 105.100 | 8.800 | 0.084 | 113.800 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
8 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 95.300 | 5.900 | 0.061 | 101.200 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
9 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 69.100 | 2.900 | 0.042 | 72.000 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
10 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 57.400 | 2.000 | 0.034 | 59.300 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
11 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 37.000 | 2.000 | 0.053 | 38.900 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
12 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 33.100 | 1.000 | 0.030 | 34.000 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
13 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 28.200 | 1.000 | 0.035 | 29.200 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
14 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 24.300 | 2.900 | 0.120 | 27.200 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
15 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | June | 2002-06-27 | low-arctic | US | Alaska | 9.700 | 2.000 | 0.201 | 11.700 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
16 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 71.000 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
17 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 64.200 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
18 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 54.500 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
19 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 19.500 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
20 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 20.400 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
21 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 15.600 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
22 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 16.500 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
23 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 12.600 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
24 | Benstead et al. (2005) | doi:10.1111/j.1365-2427.2004.01319.x | Hershey Creek | 68.6456 | -149.3997 | Benstead2005_FreshwaterBiology | 2005 | 2002 | early | July | 2002-07-05 | low-arctic | US | Alaska | 2.900 | -4.900 | -6.200 | 482 | 188 | -9.850 | 238 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
25 | Snyder and Bowden (2014) | doi:10.1002/2013WR014317 | The inlet series (I series) watershed of Toolik Lake | 68.6333 | -149.6000 | Snyder2014_WaterRessourcesResearch | 2014 | 2011 | late | August | 2011-08-30 | low-arctic | US | Alaska | 16.500 | 45.200 | 2.732 | 61.700 | 35 | 35 | -9.517 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | |||||
26 | Snyder and Bowden (2014) | doi:10.1002/2013WR014317 | The inlet series (I series) watershed of Toolik Lake | 68.6333 | -149.6000 | Snyder2014_WaterRessourcesResearch | 2014 | 2011 | late | August | 2011-08-31 | low-arctic | US | Alaska | 19.200 | 45.000 | 2.342 | 64.200 | 35 | 35 | -9.517 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | |||||
27 | Snyder and Bowden (2014) | doi:10.1002/2013WR014317 | The inlet series (I series) watershed of Toolik Lake | 68.6333 | -149.6000 | Snyder2014_WaterRessourcesResearch | 2014 | 2011 | late | September | 2011-09-01 | low-arctic | US | Alaska | 14.100 | 58.500 | 4.153 | 72.600 | 35 | 35 | -9.517 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | |||||
28 | Ada Pastor | Toolik Inlet | 68.6251 | -149.5927 | Ada_Unpub2021_INTERACT | 2021 | late | August | 2021-08-21 | low-arctic | US | Alaska | 34.000 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||||||||
29 | Ada Pastor | Imnavait | 68.6250 | -149.3247 | Ada_Unpub2021_INTERACT | 2021 | late | August | 2021-08-24 | low-arctic | US | Alaska | 43.800 | -5.100 | -7.000 | 482 | 188 | -10.108 | 242 | 14.400 | -30.300 | Subzone E | 5 | 5 | ||||||||
30 | Ada Pastor | Kuparuk | 68.6407 | -149.3998 | Ada_Unpub2021_INTERACT | 2021 | late | August | 2021-08-25 | low-arctic | US | Alaska | 66.500 | 10.200 | 0.153 | 76.700 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||||
31 | Ada Pastor | Oksrukuyik | 68.6858 | -149.1003 | Ada_Unpub2021_INTERACT | 2021 | late | August | 2021-08-26 | low-arctic | US | Alaska | 39.900 | 21.100 | 0.529 | 61.000 | -5.000 | -6.600 | 50 | 44 | -10.008 | 240 | 14.800 | -30.400 | Subzone E | 6 | 6 | |||||
32 | Ada Pastor | Trevor | 68.2834 | -149.3716 | Ada_Unpub2021_INTERACT | 2021 | late | September | 2021-09-07 | low-arctic | US | Alaska | 336.000 | -4.100 | -6.500 | 0 | 0 | -9.271 | 259 | 14.200 | -28.400 | Subzone E | 5 | 4 | ||||||||
33 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 0.280 | 6.300 | 22.500 | 6.580 | 178.030 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
34 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 21.710 | 5.460 | 0.252 | 27.170 | 197.630 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
35 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 2.380 | 6.580 | 2.765 | 8.960 | 175.080 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
36 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 4.480 | 192.870 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||||
37 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 5.180 | 175.360 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||||
38 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 5.880 | 166.820 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||||
39 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 1.260 | 8.120 | 6.444 | 9.380 | 208.980 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
40 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 0.980 | 6.580 | 6.714 | 7.560 | 202.400 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
41 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 1.400 | 4.900 | 3.500 | 6.300 | 233.070 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
42 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 1.260 | 4.200 | 3.333 | 5.460 | 192.030 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
43 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 6.440 | 7.140 | 1.109 | 13.580 | 221.870 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
44 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 3.920 | 4.900 | 1.250 | 8.820 | 199.180 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
45 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 7.000 | 225.650 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||||
46 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 0.840 | 7.140 | 8.500 | 7.980 | 248.340 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
47 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 0.980 | 7.840 | 8.000 | 8.820 | 255.620 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
48 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 0.840 | 4.900 | 5.833 | 5.740 | 217.660 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
49 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 0.840 | 6.160 | 7.333 | 7.000 | 242.740 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
50 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 3.220 | 6.580 | 2.043 | 9.800 | 264.170 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
51 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 1.820 | 5.880 | 3.231 | 7.700 | 235.450 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
52 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 6.580 | 9.100 | 1.383 | 15.680 | 194.130 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
53 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 5.600 | 7.140 | 1.275 | 12.740 | 204.640 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
54 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-05 | sub-arctic | US | Alaska | 2.240 | 207.300 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | |||||
55 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 6.440 | 6.720 | 1.043 | 13.160 | 203.240 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
56 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 5.880 | 3.780 | 0.643 | 9.660 | 184.050 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
57 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Fog 5 Outlet | 68.6789 | -149.0624 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 5.880 | 4.760 | 0.810 | 10.640 | 165.560 | -5.100 | -6.800 | 50 | 44 | -9.596 | 238 | 15.300 | -30.200 | Subzone E | 5 | 5 | ||
58 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-20 | sub-arctic | US | Alaska | 45.746 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
59 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-01 | sub-arctic | US | Alaska | 23.713 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
60 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-15 | sub-arctic | US | Alaska | 62.820 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
61 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-23 | sub-arctic | US | Alaska | 27.187 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
62 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-30 | sub-arctic | US | Alaska | 28.013 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
63 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-05 | sub-arctic | US | Alaska | 20.436 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
64 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-19 | sub-arctic | US | Alaska | 35.409 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
65 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | I8 Inlet | 68.6085 | -149.5876 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | September | 2019-09-03 | sub-arctic | US | Alaska | 55.901 | -4.800 | -6.100 | 35 | 35 | -9.488 | 238 | 15.300 | -30.100 | Subzone E | 5 | 5 | ||||||
66 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | August | 2013-08-17 | sub-arctic | US | Alaska | 9.100 | 17.510 | 1.923 | 26.610 | 229.430 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
67 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | September | 2013-09-04 | sub-arctic | US | Alaska | 17.650 | 8.400 | 0.476 | 26.050 | 218.500 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
68 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | September | 2013-09-11 | sub-arctic | US | Alaska | 24.930 | 6.300 | 0.253 | 31.230 | 220.470 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
69 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | September | 2013-09-18 | sub-arctic | US | Alaska | 33.760 | 10.220 | 0.303 | 43.980 | 216.260 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
70 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | September | 2013-09-25 | sub-arctic | US | Alaska | 42.160 | 20.030 | 0.475 | 62.190 | 239.370 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
71 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | October | 2013-10-02 | sub-arctic | US | Alaska | 61.770 | 9.800 | 0.159 | 71.570 | 235.450 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
72 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | October | 2013-10-09 | sub-arctic | US | Alaska | 68.350 | 5.600 | 0.082 | 73.950 | 265.990 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
73 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-28 | sub-arctic | US | Alaska | 4.340 | 3.500 | 0.806 | 7.840 | 141.750 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
74 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-21 | sub-arctic | US | Alaska | 6.020 | 3.500 | 0.581 | 9.520 | 174.800 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
75 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-05 | sub-arctic | US | Alaska | 10.360 | 5.040 | 0.486 | 15.400 | 168.500 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
76 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-18 | sub-arctic | US | Alaska | 27.590 | 2.800 | 0.102 | 30.390 | 164.440 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
77 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-27 | sub-arctic | US | Alaska | 13.590 | 4.060 | 0.299 | 17.650 | 158.140 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
78 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | September | 2014-09-04 | sub-arctic | US | Alaska | 22.410 | 5.320 | 0.238 | 27.730 | 149.590 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
79 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | September | 2014-09-11 | sub-arctic | US | Alaska | 31.520 | 2.800 | 0.089 | 34.320 | 159.680 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
80 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | September | 2014-09-19 | sub-arctic | US | Alaska | 32.640 | 2.800 | 0.086 | 35.440 | 170.600 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
81 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | September | 2014-09-27 | sub-arctic | US | Alaska | 52.100 | 4.760 | 0.091 | 56.860 | 184.190 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
82 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | October | 2014-10-01 | sub-arctic | US | Alaska | 59.250 | 5.040 | 0.085 | 64.290 | 173.120 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
83 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-27 | sub-arctic | US | Alaska | 69.750 | 6.440 | 0.092 | 76.190 | 168.080 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
84 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-30 | sub-arctic | US | Alaska | 70.590 | 4.340 | 0.062 | 74.930 | 168.080 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
85 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-07 | sub-arctic | US | Alaska | 57.710 | 6.020 | 0.104 | 63.730 | 161.080 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
86 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-15 | sub-arctic | US | Alaska | 91.040 | 4.760 | 0.052 | 95.800 | 194.690 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
87 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-25 | sub-arctic | US | Alaska | 72.410 | 7.980 | 0.110 | 80.390 | 166.680 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
88 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-14 | sub-arctic | US | Alaska | 44.680 | 8.120 | 0.182 | 52.800 | 156.880 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
89 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-21 | sub-arctic | US | Alaska | 21.570 | 7.700 | 0.357 | 29.270 | 151.270 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
90 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-26 | sub-arctic | US | Alaska | 31.380 | 5.180 | 0.165 | 36.560 | 169.480 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
91 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-02 | sub-arctic | US | Alaska | 48.880 | 5.600 | 0.115 | 54.480 | 182.090 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
92 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-09 | sub-arctic | US | Alaska | 48.740 | 5.320 | 0.109 | 54.060 | 186.290 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
93 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-16 | sub-arctic | US | Alaska | 66.390 | 6.580 | 0.099 | 72.970 | 194.690 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
94 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-22 | sub-arctic | US | Alaska | 84.740 | 6.300 | 0.074 | 91.040 | 208.700 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
95 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-27 | sub-arctic | US | Alaska | 97.350 | 6.020 | 0.062 | 103.370 | 249.320 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
96 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-30 | sub-arctic | US | Alaska | 5.180 | 4.900 | 0.946 | 10.080 | 195.250 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
97 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-09 | sub-arctic | US | Alaska | 19.330 | 3.080 | 0.159 | 22.410 | 170.600 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
98 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-30 | sub-arctic | US | Alaska | 30.670 | 1.680 | 0.055 | 32.350 | 189.510 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
99 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-15 | sub-arctic | US | Alaska | 22.830 | 2.940 | 0.129 | 25.770 | 189.930 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
100 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-26 | sub-arctic | US | Alaska | 24.090 | 1.680 | 0.070 | 25.770 | 148.050 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
101 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-03 | sub-arctic | US | Alaska | 31.800 | 2.380 | 0.075 | 34.180 | 146.790 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
102 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-10 | sub-arctic | US | Alaska | 46.080 | 2.940 | 0.064 | 49.020 | 166.260 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
103 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-17 | sub-arctic | US | Alaska | 57.290 | 5.740 | 0.100 | 63.030 | 189.930 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
104 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-26 | sub-arctic | US | Alaska | 60.790 | 3.640 | 0.060 | 64.430 | 180.970 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
105 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | October | 2016-10-04 | sub-arctic | US | Alaska | 85.440 | 5.040 | 0.059 | 90.480 | 199.460 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
106 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | May | 2017-05-22 | sub-arctic | US | Alaska | 21.010 | 13.170 | 0.627 | 34.180 | 197.070 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
107 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik Inlet | 68.6256 | -149.5950 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-22 | sub-arctic | US | Alaska | 84.460 | 3.780 | 0.045 | 88.240 | 139.370 | -4.900 | -6.400 | 35 | 35 | -9.504 | 237 | 15.400 | -30.200 | Subzone E | 5 | 5 | ||
108 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-25 | sub-arctic | US | Alaska | 10.650 | 5.040 | 0.474 | 15.690 | 140.630 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | ||
109 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-16 | sub-arctic | US | Alaska | 4.620 | 152.670 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | |||||
110 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 15.690 | 2.240 | 0.143 | 17.930 | 289.660 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | ||
111 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 43.840 | 6.300 | 0.144 | 50.140 | 153.230 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | ||
112 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | September | 2011-09-19 | sub-arctic | US | Alaska | 71.990 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | ||||||
113 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 27.030 | 138.110 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | |||||
114 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 6.720 | 245.260 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | |||||
115 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5901 | -149.7240 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-09 | sub-arctic | US | Alaska | 8.120 | 246.100 | -4.700 | -5.900 | 35 | 35 | -9.558 | 240 | 15.600 | -30.200 | Subzone E | 5 | 5 | |||||
116 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-25 | sub-arctic | US | Alaska | 41.600 | 5.320 | 0.128 | 46.920 | 118.500 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | ||
117 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-25 | sub-arctic | US | Alaska | 121.860 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | ||||||
118 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-16 | sub-arctic | US | Alaska | 36.280 | 2.660 | 0.073 | 38.940 | 107.150 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | ||
119 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 42.020 | 1.960 | 0.047 | 43.980 | 100.990 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | ||
120 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | September | 2011-09-19 | sub-arctic | US | Alaska | 66.390 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | ||||||
121 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 72.130 | 123.680 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | |||||
122 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 18.910 | 3.220 | 0.170 | 22.130 | 166.540 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | ||
123 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Itkillik Tributary | 68.5902 | -149.7260 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-09 | sub-arctic | US | Alaska | 25.070 | 158.420 | -4.700 | -5.900 | 35 | 35 | -9.562 | 239 | 15.600 | -30.300 | Subzone E | 5 | 5 | |||||
124 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6685 | -149.1520 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-26 | sub-arctic | US | Alaska | 88.660 | 6.440 | 0.073 | 95.100 | 189.090 | -5.100 | -6.500 | 198 | 93 | -10.062 | 239 | 14.800 | -30.500 | Subzone E | 5 | 5 | ||
125 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6685 | -149.1520 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-11 | sub-arctic | US | Alaska | 171.440 | 5.740 | 0.033 | 177.180 | 261.930 | -5.100 | -6.500 | 198 | 93 | -10.062 | 239 | 14.800 | -30.500 | Subzone E | 5 | 5 | ||
126 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6685 | -149.1520 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-04 | sub-arctic | US | Alaska | 163.740 | 6.580 | 0.040 | 170.320 | 253.520 | -5.100 | -6.500 | 198 | 93 | -10.062 | 239 | 14.800 | -30.500 | Subzone E | 5 | 5 | ||
127 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-16 | sub-arctic | US | Alaska | 26.330 | 6.580 | 0.250 | 32.910 | 131.660 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
128 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-26 | sub-arctic | US | Alaska | 88.940 | 6.440 | 0.072 | 95.380 | 182.090 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
129 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-26 | sub-arctic | US | Alaska | 89.500 | 6.860 | 0.077 | 96.360 | 203.100 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
130 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-30 | sub-arctic | US | Alaska | 111.350 | 9.380 | 0.084 | 120.730 | 260.520 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
131 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-01 | sub-arctic | US | Alaska | 122.420 | 8.960 | 0.073 | 131.380 | 217.100 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
132 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 129.140 | 15.970 | 0.124 | 145.110 | 236.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
133 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 130.400 | 11.490 | 0.088 | 141.890 | 239.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
134 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 132.220 | 12.330 | 0.093 | 144.550 | 228.310 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
135 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 133.480 | 13.170 | 0.099 | 146.650 | 238.110 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
136 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 136.570 | 14.290 | 0.105 | 150.860 | 240.920 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
137 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 139.230 | 13.310 | 0.096 | 152.540 | 245.120 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
138 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 140.070 | 11.070 | 0.079 | 151.140 | 252.120 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
139 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 138.110 | 14.430 | 0.104 | 152.540 | 240.920 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
140 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 135.300 | 13.310 | 0.098 | 148.610 | 236.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
141 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 130.820 | 11.210 | 0.086 | 142.030 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
142 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 129.560 | 12.050 | 0.093 | 141.610 | 232.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
143 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 125.920 | 11.910 | 0.095 | 137.830 | 225.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
144 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 122.420 | 13.170 | 0.108 | 135.590 | 232.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
145 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 116.680 | 8.120 | 0.070 | 124.800 | 222.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
146 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 119.480 | 14.290 | 0.120 | 133.770 | 224.110 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
147 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 117.520 | 11.070 | 0.094 | 128.590 | 219.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
148 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 115.000 | 11.770 | 0.102 | 126.770 | 219.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
149 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 110.930 | 14.570 | 0.131 | 125.500 | 232.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
150 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 109.670 | 14.710 | 0.134 | 124.380 | 233.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
151 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 109.670 | 10.360 | 0.095 | 120.030 | 226.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
152 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 108.690 | 9.380 | 0.086 | 118.070 | 204.500 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
153 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 109.390 | 8.960 | 0.082 | 118.350 | 217.100 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
154 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 108.550 | 10.650 | 0.098 | 119.200 | 207.300 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
155 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 107.430 | 9.520 | 0.089 | 116.950 | 212.900 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
156 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 110.370 | 12.050 | 0.109 | 122.420 | 226.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
157 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-11 | sub-arctic | US | Alaska | 170.740 | 6.160 | 0.036 | 176.900 | 250.720 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
158 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-11 | sub-arctic | US | Alaska | 172.420 | 8.540 | 0.050 | 180.960 | 260.520 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
159 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-15 | sub-arctic | US | Alaska | 182.930 | 6.860 | 0.038 | 189.790 | 266.130 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
160 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 137.410 | 9.100 | 0.066 | 146.510 | 236.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
161 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 141.050 | 9.240 | 0.066 | 150.290 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
162 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 142.030 | 11.490 | 0.081 | 153.520 | 232.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
163 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 148.050 | 10.650 | 0.072 | 158.700 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
164 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.290 | 11.210 | 0.078 | 154.500 | 235.310 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
165 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.010 | 8.960 | 0.063 | 151.970 | 228.310 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
166 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 144.130 | 10.930 | 0.076 | 155.060 | 233.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
167 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 144.130 | 11.490 | 0.080 | 155.620 | 236.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
168 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 150.290 | 8.540 | 0.057 | 158.830 | 231.110 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
169 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 144.270 | 8.260 | 0.057 | 152.530 | 232.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
170 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.290 | 12.190 | 0.085 | 155.480 | 239.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
171 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 144.130 | 13.170 | 0.091 | 157.300 | 233.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
172 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.430 | 11.350 | 0.079 | 154.780 | 233.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
173 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.150 | 19.330 | 0.135 | 162.480 | 236.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
174 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.570 | 9.240 | 0.064 | 152.810 | 235.310 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
175 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 145.390 | 9.660 | 0.066 | 155.050 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
176 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.570 | 9.800 | 0.068 | 153.370 | 239.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
177 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.850 | 10.650 | 0.074 | 154.500 | 240.920 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
178 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 143.430 | 9.380 | 0.065 | 152.810 | 231.110 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
179 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 144.270 | 6.020 | 0.042 | 150.290 | 232.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
180 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 149.450 | 8.820 | 0.059 | 158.270 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
181 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 145.250 | 8.820 | 0.061 | 154.070 | 235.310 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
182 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 145.250 | 8.680 | 0.060 | 153.930 | 231.110 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
183 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 144.970 | 12.190 | 0.084 | 157.160 | 249.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
184 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 144.270 | 9.800 | 0.068 | 154.070 | 236.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
185 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-24 | sub-arctic | US | Alaska | 151.830 | 7.000 | 0.046 | 158.830 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
186 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-28 | sub-arctic | US | Alaska | 150.570 | 7.140 | 0.047 | 157.710 | 239.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
187 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-04 | sub-arctic | US | Alaska | 162.900 | 4.620 | 0.028 | 167.520 | 247.920 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
188 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-04 | sub-arctic | US | Alaska | 142.730 | 5.880 | 0.041 | 148.610 | 259.120 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
189 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-08 | sub-arctic | US | Alaska | 7.560 | 226.910 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
190 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 148.890 | 11.070 | 0.074 | 159.960 | 259.120 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
191 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 150.010 | 11.350 | 0.076 | 161.360 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
192 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 151.410 | 11.070 | 0.073 | 162.480 | 242.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
193 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 154.490 | 9.380 | 0.061 | 163.870 | 250.720 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
194 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 157.300 | 11.070 | 0.070 | 168.370 | 256.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
195 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 160.660 | 11.490 | 0.071 | 172.150 | 261.930 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
196 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 165.420 | 10.220 | 0.062 | 175.640 | 271.730 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
197 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 165.700 | 9.800 | 0.059 | 175.500 | 266.130 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
198 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 168.080 | 9.660 | 0.058 | 177.740 | 268.930 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
199 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 161.360 | 9.800 | 0.061 | 171.160 | 281.530 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
200 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 157.720 | 10.790 | 0.068 | 168.510 | 257.720 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
201 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 153.790 | 10.360 | 0.067 | 164.150 | 253.520 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
202 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 150.570 | 7.560 | 0.050 | 158.130 | 243.720 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
203 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 147.490 | 10.220 | 0.069 | 157.710 | 250.720 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
204 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 142.870 | 7.840 | 0.055 | 150.710 | 245.120 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
205 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 139.650 | 6.860 | 0.049 | 146.510 | 250.720 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
206 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 136.150 | 7.140 | 0.052 | 143.290 | 239.510 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
207 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 133.480 | 6.020 | 0.045 | 139.500 | 235.310 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
208 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 131.800 | 6.580 | 0.050 | 138.380 | 231.110 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
209 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 132.220 | 7.840 | 0.059 | 140.060 | 229.710 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
210 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-12 | sub-arctic | US | Alaska | 132.360 | 8.260 | 0.062 | 140.620 | 249.320 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
211 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-13 | sub-arctic | US | Alaska | 125.080 | 7.980 | 0.064 | 133.060 | 235.310 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
212 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-20 | sub-arctic | US | Alaska | 107.710 | 8.120 | 0.075 | 115.830 | 246.520 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
213 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-26 | sub-arctic | US | Alaska | 61.910 | 6.020 | 0.097 | 67.930 | 201.700 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
214 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-02 | sub-arctic | US | Alaska | 56.870 | 5.600 | 0.099 | 62.470 | 194.690 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
215 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-09 | sub-arctic | US | Alaska | 54.210 | 7.140 | 0.132 | 61.350 | 191.890 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
216 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6693 | -149.1460 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-16 | sub-arctic | US | Alaska | 75.500 | 6.020 | 0.080 | 81.520 | 189.090 | -5.200 | -6.500 | 198 | 93 | -10.054 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
249 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-19 | sub-arctic | US | Alaska | 1.680 | 41.040 | 24.417 | 42.720 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
250 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-26 | sub-arctic | US | Alaska | 2.380 | 3.220 | 1.353 | 5.600 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
251 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-03 | sub-arctic | US | Alaska | 11.350 | 23.390 | 2.062 | 34.740 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
252 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-10 | sub-arctic | US | Alaska | 19.050 | 19.750 | 1.037 | 38.800 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
253 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-17 | sub-arctic | US | Alaska | 9.380 | 29.270 | 3.119 | 38.650 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
254 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-24 | sub-arctic | US | Alaska | 14.150 | 16.110 | 1.139 | 30.260 | 158.280 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
255 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 15.970 | 33.200 | 2.079 | 49.170 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
256 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-07 | sub-arctic | US | Alaska | 21.570 | 58.130 | 2.695 | 79.700 | 210.100 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
257 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-12 | sub-arctic | US | Alaska | 21.570 | 31.090 | 1.442 | 52.660 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
258 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | June | 1997-06-18 | sub-arctic | US | Alaska | 1.120 | 2.100 | 1.875 | 3.220 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
259 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-06 | sub-arctic | US | Alaska | 82.220 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
260 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-06 | sub-arctic | US | Alaska | 14.850 | 0.420 | 0.028 | 15.270 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
261 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-21 | sub-arctic | US | Alaska | 1.400 | 0.980 | 0.700 | 2.380 | 212.900 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
262 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-12 | sub-arctic | US | Alaska | 26.050 | 2.380 | 0.091 | 28.430 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
263 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-06 | sub-arctic | US | Alaska | 66.250 | 2.100 | 0.032 | 68.350 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
264 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 6.300 | 146.230 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
265 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 158.140 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
266 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 137.270 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
267 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 165.280 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
268 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 7.420 | 0.280 | 0.038 | 7.700 | 187.690 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
269 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 188.390 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
270 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 156.880 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
271 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 165.280 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
272 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-09 | sub-arctic | US | Alaska | 58.410 | 2.520 | 0.043 | 60.930 | 169.620 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
273 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-09 | sub-arctic | US | Alaska | 152.670 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
274 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-18 | sub-arctic | US | Alaska | 18.770 | 2.380 | 0.127 | 21.150 | 152.670 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
275 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-18 | sub-arctic | US | Alaska | 32.780 | 165.280 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
276 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | August | 2001-08-03 | sub-arctic | US | Alaska | 20.310 | 1.260 | 0.062 | 21.570 | 152.670 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
277 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-21 | sub-arctic | US | Alaska | 11.630 | 123.260 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
278 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-19 | sub-arctic | US | Alaska | 48.180 | 0.700 | 0.015 | 48.880 | 184.890 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
279 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-19 | sub-arctic | US | Alaska | 193.290 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
280 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-09 | sub-arctic | US | Alaska | 69.610 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
281 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-10 | sub-arctic | US | Alaska | 183.490 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
282 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-10 | sub-arctic | US | Alaska | 6.720 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
283 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-18 | sub-arctic | US | Alaska | 5.600 | 3.080 | 0.550 | 8.680 | 143.570 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
284 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-18 | sub-arctic | US | Alaska | 113.450 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
285 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-21 | sub-arctic | US | Alaska | 19.890 | 1.120 | 0.056 | 21.010 | 157.720 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
286 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-21 | sub-arctic | US | Alaska | 140.070 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
287 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-04 | sub-arctic | US | Alaska | 10.360 | 0.840 | 0.081 | 11.200 | 139.230 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
288 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-04 | sub-arctic | US | Alaska | 138.670 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
289 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-21 | sub-arctic | US | Alaska | 78.720 | 0.840 | 0.011 | 79.560 | 207.160 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
290 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-21 | sub-arctic | US | Alaska | 190.490 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
291 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-13 | sub-arctic | US | Alaska | 144.270 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
292 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-16 | sub-arctic | US | Alaska | 14.710 | 1.960 | 0.133 | 16.670 | 176.200 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
293 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-16 | sub-arctic | US | Alaska | 142.870 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
294 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-11 | sub-arctic | US | Alaska | 24.790 | 2.800 | 0.113 | 27.590 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
295 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | June | 2005-06-24 | sub-arctic | US | Alaska | 102.670 | 302.820 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
296 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-13 | sub-arctic | US | Alaska | 10.510 | 3.360 | 0.320 | 13.870 | 222.010 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
297 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-13 | sub-arctic | US | Alaska | 208.700 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
298 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-10 | sub-arctic | US | Alaska | 134.320 | 5.460 | 0.041 | 139.780 | 275.790 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
299 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-10 | sub-arctic | US | Alaska | 207.300 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
300 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-15 | sub-arctic | US | Alaska | 134.460 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
301 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-16 | sub-arctic | US | Alaska | 149.170 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
302 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-19 | sub-arctic | US | Alaska | 6.860 | 1.260 | 0.184 | 8.120 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
303 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-10 | sub-arctic | US | Alaska | 19.750 | 153.370 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
304 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-07 | sub-arctic | US | Alaska | 13.870 | 4.620 | 0.333 | 18.490 | 210.100 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
305 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-22 | sub-arctic | US | Alaska | 102.110 | 58.130 | 0.569 | 160.240 | 216.960 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
306 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-22 | sub-arctic | US | Alaska | 217.800 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
307 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-13 | sub-arctic | US | Alaska | 305.910 | 5.600 | 0.018 | 311.510 | 382.380 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
308 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-01 | sub-arctic | US | Alaska | 48.880 | 1.260 | 0.026 | 50.140 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||
309 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-02 | sub-arctic | US | Alaska | 201.420 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
310 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-02 | sub-arctic | US | Alaska | 201.980 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
311 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-19 | sub-arctic | US | Alaska | 0.840 | 216.260 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
312 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-18 | sub-arctic | US | Alaska | 1.400 | 2.380 | 1.700 | 3.780 | 206.880 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
313 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | August | 2008-08-06 | sub-arctic | US | Alaska | 1.120 | 2.800 | 2.500 | 3.920 | 217.240 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
314 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-25 | sub-arctic | US | Alaska | 1.960 | 151.410 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
315 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-13 | sub-arctic | US | Alaska | 5.600 | 0.560 | 0.100 | 6.160 | 213.880 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
316 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-07 | sub-arctic | US | Alaska | 50.000 | 4.200 | 0.084 | 54.200 | 227.750 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
317 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-25 | sub-arctic | US | Alaska | 64.010 | 1.820 | 0.028 | 65.830 | 151.410 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
318 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-13 | sub-arctic | US | Alaska | 54.910 | 3.220 | 0.059 | 58.130 | 213.880 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
319 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-09 | sub-arctic | US | Alaska | 2.800 | 1.680 | 0.600 | 4.480 | 227.750 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
320 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-17 | sub-arctic | US | Alaska | 37.120 | 124.380 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
321 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-17 | sub-arctic | US | Alaska | 130.260 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
322 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-04 | sub-arctic | US | Alaska | 94.550 | 4.760 | 0.050 | 99.310 | 372.020 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
323 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-04 | sub-arctic | US | Alaska | 242.320 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
324 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-10 | sub-arctic | US | Alaska | 96.510 | 8.260 | 0.086 | 104.770 | 294.840 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
325 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-10 | sub-arctic | US | Alaska | 231.110 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
326 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-19 | sub-arctic | US | Alaska | 17.230 | 1.820 | 0.106 | 19.050 | 212.900 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
327 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-19 | sub-arctic | US | Alaska | 140.630 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
328 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-09 | sub-arctic | US | Alaska | 5.180 | 2.520 | 0.486 | 7.700 | 406.190 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
329 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-09 | sub-arctic | US | Alaska | 269.210 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
330 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-06 | sub-arctic | US | Alaska | 5.880 | 3.640 | 0.619 | 9.520 | 359.970 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
331 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-06 | sub-arctic | US | Alaska | 238.250 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
332 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-19 | sub-arctic | US | Alaska | 1.540 | 5.880 | 3.818 | 7.420 | 142.730 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
333 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-10 | sub-arctic | US | Alaska | 20.590 | 2.520 | 0.122 | 23.110 | 159.960 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
334 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | August | 2013-08-09 | sub-arctic | US | Alaska | 48.320 | 3.080 | 0.064 | 51.400 | 191.050 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
335 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-24 | sub-arctic | US | Alaska | 3.780 | 2.520 | 0.667 | 6.300 | 165.280 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
336 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-19 | sub-arctic | US | Alaska | 21.430 | 13.450 | 0.627 | 34.880 | 201.700 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
337 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-08 | sub-arctic | US | Alaska | 30.390 | 5.880 | 0.194 | 36.270 | 196.090 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
338 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-26 | sub-arctic | US | Alaska | 92.300 | 6.300 | 0.068 | 98.600 | 208.700 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
339 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-11 | sub-arctic | US | Alaska | 173.260 | 8.260 | 0.048 | 181.520 | 261.930 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
340 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-04 | sub-arctic | US | Alaska | 166.680 | 5.740 | 0.034 | 172.420 | 253.520 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
341 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-28 | sub-arctic | US | Alaska | 7.840 | 2.380 | 0.304 | 10.220 | 122.140 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
342 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-28 | sub-arctic | US | Alaska | 2.520 | 126.340 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
343 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-14 | sub-arctic | US | Alaska | 43.560 | 3.220 | 0.074 | 46.780 | 153.930 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
344 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-14 | sub-arctic | US | Alaska | 4.480 | 168.640 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
345 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-01 | sub-arctic | US | Alaska | 40.760 | 4.900 | 0.120 | 45.660 | 130.820 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
346 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-01 | sub-arctic | US | Alaska | 41.180 | 5.180 | 0.126 | 46.360 | 136.710 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
347 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-30 | sub-arctic | US | Alaska | 132.920 | 6.720 | 0.051 | 139.640 | 180.970 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
348 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-30 | sub-arctic | US | Alaska | 136.570 | 7.000 | 0.051 | 143.570 | 207.440 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
349 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-04 | sub-arctic | US | Alaska | 14.150 | 6.440 | 0.455 | 20.590 | 145.810 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
350 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-04 | sub-arctic | US | Alaska | 14.290 | 8.120 | 0.569 | 22.410 | 156.310 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
351 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-24 | sub-arctic | US | Alaska | 25.770 | 6.440 | 0.250 | 32.210 | 138.670 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
352 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-24 | sub-arctic | US | Alaska | 25.910 | 7.700 | 0.297 | 33.610 | 142.590 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||
353 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-26 | sub-arctic | US | Alaska | 6.290 | 121.040 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
354 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-26 | sub-arctic | US | Alaska | 6.930 | 125.150 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
355 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-18 | sub-arctic | US | Alaska | 16.730 | 142.780 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
356 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-18 | sub-arctic | US | Alaska | 16.910 | 149.220 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
357 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-22 | sub-arctic | US | Alaska | 16.980 | 143.580 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
358 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-22 | sub-arctic | US | Alaska | 16.990 | 153.260 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | |||||
359 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-26 | sub-arctic | US | Alaska | 51.700 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
360 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-26 | sub-arctic | US | Alaska | 51.590 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
361 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-22 | sub-arctic | US | Alaska | 25.140 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
362 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-22 | sub-arctic | US | Alaska | 24.160 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
363 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-12 | sub-arctic | US | Alaska | 28.000 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
364 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6710 | -149.1380 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-12 | sub-arctic | US | Alaska | 28.130 | -5.300 | -6.500 | 50 | 44 | -10.042 | 239 | 14.800 | -30.400 | Subzone E | 5 | 5 | ||||||
396 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-19 | sub-arctic | US | Alaska | 0.840 | 6.860 | 8.167 | 7.700 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
397 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-26 | sub-arctic | US | Alaska | 3.080 | 3.220 | 1.045 | 6.300 | 97.910 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
398 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-03 | sub-arctic | US | Alaska | 11.210 | 7.840 | 0.700 | 19.050 | 231.950 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
399 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-10 | sub-arctic | US | Alaska | 19.750 | 19.190 | 0.972 | 38.940 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
400 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-17 | sub-arctic | US | Alaska | 9.800 | 36.280 | 3.700 | 46.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
401 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-24 | sub-arctic | US | Alaska | 14.570 | 22.690 | 1.558 | 37.260 | 96.370 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
402 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-24 | sub-arctic | US | Alaska | 338.960 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
403 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 13.590 | 24.510 | 1.804 | 38.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
404 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-07 | sub-arctic | US | Alaska | 20.730 | 33.760 | 1.628 | 54.490 | 210.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
405 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-12 | sub-arctic | US | Alaska | 21.430 | 15.130 | 0.706 | 36.560 | 202.120 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
406 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | June | 1997-06-18 | sub-arctic | US | Alaska | 1.260 | 1.820 | 1.444 | 3.080 | 97.770 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
407 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-11 | sub-arctic | US | Alaska | 7.420 | 1.960 | 0.264 | 9.380 | 106.310 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
408 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-11 | sub-arctic | US | Alaska | 271.730 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
409 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-24 | sub-arctic | US | Alaska | 6.860 | 4.760 | 0.694 | 11.620 | 122.280 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
410 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-24 | sub-arctic | US | Alaska | 519.650 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
411 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-08 | sub-arctic | US | Alaska | 2.940 | 1.820 | 0.619 | 4.760 | 194.270 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
412 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-06 | sub-arctic | US | Alaska | 1.820 | 260.520 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
413 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-18 | sub-arctic | US | Alaska | 6.860 | 147.070 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
414 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-06 | sub-arctic | US | Alaska | 82.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
415 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-22 | sub-arctic | US | Alaska | 86.280 | 242.320 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
416 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-06 | sub-arctic | US | Alaska | 14.010 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
417 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-21 | sub-arctic | US | Alaska | 3.360 | 0.840 | 0.250 | 4.200 | 201.700 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
418 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-12 | sub-arctic | US | Alaska | 24.370 | 2.100 | 0.086 | 26.470 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
419 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-06 | sub-arctic | US | Alaska | 66.390 | 2.240 | 0.034 | 68.630 | 201.700 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
420 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 4.900 | 1.120 | 0.229 | 6.020 | 158.420 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
421 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 172.280 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
422 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 3.780 | 0.280 | 0.074 | 4.060 | 197.350 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
423 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 175.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
424 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-09 | sub-arctic | US | Alaska | 53.650 | 181.390 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
425 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-09 | sub-arctic | US | Alaska | 183.490 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
426 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | June | 2001-06-27 | sub-arctic | US | Alaska | 17.650 | 2.240 | 0.127 | 19.890 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
427 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-18 | sub-arctic | US | Alaska | 32.220 | 2.940 | 0.091 | 35.160 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
428 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | August | 2001-08-03 | sub-arctic | US | Alaska | 17.510 | 0.980 | 0.056 | 18.490 | 172.280 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
429 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-21 | sub-arctic | US | Alaska | 10.510 | 273.130 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
430 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-19 | sub-arctic | US | Alaska | 51.400 | 0.700 | 0.014 | 52.100 | 191.890 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
431 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-09 | sub-arctic | US | Alaska | 69.890 | 184.890 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
432 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-10 | sub-arctic | US | Alaska | 6.580 | 134.320 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
433 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-18 | sub-arctic | US | Alaska | 6.160 | 2.660 | 0.432 | 8.820 | 119.060 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
434 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-21 | sub-arctic | US | Alaska | 19.330 | 0.840 | 0.043 | 20.170 | 147.630 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
435 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-21 | sub-arctic | US | Alaska | 142.870 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
436 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-04 | sub-arctic | US | Alaska | 10.220 | 0.840 | 0.082 | 11.060 | 178.170 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
437 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-04 | sub-arctic | US | Alaska | 148.470 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
438 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-21 | sub-arctic | US | Alaska | 80.680 | 0.980 | 0.012 | 81.660 | 161.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
439 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-13 | sub-arctic | US | Alaska | 140.070 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
440 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-16 | sub-arctic | US | Alaska | 13.170 | 1.820 | 0.138 | 14.990 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
441 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-11 | sub-arctic | US | Alaska | 17.650 | 3.780 | 0.214 | 21.430 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
442 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | June | 2005-06-24 | sub-arctic | US | Alaska | 104.630 | 172.280 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
443 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-13 | sub-arctic | US | Alaska | 10.220 | 4.900 | 0.479 | 15.120 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
444 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-10 | sub-arctic | US | Alaska | 130.960 | 4.480 | 0.034 | 135.440 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
445 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-15 | sub-arctic | US | Alaska | 144.270 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
446 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-16 | sub-arctic | US | Alaska | 142.870 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
447 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-19 | sub-arctic | US | Alaska | 7.840 | 1.680 | 0.214 | 9.520 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
448 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-10 | sub-arctic | US | Alaska | 17.090 | 147.070 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
449 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-07 | sub-arctic | US | Alaska | 12.750 | 3.780 | 0.297 | 16.530 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
450 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-22 | sub-arctic | US | Alaska | 101.970 | 65.410 | 0.641 | 167.380 | 220.050 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
451 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-13 | sub-arctic | US | Alaska | 299.460 | 5.460 | 0.018 | 304.920 | 385.460 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
452 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-01 | sub-arctic | US | Alaska | 46.640 | 1.260 | 0.027 | 47.900 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
453 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-02 | sub-arctic | US | Alaska | 217.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
454 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-19 | sub-arctic | US | Alaska | 0.280 | 231.810 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
455 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-18 | sub-arctic | US | Alaska | 2.380 | 2.520 | 1.059 | 4.900 | 212.200 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
456 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | August | 2008-08-06 | sub-arctic | US | Alaska | 4.200 | 4.620 | 1.100 | 8.820 | 230.690 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
457 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-25 | sub-arctic | US | Alaska | 2.240 | 165.700 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
458 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-13 | sub-arctic | US | Alaska | 1.680 | 0.280 | 0.167 | 1.960 | 227.750 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
459 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-07 | sub-arctic | US | Alaska | 47.200 | 3.080 | 0.065 | 50.280 | 233.770 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
460 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-25 | sub-arctic | US | Alaska | 69.190 | 2.100 | 0.030 | 71.290 | 165.700 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
461 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-13 | sub-arctic | US | Alaska | 53.930 | 24.090 | 0.447 | 78.020 | 227.750 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
462 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-09 | sub-arctic | US | Alaska | 2.520 | 2.100 | 0.833 | 4.620 | 233.770 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
463 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-17 | sub-arctic | US | Alaska | 33.480 | 122.420 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
464 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-17 | sub-arctic | US | Alaska | 127.460 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
465 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-04 | sub-arctic | US | Alaska | 90.620 | 3.360 | 0.037 | 93.980 | 365.150 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
466 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-04 | sub-arctic | US | Alaska | 238.110 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
467 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-10 | sub-arctic | US | Alaska | 94.690 | 6.440 | 0.068 | 101.130 | 186.990 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
468 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-10 | sub-arctic | US | Alaska | 201.700 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
469 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-19 | sub-arctic | US | Alaska | 18.070 | 3.080 | 0.171 | 21.150 | 203.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
470 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-19 | sub-arctic | US | Alaska | 134.740 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
471 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-09 | sub-arctic | US | Alaska | 5.460 | 3.080 | 0.564 | 8.540 | 320.750 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
472 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-09 | sub-arctic | US | Alaska | 212.480 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
473 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-06 | sub-arctic | US | Alaska | 5.600 | 5.320 | 0.950 | 10.920 | 394.990 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
474 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-06 | sub-arctic | US | Alaska | 261.650 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
475 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-19 | sub-arctic | US | Alaska | 1.960 | 3.920 | 2.000 | 5.880 | 142.450 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
476 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-10 | sub-arctic | US | Alaska | 21.290 | 2.940 | 0.138 | 24.230 | 164.020 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
477 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | August | 2013-08-09 | sub-arctic | US | Alaska | 47.900 | 5.180 | 0.108 | 53.080 | 211.640 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
478 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-24 | sub-arctic | US | Alaska | 3.780 | 2.520 | 0.667 | 6.300 | 161.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
479 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-19 | sub-arctic | US | Alaska | 22.410 | 7.980 | 0.356 | 30.390 | 200.300 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
480 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-08 | sub-arctic | US | Alaska | 31.800 | 7.700 | 0.242 | 39.500 | 207.300 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
481 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-26 | sub-arctic | US | Alaska | 90.900 | 9.100 | 0.100 | 100.000 | 200.300 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
482 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-11 | sub-arctic | US | Alaska | 170.740 | 7.420 | 0.043 | 178.160 | 254.920 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
483 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-04 | sub-arctic | US | Alaska | 164.020 | 6.440 | 0.039 | 170.460 | 236.710 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
484 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-28 | sub-arctic | US | Alaska | 7.700 | 2.800 | 0.364 | 10.500 | 114.010 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
485 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-14 | sub-arctic | US | Alaska | 42.440 | 6.160 | 0.145 | 48.600 | 187.270 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
486 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-01 | sub-arctic | US | Alaska | 39.360 | 4.760 | 0.121 | 44.120 | 149.310 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
487 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-30 | sub-arctic | US | Alaska | 134.740 | 7.700 | 0.057 | 142.440 | 189.930 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
488 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-04 | sub-arctic | US | Alaska | 13.450 | 6.160 | 0.458 | 19.610 | 161.640 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
489 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-24 | sub-arctic | US | Alaska | 24.370 | 6.300 | 0.259 | 30.670 | 135.300 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
490 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-26 | sub-arctic | US | Alaska | 6.470 | 118.410 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
491 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-18 | sub-arctic | US | Alaska | 16.640 | 155.040 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
492 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-22 | sub-arctic | US | Alaska | 15.990 | 154.090 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
493 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-26 | sub-arctic | US | Alaska | 51.280 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
494 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6714 | -149.1310 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-22 | sub-arctic | US | Alaska | 23.520 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
530 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-19 | sub-arctic | US | Alaska | 1.400 | 16.390 | 11.700 | 17.790 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
531 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-26 | sub-arctic | US | Alaska | 1.260 | 8.960 | 7.111 | 10.220 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
532 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-03 | sub-arctic | US | Alaska | 12.050 | 17.090 | 1.419 | 29.140 | 66.250 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
533 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-10 | sub-arctic | US | Alaska | 18.770 | 7.840 | 0.418 | 26.610 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
534 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-17 | sub-arctic | US | Alaska | 10.360 | 26.470 | 2.554 | 36.830 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
535 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-24 | sub-arctic | US | Alaska | 14.850 | 16.810 | 1.132 | 31.660 | 179.990 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
536 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 15.830 | 27.590 | 1.743 | 43.420 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
537 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-07 | sub-arctic | US | Alaska | 20.310 | 17.230 | 0.848 | 37.540 | 302.540 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
538 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-07 | sub-arctic | US | Alaska | 1421.680 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
539 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-12 | sub-arctic | US | Alaska | 21.570 | 40.620 | 1.883 | 62.190 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
540 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | June | 1997-06-18 | sub-arctic | US | Alaska | 1.260 | 1.820 | 1.444 | 3.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
541 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-11 | sub-arctic | US | Alaska | 7.840 | 2.940 | 0.375 | 10.780 | 105.890 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
542 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-11 | sub-arctic | US | Alaska | 289.240 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
543 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-24 | sub-arctic | US | Alaska | 6.300 | 2.940 | 0.467 | 9.240 | 385.180 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
544 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-08 | sub-arctic | US | Alaska | 3.360 | 1.820 | 0.542 | 5.180 | 270.330 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
545 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-18 | sub-arctic | US | Alaska | 3.780 | 166.680 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
546 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-06 | sub-arctic | US | Alaska | 79.840 | 397.790 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
547 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-22 | sub-arctic | US | Alaska | 73.260 | 268.930 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
548 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-06 | sub-arctic | US | Alaska | 17.510 | 1.820 | 0.104 | 19.330 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
549 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-21 | sub-arctic | US | Alaska | 2.100 | 0.560 | 0.267 | 2.660 | 210.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
550 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-12 | sub-arctic | US | Alaska | 27.730 | 2.240 | 0.081 | 29.970 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
551 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-06 | sub-arctic | US | Alaska | 63.590 | 2.100 | 0.033 | 65.690 | 198.900 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
552 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 5.040 | 1.400 | 0.278 | 6.440 | 162.480 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
553 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-23 | sub-arctic | US | Alaska | 193.990 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
554 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 4.340 | 0.280 | 0.065 | 4.620 | 202.680 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
555 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-07 | sub-arctic | US | Alaska | 190.490 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
556 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-09 | sub-arctic | US | Alaska | 63.870 | 2.240 | 0.035 | 66.110 | 195.670 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
557 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-09 | sub-arctic | US | Alaska | 183.490 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
558 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | June | 2001-06-27 | sub-arctic | US | Alaska | 20.450 | 3.220 | 0.158 | 23.670 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
559 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-18 | sub-arctic | US | Alaska | 30.530 | 2.100 | 0.069 | 32.630 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
560 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | August | 2001-08-03 | sub-arctic | US | Alaska | 28.710 | 1.260 | 0.044 | 29.970 | 179.290 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
561 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-21 | sub-arctic | US | Alaska | 10.790 | 134.460 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
562 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-19 | sub-arctic | US | Alaska | 49.440 | 0.700 | 0.014 | 50.140 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
563 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-09 | sub-arctic | US | Alaska | 66.950 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
564 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-10 | sub-arctic | US | Alaska | 2.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
565 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-18 | sub-arctic | US | Alaska | 6.440 | 2.520 | 0.391 | 8.960 | 122.280 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
566 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-21 | sub-arctic | US | Alaska | 19.190 | 1.120 | 0.058 | 20.310 | 162.900 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
567 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-04 | sub-arctic | US | Alaska | 9.520 | 0.840 | 0.088 | 10.360 | 156.450 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
568 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-21 | sub-arctic | US | Alaska | 52.810 | 0.840 | 0.016 | 53.650 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
569 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-16 | sub-arctic | US | Alaska | 11.350 | 4.340 | 0.383 | 15.690 | 195.530 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
570 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-11 | sub-arctic | US | Alaska | 21.570 | 5.180 | 0.240 | 26.750 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
571 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | June | 2005-06-24 | sub-arctic | US | Alaska | 102.950 | 223.270 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
572 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-13 | sub-arctic | US | Alaska | 10.510 | 5.180 | 0.493 | 15.690 | 272.010 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
573 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-10 | sub-arctic | US | Alaska | 125.920 | 4.620 | 0.037 | 130.540 | 269.350 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
574 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-15 | sub-arctic | US | Alaska | 152.670 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
575 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-16 | sub-arctic | US | Alaska | 173.680 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
576 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-19 | sub-arctic | US | Alaska | 7.700 | 0.560 | 0.073 | 8.260 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
577 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-10 | sub-arctic | US | Alaska | 17.650 | 156.170 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
578 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-07 | sub-arctic | US | Alaska | 11.070 | 3.920 | 0.354 | 14.990 | 232.510 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
579 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-22 | sub-arctic | US | Alaska | 96.650 | 49.860 | 0.516 | 146.510 | 219.480 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
580 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-13 | sub-arctic | US | Alaska | 291.760 | 5.460 | 0.019 | 297.220 | 367.400 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
581 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-01 | sub-arctic | US | Alaska | 45.800 | 0.280 | 0.006 | 46.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
582 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-02 | sub-arctic | US | Alaska | 216.680 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
583 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-19 | sub-arctic | US | Alaska | 1.400 | 0.980 | 0.700 | 2.380 | 256.320 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
584 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-18 | sub-arctic | US | Alaska | 2.380 | 3.780 | 1.588 | 6.160 | 215.700 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
585 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | August | 2008-08-06 | sub-arctic | US | Alaska | 6.440 | 161.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
586 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-25 | sub-arctic | US | Alaska | 0.700 | 155.050 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
587 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-13 | sub-arctic | US | Alaska | 1.960 | 0.280 | 0.143 | 2.240 | 221.030 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
588 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-07 | sub-arctic | US | Alaska | 39.780 | 4.900 | 0.123 | 44.680 | 253.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
589 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-25 | sub-arctic | US | Alaska | 63.590 | 10.790 | 0.170 | 74.380 | 155.050 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
590 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-13 | sub-arctic | US | Alaska | 55.470 | 5.460 | 0.098 | 60.930 | 221.030 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
591 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-09 | sub-arctic | US | Alaska | 3.080 | 1.960 | 0.636 | 5.040 | 253.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
592 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-17 | sub-arctic | US | Alaska | 39.920 | 121.720 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
593 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-17 | sub-arctic | US | Alaska | 126.060 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
594 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-18 | sub-arctic | US | Alaska | 5.460 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
595 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-04 | sub-arctic | US | Alaska | 92.160 | 5.180 | 0.056 | 97.340 | 327.060 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
596 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-04 | sub-arctic | US | Alaska | 212.900 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
597 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-10 | sub-arctic | US | Alaska | 91.740 | 5.740 | 0.063 | 97.480 | 188.810 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
598 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-10 | sub-arctic | US | Alaska | 203.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
599 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-19 | sub-arctic | US | Alaska | 17.230 | 7.420 | 0.431 | 24.650 | 210.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
600 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-19 | sub-arctic | US | Alaska | 139.510 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
601 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-09 | sub-arctic | US | Alaska | 5.740 | 3.640 | 0.634 | 9.380 | 362.770 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
602 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-09 | sub-arctic | US | Alaska | 240.500 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
603 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-06 | sub-arctic | US | Alaska | 6.020 | 3.500 | 0.581 | 9.520 | 285.880 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
604 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-19 | sub-arctic | US | Alaska | 1.960 | 2.520 | 1.286 | 4.480 | 151.130 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
605 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-10 | sub-arctic | US | Alaska | 20.870 | 2.660 | 0.128 | 23.530 | 168.780 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
606 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | August | 2013-08-09 | sub-arctic | US | Alaska | 42.300 | 3.080 | 0.073 | 45.380 | 199.320 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
607 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-24 | sub-arctic | US | Alaska | 3.920 | 2.240 | 0.571 | 6.160 | 180.690 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
608 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-19 | sub-arctic | US | Alaska | 22.130 | 11.350 | 0.513 | 33.480 | 207.300 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
609 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-08 | sub-arctic | US | Alaska | 30.950 | 5.880 | 0.190 | 36.830 | 217.100 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
610 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-26 | sub-arctic | US | Alaska | 88.940 | 8.820 | 0.099 | 97.760 | 190.490 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
611 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-11 | sub-arctic | US | Alaska | 162.620 | 5.320 | 0.033 | 167.940 | 247.920 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
612 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-04 | sub-arctic | US | Alaska | 159.120 | 7.280 | 0.046 | 166.400 | 226.910 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
613 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-28 | sub-arctic | US | Alaska | 7.700 | 6.160 | 0.800 | 13.860 | 134.740 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
614 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-14 | sub-arctic | US | Alaska | 42.860 | 3.640 | 0.085 | 46.500 | 162.200 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
615 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-01 | sub-arctic | US | Alaska | 37.960 | 5.040 | 0.133 | 43.000 | 162.060 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
616 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-30 | sub-arctic | US | Alaska | 131.100 | 6.860 | 0.052 | 137.960 | 184.190 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
617 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-04 | sub-arctic | US | Alaska | 13.450 | 6.580 | 0.490 | 20.030 | 168.920 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
618 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-24 | sub-arctic | US | Alaska | 20.450 | 9.240 | 0.452 | 29.690 | 163.880 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
619 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-26 | sub-arctic | US | Alaska | 5.710 | 127.160 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
620 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-18 | sub-arctic | US | Alaska | 14.940 | 169.500 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
621 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-22 | sub-arctic | US | Alaska | 16.560 | 154.170 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||||
622 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-26 | sub-arctic | US | Alaska | 50.650 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
623 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-22 | sub-arctic | US | Alaska | 23.590 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
624 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6715 | -149.1280 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-12 | sub-arctic | US | Alaska | 27.570 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
625 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | May | 2018-05-25 | sub-arctic | US | Alaska | 4.430 | 249.640 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
626 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-04 | sub-arctic | US | Alaska | 11.750 | 139.980 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
627 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-20 | sub-arctic | US | Alaska | 5.130 | 148.040 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
628 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-26 | sub-arctic | US | Alaska | 5.250 | 132.470 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
629 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-04 | sub-arctic | US | Alaska | 30.590 | 137.960 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
630 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-10 | sub-arctic | US | Alaska | 32.690 | 146.730 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
631 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-18 | sub-arctic | US | Alaska | 15.600 | 175.670 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
632 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-28 | sub-arctic | US | Alaska | 19.130 | 220.670 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
633 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-02 | sub-arctic | US | Alaska | 29.270 | 193.250 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
634 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-06 | sub-arctic | US | Alaska | 8.540 | 207.490 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
635 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-16 | sub-arctic | US | Alaska | 35.320 | 203.010 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
636 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-22 | sub-arctic | US | Alaska | 14.160 | 158.470 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
637 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-31 | sub-arctic | US | Alaska | 32.220 | 181.880 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
638 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-05 | sub-arctic | US | Alaska | 6.720 | 165.680 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
639 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-11 | sub-arctic | US | Alaska | 20.280 | 148.430 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
640 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-22 | sub-arctic | US | Alaska | 48.900 | 170.660 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
641 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-30 | sub-arctic | US | Alaska | 69.810 | 182.390 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
642 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | October | 2018-10-04 | sub-arctic | US | Alaska | 77.360 | 189.210 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | |||||
643 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-17 | sub-arctic | US | Alaska | 12.310 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
644 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-20 | sub-arctic | US | Alaska | 21.680 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
645 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-23 | sub-arctic | US | Alaska | 60.790 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
646 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-27 | sub-arctic | US | Alaska | 41.150 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
647 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-17 | sub-arctic | US | Alaska | 26.580 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
648 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-25 | sub-arctic | US | Alaska | 54.150 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
649 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-09 | sub-arctic | US | Alaska | 66.000 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
650 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-22 | sub-arctic | US | Alaska | 20.210 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
651 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-05 | sub-arctic | US | Alaska | 10.930 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
652 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-10 | sub-arctic | US | Alaska | 12.930 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
653 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-14 | sub-arctic | US | Alaska | 10.620 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
654 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-28 | sub-arctic | US | Alaska | 9.640 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
655 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | September | 2019-09-10 | sub-arctic | US | Alaska | 57.200 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
656 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | September | 2019-09-20 | sub-arctic | US | Alaska | 80.060 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
657 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6798 | -149.1140 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | October | 2019-10-01 | sub-arctic | US | Alaska | 101.230 | -5.100 | -6.500 | 50 | 44 | -10.004 | 243 | 14.800 | -30.300 | Subzone E | 6 | 6 | ||||||
683 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-19 | sub-arctic | US | Alaska | 2.240 | 25.070 | 11.188 | 27.310 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
684 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-26 | sub-arctic | US | Alaska | 1.120 | 3.220 | 2.875 | 4.340 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
685 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-03 | sub-arctic | US | Alaska | 2.940 | 10.790 | 3.667 | 13.730 | 192.870 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
686 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-10 | sub-arctic | US | Alaska | 1.120 | 11.910 | 10.625 | 13.030 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
687 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-17 | sub-arctic | US | Alaska | 14.710 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
688 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-24 | sub-arctic | US | Alaska | 4.480 | 26.750 | 5.969 | 31.230 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
689 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 5.320 | 12.750 | 2.395 | 18.070 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
690 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-07 | sub-arctic | US | Alaska | 3.220 | 43.140 | 13.391 | 46.360 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
691 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-12 | sub-arctic | US | Alaska | 1.820 | 34.180 | 18.769 | 36.000 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
692 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | June | 1997-06-18 | sub-arctic | US | Alaska | 2.660 | 5.320 | 2.000 | 7.980 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
693 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-11 | sub-arctic | US | Alaska | 2.940 | 3.500 | 1.190 | 6.440 | 269.490 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||
694 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-24 | sub-arctic | US | Alaska | 2.520 | 3.500 | 1.389 | 6.020 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
695 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-08 | sub-arctic | US | Alaska | 3.640 | 2.100 | 0.577 | 5.740 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
696 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-18 | sub-arctic | US | Alaska | 0.700 | 2.380 | 3.400 | 3.080 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
697 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-06 | sub-arctic | US | Alaska | 8.820 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
698 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-22 | sub-arctic | US | Alaska | 2.940 | 8.680 | 2.952 | 11.620 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
699 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-06 | sub-arctic | US | Alaska | 1.120 | 7.000 | 6.250 | 8.120 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | |||
700 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-27 | sub-arctic | US | Alaska | 7.280 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
701 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-14 | sub-arctic | US | Alaska | 3.360 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
702 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-02 | sub-arctic | US | Alaska | 3.360 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
703 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Oksrukuyik Creek | 68.6703 | -149.1270 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-09 | sub-arctic | US | Alaska | 4.340 | -5.100 | -6.600 | 50 | 44 | -10.038 | 240 | 14.700 | -30.300 | Subzone E | 5 | 5 | ||||||
704 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-27 | sub-arctic | US | Alaska | 70.590 | 4.620 | 0.065 | 75.210 | 71.430 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
705 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-09 | sub-arctic | US | Alaska | 123.960 | 6.300 | 0.051 | 130.260 | 145.670 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
706 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-27 | sub-arctic | US | Alaska | 134.180 | 5.880 | 0.044 | 140.060 | 287.140 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
707 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-20 | sub-arctic | US | Alaska | 504.800 | 5.320 | 0.011 | 510.120 | 497.240 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
708 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-26 | sub-arctic | US | Alaska | 572.590 | 8.400 | 0.015 | 580.990 | 564.470 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
709 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-02 | sub-arctic | US | Alaska | 429.730 | 5.320 | 0.012 | 435.050 | 410.400 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
710 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-09 | sub-arctic | US | Alaska | 423.560 | 3.220 | 0.008 | 426.780 | 416.000 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
711 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-17 | sub-arctic | US | Alaska | 440.510 | 4.200 | 0.010 | 444.710 | 428.610 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
712 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-22 | sub-arctic | US | Alaska | 419.080 | 3.780 | 0.009 | 422.860 | 409.000 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
713 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-18 | sub-arctic | US | Alaska | 110.930 | 4.480 | 0.040 | 115.410 | 138.390 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
714 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-12 | sub-arctic | US | Alaska | 128.720 | 2.660 | 0.021 | 131.380 | 145.670 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
715 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-20 | sub-arctic | US | Alaska | 148.470 | 6.300 | 0.042 | 154.770 | 177.320 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
716 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-03 | sub-arctic | US | Alaska | 217.520 | 7.000 | 0.032 | 224.520 | 248.620 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
717 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-13 | sub-arctic | US | Alaska | 248.760 | 5.740 | 0.023 | 254.500 | 276.770 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
718 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-28 | sub-arctic | US | Alaska | 311.090 | 4.760 | 0.015 | 315.850 | 287.700 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
719 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-09 | sub-arctic | US | Alaska | 398.910 | 4.620 | 0.012 | 403.530 | 373.980 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
720 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-16 | sub-arctic | US | Alaska | 399.470 | 2.520 | 0.006 | 401.990 | 368.940 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
721 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-25 | sub-arctic | US | Alaska | 376.360 | 3.780 | 0.010 | 380.140 | 333.920 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
722 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | October | 2016-10-04 | sub-arctic | US | Alaska | 365.710 | 2.660 | 0.007 | 368.370 | 347.230 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
723 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | May | 2017-05-26 | sub-arctic | US | Alaska | 116.680 | 5.040 | 0.043 | 121.720 | 134.880 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
724 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | May | 2017-05-31 | sub-arctic | US | Alaska | 98.330 | 4.200 | 0.043 | 102.530 | 131.240 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
725 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-07 | sub-arctic | US | Alaska | 123.400 | 1.400 | 0.011 | 124.800 | 100.570 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
726 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-14 | sub-arctic | US | Alaska | 137.830 | 4.340 | 0.032 | 142.170 | 114.010 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
727 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-20 | sub-arctic | US | Alaska | 109.110 | 4.340 | 0.040 | 113.450 | 94.550 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
728 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | July | 2017-07-03 | sub-arctic | US | Alaska | 141.470 | 25.770 | 0.182 | 167.240 | 119.200 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
729 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | July | 2017-07-17 | sub-arctic | US | Alaska | 185.310 | 4.060 | 0.022 | 189.370 | 164.580 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
730 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-03 | sub-arctic | US | Alaska | 283.640 | 3.080 | 0.011 | 286.720 | 241.340 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
731 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-14 | sub-arctic | US | Alaska | 468.100 | 2.800 | 0.006 | 470.900 | 442.050 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
732 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-28 | sub-arctic | US | Alaska | 641.510 | 1.680 | 0.003 | 643.190 | 651.730 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
733 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-11 | sub-arctic | US | Alaska | 817.710 | 2.240 | 0.003 | 819.950 | 831.440 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
734 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-18 | sub-arctic | US | Alaska | 807.630 | 5.040 | 0.006 | 812.670 | 818.270 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
735 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-25 | sub-arctic | US | Alaska | 755.100 | 4.900 | 0.006 | 760.000 | 755.940 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
736 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | October | 2017-10-05 | sub-arctic | US | Alaska | 682.970 | 2.100 | 0.003 | 685.070 | 690.950 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
737 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Roche Moutonnee Creek | 68.3737 | -149.3091 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | October | 2017-10-10 | sub-arctic | US | Alaska | 675.260 | 5.600 | 0.008 | 680.860 | 690.950 | -3.700 | -6.100 | 5 | 4 | -9.746 | 252 | 13.900 | -29.000 | Subzone E | 5 | 4 | ||
738 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-18 | sub-arctic | US | Alaska | 1.540 | 99.030 | 64.273 | 100.570 | 375.350 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
739 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-07 | sub-arctic | US | Alaska | 1.960 | 337.540 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
740 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-24 | sub-arctic | US | Alaska | 1.960 | 326.330 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
741 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-03 | sub-arctic | US | Alaska | 4.620 | 323.530 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
742 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-30 | sub-arctic | US | Alaska | 4.200 | 347.340 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
743 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-15 | sub-arctic | US | Alaska | 13.730 | 277.310 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
744 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-21 | sub-arctic | US | Alaska | 26.890 | 298.320 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
745 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-24 | sub-arctic | US | Alaska | 37.400 | 288.520 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
746 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-25 | sub-arctic | US | Alaska | 308.130 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
747 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-26 | sub-arctic | US | Alaska | 24.790 | 292.720 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
748 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-27 | sub-arctic | US | Alaska | 309.530 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
749 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-30 | sub-arctic | US | Alaska | 278.710 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
750 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-02 | sub-arctic | US | Alaska | 10.220 | 239.500 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
751 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-02 | sub-arctic | US | Alaska | 19.890 | 289.920 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
752 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-03 | sub-arctic | US | Alaska | 291.320 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
753 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-04 | sub-arctic | US | Alaska | 14.850 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
754 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-06 | sub-arctic | US | Alaska | 316.530 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
755 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-07 | sub-arctic | US | Alaska | 29.550 | 378.150 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
756 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-14 | sub-arctic | US | Alaska | 16.250 | 326.330 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
757 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-15 | sub-arctic | US | Alaska | 417.370 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
758 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-18 | sub-arctic | US | Alaska | 329.130 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
759 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-20 | sub-arctic | US | Alaska | 17.790 | 352.940 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
760 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-21 | sub-arctic | US | Alaska | 19.050 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
761 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-22 | sub-arctic | US | Alaska | 14.010 | 326.330 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
762 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-24 | sub-arctic | US | Alaska | 372.550 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
763 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-25 | sub-arctic | US | Alaska | 397.760 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
764 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-26 | sub-arctic | US | Alaska | 351.540 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
765 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-27 | sub-arctic | US | Alaska | 33.060 | 408.970 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
766 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-28 | sub-arctic | US | Alaska | 13.450 | 361.350 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
767 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-28 | sub-arctic | US | Alaska | 34.880 | 375.350 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
768 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-29 | sub-arctic | US | Alaska | 31.230 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
769 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-30 | sub-arctic | US | Alaska | 38.240 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
770 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-31 | sub-arctic | US | Alaska | 26.050 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
771 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-02 | sub-arctic | US | Alaska | 421.570 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
772 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-07 | sub-arctic | US | Alaska | 16.390 | 348.740 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
773 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-09 | sub-arctic | US | Alaska | 23.810 | 355.740 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
774 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-10 | sub-arctic | US | Alaska | 357.150 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
775 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-11 | sub-arctic | US | Alaska | 26.330 | 387.960 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
776 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-15 | sub-arctic | US | Alaska | 27.450 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
777 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-16 | sub-arctic | US | Alaska | 1.820 | 23.810 | 13.077 | 25.630 | 498.600 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
778 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-17 | sub-arctic | US | Alaska | 1.400 | 18.910 | 13.500 | 20.310 | 554.630 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
779 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-18 | sub-arctic | US | Alaska | 4.200 | 10.360 | 2.467 | 14.560 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
780 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-19 | sub-arctic | US | Alaska | 1.260 | 16.810 | 13.333 | 18.070 | 481.800 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
781 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-20 | sub-arctic | US | Alaska | 1.400 | 8.960 | 6.400 | 10.360 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
782 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-21 | sub-arctic | US | Alaska | 1.260 | 17.790 | 14.111 | 19.050 | 508.410 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
783 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-22 | sub-arctic | US | Alaska | 2.100 | 39.640 | 18.867 | 41.740 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
784 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-23 | sub-arctic | US | Alaska | 1.960 | 43.700 | 22.286 | 45.660 | 521.010 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
785 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-24 | sub-arctic | US | Alaska | 4.060 | 39.220 | 9.655 | 43.280 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
786 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-25 | sub-arctic | US | Alaska | 2.380 | 16.670 | 7.000 | 19.050 | 564.430 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
787 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-28 | sub-arctic | US | Alaska | 2.520 | 18.350 | 7.278 | 20.870 | 507.010 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
788 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-01 | sub-arctic | US | Alaska | 2.660 | 63.310 | 23.789 | 65.970 | 523.810 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
789 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-04 | sub-arctic | US | Alaska | 2.380 | 24.790 | 10.412 | 27.170 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
790 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-05 | sub-arctic | US | Alaska | 2.380 | 80.260 | 33.706 | 82.640 | 490.200 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
791 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-06 | sub-arctic | US | Alaska | 4.480 | 92.160 | 20.563 | 96.640 | 568.630 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
792 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-07 | sub-arctic | US | Alaska | 1.820 | 17.790 | 9.769 | 19.610 | 511.210 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
793 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-08 | sub-arctic | US | Alaska | 484.600 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
794 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-09 | sub-arctic | US | Alaska | 1.540 | 16.250 | 10.545 | 17.790 | 500.000 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
795 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-10 | sub-arctic | US | Alaska | 1.540 | 12.470 | 8.091 | 14.010 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
796 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-12 | sub-arctic | US | Alaska | 1.820 | 10.080 | 5.538 | 11.900 | 471.990 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
797 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-15 | sub-arctic | US | Alaska | 1.260 | 25.630 | 20.333 | 26.890 | 463.590 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
798 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-17 | sub-arctic | US | Alaska | 1.960 | 19.470 | 9.929 | 21.430 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
799 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-18 | sub-arctic | US | Alaska | 1.680 | 19.050 | 11.333 | 20.730 | 443.980 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
800 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-19 | sub-arctic | US | Alaska | 1.400 | 19.470 | 13.900 | 20.870 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
801 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-20 | sub-arctic | US | Alaska | 1.820 | 13.450 | 7.385 | 15.270 | 410.370 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
802 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-21 | sub-arctic | US | Alaska | 1.120 | 6.580 | 5.875 | 7.700 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
803 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-22 | sub-arctic | US | Alaska | 2.380 | 13.450 | 5.647 | 15.830 | 452.380 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
804 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-23 | sub-arctic | US | Alaska | 0.980 | 21.710 | 22.143 | 22.690 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
805 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-24 | sub-arctic | US | Alaska | 1.400 | 24.930 | 17.800 | 26.330 | 442.580 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
806 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-25 | sub-arctic | US | Alaska | 2.940 | 28.150 | 9.571 | 31.090 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
807 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-26 | sub-arctic | US | Alaska | 1.120 | 19.330 | 17.250 | 20.450 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
808 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-27 | sub-arctic | US | Alaska | 1.820 | 18.770 | 10.308 | 20.590 | 445.380 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
809 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-28 | sub-arctic | US | Alaska | 2.520 | 27.030 | 10.722 | 29.550 | 446.780 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
810 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-29 | sub-arctic | US | Alaska | 1.400 | 16.110 | 11.500 | 17.510 | 439.780 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
811 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-30 | sub-arctic | US | Alaska | 1.120 | 12.050 | 10.750 | 13.170 | 467.790 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
812 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-31 | sub-arctic | US | Alaska | 1.540 | 11.350 | 7.364 | 12.890 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
813 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-01 | sub-arctic | US | Alaska | 1.820 | 8.120 | 4.462 | 9.940 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
814 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-02 | sub-arctic | US | Alaska | 0.840 | 8.680 | 10.333 | 9.520 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
815 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-03 | sub-arctic | US | Alaska | 1.400 | 10.930 | 7.800 | 12.330 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
816 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-05 | sub-arctic | US | Alaska | 1.680 | 18.630 | 11.083 | 20.310 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||
817 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-06 | sub-arctic | US | Alaska | 1.820 | 20.170 | 11.077 | 21.990 | 507.010 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
818 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-07 | sub-arctic | US | Alaska | 1.680 | 17.650 | 10.500 | 19.330 | 542.020 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
819 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-08 | sub-arctic | US | Alaska | 0.840 | 14.570 | 17.333 | 15.410 | 550.420 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
820 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-09 | sub-arctic | US | Alaska | 1.960 | 14.850 | 7.571 | 16.810 | 508.410 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
821 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-10 | sub-arctic | US | Alaska | 2.660 | 15.550 | 5.842 | 18.210 | 490.200 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
822 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-11 | sub-arctic | US | Alaska | 1.400 | 10.220 | 7.300 | 11.620 | 484.600 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
823 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-12 | sub-arctic | US | Alaska | 3.640 | 12.050 | 3.308 | 15.690 | 481.800 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
824 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-13 | sub-arctic | US | Alaska | 3.220 | 10.930 | 3.391 | 14.150 | 493.000 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
825 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-14 | sub-arctic | US | Alaska | 1.960 | 12.190 | 6.214 | 14.150 | 501.400 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
826 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-15 | sub-arctic | US | Alaska | 1.960 | 12.470 | 6.357 | 14.430 | 498.600 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
827 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-09 | sub-arctic | US | Alaska | 2.240 | 5.740 | 2.563 | 7.980 | 488.800 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
828 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-17 | sub-arctic | US | Alaska | 1.260 | 3.780 | 3.000 | 5.040 | 453.780 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
829 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-27 | sub-arctic | US | Alaska | 1.680 | 2.660 | 1.583 | 4.340 | 530.820 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
830 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-11 | sub-arctic | US | Alaska | 0.980 | 1.260 | 1.286 | 2.240 | 487.400 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
831 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-26 | sub-arctic | US | Alaska | 0.840 | 1.820 | 2.167 | 2.660 | 500.000 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
832 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-08 | sub-arctic | US | Alaska | 0.420 | 1.680 | 4.000 | 2.100 | 439.780 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
833 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-15 | sub-arctic | US | Alaska | 0.840 | 1.960 | 2.333 | 2.800 | 408.970 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
834 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-02 | sub-arctic | US | Alaska | 1.680 | 6.580 | 3.917 | 8.260 | 481.940 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
835 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-02 | sub-arctic | US | Alaska | 726.900 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
836 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-26 | sub-arctic | US | Alaska | 2.240 | 460.370 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | |||||
837 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-26 | sub-arctic | US | Alaska | 694.680 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
838 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-25 | sub-arctic | US | Alaska | 0.980 | 8.820 | 9.000 | 9.800 | 244.680 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
839 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-25 | sub-arctic | US | Alaska | 369.750 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
840 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-19 | sub-arctic | US | Alaska | 1.120 | 5.040 | 4.500 | 6.160 | 278.010 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
841 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-19 | sub-arctic | US | Alaska | 420.170 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
842 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-18 | sub-arctic | US | Alaska | 1.680 | 4.060 | 2.417 | 5.740 | 270.310 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
843 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-18 | sub-arctic | US | Alaska | 15.550 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||||||
844 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-15 | sub-arctic | US | Alaska | 2.660 | 16.670 | 6.263 | 19.330 | 316.530 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
845 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-14 | sub-arctic | US | Alaska | 2.240 | 16.810 | 7.500 | 19.050 | 341.740 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
846 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-18 | sub-arctic | US | Alaska | 1.260 | 10.510 | 8.333 | 11.770 | 267.510 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
847 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Toolik River | 68.6957 | -149.2050 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-08 | sub-arctic | US | Alaska | 1.260 | 34.320 | 27.222 | 35.580 | 373.950 | -4.800 | -6.600 | 482 | 188 | -10.083 | 242 | 14.800 | -30.600 | Subzone E | 6 | 6 | ||
848 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-27 | sub-arctic | US | Alaska | 63.170 | 5.180 | 0.082 | 68.350 | 67.230 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
849 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-09 | sub-arctic | US | Alaska | 130.680 | 5.880 | 0.045 | 136.560 | 145.670 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
850 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-27 | sub-arctic | US | Alaska | 176.480 | 3.780 | 0.021 | 180.260 | 179.290 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
851 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-20 | sub-arctic | US | Alaska | 641.370 | 7.700 | 0.012 | 649.070 | 658.310 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
852 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-26 | sub-arctic | US | Alaska | 748.520 | 6.020 | 0.008 | 754.540 | 778.770 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
853 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-02 | sub-arctic | US | Alaska | 647.950 | 5.460 | 0.008 | 653.410 | 661.120 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
854 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-09 | sub-arctic | US | Alaska | 675.680 | 3.220 | 0.005 | 678.900 | 694.730 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
855 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-17 | sub-arctic | US | Alaska | 686.470 | 7.840 | 0.011 | 694.310 | 718.540 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
856 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-22 | sub-arctic | US | Alaska | 715.040 | 4.620 | 0.006 | 719.660 | 739.550 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
857 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-18 | sub-arctic | US | Alaska | 98.330 | 3.220 | 0.033 | 101.550 | 122.420 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
858 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-12 | sub-arctic | US | Alaska | 118.780 | 4.060 | 0.034 | 122.840 | 117.940 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
859 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-20 | sub-arctic | US | Alaska | 193.290 | 5.040 | 0.026 | 198.330 | 211.640 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
860 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-03 | sub-arctic | US | Alaska | 392.330 | 6.720 | 0.017 | 399.050 | 382.240 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
861 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-13 | sub-arctic | US | Alaska | 398.350 | 4.620 | 0.012 | 402.970 | 402.270 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
862 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-28 | sub-arctic | US | Alaska | 524.270 | 5.180 | 0.010 | 529.450 | 480.430 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
863 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-09 | sub-arctic | US | Alaska | 618.260 | 5.880 | 0.010 | 624.140 | 579.600 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
864 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-16 | sub-arctic | US | Alaska | 648.230 | 7.420 | 0.011 | 655.650 | 601.030 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
865 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | September | 2016-09-25 | sub-arctic | US | Alaska | 682.410 | 4.620 | 0.007 | 687.030 | 626.100 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
866 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | October | 2016-10-04 | sub-arctic | US | Alaska | 780.730 | 5.600 | 0.007 | 786.330 | 745.440 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
867 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | May | 2017-05-20 | sub-arctic | US | Alaska | 116.540 | 3.220 | 0.028 | 119.760 | 159.820 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
868 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-01 | sub-arctic | US | Alaska | 99.450 | 4.900 | 0.049 | 104.350 | 104.630 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
869 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-14 | sub-arctic | US | Alaska | 106.730 | 3.780 | 0.035 | 110.510 | 76.900 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
870 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-20 | sub-arctic | US | Alaska | 88.660 | 55.330 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
871 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | July | 2017-07-03 | sub-arctic | US | Alaska | 115.700 | 1.400 | 0.012 | 117.100 | 87.540 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
872 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | July | 2017-07-17 | sub-arctic | US | Alaska | 225.930 | 12.750 | 0.056 | 238.680 | 181.250 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
873 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-03 | sub-arctic | US | Alaska | 577.500 | 3.220 | 0.006 | 580.720 | 504.660 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
874 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-14 | sub-arctic | US | Alaska | 633.100 | 4.200 | 0.007 | 637.300 | 582.820 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
875 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-28 | sub-arctic | US | Alaska | 1078.100 | 1.260 | 0.001 | 1079.360 | 1016.470 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
876 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-11 | sub-arctic | US | Alaska | 1154.710 | 1.960 | 0.002 | 1156.670 | 1089.860 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
877 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-18 | sub-arctic | US | Alaska | 1121.240 | 1.400 | 0.001 | 1122.640 | 1043.360 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
878 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-25 | sub-arctic | US | Alaska | 1124.320 | 1.960 | 0.002 | 1126.280 | 1036.220 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
879 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | October | 2017-10-05 | sub-arctic | US | Alaska | 1096.720 | 5.460 | 0.005 | 1102.180 | 1008.480 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
880 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | October | 2017-10-10 | sub-arctic | US | Alaska | 1105.690 | 1.260 | 0.001 | 1106.950 | 1003.300 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||
881 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | May | 2018-05-24 | sub-arctic | US | Alaska | 54.300 | 149.120 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
882 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-02 | sub-arctic | US | Alaska | 121.940 | 134.120 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
883 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-18 | sub-arctic | US | Alaska | 141.230 | 160.270 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
884 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-25 | sub-arctic | US | Alaska | 106.650 | 115.720 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
885 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-07 | sub-arctic | US | Alaska | 86.970 | 125.110 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
886 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-17 | sub-arctic | US | Alaska | 94.870 | 112.090 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
887 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-21 | sub-arctic | US | Alaska | 81.310 | 89.020 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
888 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-01 | sub-arctic | US | Alaska | 121.090 | 116.870 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
889 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-02 | sub-arctic | US | Alaska | 170.350 | 190.010 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
890 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-07 | sub-arctic | US | Alaska | 208.920 | 209.470 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
891 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-20 | sub-arctic | US | Alaska | 321.680 | 312.880 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
892 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-05 | sub-arctic | US | Alaska | 285.460 | 291.610 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
893 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-14 | sub-arctic | US | Alaska | 351.990 | 340.930 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
894 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-19 | sub-arctic | US | Alaska | 337.200 | 331.530 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
895 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | September | 2018-09-30 | sub-arctic | US | Alaska | 357.170 | 347.750 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
896 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | October | 2018-10-07 | sub-arctic | US | Alaska | 405.750 | 394.120 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | |||||
897 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-20 | sub-arctic | US | Alaska | 98.360 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
898 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-24 | sub-arctic | US | Alaska | 86.280 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
899 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-28 | sub-arctic | US | Alaska | 106.180 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
900 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-18 | sub-arctic | US | Alaska | 77.430 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
901 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-29 | sub-arctic | US | Alaska | 71.520 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
902 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-11 | sub-arctic | US | Alaska | 87.740 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
903 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-15 | sub-arctic | US | Alaska | 171.110 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
904 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-17 | sub-arctic | US | Alaska | 259.840 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
905 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-21 | sub-arctic | US | Alaska | 149.070 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
906 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-03 | sub-arctic | US | Alaska | 608.230 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
907 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-14 | sub-arctic | US | Alaska | 712.160 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
908 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-26 | sub-arctic | US | Alaska | 692.380 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
909 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | September | 2019-09-12 | sub-arctic | US | Alaska | 924.440 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
910 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | September | 2019-09-20 | sub-arctic | US | Alaska | 993.410 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
911 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Trevor Creek | 68.2822 | -149.3705 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | September | 2019-09-30 | sub-arctic | US | Alaska | 1034.030 | -3.100 | -6.800 | 0 | 0 | -9.671 | 266 | 13.300 | -27.900 | Subzone E | 4 | 4 | ||||||
912 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-02 | sub-arctic | US | Alaska | 12.750 | 140.910 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | |||||
913 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-02 | sub-arctic | US | Alaska | 17.230 | 150.150 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | |||||
914 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-02 | sub-arctic | US | Alaska | 6.160 | 99.730 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | |||||
915 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-25 | sub-arctic | US | Alaska | 109.250 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||||||
916 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-25 | sub-arctic | US | Alaska | 113.450 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||||||
917 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-25 | sub-arctic | US | Alaska | 88.240 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | ||||||
918 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-26 | sub-arctic | US | Alaska | 8.120 | 4.480 | 0.552 | 12.600 | 108.550 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||
919 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-26 | sub-arctic | US | Alaska | 14.010 | 6.860 | 0.490 | 20.870 | 111.630 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||
920 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-26 | sub-arctic | US | Alaska | 6.160 | 8.680 | 1.409 | 14.840 | 132.920 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | ||
921 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-16 | sub-arctic | US | Alaska | 16.530 | 4.620 | 0.280 | 21.150 | 111.070 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||
922 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-16 | sub-arctic | US | Alaska | 23.390 | 7.560 | 0.323 | 30.950 | 112.050 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||
923 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-16 | sub-arctic | US | Alaska | 25.630 | 6.440 | 0.251 | 32.070 | 93.840 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | ||
924 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 8.960 | 141.190 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | |||||
925 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 4.340 | 100.850 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | |||||
926 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 5.740 | 103.090 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | |||||
927 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 54.210 | 147.210 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | |||||
928 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 149.870 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||||||
929 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 76.340 | 142.870 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | |||||
930 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 144.270 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||||||
931 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 86.980 | 181.390 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | |||||
932 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-12 | sub-arctic | US | Alaska | 193.290 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | ||||||
933 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | September | 2011-09-19 | sub-arctic | US | Alaska | 53.090 | 169.760 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | |||||
934 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | September | 2011-09-19 | sub-arctic | US | Alaska | 70.450 | 256.320 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | |||||
935 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | September | 2011-09-19 | sub-arctic | US | Alaska | 165.980 | 177.320 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | |||||
936 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 44.260 | 2.940 | 0.066 | 47.200 | 267.530 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||
937 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 81.100 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||||||
938 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 47.480 | 121.860 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | |||||
939 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 195.950 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||||||
940 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 16.110 | 295.540 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | |||||
941 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-29 | sub-arctic | US | Alaska | 182.930 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | ||||||
942 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 19.750 | 3.220 | 0.163 | 22.970 | 275.930 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||
943 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 143.290 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | ||||||
944 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 20.170 | 4.200 | 0.208 | 24.370 | 217.100 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||
945 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 201.700 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||||||
946 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 10.080 | 1.820 | 0.181 | 11.900 | 303.950 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | ||
947 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-20 | sub-arctic | US | Alaska | 207.020 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | ||||||
948 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5494 | -149.3060 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-09 | sub-arctic | US | Alaska | 23.110 | 312.350 | -5.000 | -6.700 | 50 | 44 | -9.783 | 244 | 14.600 | -30.000 | Subzone E | 6 | 6 | |||||
949 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-09 | sub-arctic | US | Alaska | 180.690 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | ||||||
950 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-09 | sub-arctic | US | Alaska | 24.090 | 273.130 | -4.900 | -6.800 | 50 | 44 | -9.771 | 246 | 14.600 | -30.100 | Subzone E | 6 | 6 | |||||
951 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-09 | sub-arctic | US | Alaska | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | |||||||
952 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Upper Kuparuk | 68.5502 | -149.3080 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-09 | sub-arctic | US | Alaska | 36.980 | 0.420 | 0.011 | 37.400 | -5.000 | -7.100 | 50 | 44 | -9.871 | 249 | 14.500 | -30.100 | Subzone E | 6 | 6 | |||
953 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-24 | sub-arctic | US | Alaska | 52.530 | 140.210 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
954 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-24 | sub-arctic | US | Alaska | 49.160 | 116.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
955 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-24 | sub-arctic | US | Alaska | 45.660 | 106.310 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
956 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-24 | sub-arctic | US | Alaska | 43.980 | 119.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
957 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 44.400 | 114.570 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
958 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 46.500 | 112.050 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
959 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 50.140 | 104.910 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
960 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 54.070 | 112.330 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
961 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 57.430 | 117.660 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
962 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 60.650 | 116.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
963 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 62.750 | 127.040 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
964 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 60.930 | 114.010 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
965 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 58.130 | 129.700 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
966 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 54.210 | 118.640 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
967 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 50.420 | 120.040 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
968 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-25 | sub-arctic | US | Alaska | 48.320 | 112.890 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
969 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 48.600 | 119.200 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
970 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 50.560 | 132.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
971 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 53.650 | 101.830 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
972 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 57.570 | 124.660 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
973 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 61.210 | 118.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
974 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 64.570 | 119.620 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
975 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 67.510 | 121.720 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
976 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 68.210 | 141.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
977 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 67.510 | 122.700 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
978 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 64.010 | 128.300 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
979 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 60.790 | 115.980 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
980 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-26 | sub-arctic | US | Alaska | 57.850 | 117.520 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
981 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 56.310 | 116.120 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
982 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 56.450 | 107.990 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
983 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 57.710 | 115.560 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
984 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 58.970 | 109.250 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
985 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 61.770 | 113.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
986 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 64.290 | 115.000 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
987 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 66.530 | 116.540 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
988 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-27 | sub-arctic | US | Alaska | 67.510 | 124.940 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
989 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 57.430 | 120.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
990 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 58.690 | 115.000 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
991 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 63.310 | 116.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
992 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 65.690 | 116.960 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
993 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 68.490 | 116.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
994 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 69.190 | 121.440 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
995 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 68.770 | 129.000 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
996 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 65.830 | 116.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
997 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 62.610 | 125.780 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
998 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 58.690 | 125.640 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
999 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 56.590 | 116.120 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1000 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-17 | sub-arctic | US | Alaska | 55.330 | 121.440 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1001 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 56.310 | 112.750 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1002 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 58.130 | 105.190 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1003 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 60.370 | 117.520 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1004 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 64.990 | 114.570 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1005 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 67.930 | 125.220 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1006 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 68.770 | 130.540 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1007 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 68.490 | 118.220 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1008 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 65.550 | 118.500 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1009 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 63.030 | 110.930 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1010 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 57.150 | 118.640 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1011 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 55.050 | 117.660 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1012 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-18 | sub-arctic | US | Alaska | 55.890 | 116.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1013 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 56.730 | 115.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1014 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 58.690 | 116.540 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1015 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 62.470 | 108.690 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1016 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 66.670 | 125.360 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1017 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 72.550 | 146.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1018 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 74.940 | 120.460 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1019 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 73.820 | 112.890 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1020 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 71.150 | 120.320 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1021 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 66.950 | 117.940 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1022 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 62.470 | 166.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1023 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 58.270 | 105.750 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1024 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-19 | sub-arctic | US | Alaska | 56.730 | 98.190 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1025 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-20 | sub-arctic | US | Alaska | 57.010 | 106.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1026 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-24 | sub-arctic | US | Alaska | 82.780 | 110.790 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1027 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 84.320 | 151.970 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1028 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 85.020 | 118.360 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1029 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 87.540 | 126.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1030 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 84.600 | 109.530 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1031 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 84.460 | 122.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1032 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 89.360 | 136.710 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1033 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 89.220 | 117.240 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1034 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-26 | sub-arctic | US | Alaska | 88.940 | 137.130 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1035 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 89.080 | 129.560 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1036 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 91.180 | 128.160 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1037 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 91.880 | 127.040 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1038 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 90.200 | 119.760 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1039 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 86.840 | 132.360 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1040 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 85.300 | 125.640 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1041 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 76.340 | 125.500 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1042 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 85.160 | 123.120 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1043 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 83.760 | 122.000 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1044 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 84.600 | 122.980 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1045 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 84.600 | 130.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1046 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-27 | sub-arctic | US | Alaska | 84.880 | 122.140 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1047 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 78.160 | 123.400 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1048 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 86.560 | 126.340 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1049 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 87.260 | 128.440 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1050 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 85.440 | 124.940 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1051 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 82.500 | 122.140 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1052 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 81.100 | 120.600 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1053 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 79.980 | 113.450 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1054 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 80.540 | 121.020 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1055 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 80.960 | 127.320 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1056 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 81.800 | 118.780 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1057 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 82.500 | 115.700 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1058 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-28 | sub-arctic | US | Alaska | 83.480 | 119.200 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1059 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-29 | sub-arctic | US | Alaska | 84.320 | 107.570 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1060 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-02 | sub-arctic | US | Alaska | 83.060 | 137.970 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1061 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 42.300 | 196.790 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1062 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 46.640 | 161.780 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1063 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 50.140 | 154.210 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1064 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 53.090 | 160.240 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1065 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 53.090 | 172.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1066 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 51.540 | 160.940 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1067 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 43.840 | 150.570 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1068 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 43.420 | 145.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1069 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 39.500 | 148.190 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1070 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 36.980 | 134.180 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1071 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 36.560 | 138.810 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1072 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-15 | sub-arctic | US | Alaska | 28.150 | 147.770 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1073 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 46.500 | 142.450 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1074 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 46.220 | 143.850 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1075 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 51.260 | 161.500 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1076 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 54.350 | 139.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1077 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 54.910 | 147.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1078 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 45.660 | 171.160 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1079 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 48.040 | 150.710 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1080 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 41.600 | 144.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1081 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 37.540 | 146.510 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1082 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 33.620 | 139.510 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1083 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 31.520 | 137.410 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1084 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-16 | sub-arctic | US | Alaska | 31.090 | 131.660 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1085 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 34.320 | 132.640 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1086 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 39.080 | 123.540 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1087 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 46.640 | 130.400 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1088 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 52.810 | 144.550 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1089 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 55.610 | 145.810 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1090 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 54.910 | 149.450 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1091 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 51.120 | 146.510 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1092 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 43.280 | 131.240 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1093 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 39.500 | 129.140 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1094 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 36.420 | 132.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1095 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 33.200 | 118.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1096 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-17 | sub-arctic | US | Alaska | 33.620 | 125.500 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1097 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-18 | sub-arctic | US | Alaska | 37.400 | 114.430 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1098 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-26 | sub-arctic | US | Alaska | 38.240 | 103.230 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1099 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 42.860 | 201.700 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1100 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 50.560 | 172.420 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1101 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 55.330 | 165.560 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1102 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 49.160 | 159.540 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1103 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 47.620 | 150.850 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1104 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 42.300 | 144.970 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1105 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 38.100 | 143.850 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1106 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 36.140 | 145.250 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1107 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-04 | sub-arctic | US | Alaska | 37.820 | 162.620 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1108 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 42.720 | 151.410 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1109 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 50.840 | 158.420 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1110 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 55.750 | 161.780 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1111 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 58.410 | 161.500 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1112 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 58.270 | 164.720 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1113 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 56.170 | 166.820 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1114 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 51.820 | 144.830 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1115 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 45.800 | 156.310 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1116 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 41.320 | 152.950 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1117 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 36.980 | 141.610 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1118 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 36.700 | 137.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1119 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-05 | sub-arctic | US | Alaska | 37.540 | 147.210 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1120 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 42.720 | 142.170 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1121 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 50.560 | 157.580 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1122 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 55.890 | 159.120 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1123 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 58.690 | 161.920 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1124 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 58.690 | 177.040 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1125 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 59.390 | 164.300 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1126 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 56.030 | 154.770 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1127 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 51.260 | 158.140 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1128 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 44.260 | 153.370 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1129 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 38.240 | 149.450 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1130 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 34.880 | 156.590 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1131 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-06 | sub-arctic | US | Alaska | 35.580 | 154.630 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1132 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | September | 2017-09-07 | sub-arctic | US | Alaska | 42.160 | 155.890 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1133 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-28 | sub-arctic | US | Alaska | 37.060 | 119.720 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1134 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-25 | sub-arctic | US | Alaska | 42.280 | 131.620 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1135 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-21 | sub-arctic | US | Alaska | 49.460 | 175.250 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1136 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-28 | sub-arctic | US | Alaska | 55.150 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1137 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-25 | sub-arctic | US | Alaska | 54.990 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1138 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6369 | -149.3837 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-16 | sub-arctic | US | Alaska | 41.170 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1139 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-16 | sub-arctic | US | Alaska | 58.690 | 4.060 | 0.069 | 62.750 | 130.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1140 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-16 | sub-arctic | US | Alaska | 27.030 | 202.820 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | |||||
1141 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-21 | sub-arctic | US | Alaska | 95.530 | 5.460 | 0.057 | 100.990 | 163.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1142 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-15 | sub-arctic | US | Alaska | 98.330 | 4.340 | 0.044 | 102.670 | 170.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1143 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-09 | sub-arctic | US | Alaska | 81.100 | 7.840 | 0.097 | 88.940 | 140.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1144 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-21 | sub-arctic | US | Alaska | 43.000 | 0.140 | 0.003 | 43.140 | 124.520 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1145 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-12 | sub-arctic | US | Alaska | 42.160 | 3.220 | 0.076 | 45.380 | 214.580 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1146 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-11 | sub-arctic | US | Alaska | 53.650 | 3.920 | 0.073 | 57.570 | 236.150 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1147 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6374 | -149.3870 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-17 | sub-arctic | US | Alaska | 22.130 | 5.040 | 0.228 | 27.170 | 182.090 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 6 | ||
1150 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-21 | sub-arctic | US | Alaska | 10.360 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1151 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-22 | sub-arctic | US | Alaska | 21.430 | 0.280 | 0.013 | 21.710 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1152 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-29 | sub-arctic | US | Alaska | 15.130 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1153 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-01 | sub-arctic | US | Alaska | 15.270 | 2.380 | 0.156 | 17.650 | 299.040 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1154 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-08 | sub-arctic | US | Alaska | 28.010 | 7.280 | 0.260 | 35.290 | 309.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1155 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-18 | sub-arctic | US | Alaska | 28.850 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1156 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-20 | sub-arctic | US | Alaska | 27.730 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1157 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-28 | sub-arctic | US | Alaska | 18.770 | 1.960 | 0.104 | 20.730 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1158 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-10 | sub-arctic | US | Alaska | 31.660 | 5.040 | 0.159 | 36.700 | 185.310 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1159 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-19 | sub-arctic | US | Alaska | 22.970 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1160 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 44.540 | 1.260 | 0.028 | 45.800 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1161 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 3.920 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1162 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-07 | sub-arctic | US | Alaska | 46.360 | 2.660 | 0.057 | 49.020 | 235.590 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1163 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-16 | sub-arctic | US | Alaska | 63.170 | 2.520 | 0.040 | 65.690 | 176.900 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1164 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-26 | sub-arctic | US | Alaska | 56.450 | 2.660 | 0.047 | 59.110 | 206.600 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1165 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-09 | sub-arctic | US | Alaska | 14.150 | 2.380 | 0.168 | 16.530 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1166 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-12 | sub-arctic | US | Alaska | 170.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1167 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-13 | sub-arctic | US | Alaska | 84.320 | 3.640 | 0.043 | 87.960 | 195.810 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1168 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-11 | sub-arctic | US | Alaska | 94.550 | 1.540 | 0.016 | 96.090 | 150.990 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1169 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-11 | sub-arctic | US | Alaska | 145.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1170 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | June | 2001-06-21 | sub-arctic | US | Alaska | 68.490 | 0.980 | 0.014 | 69.470 | 153.510 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1171 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-16 | sub-arctic | US | Alaska | 28.290 | 2.380 | 0.084 | 30.670 | 139.230 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1172 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | August | 2001-08-08 | sub-arctic | US | Alaska | 17.230 | 3.360 | 0.195 | 20.590 | 156.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1173 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-24 | sub-arctic | US | Alaska | 17.790 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1174 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-25 | sub-arctic | US | Alaska | 20.310 | 3.920 | 0.193 | 24.230 | 256.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1175 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 23.670 | 5.040 | 0.213 | 28.710 | 141.190 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1176 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 195.530 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1177 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-12 | sub-arctic | US | Alaska | 55.890 | 2.800 | 0.050 | 58.690 | 179.570 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1178 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-12 | sub-arctic | US | Alaska | 280.830 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1179 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-23 | sub-arctic | US | Alaska | 47.200 | 0.840 | 0.018 | 48.040 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1180 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-23 | sub-arctic | US | Alaska | 19.890 | 0.420 | 0.021 | 20.310 | 146.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1181 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-06 | sub-arctic | US | Alaska | 9.240 | 0.420 | 0.045 | 9.660 | 139.370 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1182 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-21 | sub-arctic | US | Alaska | 51.540 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1183 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-23 | sub-arctic | US | Alaska | 57.010 | 1.960 | 0.034 | 58.970 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1184 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-28 | sub-arctic | US | Alaska | 58.410 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1185 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-02 | sub-arctic | US | Alaska | 53.090 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1186 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-05 | sub-arctic | US | Alaska | 73.110 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1187 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-06 | sub-arctic | US | Alaska | 98.050 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1188 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-07 | sub-arctic | US | Alaska | 65.130 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1189 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-08 | sub-arctic | US | Alaska | 50.700 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1190 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-09 | sub-arctic | US | Alaska | 41.600 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1191 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-13 | sub-arctic | US | Alaska | 44.820 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1192 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-14 | sub-arctic | US | Alaska | 42.020 | 4.200 | 0.100 | 46.220 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1193 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-14 | sub-arctic | US | Alaska | 50.000 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1194 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-17 | sub-arctic | US | Alaska | 36.420 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1195 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-19 | sub-arctic | US | Alaska | 26.610 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1196 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-23 | sub-arctic | US | Alaska | 33.900 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1197 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-26 | sub-arctic | US | Alaska | 51.820 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1198 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-28 | sub-arctic | US | Alaska | 46.500 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1199 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-02 | sub-arctic | US | Alaska | 20.590 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1200 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-05 | sub-arctic | US | Alaska | 36.140 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1201 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-08 | sub-arctic | US | Alaska | 37.400 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1202 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-09 | sub-arctic | US | Alaska | 28.710 | 1.540 | 0.054 | 30.250 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1203 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-10 | sub-arctic | US | Alaska | 32.640 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1204 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-11 | sub-arctic | US | Alaska | 36.140 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1205 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-12 | sub-arctic | US | Alaska | 20.170 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1206 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | June | 2005-06-20 | sub-arctic | US | Alaska | 79.700 | 1.680 | 0.021 | 81.380 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1207 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-11 | sub-arctic | US | Alaska | 58.270 | 2.800 | 0.048 | 61.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1208 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-08 | sub-arctic | US | Alaska | 135.300 | 6.580 | 0.049 | 141.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||
1209 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-14 | sub-arctic | US | Alaska | 10.650 | 171.440 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1210 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-05 | sub-arctic | US | Alaska | 23.110 | 2.520 | 0.109 | 25.630 | 205.060 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1211 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-04 | sub-arctic | US | Alaska | 63.870 | 4.480 | 0.070 | 68.350 | 159.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1212 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-04 | sub-arctic | US | Alaska | 210.800 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1213 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-20 | sub-arctic | US | Alaska | 30.250 | 58.690 | 1.940 | 88.940 | 124.240 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1214 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-09 | sub-arctic | US | Alaska | 82.360 | 5.600 | 0.068 | 87.960 | 152.950 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1215 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-03 | sub-arctic | US | Alaska | 24.370 | 167.660 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1216 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-23 | sub-arctic | US | Alaska | 8.820 | 1.540 | 0.175 | 10.360 | 145.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1217 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-14 | sub-arctic | US | Alaska | 15.690 | 3.220 | 0.205 | 18.910 | 187.970 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1218 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | August | 2008-08-04 | sub-arctic | US | Alaska | 21.010 | 7.000 | 0.333 | 28.010 | 179.570 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1219 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-19 | sub-arctic | US | Alaska | 22.410 | 2.100 | 0.094 | 24.510 | 191.750 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1220 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-17 | sub-arctic | US | Alaska | 4.480 | 5.040 | 1.125 | 9.520 | 146.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1221 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-10 | sub-arctic | US | Alaska | 44.400 | 4.480 | 0.101 | 48.880 | 224.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1222 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-21 | sub-arctic | US | Alaska | 49.300 | 2.380 | 0.048 | 51.680 | 175.920 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1223 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-14 | sub-arctic | US | Alaska | 72.410 | 3.360 | 0.046 | 75.770 | 151.690 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1224 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-16 | sub-arctic | US | Alaska | 27.170 | 2.940 | 0.108 | 30.110 | 195.530 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1225 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-21 | sub-arctic | US | Alaska | 4.620 | 152.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1226 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-15 | sub-arctic | US | Alaska | 99.310 | 5.040 | 0.051 | 104.350 | 194.690 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1227 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-09 | sub-arctic | US | Alaska | 87.540 | 4.900 | 0.056 | 92.440 | 151.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1228 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-21 | sub-arctic | US | Alaska | 43.420 | 0.560 | 0.013 | 43.980 | 123.960 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1229 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-12 | sub-arctic | US | Alaska | 41.460 | 6.440 | 0.155 | 47.900 | 199.040 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1230 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-11 | sub-arctic | US | Alaska | 52.240 | 8.400 | 0.161 | 60.640 | 232.090 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1231 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-17 | sub-arctic | US | Alaska | 21.710 | 4.340 | 0.200 | 26.050 | 180.690 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1232 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-15 | sub-arctic | US | Alaska | 64.850 | 4.760 | 0.073 | 69.610 | 158.980 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1233 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | August | 2013-08-07 | sub-arctic | US | Alaska | 53.370 | 4.340 | 0.081 | 57.710 | 153.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1234 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-20 | sub-arctic | US | Alaska | 43.980 | 3.220 | 0.073 | 47.200 | 149.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1235 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-20 | sub-arctic | US | Alaska | 2.520 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1236 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-11 | sub-arctic | US | Alaska | 45.520 | 7.280 | 0.160 | 52.800 | 110.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1237 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-05 | sub-arctic | US | Alaska | 31.800 | 6.300 | 0.198 | 38.100 | 139.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1238 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-16 | sub-arctic | US | Alaska | 51.820 | 1.960 | 0.038 | 53.780 | 137.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1239 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-20 | sub-arctic | US | Alaska | 56.590 | 3.220 | 0.057 | 59.810 | 133.060 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1240 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-22 | sub-arctic | US | Alaska | 52.100 | 4.200 | 0.081 | 56.300 | 117.660 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1241 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-22 | sub-arctic | US | Alaska | 52.670 | 5.040 | 0.096 | 57.710 | 130.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1242 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-24 | sub-arctic | US | Alaska | 57.710 | 7.000 | 0.121 | 64.710 | 119.060 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1243 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-30 | sub-arctic | US | Alaska | 75.780 | 7.420 | 0.098 | 83.200 | 144.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1244 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-01 | sub-arctic | US | Alaska | 79.840 | 5.180 | 0.065 | 85.020 | 135.860 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1245 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 89.220 | 9.100 | 0.102 | 98.320 | 173.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1246 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 89.500 | 7.140 | 0.080 | 96.640 | 168.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1247 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 89.640 | 7.560 | 0.084 | 97.200 | 163.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1248 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 91.040 | 8.540 | 0.094 | 99.580 | 163.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1249 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 91.460 | 7.840 | 0.086 | 99.300 | 165.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1250 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 91.320 | 8.820 | 0.097 | 100.140 | 165.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1251 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 91.880 | 12.190 | 0.133 | 104.070 | 173.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1252 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 90.900 | 8.680 | 0.096 | 99.580 | 170.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1253 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 93.420 | 7.000 | 0.075 | 100.420 | 177.890 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1254 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 89.920 | 8.260 | 0.092 | 98.180 | 173.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1255 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 89.780 | 8.540 | 0.095 | 98.320 | 169.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1256 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 88.520 | 7.140 | 0.081 | 95.660 | 170.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1257 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 88.240 | 8.820 | 0.100 | 97.060 | 170.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1258 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 88.380 | 9.520 | 0.108 | 97.900 | 182.090 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1259 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 87.260 | 7.840 | 0.090 | 95.100 | 168.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1260 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 85.440 | 6.580 | 0.077 | 92.020 | 148.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1261 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 86.840 | 9.100 | 0.105 | 95.940 | 166.680 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1262 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 87.120 | 8.260 | 0.095 | 95.380 | 163.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1263 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 86.840 | 6.440 | 0.074 | 93.280 | 169.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1264 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 87.400 | 6.580 | 0.075 | 93.980 | 169.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1265 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 88.800 | 7.000 | 0.079 | 95.800 | 170.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1266 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 89.080 | 7.140 | 0.080 | 96.220 | 168.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1267 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 87.540 | 13.310 | 0.152 | 100.850 | 169.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1268 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 98.890 | 35.160 | 0.356 | 134.050 | 205.900 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1269 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-02 | sub-arctic | US | Alaska | 98.610 | 28.850 | 0.293 | 127.460 | 217.100 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1270 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-06 | sub-arctic | US | Alaska | 88.240 | 6.440 | 0.073 | 94.680 | 155.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1271 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-10 | sub-arctic | US | Alaska | 94.410 | 6.440 | 0.068 | 100.850 | 162.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1272 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-10 | sub-arctic | US | Alaska | 94.830 | 6.580 | 0.069 | 101.410 | 168.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1273 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-15 | sub-arctic | US | Alaska | 87.540 | 5.180 | 0.059 | 92.720 | 155.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1274 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-18 | sub-arctic | US | Alaska | 93.420 | 9.520 | 0.102 | 102.940 | 162.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1275 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 90.900 | 9.100 | 0.100 | 100.000 | 158.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1276 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 91.180 | 7.420 | 0.081 | 98.600 | 147.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1277 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 90.900 | 11.210 | 0.123 | 102.110 | 145.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1278 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 90.900 | 8.400 | 0.092 | 99.300 | 155.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1279 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 89.080 | 7.140 | 0.080 | 96.220 | 148.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1280 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 88.240 | 6.580 | 0.075 | 94.820 | 145.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1281 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 87.400 | 7.140 | 0.082 | 94.540 | 142.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1282 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 86.420 | 7.140 | 0.083 | 93.560 | 158.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1283 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 85.020 | 8.260 | 0.097 | 93.280 | 142.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1284 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 85.020 | 7.980 | 0.094 | 93.000 | 149.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1285 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 84.460 | 7.700 | 0.091 | 92.160 | 142.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1286 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 85.580 | 9.240 | 0.108 | 94.820 | 148.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1287 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 85.440 | 7.560 | 0.089 | 93.000 | 151.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1288 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 85.860 | 7.000 | 0.082 | 92.860 | 151.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1289 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 86.280 | 8.820 | 0.102 | 95.100 | 149.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1290 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 87.120 | 9.940 | 0.114 | 97.060 | 154.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1291 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 89.640 | 5.460 | 0.061 | 95.100 | 148.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1292 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 88.100 | 9.240 | 0.105 | 97.340 | 156.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1293 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 89.080 | 6.720 | 0.075 | 95.800 | 137.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1294 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 90.760 | 7.840 | 0.086 | 98.600 | 138.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1295 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 90.340 | 6.720 | 0.074 | 97.060 | 151.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1296 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 91.180 | 6.720 | 0.074 | 97.900 | 149.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1297 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 91.460 | 6.860 | 0.075 | 98.320 | 156.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1298 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 90.900 | 7.980 | 0.088 | 98.880 | 158.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1299 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-23 | sub-arctic | US | Alaska | 91.320 | 7.840 | 0.086 | 99.160 | 165.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1300 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-25 | sub-arctic | US | Alaska | 85.160 | 5.460 | 0.064 | 90.620 | 142.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1301 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-28 | sub-arctic | US | Alaska | 94.690 | 9.520 | 0.101 | 104.210 | 161.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1302 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-03 | sub-arctic | US | Alaska | 89.500 | 4.620 | 0.052 | 94.120 | 142.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1303 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 108.830 | 7.560 | 0.069 | 116.390 | 168.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1304 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 107.710 | 5.600 | 0.052 | 113.310 | 179.290 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1305 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 106.310 | 7.840 | 0.074 | 114.150 | 172.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1306 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 104.770 | 6.160 | 0.059 | 110.930 | 172.280 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1307 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 102.810 | 6.020 | 0.059 | 108.830 | 163.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1308 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 101.830 | 5.180 | 0.051 | 107.010 | 162.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1309 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 99.870 | 5.460 | 0.055 | 105.330 | 156.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1310 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 97.070 | 5.740 | 0.059 | 102.810 | 151.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1311 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 94.830 | 6.160 | 0.065 | 100.990 | 155.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1312 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 93.420 | 6.440 | 0.069 | 99.860 | 149.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1313 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 91.600 | 5.180 | 0.057 | 96.780 | 151.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1314 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 91.180 | 5.600 | 0.061 | 96.780 | 151.270 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1315 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 90.200 | 5.320 | 0.059 | 95.520 | 142.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1316 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 91.460 | 5.040 | 0.055 | 96.500 | 148.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1317 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 92.720 | 8.260 | 0.089 | 100.980 | 155.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1318 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 90.060 | 4.480 | 0.050 | 94.540 | 148.470 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1319 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 90.620 | 5.600 | 0.062 | 96.220 | 154.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1320 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 93.280 | 7.560 | 0.081 | 100.840 | 145.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1321 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 94.970 | 8.960 | 0.094 | 103.930 | 152.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1322 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 95.810 | 5.880 | 0.061 | 101.690 | 152.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1323 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 97.350 | 5.880 | 0.060 | 103.230 | 156.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1324 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 96.930 | 4.760 | 0.049 | 101.690 | 152.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1325 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 97.630 | 3.920 | 0.040 | 101.550 | 161.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1326 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 100.010 | 5.040 | 0.050 | 105.050 | 156.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1327 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 97.350 | 6.440 | 0.066 | 103.790 | 152.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1328 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 97.210 | 9.240 | 0.095 | 106.450 | 168.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1329 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-10 | sub-arctic | US | Alaska | 102.530 | 3.360 | 0.033 | 105.890 | 147.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1330 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-13 | sub-arctic | US | Alaska | 105.050 | 1.960 | 0.019 | 107.010 | 168.080 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1331 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-20 | sub-arctic | US | Alaska | 77.320 | 4.760 | 0.062 | 82.080 | 162.480 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1332 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-26 | sub-arctic | US | Alaska | 53.790 | 4.480 | 0.083 | 58.270 | 170.880 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1333 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-02 | sub-arctic | US | Alaska | 105.890 | 2.940 | 0.028 | 108.830 | 203.100 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1334 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-09 | sub-arctic | US | Alaska | 91.600 | 2.520 | 0.028 | 94.120 | 191.890 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1335 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | September | 2015-09-16 | sub-arctic | US | Alaska | 120.740 | 4.900 | 0.041 | 125.640 | 196.090 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1336 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-23 | sub-arctic | US | Alaska | 22.410 | 2.660 | 0.119 | 25.070 | 131.520 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1337 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-23 | sub-arctic | US | Alaska | 2.940 | 151.130 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1338 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-08 | sub-arctic | US | Alaska | 31.090 | 4.060 | 0.131 | 35.150 | 131.520 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1339 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-08 | sub-arctic | US | Alaska | 4.620 | 135.580 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1340 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-05 | sub-arctic | US | Alaska | 47.480 | 4.200 | 0.088 | 51.680 | 112.890 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1341 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-05 | sub-arctic | US | Alaska | 47.760 | 7.000 | 0.147 | 54.760 | 123.960 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1342 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-24 | sub-arctic | US | Alaska | 80.680 | 5.880 | 0.073 | 86.560 | 104.070 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1343 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-24 | sub-arctic | US | Alaska | 81.520 | 6.440 | 0.079 | 87.960 | 110.370 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1344 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-02 | sub-arctic | US | Alaska | 83.340 | 6.860 | 0.082 | 90.200 | 136.290 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1345 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-02 | sub-arctic | US | Alaska | 83.900 | 7.980 | 0.095 | 91.880 | 152.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1346 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-26 | sub-arctic | US | Alaska | 40.060 | 6.160 | 0.154 | 46.220 | 107.010 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1347 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-26 | sub-arctic | US | Alaska | 40.200 | 6.300 | 0.157 | 46.500 | 111.630 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||
1348 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-28 | sub-arctic | US | Alaska | 39.240 | 118.200 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1349 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-28 | sub-arctic | US | Alaska | 44.200 | 120.200 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1350 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-25 | sub-arctic | US | Alaska | 45.350 | 122.670 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1351 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-25 | sub-arctic | US | Alaska | 46.170 | 126.970 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1352 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-21 | sub-arctic | US | Alaska | 51.070 | 155.400 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1353 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-21 | sub-arctic | US | Alaska | 51.830 | 160.650 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | |||||
1354 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-28 | sub-arctic | US | Alaska | 66.870 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1355 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-28 | sub-arctic | US | Alaska | 64.240 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1356 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-25 | sub-arctic | US | Alaska | 57.060 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1357 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-25 | sub-arctic | US | Alaska | 56.550 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1358 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-16 | sub-arctic | US | Alaska | 40.790 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1359 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6384 | -149.3890 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-16 | sub-arctic | US | Alaska | 41.260 | -4.700 | -6.100 | 482 | 188 | -9.825 | 240 | 15.000 | -30.500 | Subzone E | 6 | 5 | ||||||
1373 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-05 | sub-arctic | US | Alaska | 22.410 | 6.720 | 0.300 | 29.130 | 105.050 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1374 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-12 | sub-arctic | US | Alaska | 30.810 | 19.890 | 0.645 | 50.700 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1375 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-19 | sub-arctic | US | Alaska | 20.310 | 25.630 | 1.262 | 45.940 | 79.000 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1376 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-26 | sub-arctic | US | Alaska | 28.990 | 9.100 | 0.314 | 38.090 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1377 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 29.830 | 31.660 | 1.061 | 61.490 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1378 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-09 | sub-arctic | US | Alaska | 29.130 | 5.880 | 0.202 | 35.010 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1379 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | June | 1997-06-20 | sub-arctic | US | Alaska | 12.750 | 3.780 | 0.297 | 16.530 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1380 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-04 | sub-arctic | US | Alaska | 5.040 | 3.920 | 0.778 | 8.960 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1381 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-17 | sub-arctic | US | Alaska | 4.760 | 1.260 | 0.265 | 6.020 | 95.670 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1382 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-04 | sub-arctic | US | Alaska | 5.600 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1383 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-11 | sub-arctic | US | Alaska | 2.800 | 229.710 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||||
1384 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-01 | sub-arctic | US | Alaska | 15.550 | 3.500 | 0.225 | 19.050 | 287.000 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1385 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-28 | sub-arctic | US | Alaska | 1.120 | 184.890 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||||
1386 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 42.160 | 1.400 | 0.033 | 43.560 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1387 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 2.520 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1388 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-07 | sub-arctic | US | Alaska | 2.520 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1389 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-07 | sub-arctic | US | Alaska | 47.760 | 0.700 | 0.015 | 48.460 | 204.360 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1390 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-16 | sub-arctic | US | Alaska | 43.280 | 2.520 | 0.058 | 45.800 | 163.600 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1391 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-26 | sub-arctic | US | Alaska | 49.020 | 2.660 | 0.054 | 51.680 | 201.000 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1392 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-09 | sub-arctic | US | Alaska | 18.350 | 5.040 | 0.275 | 23.390 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1393 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-21 | sub-arctic | US | Alaska | 13.450 | 0.700 | 0.052 | 14.150 | 160.520 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1394 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-13 | sub-arctic | US | Alaska | 82.360 | 3.080 | 0.037 | 85.440 | 163.880 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1395 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-13 | sub-arctic | US | Alaska | 184.610 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1396 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | June | 2001-06-21 | sub-arctic | US | Alaska | 61.490 | 0.700 | 0.011 | 62.190 | 154.210 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1397 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-16 | sub-arctic | US | Alaska | 30.530 | 2.660 | 0.087 | 33.190 | 137.130 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1398 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | August | 2001-08-08 | sub-arctic | US | Alaska | 26.050 | 3.220 | 0.124 | 29.270 | 160.940 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1399 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-25 | sub-arctic | US | Alaska | 16.810 | 2.660 | 0.158 | 19.470 | 182.370 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1400 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-25 | sub-arctic | US | Alaska | 264.730 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1401 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 24.370 | 3.920 | 0.161 | 28.290 | 137.690 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1402 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 188.810 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1403 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-12 | sub-arctic | US | Alaska | 57.290 | 2.940 | 0.051 | 60.230 | 211.220 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1404 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-12 | sub-arctic | US | Alaska | 194.410 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1405 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-23 | sub-arctic | US | Alaska | 46.780 | 0.700 | 0.015 | 47.480 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1406 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-23 | sub-arctic | US | Alaska | 16.390 | 0.280 | 0.017 | 16.670 | 166.680 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1407 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-06 | sub-arctic | US | Alaska | 9.520 | 0.560 | 0.059 | 10.080 | 119.060 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1408 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-23 | sub-arctic | US | Alaska | 55.330 | 2.520 | 0.046 | 57.850 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1409 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-14 | sub-arctic | US | Alaska | 49.860 | 4.620 | 0.093 | 54.480 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1410 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-09 | sub-arctic | US | Alaska | 29.690 | 2.100 | 0.071 | 31.790 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1411 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | June | 2005-06-20 | sub-arctic | US | Alaska | 81.240 | 1.680 | 0.021 | 82.920 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1412 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-11 | sub-arctic | US | Alaska | 60.370 | 2.660 | 0.044 | 63.030 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1413 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-08 | sub-arctic | US | Alaska | 137.130 | 5.040 | 0.037 | 142.170 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1414 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-14 | sub-arctic | US | Alaska | 11.490 | 161.220 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||||
1415 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-05 | sub-arctic | US | Alaska | 22.410 | 1.120 | 0.050 | 23.530 | 210.240 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1416 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-04 | sub-arctic | US | Alaska | 62.750 | 4.480 | 0.071 | 67.230 | 224.670 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1417 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-20 | sub-arctic | US | Alaska | 120.880 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1418 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-09 | sub-arctic | US | Alaska | 157.020 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1419 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-03 | sub-arctic | US | Alaska | 169.900 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1420 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-23 | sub-arctic | US | Alaska | 8.120 | 3.640 | 0.448 | 11.760 | 166.260 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1421 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-14 | sub-arctic | US | Alaska | 16.250 | 5.180 | 0.319 | 21.430 | 202.960 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1422 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | August | 2008-08-04 | sub-arctic | US | Alaska | 20.450 | 6.300 | 0.308 | 26.750 | 184.190 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1423 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-19 | sub-arctic | US | Alaska | 24.650 | 2.100 | 0.085 | 26.750 | 191.190 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1424 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-17 | sub-arctic | US | Alaska | 4.900 | 8.400 | 1.714 | 13.300 | 131.520 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1425 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-10 | sub-arctic | US | Alaska | 38.240 | 4.340 | 0.114 | 42.580 | 226.210 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1426 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-21 | sub-arctic | US | Alaska | 50.140 | 2.800 | 0.056 | 52.940 | 176.340 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1427 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-14 | sub-arctic | US | Alaska | 68.770 | 3.920 | 0.057 | 72.690 | 175.780 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1428 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-16 | sub-arctic | US | Alaska | 25.630 | 2.100 | 0.082 | 27.730 | 203.800 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1429 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-21 | sub-arctic | US | Alaska | 87.680 | 5.040 | 0.058 | 92.720 | 151.270 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1430 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-15 | sub-arctic | US | Alaska | 95.110 | 7.700 | 0.081 | 102.810 | 189.090 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1431 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-09 | sub-arctic | US | Alaska | 75.360 | 6.580 | 0.087 | 81.940 | 144.270 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1432 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-21 | sub-arctic | US | Alaska | 41.320 | 0.140 | 0.003 | 41.460 | 130.960 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1433 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-12 | sub-arctic | US | Alaska | 41.320 | 4.060 | 0.098 | 45.380 | 204.080 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1434 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-11 | sub-arctic | US | Alaska | 53.790 | 2.800 | 0.052 | 56.590 | 237.410 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1435 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-17 | sub-arctic | US | Alaska | 21.990 | 5.320 | 0.242 | 27.310 | 172.560 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1436 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-15 | sub-arctic | US | Alaska | 64.710 | 6.440 | 0.100 | 71.150 | 165.700 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1437 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | August | 2013-08-07 | sub-arctic | US | Alaska | 53.370 | 4.480 | 0.084 | 57.850 | 148.190 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1438 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-20 | sub-arctic | US | Alaska | 43.980 | 2.940 | 0.067 | 46.920 | 159.680 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1439 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-20 | sub-arctic | US | Alaska | 2.800 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1440 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-11 | sub-arctic | US | Alaska | 44.960 | 9.660 | 0.215 | 54.620 | 106.450 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1441 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-05 | sub-arctic | US | Alaska | 27.870 | 8.120 | 0.291 | 35.990 | 152.670 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1442 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-22 | sub-arctic | US | Alaska | 52.390 | 5.740 | 0.110 | 58.130 | 135.860 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1443 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-10 | sub-arctic | US | Alaska | 93.700 | 6.300 | 0.067 | 100.000 | 158.280 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1444 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 89.220 | 5.320 | 0.060 | 94.540 | 144.270 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1445 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-23 | sub-arctic | US | Alaska | 22.550 | 3.080 | 0.137 | 25.630 | 150.990 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1446 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-08 | sub-arctic | US | Alaska | 30.250 | 5.460 | 0.181 | 35.710 | 131.100 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1447 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-05 | sub-arctic | US | Alaska | 50.280 | 5.180 | 0.103 | 55.460 | 126.760 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1448 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-24 | sub-arctic | US | Alaska | 82.500 | 7.980 | 0.097 | 90.480 | 105.750 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1449 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-02 | sub-arctic | US | Alaska | 85.300 | 9.380 | 0.110 | 94.680 | 135.020 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1450 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-26 | sub-arctic | US | Alaska | 41.600 | 6.860 | 0.165 | 48.460 | 114.710 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||
1451 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-28 | sub-arctic | US | Alaska | 40.570 | 122.930 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||||
1452 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-25 | sub-arctic | US | Alaska | 46.830 | 140.430 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||||
1453 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-21 | sub-arctic | US | Alaska | 52.500 | 168.040 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||||
1454 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-28 | sub-arctic | US | Alaska | 78.090 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1455 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-25 | sub-arctic | US | Alaska | 58.490 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1456 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6381 | -149.3920 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-16 | sub-arctic | US | Alaska | 41.220 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1457 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6391 | -149.3940 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-19 | sub-arctic | US | Alaska | 10.080 | -4.900 | -6.300 | 482 | 188 | -9.854 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | ||||||
1458 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6407 | -149.4010 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-05 | sub-arctic | US | Alaska | 25.350 | 6.300 | 0.249 | 31.650 | -4.900 | -6.300 | 482 | 188 | -9.883 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1459 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6407 | -149.4010 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-12 | sub-arctic | US | Alaska | 29.690 | 7.700 | 0.259 | 37.390 | -4.900 | -6.300 | 482 | 188 | -9.883 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1460 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6407 | -149.4010 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-19 | sub-arctic | US | Alaska | 19.470 | 8.540 | 0.439 | 28.010 | -4.900 | -6.300 | 482 | 188 | -9.883 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1461 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6407 | -149.4010 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-26 | sub-arctic | US | Alaska | 29.550 | 15.410 | 0.521 | 44.960 | -4.900 | -6.300 | 482 | 188 | -9.883 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1462 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6407 | -149.4010 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 25.350 | 8.680 | 0.343 | 34.030 | -4.900 | -6.300 | 482 | 188 | -9.883 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1463 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6407 | -149.4010 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-09 | sub-arctic | US | Alaska | 29.830 | 6.300 | 0.211 | 36.130 | -4.900 | -6.300 | 482 | 188 | -9.883 | 238 | 14.900 | -30.500 | Subzone E | 6 | 5 | |||
1464 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | June | 1996-06-21 | sub-arctic | US | Alaska | 75.640 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1465 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-05 | sub-arctic | US | Alaska | 26.330 | 6.300 | 0.239 | 32.630 | 67.510 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1466 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-05 | sub-arctic | US | Alaska | 26.890 | 18.910 | 0.703 | 45.800 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1467 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-12 | sub-arctic | US | Alaska | 29.690 | 8.960 | 0.302 | 38.650 | 166.400 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1468 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-12 | sub-arctic | US | Alaska | 30.530 | 33.900 | 1.110 | 64.430 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1469 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-19 | sub-arctic | US | Alaska | 21.430 | 35.720 | 1.667 | 57.150 | 73.260 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1470 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-19 | sub-arctic | US | Alaska | 22.270 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1471 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-26 | sub-arctic | US | Alaska | 30.530 | 5.740 | 0.188 | 36.270 | 120.040 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1472 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-26 | sub-arctic | US | Alaska | 32.500 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1473 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 28.430 | 11.630 | 0.409 | 40.060 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1474 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 28.850 | 27.030 | 0.937 | 55.880 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1475 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-09 | sub-arctic | US | Alaska | 28.430 | 5.460 | 0.192 | 33.890 | 189.510 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1476 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-09 | sub-arctic | US | Alaska | 31.090 | 22.410 | 0.721 | 53.500 | 283.640 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1477 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-09 | sub-arctic | US | Alaska | 146.930 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1478 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | June | 1997-06-20 | sub-arctic | US | Alaska | 12.330 | 5.180 | 0.420 | 17.510 | 102.670 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1479 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-04 | sub-arctic | US | Alaska | 4.760 | 3.360 | 0.706 | 8.120 | 274.390 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1480 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-04 | sub-arctic | US | Alaska | 519.230 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1481 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-04 | sub-arctic | US | Alaska | 165.420 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1482 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-17 | sub-arctic | US | Alaska | 4.900 | 1.820 | 0.371 | 6.720 | 99.870 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1483 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-01 | sub-arctic | US | Alaska | 85.440 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1484 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-04 | sub-arctic | US | Alaska | 5.460 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1485 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-11 | sub-arctic | US | Alaska | 2.660 | 208.420 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||||
1486 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-11 | sub-arctic | US | Alaska | 131.100 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1487 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-22 | sub-arctic | US | Alaska | 22.270 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1488 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-01 | sub-arctic | US | Alaska | 14.710 | 3.220 | 0.219 | 17.930 | 259.400 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1489 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-01 | sub-arctic | US | Alaska | 15.550 | 4.760 | 0.306 | 20.310 | 304.790 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1490 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-08 | sub-arctic | US | Alaska | 27.450 | 13.310 | 0.485 | 40.760 | 294.280 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1491 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-08 | sub-arctic | US | Alaska | 14.430 | 311.370 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||||
1492 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-20 | sub-arctic | US | Alaska | 29.270 | 185.870 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||||
1493 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-20 | sub-arctic | US | Alaska | 30.530 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1494 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-28 | sub-arctic | US | Alaska | 17.510 | 1.820 | 0.104 | 19.330 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1495 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-10 | sub-arctic | US | Alaska | 30.810 | 5.180 | 0.168 | 35.990 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1496 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-10 | sub-arctic | US | Alaska | 31.800 | 5.460 | 0.172 | 37.260 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1497 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 40.200 | 1.260 | 0.031 | 41.460 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1498 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 41.460 | 1.400 | 0.034 | 42.860 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1499 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 3.080 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1500 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 4.340 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1501 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-07 | sub-arctic | US | Alaska | 38.380 | 2.660 | 0.069 | 41.040 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1502 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-07 | sub-arctic | US | Alaska | 54.210 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1503 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-16 | sub-arctic | US | Alaska | 40.200 | 2.380 | 0.059 | 42.580 | 175.080 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1504 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-16 | sub-arctic | US | Alaska | 55.330 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1505 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-17 | sub-arctic | US | Alaska | 234.890 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1506 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-19 | sub-arctic | US | Alaska | 21.570 | 10.220 | 0.474 | 31.790 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1507 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-26 | sub-arctic | US | Alaska | 41.320 | 2.940 | 0.071 | 44.260 | 197.910 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1508 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-26 | sub-arctic | US | Alaska | 50.420 | 3.080 | 0.061 | 53.500 | 213.040 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1509 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-09 | sub-arctic | US | Alaska | 16.530 | 2.660 | 0.161 | 19.190 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1510 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-09 | sub-arctic | US | Alaska | 19.190 | 3.080 | 0.161 | 22.270 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1511 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-21 | sub-arctic | US | Alaska | 14.010 | 161.780 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||||
1512 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-21 | sub-arctic | US | Alaska | 167.100 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1513 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-12 | sub-arctic | US | Alaska | 180.690 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1514 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-13 | sub-arctic | US | Alaska | 79.420 | 2.380 | 0.030 | 81.800 | 190.210 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1515 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | July | 2000-07-13 | sub-arctic | US | Alaska | 190.490 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1516 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-11 | sub-arctic | US | Alaska | 92.580 | 1.820 | 0.020 | 94.400 | 154.630 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1517 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-11 | sub-arctic | US | Alaska | 155.050 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1518 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-11 | sub-arctic | US | Alaska | 155.470 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1519 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | June | 2001-06-21 | sub-arctic | US | Alaska | 67.650 | 0.420 | 0.006 | 68.070 | 146.930 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1520 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | June | 2001-06-21 | sub-arctic | US | Alaska | 67.790 | 0.700 | 0.010 | 68.490 | 154.210 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1521 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-16 | sub-arctic | US | Alaska | 28.570 | 2.100 | 0.074 | 30.670 | 143.850 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1522 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | August | 2001-08-08 | sub-arctic | US | Alaska | 40.200 | 3.220 | 0.080 | 43.420 | 155.890 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1523 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-25 | sub-arctic | US | Alaska | 16.250 | 1.960 | 0.121 | 18.210 | 194.550 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1524 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-25 | sub-arctic | US | Alaska | 250.720 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1525 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 24.930 | 4.340 | 0.174 | 29.270 | 149.730 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1526 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 157.020 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1527 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 215.140 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1528 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-12 | sub-arctic | US | Alaska | 63.170 | 2.520 | 0.040 | 65.690 | 176.760 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1529 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-12 | sub-arctic | US | Alaska | 214.440 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1530 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-23 | sub-arctic | US | Alaska | 45.520 | 0.560 | 0.012 | 46.080 | 132.080 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1531 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-23 | sub-arctic | US | Alaska | 17.230 | 0.420 | 0.024 | 17.650 | 120.320 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1532 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-23 | sub-arctic | US | Alaska | 164.440 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1533 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-06 | sub-arctic | US | Alaska | 9.100 | 0.420 | 0.046 | 9.520 | 145.670 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1534 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-23 | sub-arctic | US | Alaska | 55.050 | 2.240 | 0.041 | 57.290 | 139.370 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1535 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-14 | sub-arctic | US | Alaska | 50.560 | 4.340 | 0.086 | 54.900 | 186.710 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1536 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-09 | sub-arctic | US | Alaska | 30.530 | 2.100 | 0.069 | 32.630 | 176.620 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1537 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | June | 2005-06-20 | sub-arctic | US | Alaska | 78.720 | 1.400 | 0.018 | 80.120 | 180.690 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1538 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-01 | sub-arctic | US | Alaska | 236.430 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1539 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-01 | sub-arctic | US | Alaska | 240.500 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1540 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-11 | sub-arctic | US | Alaska | 61.910 | 3.360 | 0.054 | 65.270 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||
1541 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-08 | sub-arctic | US | Alaska | 137.830 | 4.620 | 0.034 | 142.450 | 220.610 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1542 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-14 | sub-arctic | US | Alaska | 10.790 | 0.700 | 0.065 | 11.490 | 156.590 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1543 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-05 | sub-arctic | US | Alaska | 22.550 | 0.840 | 0.037 | 23.390 | 192.590 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1544 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-05 | sub-arctic | US | Alaska | 208.420 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||||||
1545 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-04 | sub-arctic | US | Alaska | 57.010 | 4.760 | 0.084 | 61.770 | 220.610 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1546 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-20 | sub-arctic | US | Alaska | 32.080 | 61.350 | 1.913 | 93.430 | 123.820 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1547 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-09 | sub-arctic | US | Alaska | 83.200 | 4.900 | 0.059 | 88.100 | 154.770 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1548 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-03 | sub-arctic | US | Alaska | 27.730 | 165.000 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||||
1549 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-23 | sub-arctic | US | Alaska | 8.540 | 1.680 | 0.197 | 10.220 | 153.370 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1550 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-14 | sub-arctic | US | Alaska | 17.510 | 3.500 | 0.200 | 21.010 | 196.230 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1551 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | August | 2008-08-04 | sub-arctic | US | Alaska | 24.510 | 6.860 | 0.280 | 31.370 | 180.270 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1552 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-19 | sub-arctic | US | Alaska | 26.890 | 187.270 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | |||||
1553 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-17 | sub-arctic | US | Alaska | 6.160 | 5.040 | 0.818 | 11.200 | 132.220 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1554 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-10 | sub-arctic | US | Alaska | 40.900 | 4.060 | 0.099 | 44.960 | 224.670 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1555 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-21 | sub-arctic | US | Alaska | 54.910 | 1.680 | 0.031 | 56.590 | 165.560 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1556 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-14 | sub-arctic | US | Alaska | 67.230 | 2.660 | 0.040 | 69.890 | 172.560 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1557 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6421 | -149.4040 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-16 | sub-arctic | US | Alaska | 26.050 | 3.220 | 0.124 | 29.270 | 202.120 | -5.000 | -6.000 | 482 | 188 | -9.800 | 237 | 15.100 | -30.600 | Subzone E | 6 | 5 | ||
1558 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6463 | -149.4100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-17 | sub-arctic | US | Alaska | 12.050 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1559 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6463 | -149.4100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-20 | sub-arctic | US | Alaska | 27.690 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1560 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6463 | -149.4100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | May | 2019-05-27 | sub-arctic | US | Alaska | 133.600 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1561 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6463 | -149.4100 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-28 | sub-arctic | US | Alaska | 89.630 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1571 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-05 | sub-arctic | US | Alaska | 9.660 | 7.560 | 0.783 | 17.220 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1572 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-12 | sub-arctic | US | Alaska | 34.880 | 8.960 | 0.257 | 43.840 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1573 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-19 | sub-arctic | US | Alaska | 4.340 | 8.260 | 1.903 | 12.600 | 91.180 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1574 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | July | 1996-07-26 | sub-arctic | US | Alaska | 9.100 | 19.050 | 2.092 | 28.150 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1575 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-02 | sub-arctic | US | Alaska | 4.620 | 14.570 | 3.152 | 19.190 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1576 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1996 | early | August | 1996-08-09 | sub-arctic | US | Alaska | 6.580 | 5.040 | 0.766 | 11.620 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1577 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | June | 1997-06-20 | sub-arctic | US | Alaska | 0.980 | 4.620 | 4.714 | 5.600 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1578 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-04 | sub-arctic | US | Alaska | 1.680 | 3.220 | 1.917 | 4.900 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1579 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | July | 1997-07-17 | sub-arctic | US | Alaska | 1.260 | 7.140 | 5.667 | 8.400 | 117.940 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1580 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-04 | sub-arctic | US | Alaska | 2.800 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1581 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1997 | early | August | 1997-08-11 | sub-arctic | US | Alaska | 1.680 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1582 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-15 | sub-arctic | US | Alaska | 0.840 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1583 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | June | 1998-06-22 | sub-arctic | US | Alaska | 3.220 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1584 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-01 | sub-arctic | US | Alaska | 5.320 | 3.780 | 0.711 | 9.100 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1585 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-08 | sub-arctic | US | Alaska | 34.740 | 20.590 | 0.593 | 55.330 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1586 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-20 | sub-arctic | US | Alaska | 43.980 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1587 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | July | 1998-07-28 | sub-arctic | US | Alaska | 16.670 | 15.550 | 0.933 | 32.220 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1588 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1998 | early | August | 1998-08-10 | sub-arctic | US | Alaska | 6.300 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1589 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 5.320 | 1.960 | 0.368 | 7.280 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1590 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | June | 1999-06-23 | sub-arctic | US | Alaska | 7.000 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1591 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-07 | sub-arctic | US | Alaska | 2.100 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1592 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-07 | sub-arctic | US | Alaska | 48.460 | 4.340 | 0.090 | 52.800 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1593 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-16 | sub-arctic | US | Alaska | 89.640 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1594 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | July | 1999-07-26 | sub-arctic | US | Alaska | 6.300 | 1.960 | 0.311 | 8.260 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1595 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 1999 | early | August | 1999-08-09 | sub-arctic | US | Alaska | 1.400 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1596 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | June | 2000-06-21 | sub-arctic | US | Alaska | 9.800 | 0.560 | 0.057 | 10.360 | 196.230 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1597 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2000 | early | August | 2000-08-11 | sub-arctic | US | Alaska | 53.370 | 3.500 | 0.066 | 56.870 | 183.770 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1598 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | June | 2001-06-21 | sub-arctic | US | Alaska | 27.450 | 1.540 | 0.056 | 28.990 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1599 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | July | 2001-07-16 | sub-arctic | US | Alaska | 11.910 | 2.100 | 0.176 | 14.010 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1600 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2001 | early | August | 2001-08-08 | sub-arctic | US | Alaska | 14.850 | 1.960 | 0.132 | 16.810 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1601 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | June | 2002-06-25 | sub-arctic | US | Alaska | 0.840 | 1.820 | 2.167 | 2.660 | 316.830 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1602 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | July | 2002-07-17 | sub-arctic | US | Alaska | 8.960 | 2.800 | 0.313 | 11.760 | 240.210 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1603 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2002 | early | August | 2002-08-12 | sub-arctic | US | Alaska | 63.310 | 10.360 | 0.164 | 73.670 | 250.720 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1604 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | June | 2003-06-23 | sub-arctic | US | Alaska | 33.340 | 0.560 | 0.017 | 33.900 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1605 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | July | 2003-07-23 | sub-arctic | US | Alaska | 2.940 | 0.420 | 0.143 | 3.360 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1606 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2003 | early | August | 2003-08-06 | sub-arctic | US | Alaska | 1.960 | 0.560 | 0.286 | 2.520 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1607 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | June | 2004-06-23 | sub-arctic | US | Alaska | 69.470 | 5.600 | 0.081 | 75.070 | 207.300 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1608 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | July | 2004-07-14 | sub-arctic | US | Alaska | 4.620 | 3.220 | 0.697 | 7.840 | 182.090 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1609 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-09 | sub-arctic | US | Alaska | 17.650 | 1.540 | 0.087 | 19.190 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1610 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2004 | early | August | 2004-08-11 | sub-arctic | US | Alaska | 207.300 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1611 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | June | 2005-06-20 | sub-arctic | US | Alaska | 120.040 | 1.820 | 0.015 | 121.860 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1612 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | July | 2005-07-11 | sub-arctic | US | Alaska | 2.380 | 3.220 | 1.353 | 5.600 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1613 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2005 | early | August | 2005-08-08 | sub-arctic | US | Alaska | 245.960 | 8.260 | 0.034 | 254.220 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1614 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | June | 2006-06-14 | sub-arctic | US | Alaska | 1.960 | 0.280 | 0.143 | 2.240 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||
1615 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | July | 2006-07-05 | sub-arctic | US | Alaska | 1.680 | 1.120 | 0.667 | 2.800 | 200.300 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1616 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-04 | sub-arctic | US | Alaska | 13.590 | 3.920 | 0.289 | 17.510 | 190.490 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1617 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2006 | early | August | 2006-08-04 | sub-arctic | US | Alaska | 217.100 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1618 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | June | 2007-06-20 | sub-arctic | US | Alaska | 133.340 | 69.610 | 0.522 | 202.950 | 266.970 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1619 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | July | 2007-07-09 | sub-arctic | US | Alaska | 391.630 | 6.580 | 0.017 | 398.210 | 492.480 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1620 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2007 | early | August | 2007-08-03 | sub-arctic | US | Alaska | 16.110 | 222.150 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1621 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | June | 2008-06-23 | sub-arctic | US | Alaska | 2.100 | 211.920 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1622 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | July | 2008-07-14 | sub-arctic | US | Alaska | 5.460 | 230.130 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1623 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2008 | early | August | 2008-08-04 | sub-arctic | US | Alaska | 4.760 | 213.320 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1624 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | June | 2009-06-19 | sub-arctic | US | Alaska | 0.140 | 163.880 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1626 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | July | 2009-07-17 | sub-arctic | US | Alaska | 21.430 | 4.340 | 0.203 | 25.770 | 251.840 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1627 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2009 | late | August | 2009-08-10 | sub-arctic | US | Alaska | 285.180 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1628 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | June | 2010-06-21 | sub-arctic | US | Alaska | 21.570 | 2.100 | 0.097 | 23.670 | 197.910 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1629 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | July | 2010-07-14 | sub-arctic | US | Alaska | 19.050 | 3.500 | 0.184 | 22.550 | 204.220 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1630 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2010 | late | August | 2010-08-16 | sub-arctic | US | Alaska | 2.800 | 4.480 | 1.600 | 7.280 | 223.550 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1631 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | June | 2011-06-21 | sub-arctic | US | Alaska | 70.030 | 4.060 | 0.058 | 74.090 | 189.090 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1632 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | July | 2011-07-15 | sub-arctic | US | Alaska | 26.470 | 5.880 | 0.222 | 32.350 | 208.700 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1633 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2011 | late | August | 2011-08-09 | sub-arctic | US | Alaska | 50.140 | 3.360 | 0.067 | 53.500 | 226.910 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1634 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-20 | sub-arctic | US | Alaska | 244.700 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1635 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | June | 2012-06-21 | sub-arctic | US | Alaska | 1.960 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1636 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | July | 2012-07-12 | sub-arctic | US | Alaska | 4.480 | 274.530 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1637 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2012 | late | August | 2012-08-11 | sub-arctic | US | Alaska | 267.250 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1638 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | June | 2013-06-17 | sub-arctic | US | Alaska | 0.700 | 5.180 | 7.400 | 5.880 | 193.990 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1639 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | July | 2013-07-15 | sub-arctic | US | Alaska | 113.450 | 3.220 | 0.028 | 116.670 | 238.530 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1640 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2013 | late | August | 2013-08-07 | sub-arctic | US | Alaska | 35.300 | 3.220 | 0.091 | 38.520 | 225.230 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1641 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-20 | sub-arctic | US | Alaska | 0.840 | 2.660 | 3.167 | 3.500 | 238.110 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1642 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | June | 2014-06-20 | sub-arctic | US | Alaska | 1.960 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1643 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | July | 2014-07-11 | sub-arctic | US | Alaska | 44.960 | 9.660 | 0.215 | 54.620 | 212.900 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1644 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2014 | late | August | 2014-08-05 | sub-arctic | US | Alaska | 5.040 | 5.180 | 1.028 | 10.220 | 218.500 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1645 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | June | 2015-06-22 | sub-arctic | US | Alaska | 65.130 | 2.660 | 0.041 | 67.790 | 208.700 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1646 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | July | 2015-07-10 | sub-arctic | US | Alaska | 80.820 | 3.640 | 0.045 | 84.460 | 214.300 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1647 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2015 | late | August | 2015-08-07 | sub-arctic | US | Alaska | 71.290 | 3.500 | 0.049 | 74.790 | 228.310 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1648 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | June | 2016-06-23 | sub-arctic | US | Alaska | 0.280 | 154.070 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1649 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | July | 2016-07-08 | sub-arctic | US | Alaska | 8.820 | 5.180 | 0.587 | 14.000 | 151.550 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1650 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2016 | late | August | 2016-08-05 | sub-arctic | US | Alaska | 21.150 | 2.940 | 0.139 | 24.090 | 149.170 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1651 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | June | 2017-06-24 | sub-arctic | US | Alaska | 124.520 | 6.440 | 0.052 | 130.960 | 184.330 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1652 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-02 | sub-arctic | US | Alaska | 25.070 | 5.460 | 0.218 | 30.530 | 159.260 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1653 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2017 | late | August | 2017-08-26 | sub-arctic | US | Alaska | 12.750 | 7.700 | 0.604 | 20.450 | 147.910 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||
1654 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | June | 2018-06-28 | sub-arctic | US | Alaska | 19.860 | 156.270 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1655 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | July | 2018-07-25 | sub-arctic | US | Alaska | 51.570 | 208.950 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1656 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2018 | late | August | 2018-08-21 | sub-arctic | US | Alaska | 27.100 | 177.240 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | |||||
1657 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | June | 2019-06-28 | sub-arctic | US | Alaska | 25.100 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1658 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | July | 2019-07-25 | sub-arctic | US | Alaska | 61.710 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1659 | Bowden (2020) | doi:10.6073/pasta/3faacd18b63b3bacc5a0dbd6f09660e1 | Kuparuk River | 68.6445 | -149.4120 | 1978-2019_LTER_Streams_Chemistry | 2020 | 2019 | late | August | 2019-08-16 | sub-arctic | US | Alaska | 13.490 | -4.800 | -6.100 | 482 | 188 | -9.850 | 237 | 15.000 | -30.600 | Subzone E | 6 | 5 | ||||||
1716 | Kanna et al. (2020) | doi:10.1029/2020GB006567 | Supraglacial B-9 | 77.6830 | -68.5370 | Kanna2020_GlobalBiogeochemistryCycles | 2020 | 2017 | late | July | 2017-07-08 | high-arctic | Greenland | NW | 7.980 | 255 | 100 | -12.467 | 126 | 5.000 | -29.700 | Subzone C | 1 | 1 | ||||||||
1717 | Kanna et al. (2020) | doi:10.1029/2020GB006567 | Stream B-1 | 77.6850 | -68.5140 | Kanna2020_GlobalBiogeochemistryCycles | 2020 | 2017 | late | July | 2017-07-10 | high-arctic | Greenland | NW | 33.280 | 255 | 100 | -12.583 | 127 | 5.000 | -29.800 | Subzone C | 2 | 2 | ||||||||
1718 | Kanna et al. (2020) | doi:10.1029/2020GB006567 | Stream B-2 | 77.6680 | -68.5830 | Kanna2020_GlobalBiogeochemistryCycles | 2020 | 2017 | late | July | 2017-07-11 | high-arctic | Greenland | NW | 26.270 | 255 | 100 | -12.108 | 125 | 5.500 | -29.500 | Subzone C | 2 | 1 | ||||||||
1719 | Kanna et al. (2020) | doi:10.1029/2020GB006567 | Stream B-3 | 77.6840 | -68.5220 | Kanna2020_GlobalBiogeochemistryCycles | 2020 | 2017 | late | July | 2017-07-15 | high-arctic | Greenland | NW | 23.140 | 255 | 100 | -12.621 | 127 | 4.800 | -29.800 | Subzone C | 1 | 1 | ||||||||
1720 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Aucellaelv | 74.5021 | -20.5471 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-30 | high-arctic | Greenland | NE | 231.000 | 38.400 | 0.166 | 269.400 | 234.000 | -6.500 | -6.500 | 242 | 97 | -10.387 | 297 | 7.700 | -23.600 | Subzone C | 5 | 4 | ||
1721 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Graenselv A | 74.4874 | -20.4841 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 175.700 | 22.200 | 0.126 | 197.800 | 65.900 | -5.300 | -6.000 | 242 | 97 | -10.246 | 270 | 8.000 | -23.600 | Subzone C | 4 | 4 | ||
1722 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Graenselv B | 74.4806 | -20.4966 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 13.000 | 36.500 | 2.808 | 49.500 | 53.000 | 3.50 | 14.143 | -6.400 | -5.800 | 242 | 97 | -9.917 | 255 | 8.400 | -23.400 | Subzone C | 4 | 4 |
1723 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Graenselv C | 74.4725 | -20.5071 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-25 | high-arctic | Greenland | NE | 6.300 | 46.300 | 7.405 | 52.600 | 57.200 | 4.60 | 11.435 | -6.800 | -5.800 | 242 | 97 | -9.613 | 240 | 8.800 | -23.300 | Subzone C | 4 | 4 |
1724 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Kaerelv 0 | 74.4979 | -20.4827 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-24 | high-arctic | Greenland | NE | 134.000 | 105.000 | 0.784 | 239.000 | 318.900 | 79.90 | 2.991 | -5.100 | -6.000 | 242 | 97 | -10.613 | 294 | 7.600 | -23.700 | Subzone C | 4 | 4 |
1725 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Kaerelv A | 74.4940 | -20.4990 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-24 | high-arctic | Greenland | NE | 161.000 | 22.200 | 0.138 | 183.200 | 135.200 | -5.400 | -6.100 | 242 | 97 | -10.517 | 285 | 7.700 | -23.700 | Subzone C | 4 | 4 | ||
1726 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Kaerelv B | 74.4838 | -20.5349 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-21 | high-arctic | Greenland | NE | 10.400 | 26.300 | 2.532 | 36.700 | 58.700 | 21.90 | 1.676 | -6.600 | -6.200 | 242 | 97 | -10.000 | 256 | 8.200 | -23.500 | Subzone C | 5 | 4 |
1727 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Kaerelv C | 74.4710 | -20.5199 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-20 | high-arctic | Greenland | NE | 4.600 | 22.600 | 4.945 | 27.200 | 46.600 | 19.40 | 1.402 | -7.000 | -5.700 | 242 | 97 | -9.579 | 240 | 8.700 | -23.300 | Subzone C | 4 | 4 |
1728 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Lindman | 74.5129 | -20.6162 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-30 | high-arctic | Greenland | NE | 23.500 | 28.200 | 1.199 | 51.700 | 84.000 | 32.30 | 1.601 | -6.400 | -7.300 | 242 | 97 | -10.046 | 289 | 7.800 | -23.100 | Subzone C | 3 | 3 |
1729 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Paltokeelv | 74.5129 | -20.6162 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-30 | high-arctic | Greenland | NE | 7.700 | 29.200 | 3.795 | 36.900 | -6.400 | -7.300 | 242 | 97 | -10.046 | 289 | 7.800 | -23.100 | Subzone C | 3 | 3 | |||
1730 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Unmed | 74.5047 | -20.5621 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | August | 2017-08-30 | high-arctic | Greenland | NE | 33.100 | 42.100 | 1.273 | 75.200 | 86.200 | 11.10 | 6.775 | -6.000 | -6.700 | 242 | 97 | -10.238 | 292 | 7.800 | -23.500 | Subzone C | 4 | 3 |
1731 | Pastor et al. (2019) | doi:10.1007/s00248-019-01330-w | Zackenberg | 74.4696 | -20.5810 | Pastor2019_MicrobialEcology | 2019 | 2017 | late | September | 2017-09-03 | high-arctic | Greenland | NE | 18.400 | 36.300 | 1.971 | 54.700 | 44.500 | -7.000 | -6.000 | 242 | 97 | -9.492 | 239 | 8.600 | -23.200 | Subzone C | 4 | 4 | ||
1732 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Kærelv | 74.4667 | -20.5667 | Docherty2018_PolarResearch | 2018 | 2014 | late | July | high-arctic | Greenland | NE | 0.000 | 14.530 | 29060.000 | 14.530 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1733 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Grænseelv | 74.4667 | -20.5667 | Docherty2018_PolarResearch | 2018 | 2014 | late | July | high-arctic | Greenland | NE | 0.360 | 7.470 | 20.750 | 7.830 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1734 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Unnamed | 74.4667 | -20.5667 | Docherty2018_PolarResearch | 2018 | 2014 | late | July | high-arctic | Greenland | NE | 0.060 | 6.700 | 111.667 | 6.760 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1735 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Aucellaelv | 74.4667 | -20.5667 | Docherty2018_PolarResearch | 2018 | 2014 | late | July | high-arctic | Greenland | NE | 50.660 | 33.810 | 0.667 | 84.470 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1736 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Palnatokeelv | 74.4667 | -20.5667 | Docherty2018_PolarResearch | 2018 | 2014 | late | July | high-arctic | Greenland | NE | 11.790 | 12.480 | 1.059 | 24.270 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1737 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Kærelv A | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 19.000 | 11.000 | 0.579 | 30.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1738 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Kærelv B | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 19.000 | 30.000 | 1.579 | 49.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1739 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Kærelv C | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 6.000 | 15.000 | 2.500 | 21.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1740 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Grænseelv A | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 18.000 | 18.000 | 1.000 | 36.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1741 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Grænseelv B | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 9.000 | 11.000 | 1.222 | 20.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1742 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Grænseelv C | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 3.000 | 55.000 | 18.333 | 58.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1743 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Unnamed A | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 8.000 | 43.000 | 5.375 | 51.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1744 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Unnamed B | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 5.000 | 11.000 | 2.200 | 16.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1745 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Unnamed C | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 9.000 | 13.000 | 1.444 | 22.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1746 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Palnatokeelv A | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 49.000 | 48.000 | 0.980 | 97.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1747 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Palnatokeelv B | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 22.000 | 21.000 | 0.955 | 43.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1748 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Palnatokeelv C | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 43.000 | 19.000 | 0.442 | 62.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1749 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Aucellaev A | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 31.000 | 20.000 | 0.645 | 51.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1750 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Aucellaev B | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 37.000 | 15.000 | 0.405 | 52.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1751 | Docherty et al. (2018) | doi:10.1080/17518369.2018.1440107 | Aucellaev C | 74.4667 | -20.5667 | Docherty2018_PolarBiology | 2018 | 2015 | late | July | high-arctic | Greenland | NE | 27.000 | 19.000 | 0.704 | 46.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
1752 | Ada Pastor | Stream1 | 74.4906 | -20.5880 | Unpublished_Pastor | 2017 | late | August | 2017-08-31 | high-arctic | Greenland | NE | 218.667 | 30.730 | 0.141 | 249.397 | 237.667 | -7.000 | -6.500 | 242 | 97 | -9.867 | 255 | 8.200 | -23.300 | Subzone C | 3 | 3 | ||||
1753 | Ada Pastor | Stream2 | 74.4673 | -20.6534 | Unpublished_Pastor | 2017 | late | August | 2017-08-31 | high-arctic | Greenland | NE | 4.000 | 21.000 | 4.735 | 26.000 | 27.000 | 1.50 | 17.333 | -5.700 | -6.900 | 242 | 97 | -9.188 | 233 | 8.600 | -22.500 | Subzone C | 3 | 3 | ||
1754 | Ada Pastor | Stream3 | 74.4716 | -20.6086 | Unpublished_Pastor | 2017 | late | August | 2017-08-31 | high-arctic | Greenland | NE | 20.000 | 55.000 | 2.720 | 75.000 | 57.000 | -6.600 | -6.100 | 242 | 97 | -9.387 | 240 | 8.600 | -22.900 | Subzone C | 3 | 3 | ||||
1755 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L1 | 74.5221 | -20.4641 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 101.000 | 44.800 | 0.444 | 145.800 | 302.100 | 156.30 | 0.933 | -6.100 | -7.000 | 242 | 97 | -11.392 | 374 | 6.500 | -24.100 | Subzone C | 4 | 3 |
1756 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L2 | 74.5190 | -20.4742 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 232.000 | 37.000 | 0.159 | 269.000 | 301.900 | 32.90 | 8.176 | -5.700 | -7.000 | 242 | 97 | -11.354 | 369 | 6.600 | -24.100 | Subzone C | 4 | 3 |
1757 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L3 | 74.5148 | -20.4802 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 227.000 | 19.200 | 0.085 | 246.200 | 280.700 | 34.50 | 7.136 | -6.700 | -6.700 | 242 | 97 | -11.183 | 356 | 6.800 | -24.000 | Subzone C | 4 | 3 |
1758 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L4 | 74.5123 | -20.4932 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 197.000 | 46.900 | 0.238 | 243.900 | 236.000 | -6.100 | -6.700 | 242 | 97 | -11.062 | 344 | 7.000 | -23.900 | Subzone C | 4 | 3 | ||
1759 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L5 | 74.5090 | -20.5046 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 262.000 | 35.700 | 0.136 | 297.700 | 319.100 | 21.40 | 13.911 | -5.900 | -6.700 | 242 | 97 | -10.988 | 338 | 7.100 | -23.900 | Subzone C | 4 | 3 |
1760 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L6 | 74.5071 | -20.5197 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 132.000 | 35.600 | 0.270 | 167.600 | 250.800 | 83.20 | 2.014 | -5.300 | -6.500 | 242 | 97 | -10.587 | 312 | 7.500 | -23.700 | Subzone C | 4 | 4 |
1761 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L7 | 74.5053 | -20.5352 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 208.000 | 27.200 | 0.131 | 235.200 | 259.100 | 23.90 | 9.841 | -6.700 | -6.500 | 242 | 97 | -10.438 | 300 | 7.700 | -23.600 | Subzone C | 5 | 4 |
1762 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L9 | 74.5009 | -20.5624 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 209.000 | 26.200 | 0.125 | 235.200 | 201.800 | -6.000 | -6.700 | 242 | 97 | -10.238 | 292 | 7.800 | -23.500 | Subzone C | 5 | 4 | ||
1763 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Aucellaelv L10 | 74.5008 | -20.5801 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-27 | high-arctic | Greenland | NE | 172.000 | 25.900 | 0.151 | 197.900 | 173.800 | -6.600 | -6.900 | 242 | 97 | -10.129 | 285 | 7.900 | -23.400 | Subzone C | 4 | 4 | ||
1764 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L1 | 74.5092 | -20.4536 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 2.000 | 5.000 | 2.500 | 7.000 | 112.700 | 105.70 | 0.066 | -6.300 | -6.700 | 242 | 97 | -11.337 | 370 | 6.600 | -24.100 | Subzone C | 4 | 3 |
1765 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L2 | 74.5063 | -20.4587 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 5.340 | 46.200 | 8.652 | 51.540 | 47.970 | -5.300 | -6.500 | 242 | 97 | -11.062 | 346 | 7.000 | -23.900 | Subzone C | 4 | 3 | ||
1766 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L3 | 74.5024 | -20.4717 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 12.500 | 21.000 | 1.680 | 33.500 | 62.920 | 29.40 | 1.139 | -5.800 | -6.400 | 242 | 97 | -11.012 | 340 | 7.100 | -23.900 | Subzone C | 4 | 4 |
1767 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L6 | 74.4917 | -20.5088 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 85.900 | 24.000 | 0.279 | 110.000 | 134.600 | 24.70 | 4.453 | -5.300 | -6.200 | 242 | 97 | -10.396 | 279 | 7.800 | -23.700 | Subzone C | 4 | 4 |
1768 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L7 | 74.4892 | -20.5184 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 16.100 | 24.800 | 1.540 | 41.000 | 130.100 | 89.20 | 0.460 | -5.800 | -6.100 | 242 | 97 | -10.071 | 260 | 8.200 | -23.500 | Subzone C | 5 | 4 |
1769 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L8 | 74.4872 | -20.5309 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 40.400 | 27.400 | 0.678 | 67.800 | 72.550 | 4.80 | 14.125 | -5.900 | -6.100 | 242 | 97 | -10.038 | 259 | 8.200 | -23.500 | Subzone C | 5 | 4 |
1770 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L10 | 74.4803 | -20.5364 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 2.000 | 22.000 | 11.000 | 24.000 | 66.740 | 42.70 | 0.562 | -7.000 | -5.900 | 242 | 97 | -9.758 | 247 | 8.500 | -23.400 | Subzone C | 4 | 4 |
1771 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L11 | 74.4772 | -20.5276 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 13.400 | 0.000 | 57.800 | -6.900 | -5.900 | 242 | 97 | -9.800 | 247 | 8.500 | -23.400 | Subzone C | 4 | 4 | ||||
1772 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L12 | 74.4734 | -20.5277 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 2.000 | 19.100 | 9.550 | 21.100 | 56.340 | 35.20 | 0.599 | -6.900 | -5.700 | 242 | 97 | -9.575 | 240 | 8.700 | -23.300 | Subzone C | 4 | 4 |
1773 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L14 | 74.4678 | -20.5140 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 21.100 | 31.500 | 1.493 | 52.600 | 63.880 | 11.30 | 4.655 | -6.900 | -5.700 | 242 | 97 | -9.587 | 239 | 8.700 | -23.300 | Subzone C | 4 | 4 |
1774 | Pastor et al. (2021) | doi:10.1002/hyp.14369 | Kærelv L15 | 74.4627 | -20.5106 | Pastor2021_HydrologicalProcesses | 2021 | 2017 | late | August | 2017-08-22 | high-arctic | Greenland | NE | 2.000 | 28.400 | 14.200 | 30.400 | 57.880 | 27.50 | 1.105 | -6.900 | -5.600 | 242 | 97 | -9.496 | 235 | 8.900 | -23.200 | Subzone C | 4 | 4 |
1775 | Skovsholt et al. (2020) | doi:10.1007/s10533-020-00719-x | Kaerelv A | 74.4940 | -20.4990 | Skovholt2020_Biogoechemistry | 2021 | 2015 | late | July | 2015-08-18 | high-arctic | Greenland | NE | 64.000 | 63.000 | 0.984 | 127.000 | -5.400 | -6.100 | 242 | 97 | -10.517 | 285 | 7.700 | -23.700 | Subzone C | 4 | 4 | |||
1776 | Skovsholt et al. (2020) | doi:10.1007/s10533-020-00719-x | Kaerelv B | 74.4838 | -20.5349 | Skovholt2020_Biogoechemistry | 2021 | 2015 | late | July | 2015-08-18 | high-arctic | Greenland | NE | 60.000 | 30.000 | 0.500 | 90.000 | -6.600 | -6.200 | 242 | 97 | -10.000 | 256 | 8.200 | -23.500 | Subzone C | 5 | 4 | |||
1777 | Skovsholt et al. (2020) | doi:10.1007/s10533-020-00719-x | Kaerelv C | 74.4710 | -20.5199 | Skovholt2020_Biogoechemistry | 2021 | 2015 | late | July | 2015-08-18 | high-arctic | Greenland | NE | 7.000 | 20.000 | 2.857 | 27.000 | -7.000 | -5.700 | 242 | 97 | -9.579 | 240 | 8.700 | -23.300 | Subzone C | 4 | 4 | |||
1778 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | June | 2008-06-07 | high-arctic | Greenland | NE | 44.300 | 21.000 | 0.473 | 65.200 | 303.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1779 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | June | 2008-06-08 | high-arctic | Greenland | NE | 143.600 | 16.200 | 0.113 | 159.800 | 519.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1780 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | June | 2008-06-13 | high-arctic | Greenland | NE | 24.800 | 24.200 | 0.977 | 49.100 | 156.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1781 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | June | 2008-06-19 | high-arctic | Greenland | NE | 10.100 | 15.200 | 1.509 | 25.300 | 131.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1782 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | June | 2008-06-27 | high-arctic | Greenland | NE | 9.700 | 17.800 | 1.841 | 27.400 | 223.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1783 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | July | 2008-07-04 | high-arctic | Greenland | NE | 9.200 | 22.700 | 2.460 | 32.000 | 199.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1784 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | July | 2008-07-11 | high-arctic | Greenland | NE | 15.100 | 26.600 | 1.764 | 41.700 | 177.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1785 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | July | 2008-07-18 | high-arctic | Greenland | NE | 14.300 | 29.900 | 2.086 | 44.200 | 200.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1786 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | July | 2008-07-25 | high-arctic | Greenland | NE | 20.600 | 28.200 | 1.366 | 48.800 | 247.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1787 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-01 | high-arctic | Greenland | NE | 12.500 | 18.000 | 1.443 | 30.500 | 245.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1788 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-08 | high-arctic | Greenland | NE | 9.900 | 14.300 | 1.438 | 24.200 | 92.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1789 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-15 | high-arctic | Greenland | NE | 10.400 | 18.700 | 1.799 | 29.000 | 123.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1790 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-22 | high-arctic | Greenland | NE | 6.400 | 16.900 | 2.653 | 23.300 | 312.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1791 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-24 | high-arctic | Greenland | NE | 15.300 | 20.100 | 1.312 | 35.400 | 157.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1792 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-25 | high-arctic | Greenland | NE | 37.200 | 35.000 | 0.943 | 72.200 | 304.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1793 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-26 | high-arctic | Greenland | NE | 35.200 | 27.400 | 0.778 | 62.600 | 422.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1794 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2008 | early | August | 2008-08-29 | high-arctic | Greenland | NE | 23.700 | 38.900 | 1.645 | 62.600 | 485.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1795 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | May | 2009-05-22 | high-arctic | Greenland | NE | 99.400 | 8.600 | 0.087 | 108.000 | 341.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1796 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | May | 2009-05-23 | high-arctic | Greenland | NE | 90.500 | 9.100 | 0.101 | 99.600 | 267.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1797 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | May | 2009-05-24 | high-arctic | Greenland | NE | 80.300 | 10.900 | 0.136 | 91.300 | 390.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1798 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | May | 2009-05-25 | high-arctic | Greenland | NE | 56.600 | 2.500 | 0.044 | 59.100 | 259.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1799 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | May | 2009-05-30 | high-arctic | Greenland | NE | 39.600 | 2.900 | 0.074 | 42.500 | 275.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1800 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | June | 2009-06-04 | high-arctic | Greenland | NE | 32.000 | 5.000 | 0.157 | 37.000 | 168.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1801 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | June | 2009-06-12 | high-arctic | Greenland | NE | 26.500 | 6.200 | 0.235 | 32.700 | 241.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1802 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | June | 2009-06-18 | high-arctic | Greenland | NE | 22.400 | 1.100 | 0.047 | 23.500 | 174.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1803 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | June | 2009-06-23 | high-arctic | Greenland | NE | 14.700 | 0.400 | 0.026 | 15.100 | 60.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1804 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | June | 2009-06-25 | high-arctic | Greenland | NE | 16.800 | 4.500 | 0.269 | 21.300 | 206.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1805 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | July | 2009-07-09 | high-arctic | Greenland | NE | 58.200 | 15.000 | 0.257 | 73.100 | 229.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1806 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | July | 2009-07-16 | high-arctic | Greenland | NE | 43.500 | 17.500 | 0.401 | 61.000 | 151.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1807 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | July | 2009-07-23 | high-arctic | Greenland | NE | 40.900 | 21.800 | 0.534 | 62.700 | 428.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1808 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | July | 2009-07-26 | high-arctic | Greenland | NE | 61.300 | 12.400 | 0.202 | 73.600 | 984.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1809 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | July | 2009-07-30 | high-arctic | Greenland | NE | 32.700 | 5.600 | 0.172 | 38.400 | 64.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1810 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | August | 2009-08-02 | high-arctic | Greenland | NE | 54.700 | 12.200 | 0.222 | 66.800 | 169.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1811 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | August | 2009-08-04 | high-arctic | Greenland | NE | 38.100 | 8.100 | 0.213 | 46.200 | 104.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1812 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | August | 2009-08-11 | high-arctic | Greenland | NE | 23.900 | 8.900 | 0.372 | 32.800 | 42.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1813 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | August | 2009-08-12 | high-arctic | Greenland | NE | 29.000 | 14.500 | 0.499 | 43.400 | 190.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1814 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | August | 2009-08-13 | high-arctic | Greenland | NE | 28.000 | 3.600 | 0.129 | 31.600 | 151.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1815 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | August | 2009-08-20 | high-arctic | Greenland | NE | 23.400 | 3.500 | 0.149 | 26.900 | 126.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1816 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | August | 2009-08-27 | high-arctic | Greenland | NE | 46.000 | 2.100 | 0.045 | 48.000 | 266.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1817 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | September | 2009-09-04 | high-arctic | Greenland | NE | 33.800 | 12.000 | 0.356 | 45.800 | 330.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1818 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | September | 2009-09-10 | high-arctic | Greenland | NE | 42.900 | 5.100 | 0.120 | 48.000 | 209.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1819 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | September | 2009-09-16 | high-arctic | Greenland | NE | 46.800 | 8.000 | 0.170 | 54.800 | 155.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1820 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | September | 2009-09-20 | high-arctic | Greenland | NE | 53.100 | 10.700 | 0.201 | 63.700 | 325.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1821 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | September | 2009-09-26 | high-arctic | Greenland | NE | 100.300 | 14.200 | 0.141 | 114.500 | 538.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1822 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | October | 2009-10-02 | high-arctic | Greenland | NE | 98.300 | 9.400 | 0.096 | 107.700 | 347.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1823 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | October | 2009-10-06 | high-arctic | Greenland | NE | 94.800 | 16.300 | 0.172 | 111.200 | 519.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1824 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2009 | late | October | 2009-10-10 | high-arctic | Greenland | NE | 82.400 | 3.200 | 0.039 | 85.600 | 330.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1825 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | May | 2010-05-30 | high-arctic | Greenland | NE | 114.700 | 29.900 | 0.260 | 144.500 | 421.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1826 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | May | 2010-05-31 | high-arctic | Greenland | NE | 116.400 | 15.100 | 0.129 | 131.400 | 476.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1827 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | June | 2010-06-08 | high-arctic | Greenland | NE | 59.000 | 18.500 | 0.313 | 77.500 | 603.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1828 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | June | 2010-06-15 | high-arctic | Greenland | NE | 40.300 | 21.600 | 0.537 | 61.900 | 432.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1829 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | June | 2010-06-22 | high-arctic | Greenland | NE | 46.300 | 18.700 | 0.405 | 65.100 | 282.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1830 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | June | 2010-06-29 | high-arctic | Greenland | NE | 29.800 | 13.100 | 0.440 | 42.900 | 313.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1831 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | July | 2010-07-06 | high-arctic | Greenland | NE | 30.900 | 13.600 | 0.441 | 44.500 | 209.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1832 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | July | 2010-07-13 | high-arctic | Greenland | NE | 29.600 | 17.700 | 0.598 | 47.200 | 665.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1833 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | July | 2010-07-20 | high-arctic | Greenland | NE | 33.100 | 32.100 | 0.969 | 65.100 | 1110.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1834 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | July | 2010-07-24 | high-arctic | Greenland | NE | 27.500 | 18.800 | 0.682 | 46.300 | 990.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1835 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | July | 2010-07-27 | high-arctic | Greenland | NE | 73.100 | 43.900 | 0.600 | 117.000 | 1168.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1836 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | August | 2010-08-03 | high-arctic | Greenland | NE | 31.600 | 26.900 | 0.852 | 58.500 | 666.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1837 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | August | 2010-08-11 | high-arctic | Greenland | NE | 26.900 | 30.000 | 1.116 | 57.000 | 742.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1838 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | August | 2010-08-17 | high-arctic | Greenland | NE | 25.800 | 23.700 | 0.917 | 49.500 | 761.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1839 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | August | 2010-08-24 | high-arctic | Greenland | NE | 35.900 | 30.900 | 0.861 | 66.800 | 980.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1840 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | August | 2010-08-31 | high-arctic | Greenland | NE | 39.600 | 29.100 | 0.735 | 68.800 | 839.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1841 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | September | 2010-09-08 | high-arctic | Greenland | NE | 23.700 | 31.300 | 1.319 | 55.100 | 327.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1842 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | September | 2010-09-14 | high-arctic | Greenland | NE | 50.500 | 22.800 | 0.450 | 73.300 | 393.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1843 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | September | 2010-09-20 | high-arctic | Greenland | NE | 35.300 | 11.700 | 0.331 | 47.000 | 300.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1844 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | September | 2010-09-28 | high-arctic | Greenland | NE | 33.600 | 23.300 | 0.695 | 56.900 | 183.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1845 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2010 | late | October | 2010-10-12 | high-arctic | Greenland | NE | 70.600 | 13.800 | 0.196 | 84.400 | 304.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1846 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | May | 2011-05-23 | high-arctic | Greenland | NE | 14.100 | 17.900 | 1.276 | 32.000 | 213.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1847 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | May | 2011-05-25 | high-arctic | Greenland | NE | 9.600 | 37.600 | 3.929 | 47.200 | 136.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1848 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | May | 2011-05-27 | high-arctic | Greenland | NE | 2.500 | 16.300 | 6.442 | 18.800 | 94.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1849 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | May | 2011-05-29 | high-arctic | Greenland | NE | 1.600 | 9.100 | 5.811 | 10.600 | 44.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1850 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | May | 2011-05-31 | high-arctic | Greenland | NE | 18.500 | 15.800 | 0.855 | 34.300 | 149.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1851 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | June | 2011-06-01 | high-arctic | Greenland | NE | 17.700 | 9.500 | 0.537 | 27.200 | 157.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1852 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | June | 2011-06-02 | high-arctic | Greenland | NE | 14.800 | 28.900 | 1.957 | 43.700 | 178.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1853 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | June | 2011-06-08 | high-arctic | Greenland | NE | 16.400 | 11.100 | 0.677 | 27.500 | 156.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1854 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | June | 2011-06-15 | high-arctic | Greenland | NE | 25.600 | 9.500 | 0.369 | 35.100 | 77.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1855 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | June | 2011-06-22 | high-arctic | Greenland | NE | 17.900 | 9.400 | 0.524 | 27.300 | 63.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1856 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | June | 2011-06-29 | high-arctic | Greenland | NE | 17.000 | 8.100 | 0.477 | 25.200 | 69.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1857 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-06 | high-arctic | Greenland | NE | 11.000 | 7.800 | 0.714 | 18.800 | 101.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1858 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-13 | high-arctic | Greenland | NE | 7.400 | 10.100 | 1.377 | 17.500 | 74.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1859 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-14 | high-arctic | Greenland | NE | 7.100 | 4.200 | 0.593 | 11.400 | 86.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1860 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-20 | high-arctic | Greenland | NE | 4.000 | 4.500 | 1.128 | 8.400 | 46.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1861 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-22 | high-arctic | Greenland | NE | 4.900 | 4.800 | 0.987 | 9.700 | 51.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1862 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-23 | high-arctic | Greenland | NE | 6.000 | 4.300 | 0.728 | 10.300 | 71.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1863 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-24 | high-arctic | Greenland | NE | 7.000 | 8.300 | 1.189 | 15.300 | 67.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1864 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | July | 2011-07-27 | high-arctic | Greenland | NE | 9.300 | 4.100 | 0.438 | 13.400 | 283.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1865 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | August | 2011-08-03 | high-arctic | Greenland | NE | 4.100 | 4.900 | 1.218 | 9.000 | 157.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1866 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | August | 2011-08-10 | high-arctic | Greenland | NE | 3.800 | 7.700 | 2.012 | 11.600 | 20.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1867 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | August | 2011-08-17 | high-arctic | Greenland | NE | 52.500 | 13.000 | 0.247 | 65.500 | 114.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1868 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | August | 2011-08-24 | high-arctic | Greenland | NE | 21.100 | 8.700 | 0.414 | 29.800 | 141.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1869 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | August | 2011-08-31 | high-arctic | Greenland | NE | 20.800 | 8.400 | 0.403 | 29.200 | 59.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1870 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | September | 2011-09-07 | high-arctic | Greenland | NE | 10.300 | 15.700 | 1.525 | 25.900 | 26.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1871 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | September | 2011-09-13 | high-arctic | Greenland | NE | 21.300 | 23.900 | 1.118 | 45.200 | 53.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1872 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | September | 2011-09-21 | high-arctic | Greenland | NE | 24.300 | 15.300 | 0.631 | 39.600 | 183.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1873 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | September | 2011-09-28 | high-arctic | Greenland | NE | 37.900 | 61.500 | 1.621 | 99.400 | 161.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1874 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | October | 2011-10-04 | high-arctic | Greenland | NE | 35.700 | 11.300 | 0.316 | 47.000 | 44.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1875 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2011 | late | October | 2011-10-12 | high-arctic | Greenland | NE | 61.100 | 9.500 | 0.156 | 70.700 | 94.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1876 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | June | 2012-06-07 | high-arctic | Greenland | NE | 75.000 | 20.000 | 0.266 | 94.900 | 282.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1877 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | June | 2012-06-10 | high-arctic | Greenland | NE | 45.000 | 13.900 | 0.308 | 58.900 | 200.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1878 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | June | 2012-06-11 | high-arctic | Greenland | NE | 42.800 | 23.700 | 0.555 | 66.600 | 238.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1879 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | June | 2012-06-18 | high-arctic | Greenland | NE | 26.100 | 26.000 | 0.995 | 52.000 | 269.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1880 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | June | 2012-06-25 | high-arctic | Greenland | NE | 17.800 | 36.300 | 2.035 | 54.100 | 214.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1881 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-02 | high-arctic | Greenland | NE | 13.900 | 19.900 | 1.430 | 33.900 | 160.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1882 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-09 | high-arctic | Greenland | NE | 5.900 | 21.600 | 3.650 | 27.500 | 169.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1883 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-12 | high-arctic | Greenland | NE | 19.000 | 21.400 | 1.126 | 40.400 | 225.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1884 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-13 | high-arctic | Greenland | NE | 13.200 | 15.700 | 1.184 | 28.900 | 178.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1885 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-16 | high-arctic | Greenland | NE | 12.800 | 22.200 | 1.735 | 35.000 | 431.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1886 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-23 | high-arctic | Greenland | NE | 7.300 | 21.200 | 2.891 | 28.500 | 362.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1887 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-28 | high-arctic | Greenland | NE | 6.100 | 19.100 | 3.118 | 25.200 | 256.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1888 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | July | 2012-07-30 | high-arctic | Greenland | NE | 8.500 | 26.400 | 3.097 | 34.900 | 356.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1889 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | August | 2012-08-06 | high-arctic | Greenland | NE | 19.000 | 19.100 | 1.008 | 38.100 | 216.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1890 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | August | 2012-08-07 | high-arctic | Greenland | NE | 17.200 | 18.300 | 1.061 | 35.400 | 170.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1891 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | August | 2012-08-08 | high-arctic | Greenland | NE | 17.400 | 24.500 | 1.407 | 41.900 | 89.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1892 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | August | 2012-08-13 | high-arctic | Greenland | NE | 26.000 | 56.000 | 2.152 | 82.000 | 223.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1893 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | August | 2012-08-20 | high-arctic | Greenland | NE | 10.600 | 29.100 | 2.744 | 39.700 | 187.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1894 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | August | 2012-08-27 | high-arctic | Greenland | NE | 29.900 | 31.500 | 1.054 | 61.400 | 241.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1895 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | August | 2012-08-29 | high-arctic | Greenland | NE | 26.500 | 38.400 | 1.447 | 64.900 | 399.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1896 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | September | 2012-09-03 | high-arctic | Greenland | NE | 21.100 | 39.600 | 1.881 | 60.700 | 159.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1897 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | September | 2012-09-10 | high-arctic | Greenland | NE | 12.700 | 33.000 | 2.590 | 45.800 | 162.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1898 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | September | 2012-09-17 | high-arctic | Greenland | NE | 17.900 | 19.800 | 1.104 | 37.700 | 199.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1899 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | September | 2012-09-24 | high-arctic | Greenland | NE | 24.900 | 21.400 | 0.860 | 46.300 | 101.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1900 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | October | 2012-10-01 | high-arctic | Greenland | NE | 44.800 | 20.800 | 0.465 | 65.600 | 94.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1901 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | October | 2012-10-08 | high-arctic | Greenland | NE | 69.500 | 35.600 | 0.512 | 105.100 | 196.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1902 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2012 | late | October | 2012-10-15 | high-arctic | Greenland | NE | 99.000 | 27.600 | 0.279 | 126.700 | 156.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1903 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | May | 2013-05-27 | high-arctic | Greenland | NE | 33.600 | 9.100 | 0.271 | 42.700 | 165.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1904 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | June | 2013-06-03 | high-arctic | Greenland | NE | 23.900 | 1.300 | 0.056 | 25.300 | 161.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1905 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | June | 2013-06-10 | high-arctic | Greenland | NE | 37.100 | 11.400 | 0.306 | 48.500 | 90.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1906 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | June | 2013-06-17 | high-arctic | Greenland | NE | 22.200 | 17.500 | 0.786 | 39.700 | 59.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1907 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | June | 2013-06-24 | high-arctic | Greenland | NE | 20.400 | 10.300 | 0.504 | 30.700 | 79.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1908 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | July | 2013-07-01 | high-arctic | Greenland | NE | 20.600 | 12.700 | 0.619 | 33.300 | 37.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1909 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | July | 2013-07-08 | high-arctic | Greenland | NE | 17.300 | 21.500 | 1.244 | 38.800 | 81.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1910 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | July | 2013-07-10 | high-arctic | Greenland | NE | 18.000 | 18.900 | 1.052 | 36.800 | 48.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1911 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | July | 2013-07-11 | high-arctic | Greenland | NE | 19.500 | 20.400 | 1.046 | 39.900 | 49.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1912 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | July | 2013-07-15 | high-arctic | Greenland | NE | 20.100 | 25.700 | 1.275 | 45.800 | 132.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1913 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | July | 2013-07-22 | high-arctic | Greenland | NE | 18.500 | 22.600 | 1.225 | 41.100 | 50.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1914 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | July | 2013-07-29 | high-arctic | Greenland | NE | 13.900 | 43.400 | 3.129 | 57.300 | 54.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1915 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | August | 2013-08-05 | high-arctic | Greenland | NE | 8.800 | 16.900 | 1.927 | 25.700 | 49.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1916 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | August | 2013-08-12 | high-arctic | Greenland | NE | 4.600 | 16.500 | 3.552 | 21.100 | 159.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1917 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | August | 2013-08-19 | high-arctic | Greenland | NE | 8.600 | 21.900 | 2.562 | 30.500 | 39.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1918 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | August | 2013-08-26 | high-arctic | Greenland | NE | 24.900 | 19.200 | 0.770 | 44.100 | 68.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1919 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | September | 2013-09-02 | high-arctic | Greenland | NE | 54.600 | 29.700 | 0.544 | 84.300 | 75.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1920 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | September | 2013-09-09 | high-arctic | Greenland | NE | 20.500 | 46.600 | 2.270 | 67.100 | 83.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1921 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | September | 2013-09-16 | high-arctic | Greenland | NE | 18.000 | 41.300 | 2.291 | 59.400 | 69.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1922 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | September | 2013-09-23 | high-arctic | Greenland | NE | 21.500 | 22.700 | 1.053 | 44.200 | 76.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1923 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | September | 2013-09-30 | high-arctic | Greenland | NE | 24.400 | 20.000 | 0.822 | 44.400 | 92.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1924 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | October | 2013-10-07 | high-arctic | Greenland | NE | 27.200 | 52.300 | 1.922 | 79.500 | 113.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1925 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2013 | late | October | 2013-10-14 | high-arctic | Greenland | NE | 43.600 | 21.600 | 0.495 | 65.200 | 75.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1926 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | June | 2014-06-05 | high-arctic | Greenland | NE | 112.100 | 146.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
1927 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | June | 2014-06-06 | high-arctic | Greenland | NE | 96.600 | 15.400 | 0.159 | 112.000 | 114.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1928 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | June | 2014-06-09 | high-arctic | Greenland | NE | 84.300 | 14.000 | 0.167 | 98.300 | 119.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1929 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | June | 2014-06-16 | high-arctic | Greenland | NE | 41.300 | 23.100 | 0.559 | 64.300 | 67.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1930 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | June | 2014-06-23 | high-arctic | Greenland | NE | 35.500 | 12.500 | 0.352 | 47.900 | 62.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1931 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | June | 2014-06-30 | high-arctic | Greenland | NE | 28.100 | 19.500 | 0.694 | 47.600 | 87.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1932 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | July | 2014-07-07 | high-arctic | Greenland | NE | 17.700 | 14.000 | 0.792 | 31.700 | 66.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1933 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | July | 2014-07-14 | high-arctic | Greenland | NE | 18.300 | 34.500 | 1.885 | 52.800 | 47.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1934 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | July | 2014-07-16 | high-arctic | Greenland | NE | 23.600 | 14.900 | 0.632 | 38.500 | 125.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1935 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | July | 2014-07-21 | high-arctic | Greenland | NE | 14.900 | 14.200 | 0.956 | 29.100 | 45.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1936 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | July | 2014-07-28 | high-arctic | Greenland | NE | 14.300 | 49.000 | 3.429 | 63.300 | 64.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1937 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | August | 2014-08-04 | high-arctic | Greenland | NE | 8.800 | 27.500 | 3.134 | 36.200 | 70.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1938 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | August | 2014-08-11 | high-arctic | Greenland | NE | 5.800 | 26.100 | 4.466 | 32.000 | 42.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1939 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | August | 2014-08-18 | high-arctic | Greenland | NE | 13.900 | 21.400 | 1.543 | 35.400 | 24.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1940 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | August | 2014-08-25 | high-arctic | Greenland | NE | 23.900 | 14.700 | 0.615 | 38.600 | 39.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1941 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | September | 2014-09-01 | high-arctic | Greenland | NE | 25.300 | 27.500 | 1.085 | 52.800 | 60.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1942 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | September | 2014-09-10 | high-arctic | Greenland | NE | 31.900 | 62.500 | 1.962 | 94.400 | 92.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1943 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | September | 2014-09-15 | high-arctic | Greenland | NE | 38.800 | 51.500 | 1.327 | 90.300 | 96.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1944 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | September | 2014-09-22 | high-arctic | Greenland | NE | 44.900 | 49.800 | 1.109 | 94.800 | 95.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1945 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2014 | late | September | 2014-09-29 | high-arctic | Greenland | NE | 51.700 | 73.500 | 1.421 | 125.200 | 118.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1946 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | June | 2015-06-12 | high-arctic | Greenland | NE | 76.600 | 40.400 | 0.527 | 117.000 | 274.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1947 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | June | 2015-06-19 | high-arctic | Greenland | NE | 56.100 | 20.700 | 0.369 | 76.800 | 120.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1948 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | June | 2015-06-26 | high-arctic | Greenland | NE | 28.500 | 28.000 | 0.982 | 56.400 | 110.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1949 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | July | 2015-07-03 | high-arctic | Greenland | NE | 21.500 | 23.200 | 1.081 | 44.700 | 138.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1950 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | July | 2015-07-10 | high-arctic | Greenland | NE | 19.300 | 29.900 | 1.547 | 49.200 | 52.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1951 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | July | 2015-07-13 | high-arctic | Greenland | NE | 17.900 | 19.300 | 1.076 | 37.300 | 304.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1952 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | July | 2015-07-17 | high-arctic | Greenland | NE | 16.200 | 41.400 | 2.555 | 57.600 | 1302.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1953 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | July | 2015-07-22 | high-arctic | Greenland | NE | 8.700 | 13.700 | 1.569 | 22.500 | 1964.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1954 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | July | 2015-07-31 | high-arctic | Greenland | NE | 10.000 | 7.200 | 0.726 | 17.200 | 102.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1955 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-01 | high-arctic | Greenland | NE | 14.500 | 6.300 | 0.436 | 20.800 | 205.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1956 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-02 | high-arctic | Greenland | NE | 16.900 | 8.300 | 0.492 | 25.300 | 382.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1957 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-02 | high-arctic | Greenland | NE | 14.100 | 16.700 | 1.179 | 30.800 | 11.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1958 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-07 | high-arctic | Greenland | NE | 12.100 | 11.300 | 0.939 | 23.400 | 133.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1959 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-10 | high-arctic | Greenland | NE | 15.600 | 14.600 | 0.939 | 30.200 | 155.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1960 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-12 | high-arctic | Greenland | NE | 22.700 | 15.300 | 0.673 | 38.000 | 632.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1961 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-13 | high-arctic | Greenland | NE | 23.200 | 9.800 | 0.421 | 32.900 | 23.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1962 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-14 | high-arctic | Greenland | NE | 22.600 | 200.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
1963 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-21 | high-arctic | Greenland | NE | 24.500 | 22.200 | 0.907 | 46.600 | 53.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1964 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | August | 2015-08-28 | high-arctic | Greenland | NE | 26.100 | 17.500 | 0.670 | 43.500 | 375.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1965 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | September | 2015-09-04 | high-arctic | Greenland | NE | 20.400 | 6.500 | 0.317 | 26.900 | 223.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1966 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | September | 2015-09-11 | high-arctic | Greenland | NE | 20.300 | 40.300 | 1.985 | 60.600 | 1348.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1967 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | September | 2015-09-18 | high-arctic | Greenland | NE | 23.400 | 12.300 | 0.528 | 35.700 | 101.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1968 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | September | 2015-09-25 | high-arctic | Greenland | NE | 37.600 | 47.300 | 1.257 | 84.900 | 178.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1969 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2015 | late | October | 2015-10-02 | high-arctic | Greenland | NE | 52.000 | 155.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
1970 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-03 | high-arctic | Greenland | NE | 90.200 | 32.600 | 0.361 | 122.700 | 322.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1971 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-04 | high-arctic | Greenland | NE | 69.600 | 11.900 | 0.171 | 81.500 | 201.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1972 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-05 | high-arctic | Greenland | NE | 63.600 | 10.700 | 0.168 | 74.300 | 191.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1973 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-06 | high-arctic | Greenland | NE | 54.900 | 20.700 | 0.377 | 75.600 | 155.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1974 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-07 | high-arctic | Greenland | NE | 42.300 | 9.900 | 0.233 | 52.200 | 139.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1975 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-08 | high-arctic | Greenland | NE | 37.000 | 15.400 | 0.416 | 52.300 | 150.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1976 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-10 | high-arctic | Greenland | NE | 44.900 | 20.300 | 0.451 | 65.200 | 142.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1977 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-13 | high-arctic | Greenland | NE | 33.700 | 14.200 | 0.421 | 47.900 | 73.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1978 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-15 | high-arctic | Greenland | NE | 30.700 | 24.100 | 0.783 | 54.800 | 157.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1979 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-17 | high-arctic | Greenland | NE | 27.000 | 8.900 | 0.329 | 35.900 | 50.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1980 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-20 | high-arctic | Greenland | NE | 23.500 | 18.200 | 0.774 | 41.800 | 84.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1981 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-22 | high-arctic | Greenland | NE | 22.600 | 16.200 | 0.715 | 38.800 | 56.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1982 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-24 | high-arctic | Greenland | NE | 19.400 | 23.200 | 1.198 | 42.500 | 101.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1983 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-27 | high-arctic | Greenland | NE | 17.800 | 18.000 | 1.015 | 35.800 | 84.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1984 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | June | 2016-06-29 | high-arctic | Greenland | NE | 18.100 | 13.300 | 0.735 | 31.300 | 35.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1985 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-01 | high-arctic | Greenland | NE | 18.700 | 22.500 | 1.201 | 41.300 | 67.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1986 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-04 | high-arctic | Greenland | NE | 15.800 | 16.300 | 1.033 | 32.100 | 72.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1987 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-06 | high-arctic | Greenland | NE | 14.700 | 12.200 | 0.830 | 26.800 | 100.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1988 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-08 | high-arctic | Greenland | NE | 17.600 | 11.200 | 0.637 | 28.800 | 46.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1989 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-11 | high-arctic | Greenland | NE | 12.000 | 19.900 | 1.654 | 31.900 | 32.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1990 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-13 | high-arctic | Greenland | NE | 8.800 | 13.500 | 1.527 | 22.400 | 30.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1991 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-15 | high-arctic | Greenland | NE | 6.100 | 14.800 | 2.438 | 20.800 | 26.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1992 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-18 | high-arctic | Greenland | NE | 4.100 | 22.200 | 5.433 | 26.300 | 28.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1993 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-20 | high-arctic | Greenland | NE | 3.300 | 20.100 | 6.092 | 23.400 | 23.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1994 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-22 | high-arctic | Greenland | NE | 4.100 | 18.300 | 4.499 | 22.400 | 39.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1995 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-25 | high-arctic | Greenland | NE | 9.200 | 77.900 | 8.443 | 87.100 | 90.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1996 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-27 | high-arctic | Greenland | NE | 3.200 | 21.100 | 6.507 | 24.400 | 25.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1997 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | July | 2016-07-29 | high-arctic | Greenland | NE | 1.200 | 20.700 | 17.623 | 21.800 | 24.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1998 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-01 | high-arctic | Greenland | NE | 0.300 | 1.800 | 5.684 | 2.200 | 35.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
1999 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-03 | high-arctic | Greenland | NE | 9.100 | 28.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
2000 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-04 | high-arctic | Greenland | NE | 9.500 | 22.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
2001 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-05 | high-arctic | Greenland | NE | 0.600 | 6.100 | 10.278 | 6.700 | 36.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2002 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-06 | high-arctic | Greenland | NE | 15.300 | 20.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
2003 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-07 | high-arctic | Greenland | NE | 11.000 | 5.400 | 0.494 | 16.400 | 49.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2004 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-08 | high-arctic | Greenland | NE | 12.500 | 5.900 | 0.472 | 18.300 | 125.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2005 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-10 | high-arctic | Greenland | NE | 14.500 | 27.000 | 1.858 | 41.500 | 97.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2006 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-12 | high-arctic | Greenland | NE | 15.900 | 23.200 | 1.461 | 39.100 | 112.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2007 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-15 | high-arctic | Greenland | NE | 14.200 | 20.000 | 1.414 | 34.200 | 70.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2008 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-17 | high-arctic | Greenland | NE | 17.200 | 12.400 | 0.719 | 29.600 | 86.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2009 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-19 | high-arctic | Greenland | NE | 12.100 | 25.800 | 2.138 | 37.900 | 64.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2010 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-22 | high-arctic | Greenland | NE | 10.100 | 45.700 | 4.510 | 55.800 | 101.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2011 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-24 | high-arctic | Greenland | NE | 8.500 | 24.600 | 2.905 | 33.100 | 54.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2012 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-26 | high-arctic | Greenland | NE | 8.200 | 25.200 | 3.093 | 33.400 | 48.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2013 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-29 | high-arctic | Greenland | NE | 9.600 | 25.500 | 2.658 | 35.000 | 46.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2014 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | August | 2016-08-31 | high-arctic | Greenland | NE | 12.100 | 19.100 | 1.582 | 31.200 | 135.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2015 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-02 | high-arctic | Greenland | NE | 17.300 | 26.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
2016 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-05 | high-arctic | Greenland | NE | 20.500 | 14.700 | 0.715 | 35.200 | 59.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2017 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-07 | high-arctic | Greenland | NE | 26.100 | 27.800 | 1.065 | 53.900 | 96.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2018 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-09 | high-arctic | Greenland | NE | 28.600 | 4.500 | 0.156 | 33.100 | 51.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2019 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-11 | high-arctic | Greenland | NE | 43.400 | 35.100 | 0.808 | 78.500 | 179.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2020 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-12 | high-arctic | Greenland | NE | 51.200 | 35.200 | 0.687 | 86.400 | 133.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2021 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-16 | high-arctic | Greenland | NE | 40.700 | 16.300 | 0.401 | 57.100 | 61.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2022 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-19 | high-arctic | Greenland | NE | 43.200 | 48.800 | 1.130 | 91.900 | 95.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2023 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-21 | high-arctic | Greenland | NE | 51.600 | 16.000 | 0.309 | 67.600 | 87.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2024 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-23 | high-arctic | Greenland | NE | 50.500 | 59.700 | 1.183 | 110.200 | 174.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2025 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-26 | high-arctic | Greenland | NE | 48.100 | 21.600 | 0.450 | 69.700 | 137.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2026 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-28 | high-arctic | Greenland | NE | 47.400 | 50.200 | 1.059 | 97.600 | 125.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2027 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | September | 2016-09-30 | high-arctic | Greenland | NE | 53.800 | 8.100 | 0.151 | 61.900 | 83.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2028 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | October | 2016-10-03 | high-arctic | Greenland | NE | 56.700 | 58.900 | 1.038 | 115.700 | 139.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2029 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2016 | late | October | 2016-10-05 | high-arctic | Greenland | NE | 59.100 | 51.000 | 0.863 | 110.200 | 138.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2030 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-01 | high-arctic | Greenland | NE | 126.100 | 16.400 | 0.130 | 142.500 | 212.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2031 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-02 | high-arctic | Greenland | NE | 119.800 | 11.000 | 0.091 | 130.800 | 201.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2032 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-03 | high-arctic | Greenland | NE | 86.400 | 24.900 | 0.289 | 111.300 | 144.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2033 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-04 | high-arctic | Greenland | NE | 65.900 | 6.700 | 0.101 | 72.600 | 89.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2034 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-05 | high-arctic | Greenland | NE | 51.100 | 9.600 | 0.188 | 60.700 | 173.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2035 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-07 | high-arctic | Greenland | NE | 60.500 | 6.800 | 0.113 | 67.300 | 246.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2036 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-08 | high-arctic | Greenland | NE | 56.200 | 10.800 | 0.193 | 67.000 | 117.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2037 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-09 | high-arctic | Greenland | NE | 51.200 | 13.800 | 0.270 | 65.100 | 86.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2038 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-10 | high-arctic | Greenland | NE | 43.200 | 5.700 | 0.131 | 48.800 | 86.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2039 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-12 | high-arctic | Greenland | NE | 35.900 | 8.100 | 0.226 | 44.000 | 179.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2040 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-14 | high-arctic | Greenland | NE | 36.500 | 8.300 | 0.227 | 44.800 | 60.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2041 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-16 | high-arctic | Greenland | NE | 33.100 | 8.400 | 0.253 | 41.500 | 54.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2042 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-19 | high-arctic | Greenland | NE | 27.500 | 7.800 | 0.283 | 35.300 | 46.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2043 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-21 | high-arctic | Greenland | NE | 24.000 | 8.100 | 0.336 | 32.100 | 60.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2044 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-23 | high-arctic | Greenland | NE | 26.000 | 0.700 | 0.026 | 26.600 | 117.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2045 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-26 | high-arctic | Greenland | NE | 14.500 | 9.000 | 0.621 | 23.600 | 215.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2046 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-28 | high-arctic | Greenland | NE | 13.500 | 14.500 | 1.070 | 28.100 | 73.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2047 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | June | 2017-06-30 | high-arctic | Greenland | NE | 17.300 | 0.100 | 0.003 | 17.300 | 80.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2048 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-03 | high-arctic | Greenland | NE | 18.300 | 11.000 | 0.605 | 29.300 | 30.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2049 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-05 | high-arctic | Greenland | NE | 14.900 | 9.100 | 0.609 | 24.100 | 159.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2050 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-07 | high-arctic | Greenland | NE | 0.700 | 10.700 | 15.546 | 11.400 | 38.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2051 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-10 | high-arctic | Greenland | NE | 15.800 | 9.000 | 0.571 | 24.800 | 80.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2052 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-12 | high-arctic | Greenland | NE | 20.700 | 6.300 | 0.305 | 27.000 | 54.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2053 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-14 | high-arctic | Greenland | NE | 21.100 | 11.100 | 0.525 | 32.200 | 108.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2054 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-17 | high-arctic | Greenland | NE | 19.300 | 12.700 | 0.656 | 32.000 | 81.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2055 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-19 | high-arctic | Greenland | NE | 18.500 | 7.500 | 0.405 | 26.000 | 46.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2056 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-21 | high-arctic | Greenland | NE | 22.100 | 9.100 | 0.411 | 31.200 | 78.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2057 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-24 | high-arctic | Greenland | NE | 15.700 | 12.400 | 0.794 | 28.100 | 56.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2058 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-26 | high-arctic | Greenland | NE | 13.200 | 12.400 | 0.937 | 25.600 | 113.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2059 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-28 | high-arctic | Greenland | NE | 14.000 | 16.700 | 1.187 | 30.700 | 65.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2060 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | July | 2017-07-31 | high-arctic | Greenland | NE | 15.000 | 12.300 | 0.821 | 27.400 | 679.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2061 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-02 | high-arctic | Greenland | NE | 14.300 | 34.700 | 2.428 | 49.000 | 106.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2062 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-04 | high-arctic | Greenland | NE | 14.100 | 9.400 | 0.665 | 23.500 | 30.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2063 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-06 | high-arctic | Greenland | NE | 18.500 | 20.500 | 1.107 | 39.100 | 107.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2064 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-07 | high-arctic | Greenland | NE | 19.700 | 10.100 | 0.513 | 29.800 | 82.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2065 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-09 | high-arctic | Greenland | NE | 21.200 | 8.900 | 0.421 | 30.200 | 126.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2066 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-11 | high-arctic | Greenland | NE | 23.300 | 18.200 | 0.780 | 41.500 | 92.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2067 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-14 | high-arctic | Greenland | NE | 23.000 | 9.900 | 0.429 | 32.900 | 173.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2068 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-16 | high-arctic | Greenland | NE | 22.400 | 12.100 | 0.539 | 34.500 | 154.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2069 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-18 | high-arctic | Greenland | NE | 26.700 | 11.300 | 0.423 | 38.000 | 44.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2070 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-21 | high-arctic | Greenland | NE | 30.500 | 10.600 | 0.346 | 41.100 | 50.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2071 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-23 | high-arctic | Greenland | NE | 29.800 | 9.300 | 0.311 | 39.000 | 58.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2072 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-25 | high-arctic | Greenland | NE | 22.900 | 9.700 | 0.422 | 32.600 | 88.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2073 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-28 | high-arctic | Greenland | NE | 22.500 | 8.900 | 0.395 | 31.400 | 54.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2074 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | August | 2017-08-30 | high-arctic | Greenland | NE | 23.800 | 21.400 | 0.899 | 45.200 | 97.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2075 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-01 | high-arctic | Greenland | NE | 23.700 | 17.900 | 0.757 | 41.600 | 59.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2076 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-04 | high-arctic | Greenland | NE | 21.500 | 16.800 | 0.780 | 38.300 | 90.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2077 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-06 | high-arctic | Greenland | NE | 35.600 | 10.300 | 0.289 | 45.800 | 144.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2078 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-08 | high-arctic | Greenland | NE | 62.800 | 15.000 | 0.238 | 77.800 | 122.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2079 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-11 | high-arctic | Greenland | NE | 43.100 | 16.400 | 0.379 | 59.500 | 60.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2080 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-13 | high-arctic | Greenland | NE | 46.300 | 12.300 | 0.265 | 58.600 | 225.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2081 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-15 | high-arctic | Greenland | NE | 49.200 | 17.300 | 0.351 | 66.400 | 112.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2082 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-18 | high-arctic | Greenland | NE | 41.800 | 14.500 | 0.346 | 56.300 | 75.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2083 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-20 | high-arctic | Greenland | NE | 45.500 | 15.400 | 0.339 | 61.000 | 71.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2084 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-22 | high-arctic | Greenland | NE | 50.100 | 12.300 | 0.246 | 62.400 | 84.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2085 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-25 | high-arctic | Greenland | NE | 56.600 | 14.500 | 0.257 | 71.100 | 133.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2086 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-27 | high-arctic | Greenland | NE | 64.300 | 20.900 | 0.325 | 85.200 | 100.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2087 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-29 | high-arctic | Greenland | NE | 126.200 | 12.800 | 0.101 | 139.100 | 214.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2088 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | September | 2017-09-30 | high-arctic | Greenland | NE | 110.700 | 8.800 | 0.079 | 119.500 | 339.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2089 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-01 | high-arctic | Greenland | NE | 102.300 | 0.100 | 0.001 | 102.400 | 173.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2090 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-02 | high-arctic | Greenland | NE | 82.500 | 14.400 | 0.175 | 97.000 | 167.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2091 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-04 | high-arctic | Greenland | NE | 121.800 | 15.200 | 0.125 | 137.000 | 148.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2092 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-06 | high-arctic | Greenland | NE | 66.000 | 12.500 | 0.189 | 78.400 | 213.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2093 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-09 | high-arctic | Greenland | NE | 72.300 | 14.300 | 0.198 | 86.600 | 141.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2094 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-11 | high-arctic | Greenland | NE | 75.000 | 10.700 | 0.142 | 85.600 | 111.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2095 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-13 | high-arctic | Greenland | NE | 73.500 | 10.300 | 0.141 | 83.900 | 118.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2096 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-15 | high-arctic | Greenland | NE | 43.400 | 10.200 | 0.236 | 53.700 | 86.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2097 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2017 | late | October | 2017-10-16 | high-arctic | Greenland | NE | 40.300 | 6.900 | 0.172 | 47.200 | 187.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2098 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | June | 2018-06-15 | high-arctic | Greenland | NE | 62.300 | 53.200 | 0.855 | 115.500 | 369.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2099 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | June | 2018-06-20 | high-arctic | Greenland | NE | 155.200 | 63.700 | 0.411 | 218.900 | 259.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2100 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | June | 2018-06-21 | high-arctic | Greenland | NE | 121.400 | 33.500 | 0.276 | 154.900 | 187.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2101 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | June | 2018-06-22 | high-arctic | Greenland | NE | 103.100 | 23.600 | 0.229 | 126.700 | 180.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2102 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | June | 2018-06-25 | high-arctic | Greenland | NE | 79.300 | 20.300 | 0.256 | 99.500 | 597.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2103 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | June | 2018-06-27 | high-arctic | Greenland | NE | 51.400 | 15.600 | 0.304 | 67.000 | 101.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2104 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | June | 2018-06-29 | high-arctic | Greenland | NE | 47.900 | 12.700 | 0.264 | 60.600 | 96.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2105 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-02 | high-arctic | Greenland | NE | 49.300 | 13.400 | 0.272 | 62.700 | 111.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2106 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-04 | high-arctic | Greenland | NE | 42.200 | 14.000 | 0.331 | 56.200 | 99.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2107 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-06 | high-arctic | Greenland | NE | 38.100 | 12.600 | 0.331 | 50.700 | 76.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2108 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-09 | high-arctic | Greenland | NE | 34.300 | 10.900 | 0.318 | 45.200 | 81.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2109 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-11 | high-arctic | Greenland | NE | 30.500 | 11.400 | 0.373 | 41.900 | 64.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2110 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-13 | high-arctic | Greenland | NE | 27.100 | 13.600 | 0.503 | 40.700 | 81.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2111 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-16 | high-arctic | Greenland | NE | 18.700 | 12.100 | 0.643 | 30.800 | 62.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2112 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-18 | high-arctic | Greenland | NE | 22.400 | 10.000 | 0.446 | 32.400 | 71.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2113 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-20 | high-arctic | Greenland | NE | 10.600 | 10.500 | 0.997 | 21.100 | 57.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2114 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-23 | high-arctic | Greenland | NE | 11.800 | 14.400 | 1.224 | 26.100 | 72.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2115 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-25 | high-arctic | Greenland | NE | 11.900 | 12.900 | 1.085 | 24.800 | 62.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2116 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-27 | high-arctic | Greenland | NE | 16.500 | 17.400 | 1.057 | 33.900 | 71.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2117 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | July | 2018-07-30 | high-arctic | Greenland | NE | 13.600 | 10.500 | 0.775 | 24.100 | 38.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2118 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-01 | high-arctic | Greenland | NE | 17.100 | 10.800 | 0.634 | 27.900 | 61.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2119 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-03 | high-arctic | Greenland | NE | 18.300 | 8.100 | 0.445 | 26.400 | 74.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2120 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-06 | high-arctic | Greenland | NE | 15.800 | 9.500 | 0.604 | 25.300 | 61.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2121 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-08 | high-arctic | Greenland | NE | 12.900 | 12.500 | 0.970 | 25.400 | 56.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2122 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-10 | high-arctic | Greenland | NE | 11.800 | 9.800 | 0.834 | 21.600 | 44.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2123 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-13 | high-arctic | Greenland | NE | 11.600 | 9.000 | 0.773 | 20.500 | 55.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2124 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-15 | high-arctic | Greenland | NE | 13.800 | 9.800 | 0.713 | 23.600 | 52.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2125 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-17 | high-arctic | Greenland | NE | 14.200 | 13.100 | 0.927 | 27.300 | 60.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2126 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-20 | high-arctic | Greenland | NE | 13.000 | 10.600 | 0.812 | 23.600 | 52.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2127 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-22 | high-arctic | Greenland | NE | 11.600 | 10.500 | 0.905 | 22.000 | 52.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2128 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-24 | high-arctic | Greenland | NE | 9.300 | 10.300 | 1.106 | 19.600 | 58.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2129 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-27 | high-arctic | Greenland | NE | 10.800 | 53.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
2130 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-29 | high-arctic | Greenland | NE | 12.200 | 11.500 | 0.944 | 23.700 | 220.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2131 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | August | 2018-08-31 | high-arctic | Greenland | NE | 9.000 | 14.900 | 1.661 | 23.900 | 87.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2132 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-03 | high-arctic | Greenland | NE | 15.100 | 18.200 | 1.203 | 33.200 | 73.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2133 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-05 | high-arctic | Greenland | NE | 14.600 | 14.100 | 0.968 | 28.700 | 62.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2134 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-07 | high-arctic | Greenland | NE | 17.500 | 11.400 | 0.649 | 28.900 | 67.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2135 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-10 | high-arctic | Greenland | NE | 27.300 | 15.000 | 0.547 | 42.300 | 85.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2136 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-11 | high-arctic | Greenland | NE | 14.500 | 15.800 | 1.085 | 30.300 | 66.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2137 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-12 | high-arctic | Greenland | NE | 12.900 | 10.700 | 0.832 | 23.600 | 54.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2138 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-13 | high-arctic | Greenland | NE | 31.500 | 14.200 | 0.450 | 45.700 | 86.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2139 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-14 | high-arctic | Greenland | NE | 21.800 | 9.100 | 0.417 | 30.900 | 70.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2140 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-17 | high-arctic | Greenland | NE | 12.400 | 33.200 | 2.680 | 45.600 | 86.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2141 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-19 | high-arctic | Greenland | NE | 21.700 | 11.700 | 0.541 | 33.500 | 69.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2142 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-21 | high-arctic | Greenland | NE | 19.300 | 11.300 | 0.583 | 30.600 | 55.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2143 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-24 | high-arctic | Greenland | NE | 12.300 | 14.900 | 1.204 | 27.200 | 54.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2144 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | September | 2018-09-26 | high-arctic | Greenland | NE | 11.000 | 29.100 | 2.635 | 40.100 | 97.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2145 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | October | 2018-10-01 | high-arctic | Greenland | NE | 17.300 | 35.400 | 2.040 | 52.700 | 121.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2146 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2018 | late | October | 2018-10-03 | high-arctic | Greenland | NE | 14.900 | 22.600 | 1.513 | 37.500 | 103.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2147 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-15 | high-arctic | Greenland | NE | 180.800 | 43.100 | 0.238 | 223.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
2148 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-17 | high-arctic | Greenland | NE | 65.900 | 402.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||||
2149 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-20 | high-arctic | Greenland | NE | 56.400 | 5.700 | 0.101 | 62.100 | 566.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2150 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-22 | high-arctic | Greenland | NE | 45.300 | 9.500 | 0.209 | 54.800 | 353.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2151 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-24 | high-arctic | Greenland | NE | 47.500 | 11.100 | 0.233 | 58.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
2152 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-27 | high-arctic | Greenland | NE | 33.900 | 11.400 | 0.335 | 45.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
2153 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-29 | high-arctic | Greenland | NE | 28.900 | 28.400 | 0.981 | 57.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
2154 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | May | 2019-05-31 | high-arctic | Greenland | NE | 22.800 | 21.600 | 0.946 | 44.500 | 123.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2155 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-03 | high-arctic | Greenland | NE | 22.800 | 23.200 | 1.015 | 46.000 | 158.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2156 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-05 | high-arctic | Greenland | NE | 24.300 | 23.300 | 0.957 | 47.600 | 100.500 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2157 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-07 | high-arctic | Greenland | NE | 21.000 | 20.100 | 0.954 | 41.100 | 53.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2158 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-10 | high-arctic | Greenland | NE | 20.700 | 21.200 | 1.025 | 41.900 | 161.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2159 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-12 | high-arctic | Greenland | NE | 18.700 | 12.000 | 0.639 | 30.700 | 105.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2160 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-14 | high-arctic | Greenland | NE | 17.300 | 11.000 | 0.637 | 28.300 | 123.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2161 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-17 | high-arctic | Greenland | NE | 20.100 | 13.900 | 0.690 | 34.000 | 395.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2162 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-19 | high-arctic | Greenland | NE | 18.100 | 20.900 | 1.156 | 39.000 | 178.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2163 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-21 | high-arctic | Greenland | NE | 16.000 | 18.900 | 1.184 | 34.900 | 202.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2164 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-24 | high-arctic | Greenland | NE | 13.900 | 20.500 | 1.472 | 34.400 | 171.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2165 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-26 | high-arctic | Greenland | NE | 12.300 | 19.800 | 1.606 | 32.200 | 292.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2166 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | June | 2019-06-28 | high-arctic | Greenland | NE | 12.700 | 20.700 | 1.635 | 33.400 | 161.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2167 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-01 | high-arctic | Greenland | NE | 13.800 | 19.100 | 1.390 | 32.900 | 105.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2168 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-03 | high-arctic | Greenland | NE | 14.400 | 29.500 | 2.045 | 44.000 | 229.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2169 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-05 | high-arctic | Greenland | NE | 9.300 | 12.300 | 1.324 | 21.500 | 134.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2170 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-08 | high-arctic | Greenland | NE | 8.600 | 20.400 | 2.381 | 29.000 | 105.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2171 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-10 | high-arctic | Greenland | NE | 11.300 | 19.600 | 1.728 | 30.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
2172 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-12 | high-arctic | Greenland | NE | 8.900 | 22.000 | 2.472 | 30.900 | 66.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2173 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-15 | high-arctic | Greenland | NE | 9.000 | 22.900 | 2.558 | 31.900 | 179.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2174 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-17 | high-arctic | Greenland | NE | 13.500 | 19.000 | 1.401 | 32.500 | 180.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2175 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-18 | high-arctic | Greenland | NE | 14.200 | 19.100 | 1.344 | 33.300 | 67.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2176 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-19 | high-arctic | Greenland | NE | 14.600 | 17.800 | 1.221 | 32.500 | 53.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2177 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-22 | high-arctic | Greenland | NE | 14.000 | 21.800 | 1.551 | 35.800 | 53.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2178 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-24 | high-arctic | Greenland | NE | 9.100 | 21.000 | 2.306 | 30.200 | 105.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2179 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-26 | high-arctic | Greenland | NE | 3.900 | 24.700 | 6.249 | 28.600 | 125.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2180 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-29 | high-arctic | Greenland | NE | 3.700 | 23.200 | 6.302 | 26.900 | 105.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2181 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-30 | high-arctic | Greenland | NE | 8.200 | 21.000 | 2.573 | 29.200 | 292.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2182 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | July | 2019-07-31 | high-arctic | Greenland | NE | 13.000 | 18.900 | 1.449 | 31.900 | 115.300 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2183 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-02 | high-arctic | Greenland | NE | 2.200 | 20.100 | 9.048 | 22.300 | 71.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2184 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-05 | high-arctic | Greenland | NE | 1.500 | 32.700 | 21.666 | 34.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
2185 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-07 | high-arctic | Greenland | NE | 5.600 | 24.100 | 4.292 | 29.700 | 105.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2186 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-09 | high-arctic | Greenland | NE | 7.400 | 26.900 | 3.651 | 34.300 | 53.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2187 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-12 | high-arctic | Greenland | NE | 4.600 | 20.900 | 4.602 | 25.500 | 182.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2188 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-14 | high-arctic | Greenland | NE | 5.800 | 21.100 | 3.652 | 26.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | ||||
2189 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-16 | high-arctic | Greenland | NE | 8.300 | 23.500 | 2.846 | 31.800 | 128.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2190 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-19 | high-arctic | Greenland | NE | 8.300 | 22.500 | 2.704 | 30.800 | 53.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2191 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-21 | high-arctic | Greenland | NE | 10.300 | 21.000 | 2.029 | 31.300 | 412.700 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2192 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-23 | high-arctic | Greenland | NE | 9.700 | 23.500 | 2.432 | 33.100 | 239.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2193 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-26 | high-arctic | Greenland | NE | 10.000 | 22.200 | 2.211 | 32.200 | 178.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2194 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-28 | high-arctic | Greenland | NE | 35.800 | 17.700 | 0.494 | 53.400 | 510.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2195 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | August | 2019-08-30 | high-arctic | Greenland | NE | 30.600 | 22.800 | 0.745 | 53.400 | 148.200 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2196 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-02 | high-arctic | Greenland | NE | 114.000 | 33.800 | 0.297 | 147.800 | 212.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2197 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-04 | high-arctic | Greenland | NE | 59.800 | 24.100 | 0.402 | 83.900 | 174.100 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2198 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-06 | high-arctic | Greenland | NE | 53.400 | 21.700 | 0.407 | 75.100 | 264.900 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2199 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-09 | high-arctic | Greenland | NE | 56.000 | 45.100 | 0.805 | 101.100 | 485.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2200 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-11 | high-arctic | Greenland | NE | 44.900 | 21.300 | 0.475 | 66.200 | 448.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2201 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-13 | high-arctic | Greenland | NE | 63.200 | 29.800 | 0.472 | 93.100 | 322.800 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2202 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-16 | high-arctic | Greenland | NE | 60.300 | 25.100 | 0.416 | 85.300 | 251.000 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2203 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-18 | high-arctic | Greenland | NE | 49.600 | 18.300 | 0.370 | 68.000 | 158.600 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 | |||
2204 | Greenland Ecosystem Monitoring (GEM) database | doi:10.17897/1GTF-SX86 | Zackenberg River | 74.4699 | -20.5742 | GEMZACKENBERG_2008-2019 | 2019 | late | September | 2019-09-20 | high-arctic | Greenland | NE | 55.600 | 32.600 | 0.585 | 88.200 | 168.400 | -7.200 | -5.800 | 242 | 97 | -9.504 | 238 | 8.700 | -23.200 | Subzone C | 4 | 4 |
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