Timmerman, Amanda H V; Hamme, Roberta C (2020): Productivity rates from 2014-2017 integrated to either the mixed layer or the euphotic depth in the NE subarctic Pacific [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.922421, In: Timmerman, Amanda H V; Hamme, Roberta C; Giesbrecht, Karina E; Emerson, Steven R (2020): Marine productivity rate estimates and associated raw dissolved gas and hydrographic measurements in the NE subarctic Pacific [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.923370
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Related to:
Timmerman, Amanda H V; Hamme, Roberta C (2021): Consistent Relationships Among Productivity Rate Methods in the NE Subarctic Pacific. Global Biogeochemical Cycles, 35, e2020GB006721, https://doi.org/10.1029/2020GB006721
Coverage:
Median Latitude: 49.254000 * Median Longitude: -134.358455 * South-bound Latitude: 48.251000 * West-bound Longitude: -145.003000 * North-bound Latitude: 50.000000 * East-bound Longitude: -126.249000
Date/Time Start: 2014-08-22T13:06:00 * Date/Time End: 2017-06-13T11:34:00
Event(s):
18DD20140819_P4 * Latitude: 48.649000 * Longitude: -126.665000 * Date/Time: 2014-08-22T13:06:00 * Location: Northeast Pacific * Campaign: 18DD20140819 * Basis: John P. Tully * Method/Device: Multiple investigations (MULT)
18DD20140819_P12 * Latitude: 48.970000 * Longitude: -130.666000 * Date/Time: 2014-08-24T06:22:00 * Location: Northeast Pacific * Campaign: 18DD20140819 * Basis: John P. Tully * Method/Device: Multiple investigations (MULT)
18DD20140819_P16 * Latitude: 49.284000 * Longitude: -134.671000 * Date/Time: 2014-08-25T11:29:00 * Location: Northeast Pacific * Campaign: 18DD20140819 * Basis: John P. Tully * Method/Device: Multiple investigations (MULT)
Parameter(s):
| # | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
|---|---|---|---|---|---|---|
| 1 | Event label | Event | Timmerman, Amanda H V | |||
| 2 | DATE/TIME | Date/Time | Timmerman, Amanda H V | Geocode | ||
| 3 | LATITUDE | Latitude | Timmerman, Amanda H V | Geocode | ||
| 4 | LONGITUDE | Longitude | Timmerman, Amanda H V | Geocode | ||
| 5 | Campaign | Campaign | Timmerman, Amanda H V | |||
| 6 | Identification | ID | Timmerman, Amanda H V | station | ||
| 7 | Identification | ID | Timmerman, Amanda H V | event | ||
| 8 | Temperature, water | Temp | °C | Timmerman, Amanda H V | average ML | |
| 9 | Salinity | Sal | Timmerman, Amanda H V | average of ML, PSS-78 | ||
| 10 | Mixed layer depth | MLD | m | Timmerman, Amanda H V | ||
| 11 | Depth of the euphotic zone | z(eu) | m | Timmerman, Amanda H V | ||
| 12 | Transfer velocity, oxygen | k O2 | m/day | Timmerman, Amanda H V | used to calculate O2/Ar-NCP | |
| 13 | Biological oxygen saturation anomalies | Delta O2/Ar | % | Timmerman, Amanda H V | average, for all sampled depths within the mixed layer | |
| 14 | Net community production of carbon | NCP C | mmol/m2/day | Timmerman, Amanda H V | O2/Ar; within the mixed layer calculated from O2/Ar | |
| 15 | Net community production of carbon, standard deviation | NCP C std dev | ± | Timmerman, Amanda H V | for O2/Ar-NCP | |
| 16 | Gross primary production of carbon | GPP C | mmol/m2/day | Timmerman, Amanda H V | 17Δ, within the mixed layer based on the triple oxygen isotope method. This was converted from O2 to C units by dividing by 1.25 | |
| 17 | Gross primary production of carbon, standard deviation | GPP C std dev | ± | Timmerman, Amanda H V | 17Δ-GPP | |
| 18 | Gross primary production of carbon | GPP C | mmol/m2/day | Timmerman, Amanda H V | 18O-ML; calculated from 18O incubations integrated to the base of the mixed layer. This was converted from O2 to C units by dividing by 1.25 | |
| 19 | Gross primary production of carbon, standard deviation | GPP C std dev | ± | Timmerman, Amanda H V | 18O-ML; calculated from 18O incubations integrated to the base of the mixed layer | |
| 20 | Gross primary production of carbon | GPP C | mmol/m2/day | Timmerman, Amanda H V | 18O-eu; calculated from 18O incubations integrated to the base of the euphotic zone | |
| 21 | Gross primary production of carbon, standard deviation | GPP C std dev | ± | Timmerman, Amanda H V | 18O-eu; calculated from 18O incubations integrated to the base of the euphotic zone | |
| 22 | Carbon, total, particulate/Nitrogen, total, particulate ratio | TPC/TPN | Timmerman, Amanda H V | averaged over all incubations at that station | ||
| 23 | Primary production of carbon | PP C | mmol/m2/day | Timmerman, Amanda H V | C13-ML; calculated from C13 incubations integrated to the base of the mixed layer | |
| 24 | Primary production of carbon, standard deviation | PP C std dev | ± | Timmerman, Amanda H V | C13-ML; calculated from C13 incubations integrated to the base of the mixed layer | |
| 25 | Primary production of carbon | PP C | mmol/m2/day | Timmerman, Amanda H V | C13-eu; calculated from C13 incubations integrated to the base of the euphotic zone | |
| 26 | Primary production of carbon, standard deviation | PP C std dev | ± | Timmerman, Amanda H V | C13-eu; calculated from C13 incubations integrated to the base of the euphotic zone | |
| 27 | Primary production of carbon | PP C | mmol/m2/day | Timmerman, Amanda H V | 15NO3-ML; new; calculated from 15NO3 incubations integrated to the base of the mixed layer; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. | |
| 28 | Primary production of carbon, standard deviation | PP C std dev | ± | Timmerman, Amanda H V | 15NO3-ML; new; calculated from 15NO3 incubations integrated to the base of the mixed layer; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. | |
| 29 | Primary production of carbon | PP C | mmol/m2/day | Timmerman, Amanda H V | 15NO3-eu; new; calculated from 15NO3 incubations integrated to the base of the euphotic zone; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. | |
| 30 | Primary production of carbon, standard deviation | PP C std dev | ± | Timmerman, Amanda H V | 15NO3-eu; new; calculated from 15NO3 incubations integrated to the base of the euphotic zone; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. | |
| 31 | Primary production of carbon | PP C | mmol/m2/day | Timmerman, Amanda H V | 15NH4-ML; recycled; calculated from 15NH4 incubations integrated to the base of the mixed layer; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. | |
| 32 | Primary production of carbon, standard deviation | PP C std dev | ± | Timmerman, Amanda H V | 15NH4-ML; recycled; calculated from 15NH4 incubations integrated to the base of the mixed layer; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. | |
| 33 | Primary production of carbon | PP C | mmol/m2/day | Timmerman, Amanda H V | 15NH4-eu; recycled; calculated from 15NH4 incubations integrated to the base of the euphotic zone; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. | |
| 34 | Primary production of carbon, standard deviation | PP C std dev | ± | Timmerman, Amanda H V | 15NH4-eu; recycled; calculated from 15NH4 incubations integrated to the base of the euphotic zone; Each depth was converted from N to C units by multiplying by the average TPC/TPN at each station then integrating. |
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
904 data points