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Duguay, Claude R; Soliman, Aiman; Hachem, Sonia; Saunders, William (2014): Circumpolar and regional Land Surface Temperature (Version 2) with links to geotiff images (2007-01 to 2013-12) [dataset]. University of Waterloo, Canada, PANGAEA, https://doi.org/10.1594/PANGAEA.836729

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Previous version:
Duguay, Claude R; Soliman, Aiman; Hachem, Sonia; Saunders, William (2012): Circumpolar and regional Land Surface Temperature (LST), version 1, with links to geotiff images and NetCDF files (2007-2010). University of Waterloo, Canada, PANGAEA, https://doi.org/10.1594/PANGAEA.775962
Further details:
Hachem, Sonia; Allard, Michel; Duguay, Claude R (2009): Using the MODIS land surface temperature product for mapping permafrost: an application to northern Québec and Labrador, Canada. Permafrost and Periglacial Processes, 20(4), 407-416, https://doi.org/10.1002/ppp.672
Hachem, Sonia; Duguay, Claude R; Allard, Michel (2011): Comparison of MODIS-derived land surface temperatures with near-surface soil and air temperature measurements in continuous permafrost terrain. The Cryosphere Discussion, 5, 1583-1625, https://doi.org/10.5194/tcd-5-1583-2011
Langer, Moritz; Westermann, Sebastian; Boike, Julia (2010): Spatial and temporal variations of summer surface temperatures of wet polygonal tundra in Siberia - implications for MODIS LST based permafrost monitoring. Remote Sensing of Environment, 114(9), 2059-2069, https://doi.org/10.1016/j.rse.2010.04.012
Soliman, Aiman; Duguay, Claude R; Saunders, William; Hachem, Sonia (2012): Pan-Arctic Land Surface Temperature from MODIS and AATSR: Product Development and Intercomparison. Remote Sensing, 4(12), 3833-3856, https://doi.org/10.3390/rs4123833
Westermann, Sebastian; Langer, Moritz; Boike, Julia (2012): Systematic bias of average winter-time land surface temperatures inferred from MODIS at a site on Svalbard, Norway. Remote Sensing of Environment, 118, 162-167, https://doi.org/10.1016/j.rse.2011.10.025
Project(s):
Changing Permafrost in the Arctic and its Global Effects in the 21st Century (PAGE21)
ESA Data User Element - Permafrost (ESA-DUE-Permafrost)
Funding:
Seventh Framework Programme (FP7), grant/award no. 282700: Changing Permafrost in the Arctic and its Global Effects in the 21st Century
Coverage:
Median Latitude: 67.558333 * Median Longitude: 151.600000 * South-bound Latitude: 61.700000 * West-bound Longitude: 78.500000 * North-bound Latitude: 73.000000 * East-bound Longitude: -128.500000
Event(s):
DUEPermafrost_Alaska  * Latitude: 69.600000 * Longitude: -148.600000 * Method/Device: Satellite remote sensing (SAT) * Comment: position describes the center of area
DUEPermafrost_Central_Yakutia  * Latitude: 61.700000 * Longitude: 130.800000 * Method/Device: Satellite remote sensing (SAT) * Comment: position describes the center of area
DUEPermafrost_Laptev_Sea  * Latitude: 71.250000 * Longitude: 131.000000 * Method/Device: Satellite remote sensing (SAT) * Comment: position describes the center of area
Comment:
This dataset is part of the ESA Data User Element (DUE) Permafrost Full Product Set (doi:10.1594/PANGAEA.780111).
The Land Surface Temperature (LST) products and services identified by users for the pan-Arctic (25 km resolution) scales include weekly and monthly averages from 2000 to 2010 from which annual averages can also be calculated. The LST processing integrates the LST level 2 products from MODIS and AATSR distributed by NASA and ESA, respectively. Post-processing functions supply University Waterloo-level-3 weekly and monthly LST products for regional (1 km) and pan-Arctic (25 km) scales. Thepan-Arctic product, with a spatial resolution of 25 km, is produced by spatial averaging of 1-km observations.
MOD11_L2 and MYD11_L2 LST (Version 5 from NASA Terra and Aqua satellites) and ATS_NR_2P (from ESA Envisat satellite) products at 1 km resolution are used as input data to generate pan-Arctic and regional products. The original geo-located LST observations are characterized by an irregular distribution based on the satellite orbits. The Northern Hemisphere EASE-Grid Lambert Equal Area Azimuthal projection with a sphere datum (with a radius of 6371.228 km) was selected as the standard projection for the operational pan-Arctic and regional products. Original MODIS and AATSR LST level 2 observations are projected using the EASE-Grid coordinate system and interpolated to a regular EASE-Grid with 1 km spacing using triangulation. The EASE-Grid projection was chosen since this is the system adopted by the GlobSnow project and for most snow and ice products distributed by NSIDC. Local time is calculated using UTC acquisition time and longitude. UTC is extracted from ADS information for AATSR data and from the file name of MODIS level 2 (Terra and Aqua) products, yielding a temporal accuracy of ± 15 minutes, which is found to be sufficient for weekly and monthly products.
Temporal aggregation is applied to both 1 km and 25 km data to produce weekly and monthly LST averages. Interpolated LST observations on a 1 km grid (regional product) and 25 km (pan-Arctic product) are aggregated into two bins; a day-time bin (from 6 a.m. to 6 p.m. local time) and a night-time bin (6 p.m. to 6 a.m. of the next day) within the aggregation period (week or month). The definition of day and night does not take in account the notion of polar darkness and does not consider the seasonal changes of day length. It was defined to force final products to have an equal number of observations around the day. A mid range average is calculated by taking the day-time and night-time average to avoid daily diurnal fluctuations during the week or month of interest.
Known issues: the LST data are all measured during clear-sky conditions. The influence of clouds on surface temperature (e.g. temperature warmer under clouds in winter) is not reflected in the LSTs. This makes the LST colder than in reality due to the isolative effect of clouds.
Each LST file contains 6 bands: the datafiles 001 to 006, bands 001, 003, 005 are the LST averages and bands 002, 004, 006 are supplementary quality information:
Bands with averages of LST:
001 - Weekly or monthly aggregated average LST product based on equal weight of average day-time (003) and night-time (005) LST values.
003 - Average day-time weekly or monthly LST based on all cloud free observations falling during 6 a.m. to 6 p.m. local time.
005 - Average night-time weekly or monthly LST based on all cloud free observations falling into each pixel cell during 6 p.m. to 6 a.m. local time.
Supplementary information bands:
002 - Number of LST cloud free observations falling into each pixel for the aggregation (weekly or monthly) period. Associated with LST file 001.
004 - Number of LST cloud free observations during day-time (6 a.m. to 6 p.m. local time) falling into each pixel. Associated with LST file 003.
006 - Number of LST cloud free observations during night-time (6 p.m. to 6 a.m. local time) falling into each pixel. Associated with LST file 005.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEvent
Date/time startDate/time startDuguay, Claude R
Date/time endDate/time endDuguay, Claude R
Uniform resource locator/link to fileURL fileDuguay, Claude RGeoTIFF, zipped
File contentContentDuguay, Claude R
File sizeFile sizekByteDuguay, Claude R
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
450 data points

Data

Download dataset as tab-delimited text — use the following character encoding:


Event
Date/time start
Date/time end
URL file
Content
File size [kByte]
DUEPermafrost_Alaska 2007-01-012013-12-31MODIS_ALASKA_Monthly_2007-2013.zipMODIS, Alaska, monthly, 2007-2013517810
DUEPermafrost_Laptev_Sea 2007-01-012013-12-31MODIS_LAPTEV_Monthly_2007-2013.zipMODIS, Laptev Sea, monthly, 2007-20131227110
DUEPermafrost_Lena_Delta 2007-01-012013-12-31MODIS_LENA_Monthly_2007-2013.zipMODIS, Lena Delta, monthly, 2007-2013170483
DUEPermafrost_Mackenzie 2007-01-012013-12-31MODIS_MACKENZIE_Monthly_2007-2013.zipMODIS, Mackenzie, monthly, 2007-20132286155
DUEPermafrost_Ob_Estuary 2007-01-012013-12-31MODIS_OB-ESTUARY_Monthly_2007-2013.zipMODIS, Ob Estuary, monthly, 2007-2013800337
DUEPermafrost_panarctic 2000-01-012013-12-31MODIS_PAN-ARC_Monthly_2000-2013.zipMODIS, panarctic, monthly, 2000-2013122676
DUEPermafrost_Alaska2007-01-012007-12-31MODIS_LST_Alaska_weekly_2007.zipMODIS, LST, Alaska, weekly, 20071156602
DUEPermafrost_Alaska2008-01-012008-12-31MODIS_LST_Alaska_weekly_2008.zipMODIS, LST, Alaska, weekly, 20081162459
DUEPermafrost_Alaska2009-01-012009-12-31MODIS_LST_Alaska_weekly_2009.zipMODIS, LST, Alaska, weekly, 20091197567
DUEPermafrost_Alaska2010-01-012010-12-31MODIS_LST_Alaska_weekly_2010.zipMODIS, LST, Alaska, weekly, 20101591116
DUEPermafrost_Alaska2011-01-012011-12-31MODIS_LST_Alaska_weekly_2011.zipMODIS, LST, Alaska, weekly, 20112849962
DUEPermafrost_Alaska2012-01-012012-12-31MODIS_LST_Alaska_weekly_2012.zipMODIS, LST, Alaska, weekly, 20122836775
DUEPermafrost_Alaska2013-01-012013-12-31MODIS_LST_Alaska_weekly_2013.zipMODIS, LST, Alaska, weekly, 20132846455
DUEPermafrost_Central_Yakutia 2007-01-012010-12-31MODIS_LST_Central_Yakutia_weekly_2007-2010.zipMODIS, LST, Central, Yakutia, weekly, 2007-20101629502
DUEPermafrost_Central_Yakutia2011-01-012013-12-31MODIS_LST_Central_Yakutia_weekly_2011-2013.zipMODIS, LST, Central, Yakutia, weekly, 2011-20132765266
DUEPermafrost_Laptev_Sea2007-01-012007-04-30MODIS_LST_Laptev_Sea_weekly_2007_Jan-Apr.zipMODIS, LST, Laptev, Sea, weekly, 2007, Jan-Apr1603643
DUEPermafrost_Laptev_Sea2007-05-012007-08-31MODIS_LST_Laptev_Sea_weekly_2007_May-Aug.zipMODIS, LST, Laptev, Sea, weekly, 2007, May-Aug1536041
DUEPermafrost_Laptev_Sea2007-09-012007-12-31MODIS_LST_Laptev_Sea_weekly_2007_Sep-Dec.zipMODIS, LST, Laptev, Sea, weekly, 2007, Sep-Dec1498414
DUEPermafrost_Laptev_Sea2008-01-012008-04-30MODIS_LST_Laptev_Sea_weekly_2008_Jan-Apr.zipMODIS, LST, Laptev, Sea, weekly, 2008, Jan-Apr1610388
DUEPermafrost_Laptev_Sea2008-05-012008-08-31MODIS_LST_Laptev_Sea_weekly_2008_May-Aug.zipMODIS, LST, Laptev, Sea, weekly, 2008, May-Aug1531160
DUEPermafrost_Laptev_Sea2008-09-012009-12-31MODIS_LST_Laptev_Sea_weekly_2008_Sep-Dec.zipMODIS, LST, Laptev, Sea, weekly, 2008, Sep-Dec1534713
DUEPermafrost_Laptev_Sea2009-01-012009-04-30MODIS_LST_Laptev_Sea_weekly_2009_Jan-Apr.zipMODIS, LST, Laptev, Sea, weekly, 2009, Jan-Apr1620639
DUEPermafrost_Laptev_Sea2009-05-012009-08-31MODIS_LST_Laptev_Sea_weekly_2009_May-Aug.zipMODIS, LST, Laptev, Sea, weekly, 2009, May-Aug1530751
DUEPermafrost_Laptev_Sea2009-09-012009-12-31MODIS_LST_Laptev_Sea_weekly_2009_Sep-Dec.zipMODIS, LST, Laptev, Sea, weekly, 2009, Sep-Dec1543585
DUEPermafrost_Laptev_Sea2010-01-012010-04-30MODIS_LST_Laptev_Sea_weekly_2010_Jan-Apr.zipMODIS, LST, Laptev, Sea, weekly, 2010, Jan-Apr1609000
DUEPermafrost_Laptev_Sea2010-05-012010-08-31MODIS_LST_Laptev_Sea_weekly_2010_May-Aug.zipMODIS, LST, Laptev, Sea, weekly, 2010, May-Aug1536069
DUEPermafrost_Laptev_Sea2010-09-012010-12-31MODIS_LST_Laptev_Sea_weekly_2010_Sep-Dec.zipMODIS, LST, Laptev, Sea, weekly, 2010, Sep-Dec1508675
DUEPermafrost_Laptev_Sea2011-01-012011-06-30MODIS_LST_Laptev_Sea_weekly_2011_Jan-Jun.zipMODIS, LST, Laptev, Sea, weekly, 2011, Jan-Jun2360174
DUEPermafrost_Laptev_Sea2011-07-012011-12-31MODIS_LST_Laptev_Sea_weekly_2011_Jul-Dec.zipMODIS, LST, Laptev, Sea, weekly, 2011, Jul-Dec2299876
DUEPermafrost_Laptev_Sea2012-01-012012-06-30MODIS_LST_Laptev_Sea_weekly_2012_Jan-Jun.zipMODIS, LST, Laptev, Sea, weekly, 2012, Jan-Jun2379056
DUEPermafrost_Laptev_Sea2012-07-012012-12-31MODIS_LST_Laptev_Sea_weekly_2012_Jul-Dec.zipMODIS, LST, Laptev, Sea, weekly, 2012, Jul-Dec2314653
DUEPermafrost_Laptev_Sea2013-01-012013-06-30MODIS_LST_Laptev_Sea_weekly_2013_Jan-Jun.zipMODIS, LST, Laptev, Sea, weekly, 2013, Jan-Jun2379961
DUEPermafrost_Laptev_Sea2013-07-012013-12-31MODIS_LST_Laptev_Sea_weekly_2013_Jul-Dec.zipMODIS, LST, Laptev, Sea, weekly, 2013, Jul-Dec2270919
DUEPermafrost_Mackenzie2007-01-012007-02-28MODIS_LST_Mackenzie_weekly_2007_Jan-Feb.zipMODIS, LST, Mackenzie, weekly, 2007, Jan-Feb1524127
DUEPermafrost_Mackenzie2007-06-012007-08-31MODIS_LST_Mackenzie_weekly_2007_Jul-Aug.zipMODIS, LST, Mackenzie, weekly, 2007, Jul-Aug1540563
DUEPermafrost_Mackenzie2007-05-012007-06-30MODIS_LST_Mackenzie_weekly_2007_Mai-June.zipMODIS, LST, Mackenzie, weekly, 2007, May-Jun1493318
DUEPermafrost_Mackenzie2007-03-012007-04-30MODIS_LST_Mackenzie_weekly_2007_Mar-Apr.zipMODIS, LST, Mackenzie, weekly, 2007, Mar-Apr1555609
DUEPermafrost_Mackenzie2007-11-012007-12-31MODIS_LST_Mackenzie_weekly_2007_Nov-Dez.zipMODIS, LST, Mackenzie, weekly, 2007, Nov-Dec1521588
DUEPermafrost_Mackenzie2007-09-012007-10-31MODIS_LST_Mackenzie_weekly_2007_Sep-Oct.zipMODIS, LST, Mackenzie, weekly, 2007, Sep-Oct1380105
DUEPermafrost_Mackenzie2008-01-012008-02-28MODIS_LST_Mackenzie_weekly_2008_Jan-Feb.zipMODIS, LST, Mackenzie, weekly, 2008, Jan-Feb1561532
DUEPermafrost_Mackenzie2008-06-012008-08-30MODIS_LST_Mackenzie_weekly_2008_Jul-Aug.zipMODIS, LST, Mackenzie, weekly, 2008, Jul-Aug1472584
DUEPermafrost_Mackenzie2008-05-012008-06-30MODIS_LST_Mackenzie_weekly_2008_Mai-Jun.zipMODIS, LST, Mackenzie, weekly, 2008, May-Jun1502653
DUEPermafrost_Mackenzie2008-03-012008-04-30MODIS_LST_Mackenzie_weekly_2008_Mar-Apr.zipMODIS, LST, Mackenzie, weekly, 2008, Mar-Apr1546242
DUEPermafrost_Mackenzie2008-11-012008-12-31MODIS_LST_Mackenzie_weekly_2008_Nov-Dec.zipMODIS, LST, Mackenzie, weekly, 2008, Nov-Dec1550192
DUEPermafrost_Mackenzie2008-09-012008-10-31MODIS_LST_Mackenzie_weekly_2008_Sep-Oct.zipMODIS, LST, Mackenzie, weekly, 2008, Sep-Oct1423212
DUEPermafrost_Mackenzie2009-01-012009-02-28MODIS_LST_Mackenzie_weekly_2009_Jan-Feb.zipMODIS, LST, Mackenzie, weekly, 2009, Jan-Feb1551889
DUEPermafrost_Mackenzie2009-06-012009-08-30MODIS_LST_Mackenzie_weekly_2009_Jul-Aug.zipMODIS, LST, Mackenzie, weekly, 2009, Jul-Aug1514985
DUEPermafrost_Mackenzie2009-03-012009-04-30MODIS_LST_Mackenzie_weekly_2009_Mar-Apr.zipMODIS, LST, Mackenzie, weekly, 2009, Mar-Apr1567183
DUEPermafrost_Mackenzie2009-05-012009-06-30MODIS_LST_Mackenzie_weekly_2009_May-Jun.zipMODIS, LST, Mackenzie, weekly, 2009, May-Jun1488049
DUEPermafrost_Mackenzie2009-11-012009-12-31MODIS_LST_Mackenzie_weekly_2009_Nov-Dec.zipMODIS, LST, Mackenzie, weekly, 2009, Nov-Dec1565757
DUEPermafrost_Mackenzie2009-09-012009-10-31MODIS_LST_Mackenzie_weekly_2009_Sep-Oct.zipMODIS, LST, Mackenzie, weekly, 2009, Sep-Oct1402703
DUEPermafrost_Mackenzie2010-01-012010-02-28MODIS_LST_Mackenzie_weekly_2010_Jan-Feb.zipMODIS, LST, Mackenzie, weekly, 2010, Jan-Feb1517906
DUEPermafrost_Mackenzie2010-06-012010-08-30MODIS_LST_Mackenzie_weekly_2010_Jul-Aug.zipMODIS, LST, Mackenzie, weekly, 2010, Jul-Aug1532709
DUEPermafrost_Mackenzie2010-03-012010-04-30MODIS_LST_Mackenzie_weekly_2010_Mar-Apr.zipMODIS, LST, Mackenzie, weekly, 2010, Mar-Apr1549287
DUEPermafrost_Mackenzie2010-05-012010-06-30MODIS_LST_Mackenzie_weekly_2010_May-Jun.zipMODIS, LST, Mackenzie, weekly, 2010, May-Jun1504817
DUEPermafrost_Mackenzie2010-11-012010-12-31MODIS_LST_Mackenzie_weekly_2010_Nov-Dec.zipMODIS, LST, Mackenzie, weekly, 2010, Nov-Dec1301401
DUEPermafrost_Mackenzie2010-09-012010-10-31MODIS_LST_Mackenzie_weekly_2010_Sep-Oct.zipMODIS, LST, Mackenzie, weekly, 2010, Sep-Oct1204763
DUEPermafrost_Mackenzie2011-01-012011-02-28MODIS_LST_Mackenzie_weekly_2011_Jan-Feb.zipMODIS, LST, Mackenzie, weekly, 2011, Jan-Feb1301866
DUEPermafrost_Mackenzie2011-06-012011-08-30MODIS_LST_Mackenzie_weekly_2011_Jul-Aug.zipMODIS, LST, Mackenzie, weekly, 2011, Jul-Aug1237114
DUEPermafrost_Mackenzie2011-03-012011-04-30MODIS_LST_Mackenzie_weekly_2011_Mar-Apr.zipMODIS, LST, Mackenzie, weekly, 2011, Mar-Apr1326549
DUEPermafrost_Mackenzie2011-05-012011-06-30MODIS_LST_Mackenzie_weekly_2011_May-Jun.zipMODIS, LST, Mackenzie, weekly, 2011, May-Jun1265225
DUEPermafrost_Mackenzie2011-11-012011-12-31MODIS_LST_Mackenzie_weekly_2011_Nov-Dec.zipMODIS, LST, Mackenzie, weekly, 2011, Nov-Dec1284870
DUEPermafrost_Mackenzie2011-09-012011-10-31MODIS_LST_Mackenzie_weekly_2011_Sep-Oct.zipMODIS, LST, Mackenzie, weekly, 2011, Sep-Oct1174685
DUEPermafrost_Mackenzie2012-01-012012-02-28MODIS_LST_Mackenzie_weekly_2012_Jan-Feb.zipMODIS, LST, Mackenzie, weekly, 2012, Jan-Feb1286509
DUEPermafrost_Mackenzie2012-06-012012-08-30MODIS_LST_Mackenzie_weekly_2012_Jul-Aug.zipMODIS, LST, Mackenzie, weekly, 2012, Jul-Aug1284340
DUEPermafrost_Mackenzie2012-03-012012-04-30MODIS_LST_Mackenzie_weekly_2012_Mar-Apr.zipMODIS, LST, Mackenzie, weekly, 2012, Mar-Apr1303063
DUEPermafrost_Mackenzie2012-05-012012-06-30MODIS_LST_Mackenzie_weekly_2012_May-Jun.zipMODIS, LST, Mackenzie, weekly, 2012, May-Jun1205314
DUEPermafrost_Mackenzie2012-11-012012-12-31MODIS_LST_Mackenzie_weekly_2012_Nov-Dec.zipMODIS, LST, Mackenzie, weekly, 2012, Nov-Dec1305070
DUEPermafrost_Mackenzie2012-09-012012-10-31MODIS_LST_Mackenzie_weekly_2012_Sep-Oct.zipMODIS, LST, Mackenzie, weekly, 2012, Sep-Oct1216002
DUEPermafrost_Mackenzie2013-01-012013-02-28MODIS_LST_Mackenzie_weekly_2013_Jan-Feb.zipMODIS, LST, Mackenzie, weekly, 2013, Jan-Feb1248914
DUEPermafrost_Mackenzie2013-06-012013-08-30MODIS_LST_Mackenzie_weekly_2013_Jul-Aug.zipMODIS, LST, Mackenzie, weekly, 2013, Jul-Aug1293216
DUEPermafrost_Mackenzie2013-03-012013-04-30MODIS_LST_Mackenzie_weekly_2013_Mar-Apr.zipMODIS, LST, Mackenzie, weekly, 2013, Mar-Apr1338210
DUEPermafrost_Mackenzie2013-05-012013-06-30MODIS_LST_Mackenzie_weekly_2013_May-Jun.zipMODIS, LST, Mackenzie, weekly, 2013, May-Jun1299659
DUEPermafrost_Mackenzie2013-11-012013-12-31MODIS_LST_Mackenzie_weekly_2013_Nov-Dec.zipMODIS, LST, Mackenzie, weekly, 2013, Nov-Dec1302739
DUEPermafrost_Mackenzie2013-09-012013-10-31MODIS_LST_Mackenzie_weekly_2013_Sep-Oct.zipMODIS, LST, Mackenzie, weekly, 2013, Sep-Oct1184544
DUEPermafrost_Ob_Estuary2007-01-012007-06-30MODIS_LST_Ob_Estuary_weekly_2007_Jan-Jun.zipMODIS, LST, Ob Estuary, weekly, 2007, Jan-Jun1426854
DUEPermafrost_Ob_Estuary2007-06-012007-12-31MODIS_LST_Ob_Estuary_weekly_2007_Jul-Dec.zipMODIS, LST, Ob Estuary, weekly, 2007, Jul-Dec1441977
DUEPermafrost_Ob_Estuary2008-01-012008-06-30MODIS_LST_Ob_Estuary_weekly_2008_Jan-Jun.zipMODIS, LST, Ob Estuary, weekly, 2008, Jan-Jun1491420
DUEPermafrost_Ob_Estuary2008-06-012008-12-31MODIS_LST_Ob_Estuary_weekly_2008_Jul-Dec.zipMODIS, LST, Ob Estuary, weekly, 2008, Jul-Dec1413298
DUEPermafrost_Ob_Estuary2009-01-012009-06-30MODIS_LST_Ob_Estuary_weekly_2009_Jan-Jun.zipMODIS, LST, Ob Estuary, weekly, 2009, Jan-Jun1483854
DUEPermafrost_Ob_Estuary2009-06-012009-12-31MODIS_LST_Ob_Estuary_weekly_2009_Jul-Dec.zipMODIS, LST, Ob Estuary, weekly, 2009, Jul-Dec1468124
DUEPermafrost_Ob_Estuary2010-01-012010-06-30MODIS_LST_Ob_Estuary_weekly_2010_Jan-Jun.zipMODIS, LST, Ob Estuary, weekly, 2010, Jan-Jun1452564
DUEPermafrost_Ob_Estuary2010-06-012010-12-31MODIS_LST_Ob_Estuary_weekly_2010_Jul-Dec.zipMODIS, LST, Ob Estuary, weekly, 2010, Jul-Dec1468601
DUEPermafrost_Ob_Estuary2011-01-012011-06-30MODIS_LST_Ob_Estuary_weekly_2011_Jan-Jun.zipMODIS, LST, Ob Estuary, weekly, 2011, Jan-Jun1666639
DUEPermafrost_Ob_Estuary2011-06-012011-12-31MODIS_LST_Ob_Estuary_weekly_2011_Jul-Dec.zipMODIS, LST, Ob Estuary, weekly, 2011, Jul-Dec1634398
DUEPermafrost_Ob_Estuary2012-01-012012-06-30MODIS_LST_Ob_Estuary_weekly_2012_Jan-Jun.zipMODIS, LST, Ob Estuary, weekly, 2012, Jan-Jun1727977
DUEPermafrost_Ob_Estuary2012-06-012012-12-31MODIS_LST_Ob_Estuary_weekly_2012_Jul-Dec.zipMODIS, LST, Ob Estuary, weekly, 2012, Jul-Dec1678781
DUEPermafrost_Ob_Estuary2013-01-012013-06-30MODIS_LST_Ob_Estuary_weekly_2013_Jan-Jun.zipMODIS, LST, Ob Estuary, weekly, 2013, Jan-Jun1706197
DUEPermafrost_Ob_Estuary2013-06-012013-12-31MODIS_LST_Ob_Estuary_weekly_2013_Jul-Dec.zipMODIS, LST, Ob Estuary, weekly, 2013, Jul-Dec1657023
DUEPermafrost_panarctic2007-01-012013-12-31MODIS_PAN-ARC_Weekly_2007-2013.zipMODIS, PAN-ARC, weekly, 2007-20131499851