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Oehri, Jacqueline; Schaepman-Strub, Gabriela; Kim, Jin-Soo; Grysko, Raleigh; Kropp, Heather; Grünberg, Inge; Zemlianskii, Vitalii; Sonnentag, Oliver; Euskirchen, Eugénie S; Reji Chacko, Merin; Muscari, Giovanni; Blanken, Peter D; Dean, Joshua F; di Sarra, Alcide; Harding, Richard J; Sobota, Ireneusz; Kutzbach, Lars; Plekhanova, Elena; Riihelä, Aku; Boike, Julia; Miller, Nathaniel B; Beringer, Jason; López-Blanco, Efrén; Stoy, Paul C; Sullivan, Ryan C; Kejna, Marek; Parmentier, Frans-Jan W; Gamon, John A; Mastepanov, Mikhail; Wille, Christian; Jackowicz-Korczynski, Marcin; Karger, Dirk N; Quinton, William L; Putkonen, Jaakko; van As, Dirk; Christensen, Torben R; Hakuba, Maria Z; Stone, Robert S; Metzger, Stefan; Vandecrux, Baptiste; Frost, Gerald V; Wild, Martin; Hansen, Birger Ulf; Meloni, Daniela; Domine, Florent; te Beest, Mariska; Sachs, Torsten; Kalhori, Aram; Rocha, Adrian V; Williamson, Scott N; Morris, Sara; Atchley, Adam L; Essery, Richard; Runkle, Benjamin R K; Holl, David; Riihimaki, Laura; Iwata, Hiroki; Schuur, Edward A G; Cox, Christopher J; Grachev, Andrey A; McFadden, Joseph P; Fausto, Robert S; Göckede, Mathias; Ueyama, Masahito; Pirk, Norbert; de Boer, Gijs; Bret-Harte, M Syndonia; Leppäranta, Matti; Steffen, Konrad; Friborg, Thomas; Ohmura, Atsumu; Edgar, Colin W; Olofsson, Johan; Chambers, Scott D (2022): Literature synthesis data of surface energy fluxes and environmental drivers from Arctic vegetation and glacier sites [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.949737, In: Oehri, Jacqueline; Schaepman-Strub, Gabriela; Kim, Jin-Soo; Grysko, Raleigh; Kropp, Heather; Grünberg, Inge; Zemlianskii, Vitalii; Sonnentag, Oliver; Euskirchen, Eugénie S; Reji Chacko, Merin; Muscari, Giovanni; Blanken, Peter D; Dean, Joshua F; di Sarra, Alcide; Harding, Richard J; Sobota, Ireneusz; Kutzbach, Lars; Plekhanova, Elena; Riihelä, Aku; Boike, Julia; Miller, Nathaniel B; Beringer, Jason; López-Blanco, Efrén; Stoy, Paul C; Sullivan, Ryan C; Kejna, Marek; Parmentier, Frans-Jan W; Gamon, John A; Mastepanov, Mikhail; Wille, Christian; Jackowicz-Korczynski, Marcin; Karger, Dirk N; Quinton, William L; Putkonen, Jaakko; van As, Dirk; Christensen, Torben R; Hakuba, Maria Z; Stone, Robert S; Metzger, Stefan; Vandecrux, Baptiste; Frost, Gerald V; Wild, Martin; Hansen, Birger Ulf; Meloni, Daniela; Domine, Florent; te Beest, Mariska; Sachs, Torsten; Kalhori, Aram; Rocha, Adrian V; Williamson, Scott N; Morris, Sara; Atchley, Adam L; Essery, Richard; Runkle, Benjamin R K; Holl, David; Riihimaki, Laura; Iwata, Hiroki; Schuur, Edward A G; Cox, Christopher J; Grachev, Andrey A; McFadden, Joseph P; Fausto, Robert S; Göckede, Mathias; Ueyama, Masahito; Pirk, Norbert; de Boer, Gijs; Bret-Harte, M Syndonia; Leppäranta, Matti; Steffen, Konrad; Friborg, Thomas; Ohmura, Atsumu; Edgar, Colin W; Olofsson, Johan; Chambers, Scott D (2022): Harmonized in-situ observations of surface energy fluxes and environmental drivers at 64 Arctic vegetation and glacier sites [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.949792

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Abstract:
Despite the importance of surface energy budgets (SEBs) for land-climate interactions in the Arctic, uncertainties in their prediction persist. In situ observational data of SEB components - useful for research and model validation - are collected at relatively few sites across the terrestrial Arctic, and not all available datasets are readily interoperable. Furthermore, the terrestrial Arctic consists of a diversity of vegetation types, which are generally not well represented in land surface schemes of current Earth system models.
This dataset describes the data generated in a literature synthesis, covering 358 study sites on vegetation or glacier (>=60°N latitude), which contained surface energy budget observations. The literature synthesis comprised 148 publications searched on the ISI Web of Science Core Collection.
Keyword(s):
Arctic; dry tundra; Eddy covariance; eddy heat flux; glacier; glaciers; graminoids; ground heat flux and net radiation; harmonized data; high latitude; Land-Atmosphere; Land-cover; latent and sensible heat; latent heat flux; longwave radiation; meteorological data; observatory data; Peat bog; Radiation fluxes; Radiative energy budget; sensible heat flux; shortwave radiation; shrub tundra; surface energy balance; synthetic data; tundra vegetation; wetland; wetlands
Further details:
ReadMe - ArcticSEB_2022_Lit
Project(s):
Arctic Tundra Surface Energy Budget (ArcticTundraSEB)
Funding:
Universität Zürich (UZH), grant/award no. 178753
Coverage:
Median Latitude: 70.106545 * Median Longitude: -77.296896 * South-bound Latitude: 60.116667 * West-bound Longitude: -164.910000 * North-bound Latitude: 81.990000 * East-bound Longitude: 161.350000
Minimum ELEVATION: 0.0 m a.s.l. * Maximum ELEVATION: 3255.0 m a.s.l.
Event(s):
Arctic_SEB_1  * Latitude: 64.891167 * Longitude: -162.356500 * Method/Device: Field observation
Arctic_SEB_1951-2009_1  * Latitude: 76.500000 * Longitude: -68.800000 * Method/Device: Field observation
Arctic_SEB_1965-2000_1  * Latitude: 71.300000 * Longitude: -156.600000 * Elevation: 8.0 m * Method/Device: Field observation
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEventOehri, Jacqueline
Type of studyStudy typeOehri, Jacqueline
LATITUDELatitudeOehri, JacquelineGeocode
LONGITUDELongitudeOehri, JacquelineGeocode
Date/Time of eventDate/TimeOehri, Jacqueline
ELEVATIONElevationm a.s.l.Oehri, JacquelineGeocode
IdentificationIDOehri, Jacquelinepublication ID
Publication typePubl typeOehri, Jacqueline
Author(s)Author(s)Oehri, Jacqueline
10 TitleTitleOehri, Jacquelineof article
11 Journal/report titleJournalOehri, Jacqueline
12 Year of publicationYear pubOehri, Jacqueline
13 Persistent IdentifierPersistent IdentifierOehri, JacquelineDOI of article
14 First year of observationYear starta ADOehri, JacquelineEarliest year covered by in-situ SEB measurements
15 Last year of observationYear enda ADOehri, JacquelineLatest year covered by in-situ SEB measurements
16 SeasonSeasonOehri, Jacquelinewinter (DJF), spring (MAM), summer (JJA), autumn (SON); or allyear (all months covered at least once)
17 Vegetation typeVegetation typeOehri, Jacqueline
18 LocationLocationOehri, JacquelineGeographic location (villages, cities, states, countries)
19 Spatial coverageSpatial covOehri, JacquelineSpatial extent of study
20 ResolutionResolutionOehri, JacquelineDominant scale of temporal aggregation
21 Data collection methodologyDC MethodOehri, Jacqueline
22 Energy budget, descriptionE budg descrOehri, Jacquelineinferred from balance assumption
23 CommentCommentOehri, Jacqueline
24 Data typeData typeOehri, Jacqueline
25 VariableVariableOehri, JacquelineExplanatory variables used in study
26 ClassificationClassificationOehri, JacquelineClassification of SEB-components assessed in the study
27 VariableVariableOehri, Jacquelineresponse variable; assessed quantitatively, with absolute estimate; displayed in figures of the source publication
28 VariableVariableOehri, Jacquelineresponse variable; assessed quantitatively, with absolute estimate; displayed in tables of the source publication
29 VariableVariableOehri, Jacquelineresponse variable; assessed quantitatively, with relative estimate; from source publication
30 VariableVariableOehri, Jacquelineexplanatory variable; assessed quantitatively, with absolute estimate; displayed in figures of the source publication
31 VariableVariableOehri, Jacquelineexplanatory variable; assessed quantitatively, with absolute estimate; displayed in tables of the source publication
32 VariableVariableOehri, Jacquelineexplanatory variable; assessed quantitatively, with relative estimate; from source publication
33 VariableVariableOehri, Jacquelineexplanatory variable; assessed qualitatively; from source publication
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
8650 data points

Data

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


Event
Study type
Latitude
Longitude
Date/Time
Elevation [m a.s.l.]
ID
(publication ID)
Publ type
Author(s)		10 
Title
(of article)		11 
Journal		12 
Year pub		13 
Persistent Identifier
(DOI of article)		14 
Year start [a AD]
(Earliest year covered by in-s...)		15 
Year end [a AD]
(Latest year covered by in-sit...)		16 
Season
(winter (DJF), spring (MAM), s...)		17 
Vegetation type		18 
Location
(Geographic location (villages...)		19 
Spatial cov
(Spatial extent of study)		20 
Resolution
(Dominant scale of temporal ag...)		21 
DC Method		22 
E budg descr
(inferred from balance assumption)		23 
Comment		24 
Data type		25 
Variable
(Explanatory variables used in...)		26 
Classification
(Classification of SEB-compone...)		27 
Variable
(response variable; assessed q...)		28 
Variable
(response variable; assessed q...)		29 
Variable
(response variable; assessed q...)		30 
Variable
(explanatory variable; assesse...)		31 
Variable
(explanatory variable; assesse...)		32 
Variable
(explanatory variable; assesse...)		33 
Variable
(explanatory variable; assesse...)
Arctic_SEB_2010-2014_1 Literature research78.93333311.9500008.01JournalKejna, M; Maturilli, M; Arazny, A; Sobota, IRadiation balance diversity on nw Spitsbergen in 2010-2014Polish Polar Research2017https://doi.org/10.1515/popore-2017-000520102014allyeartundraNy Alesund; Kaffioyra; Spitsbergenlocal-in situ measurement; comparativenoin situ; meteorological; pyranometer; pyrheliometer; pyrgeometer; radiometer; weather stationlandcover; time of year; time of day; sun angle; time; irradiation; albedo; clouds; water vaporRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedolandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topographylandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topography
Arctic_SEB_2010-2014_2 Literature research78.68333311.83333311.01JournalKejna, M; Maturilli, M; Arazny, A; Sobota, IRadiation balance diversity on nw Spitsbergen in 2010-2014Polish Polar Research2017https://doi.org/10.1515/popore-2017-000520102014allyeartundraNy Alesund; Kaffioyra; Spitsbergenlocal-in situ measurement; comparativenoin situ; meteorological; pyranometer; pyrheliometer; pyrgeometer; radiometer; weather stationlandcover; time of year; time of day; sun angle; time; irradiation; albedo; clouds; water vaporRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedolandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topographylandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topography
Arctic_SEB_2010-2014_3 Literature research78.66666711.86666790.01JournalKejna, M; Maturilli, M; Arazny, A; Sobota, IRadiation balance diversity on nw Spitsbergen in 2010-2014Polish Polar Research2017https://doi.org/10.1515/popore-2017-000520102014allyeartundraNy Alesund; Kaffioyra; Spitsbergenlocal-in situ measurement; comparativenoin situ; meteorological; pyranometer; pyrheliometer; pyrgeometer; radiometer; weather stationlandcover; time of year; time of day; sun angle; time; irradiation; albedo; clouds; water vaporRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedolandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topographylandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topography
Arctic_SEB_2010-2014_4 Literature research78.68333312.000000130.01JournalKejna, M; Maturilli, M; Arazny, A; Sobota, IRadiation balance diversity on nw Spitsbergen in 2010-2014Polish Polar Research2017https://doi.org/10.1515/popore-2017-000520102014allyeartundraNy Alesund; Kaffioyra; Spitsbergenlocal-in situ measurement; comparativenoin situ; meteorological; pyranometer; pyrheliometer; pyrgeometer; radiometer; weather stationlandcover; time of year; time of day; sun angle; time; irradiation; albedo; clouds; water vaporRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedolandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topographylandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topography
Arctic_SEB_2010-2014_5 Literature research78.68333312.083333375.01JournalKejna, M; Maturilli, M; Arazny, A; Sobota, IRadiation balance diversity on nw Spitsbergen in 2010-2014Polish Polar Research2017https://doi.org/10.1515/popore-2017-000520102014allyeariceNy Alesund; Kaffioyra; Spitsbergenlocal-in situ measurement; comparativenoin situ; meteorological; pyranometer; pyrheliometer; pyrgeometer; radiometer; weather stationlandcover; time of year; time of day; sun angle; time; irradiation; albedo; clouds; water vaporRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedoRnet, Knet; Lnet; Kin; Kout; Lin; Lout; albedolandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topographylandcover; time of year; time of day; sun angle; irradiation; clouds; water vapor pressure; air humidity; atmosphere_qt_abs_s; topography
Arctic_SEB_1999-1999_1 Literature research65.428333-163.3565002JournalWang, Xj; Key, Jr; Fowler, C; Maslanik, JDiurnal cycles in Arctic surface radiative fluxes in a blended satellite-climate reanalysis data setJournal of Applied Remote Sensing2007https://doi.org/10.1117/1.279400319991999allyearKougarok; Alaska; USAlocal; regionalin situ measurements; satellite measurements; reanalysis measurements; model validation; satellite validation; reanalysis validation; comparison satellite and in situ and model and reanalysisunclearreanalysis; satellite; in situ; ERA-40; model; AVHRR; APP-x; meteorologicaltime of day; time of year; cloudsLin; KinLin; Kintime of day; time of year; cloudstime of day; time of year; clouds
Arctic_SEB_1970-1972_1 Literature research69.450000-133.00000010JournalHaag, Rw; Bliss, LcEnergy budget changes following surface disturbance to upland tundraJournal of Applied Ecology1974https://doi.org/10.2307/240202719701972summerG4NWT, Canadalocal-in situ measurement; comparativeunclearin situ; meteorologicallandcover; disturbance; landuse; fire; vegetation; oil; irradiation; water vapor; wind; permafrost; soil moisture; ET; time of day; temperature; timeRnet; Rin; LE; G; H; temperature; albedoRnet; Rin; LE; G; H; 0.25m_temperature; 0.05m_temperature; 0m_temperature; -0.05m_temperature; -0.20m_temperature; -0.30m_temperature; -0.50m_temperature; albedo; ALTRnet; Rin; LE; G; H; 0.25m_temperature; 0.05m_temperature; 0m_temperature; -0.05m_temperature; -0.20m_temperature; -0.30m_temperature; -0.50m_temperature; albedo; ALTlandcover; disturbance; landuse; fire; vegetation-qt-t; oil; irradiation; water vapor; wind; permafrost; soil moisture; ET; time of day; temperature; time of year; soil density; timelandcover; disturbance; landuse; fire; vegetation-qt-t; oil; irradiation; water vapor; wind; permafrost; soil moisture; ET; time of day; temperature; time of year; soil density; timevegetation composition
Arctic_SEB_2000-2003_1 Literature research62.500000-113.51666711JournalBinyamin, J; Rouse, Wr; Davies, Ja; Oswald, Cj; Schertzer, WmSurface energy balance calculations for small northern lakesInternational Journal of Climatology2006https://doi.org/10.1002/joc.136520002003summerwaterMackenzie River Basin, Canadalocal-model; in situ measurement; comparative; model validation; comparison model and in situLE_inferred|H_inferredmodel; in situ; meteorologicaltime of day; time of year; wind; irradiation; temperatureRnet; LE; H; storage; temperatureRnet; LE; H; 0--30m_temperature; 2m_temperature; windtime of year; lake size; timelake characteristics
Arctic_SEB_2000-2003_2 Literature research62.516667-113.63333311JournalBinyamin, J; Rouse, Wr; Davies, Ja; Oswald, Cj; Schertzer, WmSurface energy balance calculations for small northern lakesInternational Journal of Climatology2006https://doi.org/10.1002/joc.136520002003summerwaterMackenzie River Basin, Canadalocal-model; in situ measurement; comparative; model validation; comparison model and in situLE_inferred|H_inferredmodel; in situ; meteorologicaltime of day; time of year; wind; irradiation; temperatureRnet; LE; H; storage; temperatureRnet; LE; H; 0--30m_temperature; 2m_temperature; windtime of year; lake size; timelake characteristics
Arctic_SEB_2000-2003_3 Literature research63.583333-112.11666711JournalBinyamin, J; Rouse, Wr; Davies, Ja; Oswald, Cj; Schertzer, WmSurface energy balance calculations for small northern lakesInternational Journal of Climatology2006https://doi.org/10.1002/joc.136520002003summerwaterMackenzie River Basin, Canadalocal-model; in situ measurement; comparative; model validation; comparison model and in situLE_inferred|H_inferredmodel; in situ; meteorologicaltime of day; time of year; wind; irradiation; temperatureRnet; LE; H; storage; temperatureRnet; LE; H; 0--30m_temperature; 2m_temperature; windtime of year; lake size; timelake characteristics
Arctic_SEB_2007-2007_1 Literature research72.566667-37.5333333209.012JournalRiihela, A; Key, Jr; Meirink, Jf; Munneke, Pk; Palo, T; Karlsson, KgAn intercomparison and validation of satellite-based surface radiative energy flux estimates over the ArcticJournal of Geophysical Research-Atmospheres2017https://doi.org/10.1002/2016JD02644320072007summericeArctic; Greenlandlocal; regionalmodel validation; intercomparison; comparative; comparison satellite and model and in situunclearsatellite; GEWEX; CERES; Ebaf; CLARA; in situ; Fluxnet; MODIS; ISCCP; AVHRR; APP-xclouds; atmosphere; water vapor; aerosols; time of year; timeLout; Kout; Lin; Kin; temperature; albedoLout; Kout; Lin; Kin; albedocloud characteristics; clouds; cloud fraction; time of year
Arctic_SEB_2008-2010_1 Literature research68.990000-150.28000014JournalRocha, Av; Shaver, GrPostfire energy exchange in Arctic tundra: the importance and climatic implications of burn severityGlobal Change Biology2011https://doi.org/10.1111/j.1365-2486.2011.02441.x20082010summerburned G4|BAlaska, USAlocal-in situ measurements; satellite measurements; comparativenoin situ; EC tower; satellite; MODISfire; permafrost; vegetation; albedoKin; Kout; Lin; Lout; temperature; water vapor; G; LE; HKin; 2m_temperature; albedo; EVI; ALTRnet; LE; H; G; ClosFrac; 0m_temperaturetime; time of year; fire intensityKin; 2m_temperature; snow off; snow on; growing season length; moss; organic soil; 0m_temperature; roughness; fire intensityH; LE; albedo; G; emissivityvegetation composition;
Arctic_SEB_2008-2010_2 Literature research68.950000-150.21000014JournalRocha, Av; Shaver, GrPostfire energy exchange in Arctic tundra: the importance and climatic implications of burn severityGlobal Change Biology2011https://doi.org/10.1111/j.1365-2486.2011.02441.x20082010summerburned G4Alaska, USAlocal-in situ measurements; satellite measurements; comparativenoin situ; EC tower; satellite; MODISfire; permafrost; vegetation; albedoKin; Kout; Lin; Lout; temperature; water vapor; G; LE; HKin; 2m_temperature; albedo; EVI; ALTRnet; LE; H; G; ClosFrac; 0m_temperaturetime; time of year; fire intensityKin; 2m_temperature; snow off; snow on; growing season length; moss; organic soil; 0m_temperature; roughness; fire intensityH; LE; albedo; G; emissivityvegetation composition;
Arctic_SEB_2008-2010_3 Literature research68.930000-150.27000014JournalRocha, Av; Shaver, GrPostfire energy exchange in Arctic tundra: the importance and climatic implications of burn severityGlobal Change Biology2011https://doi.org/10.1111/j.1365-2486.2011.02441.x20082010summerG4Alaska, USAlocal-in situ measurements; satellite measurements; comparativenoin situ; EC tower; satellite; MODISfire; permafrost; vegetation; albedoKin; Kout; Lin; Lout; temperature; water vapor; G; LE; HKin; 2m_temperature; albedo; EVI; ALTRnet; LE; H; G; ClosFrac; 0m_temperaturetime; time of year; fire intensityKin; 2m_temperature; snow off; snow on; growing season length; moss; organic soil; 0m_temperature; roughness; fire intensityH; LE; albedo; G; emissivityvegetation composition;
Arctic_SEB_1979-2005_1 Literature research71.000000-156.00000015JournalCullather, Ri; Bosilovich, MgThe energy budget of the polar atmosphere in MERRAJournal of Climate2012https://doi.org/10.1175/2011JCLI4138.119792005allyeartundrapolar cap; Arctic; Barrow; Alaska; USA; Sachs Harbor; NWT; Canada; Jan Mayen; Svalbard; Norwaylocal; regionalmodel; intercomparison; comparison model and reanalysis and in situ; reanalysis validationnoreanalysis; satellite; MERRA; ERA-Interim; CFSR; CERES; in situtopography; albedo; time of yearFnet; temperatureFnet2m_temperaturetimetime of year
Arctic_SEB_2007-2009_1 Literature research72.366667126.50000018JournalLanger, M; Westermann, S; Muster, S; Piel, K; Boike, JThe surface energy balance of a polygonal tundra site in northern Siberia - part 2: winterCryosphere2011https://doi.org/10.5194/tc-5-509-201120072009wintertundraSiberia; Lena River; Russialocal-in situ measurement; comparativenoin situ; net radiation sensor; temperature sensor; eddy covariance; anemometersnow; clouds; soil temperatureRnet; H; LE; G; snow depth; 2m_temperature; 0m_temperature; -0.85m temperature; wind; stabilityRnet; Knet; Lnet; H; LE; G; ClosFrac; 0m_temperature; 2m_temperature; air humidity; snow depthtime of year; landcover; clouds; wind; stability; Lin; timetime of year; landcoverclimate; 2m_temperature; continentality; precipitation; snow melt; snow; permafrost; ALT; soil characteristics
Arctic_SEB_1980-1981_1 Literature research74.710000-94.9000005.021JournalHeron, R; Woo, MkDecay of a high Arctic lake-ice cover - observations and modelingJournal of Glaciology1994https://doi.org/10.3189/S002214300000737119801981summerwaterCornwallis Island N.W.T Canadalocalin situ measurement; model validation; comparison model and in situyesCoordinate source unclear: but lake located 5 km north of Resolute, Canada, which is -94,82 and 74,69 in degree decimals, as far as I can locate manuallyin situ; model; meteorological; net radiometer; pyranometer; anemometeralbedo; snow melt; irradiation; temperature; water vapor; wind; ice; snow; time of year; pressureKin; albedo; Kout; Rnet; temperatureH; LE; Lnet; Rnet; M; G; ice melttime of year; 2m_temperature; air humidity; air pressure; wind; Rnet; albedo; irradiation; -0.05m_temperature
Arctic_SEB_2000-2010_1 Literature research74.470000-20.55000038.022JournalLund, M; Hansen, Bu; Pedersen, Sh; Stiegler, C; Tamstorf, MpCharacteristics of summer-time energy exchange in a high Arctic tundra heath 2000-2010Tellus Series B-Chemical and Physical Meteorology2014https://doi.org/10.3402/tellusb.v66.2163120002010summerP2Zackenberg; Greenlandlocal-in situ measurement; simulation of SEBRnet_inferredin situ; EC tower; infrared gas analyser; anemometer; theta probe; heat flux plate; meteorological; modelclimate; wind; vegetation; soilRnet; 2m_temperature; H; LE; bowen; soil moisture; resistance; G; albedo2m_temperature; 0m_temperature; -0.025m_temperature; water vapor pressure deficit; surface vapor pressure deficit; Rnet; Kin; precipitation; soil moisture; ALT; snow depth; H; LE; bowen; G; storage; resistance; SOS; EOS; GSLtime of year; Rnet; water vapor pressure deficit; timetime; time of day; windtime; time of dayclimate; 2m_temperature; ALT; LAI; soil moisture; GSL
Arctic_SEB_1970-1979_1 Literature research74.716667-95.00000090.024JournalCogley, Jg; Henderson-Sellers, AEffects of cloudiness on the high-latitude surface radiation budgetMonthly Weather Review1984https://doi.org/10.1175/1520-0493(1984)112<1017:EOCOTH>2.0.CO;219701979allyearBNWT, Canada; Resolutelocal-in situ measurementnoin situ; meteo tower; meteorological; thermometer; pyranometer; radiometerclouds; cloud height; cloud type; snow; Kin; cloud cover; 0m_temperature; 2m_temperatureRnet; Knet; Lin; albedoRnet; Knet; Lin; albedoclouds; cloud height; cloud type; snow; Kin; cloud coverclimate; snow melt; landcover; 2m_temperature; precipitation; wind; aerosols
Arctic_SEB_1981-1997_1 Literature research78.75000019.28000028JournalOrbaek, Jb; Hisdal, V; Svaasand, LeRadiation climate variability in Svalbard: surface and satellite observationsPolar Research1999https://doi.org/10.1111/j.1751-8369.1999.tb00284.x19811997allyeartundra|waterNy Alesund; Svalbardlocal; regionalmonthly average; daily averagecomparison in situ and satellite; statistical relation to landsurface and meteorologyunclearin situ; satellitemeteorological conditions; surface conditions; time of year; sun angle; surface albedo; atmosphere; clouds; snow cover; sea iceKin; Knet; Lin; Lnet; albedo; cloud covertime of year
Arctic_SEB_1981-1997_2 Literature research78.92000011.83000028JournalOrbaek, Jb; Hisdal, V; Svaasand, LeRadiation climate variability in Svalbard: surface and satellite observationsPolar Research1999https://doi.org/10.1111/j.1751-8369.1999.tb00284.x19811997allyeartundraNy Alesund; Svalbardlocal; regionalmonthly average; daily averagecomparison in situ and satellite; statistical relation to landsurface and meteorologyunclearin situ; satellitemeteorological conditions; surface conditions; time of year; sun angle; surface albedo; atmosphere; clouds; snow cover; sea iceKin; Knet; Lin; Lnet; albedo; cloud covertime of year
Arctic_SEB_2008-2012_1 Literature research68.606000-149.311000904.042JournalCristobal, J; Prakash, A; Anderson, Mc; Kustas, Wp; Euskirchen, Es; Kane, DlEstimation of surface energy fluxes in the Arctic tundra using the remote sensing thermal-based two-source energy balance modelHydrology and Earth System Sciences2017https://doi.org/10.5194/hess-21-1339-201720082012summerW2Alaska; USAlocalseasonal average; hourly average; monthly averagein situ measurement; comparative; model validationyesin situ; satellite; model; TSEB; EC tower; anemometer; gas analyzer; meteorological; soil plates; PAR sensor; pyranometer; albedometer; net radiometersoil temperature; vegetation; climate; wind; temperature; water vapor; atmosphere; irradiation; leaf area; time of yearRnet; G; ET; Kin; Lin; Leres; H; temperatureleaf area; Rnet; LE; H; G; bowenwind; 2m_temperature; water vapor pressure; atmospheric pressure; irradiation; Lin; 0m_temperature; LAI; vegetation heigth; vegetation covertime of yearvegetation type; landcover
Arctic_SEB_2008-2012_2 Literature research68.606000-149.304000904.042JournalCristobal, J; Prakash, A; Anderson, Mc; Kustas, Wp; Euskirchen, Es; Kane, DlEstimation of surface energy fluxes in the Arctic tundra using the remote sensing thermal-based two-source energy balance modelHydrology and Earth System Sciences2017https://doi.org/10.5194/hess-21-1339-201720082012summerG4Alaska; USAlocalseasonal average; hourly average; monthly averagein situ measurement; comparative; model validationyesin situ; satellite; model; TSEB; EC tower; anemometer; gas analyzer; meteorological; soil plates; PAR sensor; pyranometer; albedometer; net radiometersoil temperature; vegetation; climate; wind; temperature; water vapor; atmosphere; irradiation; leaf area; time of yearRnet; G; ET; Kin; Lin; Leres; H; temperatureleaf area; Rnet; LE; H; G; bowenwind; 2m_temperature; water vapor pressure; atmospheric pressure; irradiation; Lin; 0m_temperature; LAI; vegetation heigth; vegetation covertime of yearvegetation type; landcover
Arctic_SEB_2008-2012_3 Literature research68.607000-149.296000904.042JournalCristobal, J; Prakash, A; Anderson, Mc; Kustas, Wp; Euskirchen, Es; Kane, DlEstimation of surface energy fluxes in the Arctic tundra using the remote sensing thermal-based two-source energy balance modelHydrology and Earth System Sciences2017https://doi.org/10.5194/hess-21-1339-201720082012summerS1Alaska; USAlocalseasonal average; hourly average; monthly averagein situ measurement; comparative; model validationyesin situ; satellite; model; TSEB; EC tower; anemometer; gas analyzer; meteorological; soil plates; PAR sensor; pyranometer; albedometer; net radiometersoil temperature; vegetation; climate; wind; temperature; water vapor; atmosphere; irradiation; leaf area; time of yearRnet; G; ET; Kin; Lin; Leres; H; temperatureleaf area; Rnet; LE; H; G; bowenwind; 2m_temperature; water vapor pressure; atmospheric pressure; irradiation; Lin; 0m_temperature; LAI; vegetation heigth; vegetation covertime of yearvegetation type; landcover
Arctic_SEB_1988-1988_1 Literature research67.116667-49.750000480.043JournalRott, H; Obleitner, FThe energy-balance of dry tundra in west GreenlandArctic and Alpine Research1992https://doi.org/10.2307/155129119881988summerG2GreenlandlocalMay; June; daily average; seasonal averagein situ measurement; comparativeyesin situ; meteo tower; pyranometer; net radiometer; pyrheliometerirradiation; soil moisture; lapse rate; landcover; vegetation; water vapor; precipitation; wind; time of daytemperature; ET; Rnet; H; LE; Knet; Kout; Lin; Lout2m_temperature; water vapor pressure; precipitation; snow; wind; Knet; Kout; Lin; Lnet; Rnet; G; LE; E; HKin; Kout; Lin; Lout; Rnet; G; H; LE; EH; G; LEtime of yeartime of yearclimate; 2m_temperature; precipitation; vegetation; sedges; grasses; dwarf shrubs; soil moisture
Arctic_SEB_1988-1988_1Literature research67.116667-49.750000250.043JournalRott, H; Obleitner, FThe energy-balance of dry tundra in west GreenlandArctic and Alpine Research1992https://doi.org/10.2307/155129119881988summerG2GreenlandlocalMay; June; daily average; seasonal averagein situ measurement; comparativeyesin situ; meteo tower; pyranometer; net radiometer; pyrheliometerirradiation; soil moisture; lapse rate; landcover; vegetation; water vapor; precipitation; wind; time of daytemperature; ET; Rnet; H; LE; Knet; Kout; Lin; Lout2m_temperature; water vapor pressure; precipitation; snow; wind; Knet; Kout; Lin; Lnet; Rnet; G; LE; E; HKin; Kout; Lin; Lout; Rnet; G; H; LE; EH; G; LEtime of yeartime of yearclimate; 2m_temperature; precipitation; vegetation; sedges; grasses; dwarf shrubs; soil moisture
Arctic_SEB_1988-1988_1Literature research67.116667-49.750000430.043JournalRott, H; Obleitner, FThe energy-balance of dry tundra in west GreenlandArctic and Alpine Research1992https://doi.org/10.2307/155129119881988summerG2GreenlandlocalMay; June; daily average; seasonal averagein situ measurement; comparativeyesin situ; meteo tower; pyranometer; net radiometer; pyrheliometerirradiation; soil moisture; lapse rate; landcover; vegetation; water vapor; precipitation; wind; time of daytemperature; ET; Rnet; H; LE; Knet; Kout; Lin; Lout2m_temperature; water vapor pressure; precipitation; snow; wind; Knet; Kout; Lin; Lnet; Rnet; G; LE; E; HKin; Kout; Lin; Lout; Rnet; G; H; LE; EH; G; LEtime of yeartime of yearclimate; 2m_temperature; precipitation; vegetation; sedges; grasses; dwarf shrubs; soil moisture
Arctic_SEB_2011-2014_1 Literature research72.600000-38.5000003211.045JournalMiller, Nb; Shupe, Md; Lenaerts, Jtm; Kay, Je; De Boer, G; Bennartz, RProcess-based model evaluation using surface energy budget observations in central GreenlandJournal of Geophysical Research-Atmospheres2018https://doi.org/10.1029/2017JD02737720112014allyeariceSummit; Greenlandlocalmonthly average; seasonal averagein situ measurements; model validation; comparison of reanalysis and model and in situ; simulation of SEB; reanalysis measurementsLF_corrected|H_correctedin situ; model; reanalysis; ERA-Interim; CFv2; CESM; pyranometer; pyrgeometer; meteorologicaltime of year; temperature; clouds; water vaporRnet; H; LE; G; Kin; Kout; Lin; Lout; temperature0m_temperature; Lin; Lout; Kin; Kout; H; LE; G; Rnet; cloud liquid water; albedoLE; H; G; Louttime of year; cloud liquid waterLin; Knetclimate; 2m_temperature; precipitation
Arctic_SEB_2000-2011_1 Literature research71.320000-156.61000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearG3Barrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_2 Literature research71.310000-156.62000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearG3Barrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_3 Literature research70.470000-157.41000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearG4Barrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_4 Literature research68.490000-155.75000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearG4Barrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_5 Literature research68.610000-149.30000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearS|PBarrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_5Literature research68.610000-149.30000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearG4Barrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_6 Literature research68.610000-149.31000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearG3Barrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_7 Literature research68.980000-150.28000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearburned tundraBarrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_8 Literature research68.950000-150.21000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearburned tundraBarrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_9 Literature research68.930000-150.27000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearG4Barrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_10 Literature research64.940000-164.74000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyearS|PBarrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_2000-2011_11 Literature research64.840000-163.69000063JournalUeyama, M; Ichii, K; Iwata, H; Euskirchen, Es; Zona, D; Rocha, Av; Harazono, Y; Iwama, C; Nakai, T; Oechel, WcChange in surface energy balance in Alaska due to fire and spring warming, based on upscaling eddy covariance measurementsJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2014JG00271720002011allyeartundraBarrow; Central Marsh; Atqasuk; Ivotuk; Imnavait Creek; Anaktuvuk River; Cascaden Ridge; Poker Flat; Alaska; USAlocal; regional8day averageupscaling in situ measurementsnoin situ; EC tower; network; upscaling; satellite; GIS; reanalysis; MODIS; JRA; ISCCP; GEWEX; JAXAfire; disturbance; temperature; snow; snow melt; precipitation; landcover; albedo; vegetation; time of year; timeH; LE; G; Rnet; albedo; temperatureRnet; H; LE; Gtime of year; vegetation type; locationvegetation type; permafrost; stand age; year burned
Arctic_SEB_1994-1996_1 Literature research69.125000-147.916667305.068JournalEugster, W; Mcfadden, Jp; Chapin, EsA comparative approach to regional variation in surface fluxes using mobile eddy correlation towersBoundary-Layer Meteorology1997https://doi.org/10.1023/A:100055231180519941996summerWAlaska; USA; Prudhoe Bay; Happy Valley; Toolik Lake; Sagwon Hillslocalhalf_hourly averagein situ measurement; comparativenoin situ; EC towerlandcover; vegetation type; climate; topography; soil moisturetemperature; Rnet; H; LE; G;H; LE; GRnetclimate; 2m_temperature; soil moisture; soil surface; moss; vegetation type
Arctic_SEB_1994-1996_2 Literature research70.283333-147.10000012.068JournalEugster, W; Mcfadden, Jp; Chapin, EsA comparative approach to regional variation in surface fluxes using mobile eddy correlation towersBoundary-Layer Meteorology1997https://doi.org/10.1023/A:100055231180519941996summerWAlaska; USA; Prudhoe Bay; Happy Valley; Toolik Lake; Sagwon Hillslocalhalf_hourly averagein situ measurement; comparativenoin situ; EC towerlandcover; vegetation type; climate; topography; soil moisturetemperature; Rnet; H; LE; G;H; LE; GRnetclimate; 2m_temperature; soil moisture; soil surface; moss; vegetation type
Arctic_SEB_1994-1996_3 Literature research68.625000-148.376667780.068JournalEugster, W; Mcfadden, Jp; Chapin, EsA comparative approach to regional variation in surface fluxes using mobile eddy correlation towersBoundary-Layer Meteorology1997https://doi.org/10.1023/A:100055231180519941996summerPAlaska; USA; Prudhoe Bay; Happy Valley; Toolik Lake; Sagwon Hillslocalhalf_hourly averagein situ measurement; comparativenoin situ; EC towerlandcover; vegetation type; climate; topography; soil moisturetemperature; Rnet; H; LE; G;H; LE; GRnetclimate; 2m_temperature; soil moisture; soil surface; moss; vegetation type
Arctic_SEB_1998-1998_1 Literature research78.91666711.93333369JournalNardino, M; Bonafe, U; Calzolari, F; Georgiadis, T; Levizzani, V; Orsini, A; Ravegnani, F; Trivellone, GRecent results from the Arctic radiation and turbulence interaction study (artist) projectNuovo Cimento della Societa Italiana di Fisica C-Geophysics and Space Physics200219981998springiceNy Alesund; SvalbardlocalMarch; April; 8April; 20March; daily average; hourly averagein situ measurements; comparativenoin situclouds; roughness; windH; Lnet; Knet; Rnet; G; LEsurface roughness length; cloud cover; Lnet; Knet; Rnet; H; LE; Gsurface roughness lengthwind direction; time of year; cloud cover; time of daywind direction
Arctic_SEB_1985-2016_1 Literature research71.320500-155.39316779JournalCox, Cj; Stone, Rs; Douglas, Dc; Stanitski, Dm; Divoky, Gj; Dutton, Gs; Sweeney, C; George, Jc; Longenecker, DuDrivers and environmental responses to the changing annual snow cycle of northern AlaskaBulletin of the American Meteorological Society2017https://doi.org/10.1175/BAMS-D-16-0201.119852016allyeartundraBarrow; Alaska; USAlocal; regionaldaily averagein situ measurements; comparativeunclearin situ; meteorological; EC towertime; time of year; time of day; snow; clouds; temperature; GHG; aerosols; snow melt; vegetation; atmosphere; pressureRnet; albedo; temperaturealbedo; -0.05m_temperature; -0.10m_temperature; -0.30m_temperature; -0.70m_temperature; -1.20m_temperature; chloroform; methane; DOY; 2m_temperature2m_temperature; cloud covertime of year; time; snow cover; snow meltDOY snow melt
Arctic_SEB_1998-1999_1 Literature research69.80333327.103333230.087JournalHarding, Rj; Jackson, Na; Blyth, Em; Culf, AEvaporation and energy balance of a sub-Arctic hillslope in northern finlandHydrological Processes2002https://doi.org/10.1002/hyp.35319981999summerG3Finlandlocaldaily average; hourly average; Julyin situ; model; model validation; comparativenoin situ; model; MOSES; EC towertime of day; landcover; temperature; water vapor; irradiation; soil moisture; soil temperature; soil; vegetation; time; snow; precipitation; windRnet; H; LE; G; ET; temperatureprecipitation; water table; 2m_temperature; Rnet; LE; H; EBC; evaporative ratio; VPD; resistance; LE; H; -0.25m_temperature; -0.10m_temperature2m_temperature; evaporative ratio; resistancetime of yeartime of yeartopography; soil type; climate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_2008-2009_1 Literature research68.29900018.847000752.089JournalStoy, Pc; Peitzsch, E; Wood, D; Rottinghaus, D; Wohlfahrt, G; Goulden, M; Ward, HOn the exchange of sensible and latent heat between the atmosphere and melting snowAgricultural and Forest Meteorology201820082009springWAbisko; Sweden; FLUXNET2015 FI-Lomlocal; regionalmonthly average; seasonal averagein situ; comparativenoin situ; FLUXNET; EC towersnow; snow melt; temperature; water vapor; timeH; LE; temperature; albedo; Lout2m_temperature; VPD; Melt; Rnet; H; LEtime of year; time
Arctic_SEB_1997-1999_1 Literature research68.750000-132.46666790JournalRouse, Wr; Eaton, Ak; Petrone, Rm; Boudreau, Ld; Marsh, P; Griffis, TjSeasonality in the surface energy balance of tundra in the lower Mackenzie river basinJournal of Hydrometeorology2003https://doi.org/10.1175/1525-7541(2003)004<0673:SITSEB>2.0.CO;219971999allyearG4TVC; Canadalocaldaily average; seasonal averagein situ; comparativeLE_inferredin situtime of year; irradiation; temperature; snow melt; snow; location; landcover; vegetation; soil; precipitation; climatetemperature; Rnet; H; G; LE; storage2m_temperature; Rnet; G; H; LE; MeltRnet; G; H; LE; Melttime; landcover; time of yeartime of yearlandcover; vegetation; climate
Arctic_SEB_1998-1999_1Literature research78.91666711.93333310.091JournalNardino, M; Georgiadis, TCloud type and cloud cover effects on the surface radiative balance at several polar sitesTheoretical and Applied Climatology2003https://doi.org/10.1007/s00704-002-0708-219981999springiceNy Alesynd; SvalbardlocalMarch; Aprilin situ; comparativenomodel; in situ; meteorological; pyranometer; pyrgeometer; albedometer; thermocouplesclouds; time of year; albedo; locationtemperature; Knet; Lnet; G; Kin; Kout; Lin; LoutKnet; Lnet; Rnetalbedo; transmissivityKnet; Lnet; Rnetcloud covercloud covercloud covercloud type; landcover
Arctic_SEB_2007-2008_1 Literature research72.366667126.05000093JournalLanger, M; Westermann, S; Muster, S; Piel, K; Boike, JThe surface energy balance of a polygonal tundra site in northern Siberia - part 1: spring to fallCryosphere2011https://doi.org/10.5194/tc-5-151-201120072008spring|summer|fallWSamoylov; Lena River; Siberia; Russialocal20day average; seasonal averagein situ; comparative; modelnoin situ; model; EC tower; meteorological; meteo towerirradiation; permafrost; soil moisture; snow; snow melt; clouds; temperature; landcover; soil; time of year; water vapor; precipitation; wind; albedoRnet; LE; H; G; storage; temperature; Kin; Kout; Lin; LoutRnet; G; LE; H; closure term; snow cover; wind speed; stabilityRnet; Knet; Lnet; H; LE; G; Gsensible; Glatent; Melt; closure term; 0m_temperature; 2m_temperature; relative humidity; precipitationtime of year; snow cover; soil moisturetime of year; soil moistureclimate; landcover; soil; permafrost
Arctic_SEB_1996-1997_1 Literature research68.450000-133.320000101JournalPetrone, Rm; Rouse, Wr; Marsh, PComparative surface energy budgets in western and central Subarctic regions of CanadaInternational Journal of Climatology2000https://doi.org/10.1002/1097-0088(200008)20:10<1131::AID-JOC524>3.3.CO;2-A19961997summerW1TVC; Churchill; Canadalocal1-21June; 22-8August; 9-29August; daily average; seasonal averagein situ; comparativeLE_inferred|H_correctedin situ; EC towerlandcover; soil moisture; location; climate; precipitation; temperature; topography; vegetation; soil; time of year; albedoET; LE; G; H; Kin; Rnet; temperature; albedo0--0.8m_temperature; Kin; Rnet; 2m_temperature; precipitation2m_temperature; precipitation; Rnet; LE; H; G; bowen; albedotime of yeartime of year; hot_cold; vegetation typeclimate; permafrost; landcover; 2m_temperature; precipitation; vegetation; soil; topography; soil moisture; potential irradiation
Arctic_SEB_1996-1997_1Literature research68.450000-133.32000085.0101JournalPetrone, Rm; Rouse, Wr; Marsh, PComparative surface energy budgets in western and central Subarctic regions of CanadaInternational Journal of Climatology2000https://doi.org/10.1002/1097-0088(200008)20:10<1131::AID-JOC524>3.3.CO;2-A19961997summerS2TVC; Churchill; Canadalocal1-21June; 22-8August; 9-29August; daily average; seasonal averagein situ; comparativeLE_inferred|H_correctedin situ; EC towerlandcover; soil moisture; location; climate; precipitation; temperature; topography; vegetation; soil; time of year; albedoET; LE; G; H; Kin; Rnet; temperature; albedo0--0.8m_temperature; Kin; Rnet; 2m_temperature; precipitation2m_temperature; precipitation; Rnet; LE; H; G; bowen; albedotime of yeartime of year; hot_cold; vegetation typeclimate; permafrost; landcover; 2m_temperature; precipitation; vegetation; soil; topography; soil moisture; potential irradiation
Arctic_SEB_1998-2000_1 Literature research78.91666711.08333330.0102JournalBoike, J; Roth, K; Ippisch, OSeasonal snow cover on frozen ground: energy balance calculations of a permafrost site near Ny-Alesund, SpitsbergenJournal of Geophysical Research-Atmospheres2003https://doi.org/10.1029/2001JD00093919982000allyearB2Bayelva; Ny Alesynd; Svalbardlocaldaily averagein situ; model; comparativeqyesmodel; in situ; meteorologicalsnow; precipitation; time of year; permafrost; temperature; irradiation; wind; water vapor;Rnet; G; LE; H; temperature2m_temperature; Kin; wind; relative humidity; precipitation; snow depth; Rnet; LE; H; rain heat flux; Gh; Gle; Melt; Snow heat content; soil moisture; cumulative energy; SWEtime of year; snow meltclimate; permafrost; 2m_temperature; precipitation
Arctic_SEB_2007-2007_1Literature research71.300000-156.500000106JournalNiu, Xl; Pinker, RtAn improved methodology for deriving high-resolution surface shortwave radiative fluxes from MODIS in the Arctic regionJournal of Geophysical Research-Atmospheres2015https://doi.org/10.1002/2014JD02215120072007spring|summer|falltundraBarrow; Alaska; USA; Arcticlocal; regionalmonthly average; daily averagecomparison satellite and in situ; model validation; satellite validationunclearsatellite; model; in situ; MODIS; ARMtime of year; snow; sea ice; albedo; permafrostKin; Kout; albedosnow cover; Kin; Kout; albedotime of year; time of day
Arctic_SEB_1998-1999_1Literature research71.600000128.800000107JournalKodama, Y; Sato, N; Yabuki, H; Ishii, Y; Nomura, M; Ohata, TWind direction dependency of water and energy fluxes and synoptic conditions over a tundra near Tiksi, SiberiaHydrological Processes2007https://doi.org/10.1002/hyp.671219981999summerG4Tiksi; Siberia; Russialocal10day average; daily average; June; July; August; Septemberin situ measurements; comparativeH_inferred|LE_inferred|G_inferredin situ; meteo towerwind; water vapor; atmosphere; temperature; irradiation; pressure; soil moisture; time of yearRnet; H; LE; G; temperature; albedo; Lin; Lout; resistanceH; LE; G; Rnet; wind direction; 2m_temperature; WVD; resistance; pressuretime of year; wind directionclimate; permafrost; landcover; 2m_temperature; precipitation; wind
Arctic_SEB_1992-1992_1 Literature research74.050000-19.9500001200.0108JournalJacobsen, A; Hansen, BuEstimation of the soil heat flux net radiation ratio based on spectral vegetation indexes in high-latitude Arctic areasInternational Journal of Remote Sensing1999https://doi.org/10.1080/01431169921353219921992summerP1Zackenberg; Greenlandlocal; regional25July-13August; hourly average; daily averagein situ measurements; comparison in situ and in situ; comparison spectral and meteorological; comparativenoin situ; meteorological; satellite; spectralvegetation; temperature; landcover; soil moisture; time of day; NDVI; SVIG; Rnet; temperatureG fractionG fractiontime of day; NDVINDVItopography; climate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_1992-1992_1Literature research74.050000-19.9500001200.0108JournalJacobsen, A; Hansen, BuEstimation of the soil heat flux net radiation ratio based on spectral vegetation indexes in high-latitude Arctic areasInternational Journal of Remote Sensing1999https://doi.org/10.1080/01431169921353219921992summerS1Zackenberg; Greenlandlocal; regional25July-13August; hourly average; daily averagein situ measurements; comparison in situ and in situ; comparison spectral and meteorological; comparativenoin situ; meteorological; satellite; spectralvegetation; temperature; landcover; soil moisture; time of day; NDVI; SVIG; Rnet; temperatureG fractionG fractiontime of day; NDVINDVItopography; climate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_1992-1992_1Literature research74.050000-19.9500001200.0108JournalJacobsen, A; Hansen, BuEstimation of the soil heat flux net radiation ratio based on spectral vegetation indexes in high-latitude Arctic areasInternational Journal of Remote Sensing1999https://doi.org/10.1080/01431169921353219921992summerW1Zackenberg; Greenlandlocal; regional25July-13August; hourly average; daily averagein situ measurements; comparison in situ and in situ; comparison spectral and meteorological; comparativenoin situ; meteorological; satellite; spectralvegetation; temperature; landcover; soil moisture; time of day; NDVI; SVIG; Rnet; temperatureG fractionG fractiontime of day; NDVINDVItopography; climate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_1992-1992_1Literature research74.050000-19.9500001200.0108JournalJacobsen, A; Hansen, BuEstimation of the soil heat flux net radiation ratio based on spectral vegetation indexes in high-latitude Arctic areasInternational Journal of Remote Sensing1999https://doi.org/10.1080/01431169921353219921992summerW3Zackenberg; Greenlandlocal; regional25July-13August; hourly average; daily averagein situ measurements; comparison in situ and in situ; comparison spectral and meteorological; comparativenoin situ; meteorological; satellite; spectralvegetation; temperature; landcover; soil moisture; time of day; NDVI; SVIG; Rnet; temperatureG fractionG fractiontime of day; NDVINDVItopography; climate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_2012-2015_1 Literature research74.625000-21.376000660.0110JournalLund, M; Stiegler, C; Abermann, J; Citterio, M; Hansen, Bu; Van As, DSpatiotemporal variability in surface energy balance across tundra, snow and ice in GreenlandAmbio2017https://doi.org/10.1007/s13280-016-0867-520122015allyeariceZackenberg; Nuuk; Greenlandlocaldaily average; weekly average; seasonal averagein situ measurements; comparativeyesin situ; meteorological; EC towerlandcover; snow; ice; vegetation; permafrost; clouds; meteorological; temperature; wind; pressure; time of yearLE; H; G; albedo; Rnet; Kin; Kout; Lin; Lout; Knet; LnetKin; Kout; Lin; Lout; snow cover; albedo; Knet; Lnet; H; LE; G; Melt; snow depth; snow coverRnettime of year; vegetation type; landcover; snow cover; cloud covercloud cover; vegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; vegetation; landcover
Arctic_SEB_2012-2015_2 Literature research74.481000-20.55500040.0110JournalLund, M; Stiegler, C; Abermann, J; Citterio, M; Hansen, Bu; Van As, DSpatiotemporal variability in surface energy balance across tundra, snow and ice in GreenlandAmbio2017https://doi.org/10.1007/s13280-016-0867-520122015allyearW1Zackenberg; Nuuk; Greenlandlocaldaily average; weekly average; seasonal averagein situ measurements; comparativeyesin situ; meteorological; EC towerlandcover; snow; ice; vegetation; permafrost; clouds; meteorological; temperature; wind; pressure; time of yearLE; H; G; albedo; Rnet; Kin; Kout; Lin; Lout; Knet; LnetKin; Kout; Lin; Lout; snow cover; albedo; Knet; Lnet; H; LE; G; Melt; snow depth; snow coverRnettime of year; vegetation type; landcover; snow cover; cloud covercloud cover; vegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; vegetation; landcover
Arctic_SEB_2012-2015_3 Literature research74.473000-20.55000040.0110JournalLund, M; Stiegler, C; Abermann, J; Citterio, M; Hansen, Bu; Van As, DSpatiotemporal variability in surface energy balance across tundra, snow and ice in GreenlandAmbio2017https://doi.org/10.1007/s13280-016-0867-520122015allyearP1Zackenberg; Nuuk; Greenlandlocaldaily average; weekly average; seasonal averagein situ measurements; comparativeyesin situ; meteorological; EC towerlandcover; snow; ice; vegetation; permafrost; clouds; meteorological; temperature; wind; pressure; time of yearLE; H; G; albedo; Rnet; Kin; Kout; Lin; Lout; Knet; LnetKin; Kout; Lin; Lout; snow cover; albedo; Knet; Lnet; H; LE; G; Melt; snow depth; snow coverRnettime of year; vegetation type; landcover; snow cover; cloud covercloud cover; vegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; vegetation; landcover
Arctic_SEB_2012-2015_4 Literature research64.482000-49.533000540.0110JournalLund, M; Stiegler, C; Abermann, J; Citterio, M; Hansen, Bu; Van As, DSpatiotemporal variability in surface energy balance across tundra, snow and ice in GreenlandAmbio2017https://doi.org/10.1007/s13280-016-0867-520122015allyeariceZackenberg; Nuuk; Greenlandlocaldaily average; weekly average; seasonal averagein situ measurements; comparativeyesin situ; meteorological; EC towerlandcover; snow; ice; vegetation; permafrost; clouds; meteorological; temperature; wind; pressure; time of yearLE; H; G; albedo; Rnet; Kin; Kout; Lin; Lout; Knet; LnetKin; Kout; Lin; Lout; snow cover; albedo; Knet; Lnet; H; LE; G; Melt; snow depth; snow coverRnettime of year; vegetation type; landcover; snow cover; cloud covercloud cover; vegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; vegetation; landcover
Arctic_SEB_2012-2015_5 Literature research64.131000-51.38600050.0110JournalLund, M; Stiegler, C; Abermann, J; Citterio, M; Hansen, Bu; Van As, DSpatiotemporal variability in surface energy balance across tundra, snow and ice in GreenlandAmbio2017https://doi.org/10.1007/s13280-016-0867-520122015allyearWZackenberg; Nuuk; Greenlandlocaldaily average; weekly average; seasonal averagein situ measurements; comparativeyesin situ; meteorological; EC towerlandcover; snow; ice; vegetation; permafrost; clouds; meteorological; temperature; wind; pressure; time of yearLE; H; G; albedo; Rnet; Kin; Kout; Lin; Lout; Knet; LnetKin; Kout; Lin; Lout; snow cover; albedo; Knet; Lnet; H; LE; G; Melt; snow depth; snow coverRnettime of year; vegetation type; landcover; snow cover; cloud covercloud cover; vegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; vegetation; landcover
Arctic_SEB_2014-2014_1 Literature research72.298333126.173333111JournalFranz, D; Mammarella, I; Boike, J; Kirillin, G; Vesala, T; Bornemann, N; Larmanou, E; Langer, M; Sachs, TLake-atmosphere heat flux dynamics of a thermokarst lake in Arctic SiberiaJournal of Geophysical Research-Atmospheres2018https://doi.org/10.1029/2017JD02775120142014spring|summerwaterKurungnakh Island; Lena River; Siberia; Russialocaldaily average; seasonal average; 23April-16August; 23April-21May; 27-29May; 24June-16Augustin situ measurements; comparative; comparison model and in situnoin situ; model; EC towertime of day; landcover; temperature; snow; snow melt; ice; ice melt; atmosphere; water vapor; windH; LE; temperature; albedo; ET; Rnet; storage; Lin; Lout; Kin; KoutH; LE; wind speed; 2m_temperature; 0m_temperature; albedo; ice cover; Rnet; heat storage change; temperature gradientH; LE; bowentime of year; time of day; ice covertime of year; ice coverclimate; permafrost; 2m_temperature; precipitation; topography; landscape
Arctic_SEB_2013-2014_1 Literature research74.050000-19.950000114JournalStiegler, C; Lund, M; Christensen, Tr; Mastepanov, M; Lindroth, ATwo years with extreme and little snowfall: effects on energy partitioning and surface energy exchange in a high-Arctic tundra ecosystemCryosphere2016https://doi.org/10.5194/tc-10-1395-201620132014allyearW3Zackenberg; Greenlandlocaldaily average; seasonal average; 10Nov-4Feb; 5Feb-12May; 5Feb-5May; 13-29May; 6May-23June; 13-30May; 6May-27June; 30May-8Sep; 24June-4Sep; 31May-4Sep; 31May-8Sep; 28June-4Sepin situ measurements; comparativeRnet_inferredin situ; meteorological; EC towersnow; landcover; vegetation; snow melt; temperature; precipitation; soil moisture; atmosphere; water vapor; NDVI; wind; mixing ratio; time of yearH; LE; G; Kin; Kout; Lin; Lout; albedo; Rnet; Knet; Lnet; temperature; ETEBC; Rnet; H; LE; G; albedo; snow depth; internal energy; soil moisture; aerodynamic resistance; surface resistanceKin; Kout; Lin; Lout; Knet; Lnet; Rnet; 2m_temperature; 0m_temperature; air pressure; albedo; H; LE; G; ETtime; time of year; vegetation typetime of year; vegetation type; ice cover; seasonclimate; landscape; topography; vegetation; 2m_temperature; precipitation; wind
Arctic_SEB_2013-2014_1Literature research74.050000-19.950000114JournalStiegler, C; Lund, M; Christensen, Tr; Mastepanov, M; Lindroth, ATwo years with extreme and little snowfall: effects on energy partitioning and surface energy exchange in a high-Arctic tundra ecosystemCryosphere2016https://doi.org/10.5194/tc-10-1395-201620132014allyearP2Zackenberg; Greenlandlocaldaily average; seasonal average; 10Nov-4Feb; 5Feb-12May; 5Feb-5May; 13-29May; 6May-23June; 13-30May; 6May-27June; 30May-8Sep; 24June-4Sep; 31May-4Sep; 31May-8Sep; 28June-4Sepin situ measurements; comparativeRnet_inferredin situ; meteorological; EC towersnow; landcover; vegetation; snow melt; temperature; precipitation; soil moisture; atmosphere; water vapor; NDVI; wind; mixing ratio; time of yearH; LE; G; Kin; Kout; Lin; Lout; albedo; Rnet; Knet; Lnet; temperature; ETEBC; Rnet; H; LE; G; albedo; snow depth; internal energy; soil moisture; aerodynamic resistance; surface resistanceKin; Kout; Lin; Lout; Knet; Lnet; Rnet; 2m_temperature; 0m_temperature; air pressure; albedo; H; LE; G; ETtime; time of year; vegetation typetime of year; vegetation type; ice cover; seasonclimate; landscape; topography; vegetation; 2m_temperature; precipitation; wind
Arctic_SEB_1988-1988_1Literature research67.100000-52.4000001050.0121JournalHarding, Rj; Johnson, Rc; Soegaard, HThe energy-balance of snow and partially snow covered areas in western GreenlandInternational Journal of Climatology1995https://doi.org/10.1002/joc.337015091019881988spring|summerice|waterSondre Stromfjord; Greenlandlocaldaily average; May; Junein situ; comparativenoin situ; meteorologicallandcover; irradiation; wind; water vapor; albedo; soil moistureRnet; H; LE; temperature; Lout2m_temperature; wind; albedo; snow depth; ETKin; Kout; Rnet; albedo; ET; H; bowentime of year; time of day; vegetation type; landcover; snow covervegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; topography; vegetation; landcover
Arctic_SEB_1988-1988_2 Literature research67.080000-52.5000001050.0121JournalHarding, Rj; Johnson, Rc; Soegaard, HThe energy-balance of snow and partially snow covered areas in western GreenlandInternational Journal of Climatology1995https://doi.org/10.1002/joc.337015091019881988spring|summericeSondre Stromfjord; Greenlandlocaldaily average; May; Junein situ; comparativenoin situ; meteorologicallandcover; irradiation; wind; water vapor; albedo; soil moistureRnet; H; LE; temperature; Lout2m_temperature; wind; albedo; snow depth; ETKin; Kout; Rnet; albedo; ET; H; bowentime of year; time of day; vegetation type; landcover; snow covervegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; topography; vegetation; landcover
Arctic_SEB_1988-1988_3 Literature research67.110000-53.200000600.0121JournalHarding, Rj; Johnson, Rc; Soegaard, HThe energy-balance of snow and partially snow covered areas in western GreenlandInternational Journal of Climatology1995https://doi.org/10.1002/joc.337015091019881988spring|summerS1Sondre Stromfjord; Greenlandlocaldaily average; May; Junein situ; comparativenoin situ; meteorologicallandcover; irradiation; wind; water vapor; albedo; soil moistureRnet; H; LE; temperature; Lout2m_temperature; wind; albedo; snow depth; ETKin; Kout; Rnet; albedo; ET; H; bowentime of year; time of day; vegetation type; landcover; snow covervegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; topography; vegetation; landcover
Arctic_SEB_1988-1988_4 Literature research67.120000-52.100000640.0121JournalHarding, Rj; Johnson, Rc; Soegaard, HThe energy-balance of snow and partially snow covered areas in western GreenlandInternational Journal of Climatology1995https://doi.org/10.1002/joc.337015091019881988spring|summerS2Sondre Stromfjord; Greenlandlocaldaily average; May; Junein situ; comparativenoin situ; meteorologicallandcover; irradiation; wind; water vapor; albedo; soil moistureRnet; H; LE; temperature; Lout2m_temperature; wind; albedo; snow depth; ETKin; Kout; Rnet; albedo; ET; H; bowentime of year; time of day; vegetation type; landcover; snow covervegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; topography; vegetation; landcover
Arctic_SEB_1988-1988_5 Literature research67.060000-50.250000480.0121JournalHarding, Rj; Johnson, Rc; Soegaard, HThe energy-balance of snow and partially snow covered areas in western GreenlandInternational Journal of Climatology1995https://doi.org/10.1002/joc.337015091019881988spring|summerGSondre Stromfjord; Greenlandlocaldaily average; May; Junein situ; comparativenoin situ; meteorologicallandcover; irradiation; wind; water vapor; albedo; soil moistureRnet; H; LE; temperature; Lout2m_temperature; wind; albedo; snow depth; ETKin; Kout; Rnet; albedo; ET; H; bowentime of year; time of day; vegetation type; landcover; snow covervegetation type; landcover; snow coverclimate; 2m_temperature; precipitation; topography; vegetation; landcover
Arctic_SEB_1999-1999_1Literature research60.700000-135.0000001250.0131JournalPomeroy, Jw; Toth, B; Granger, Rj; Hedstrom, Nr; Essery, RlhVariation in surface energetics during snowmelt in a Subarctic mountain catchmentJournal of Hydrometeorology2003https://doi.org/10.1175/1525-7541(2003)004<0702:VISEDS>2.0.CO;219991999springS2Blackbrush; Alpine; Forest; Wolf Creek; Yukon; Canadalocalhalf-hour average; daily average; seasonal average; 17-24Aprilin situ; comparative; modelnoCoordinate source unclear: but within the Wolf Creek watershed in Yukon, Canadain situ; EC tower; meteorological; meteo tower; modeltopography; time of year; snow; snow melt; temperature; water vapor; sun angle; irradiation; vegetation; soil moisture; clouds; windRnet; temperature; G; LE; H; KinSWE; wind speed; 2m_temperature; 0m_temperature; relative humidity; Kin; Rnet; G; H; LE; Melt energy2m_temperature; relative humidity; wind speed; 0m_temperature; Kintime of year; slopeslopeclimate; vegetation type;
Arctic_SEB_1999-1999_1Literature research60.700000-135.0000001615.0131JournalPomeroy, Jw; Toth, B; Granger, Rj; Hedstrom, Nr; Essery, RlhVariation in surface energetics during snowmelt in a Subarctic mountain catchmentJournal of Hydrometeorology2003https://doi.org/10.1175/1525-7541(2003)004<0702:VISEDS>2.0.CO;219991999springS2Blackbrush; Alpine; Forest; Wolf Creek; Yukon; Canadalocalhalf-hour average; daily average; seasonal average; 17-24Aprilin situ; comparative; modelnoCoordinate source unclear: but within the Wolf Creek watershed in Yukon, Canadain situ; EC tower; meteorological; meteo tower; modeltopography; time of year; snow; snow melt; temperature; water vapor; sun angle; irradiation; vegetation; soil moisture; clouds; windRnet; temperature; G; LE; H; KinSWE; wind speed; 2m_temperature; 0m_temperature; relative humidity; Kin; Rnet; G; H; LE; Melt energy2m_temperature; relative humidity; wind speed; 0m_temperature; Kintime of year; slopeslopeclimate; vegetation type;
Arctic_SEB_1999-1999_1Literature research60.700000-135.000000750.0131JournalPomeroy, Jw; Toth, B; Granger, Rj; Hedstrom, Nr; Essery, RlhVariation in surface energetics during snowmelt in a Subarctic mountain catchmentJournal of Hydrometeorology2003https://doi.org/10.1175/1525-7541(2003)004<0702:VISEDS>2.0.CO;219991999springS2Blackbrush; Alpine; Forest; Wolf Creek; Yukon; Canadalocalhalf-hour average; daily average; seasonal average; 17-24Aprilin situ; comparative; modelnoCoordinate source unclear: but within the Wolf Creek watershed in Yukon, Canadain situ; EC tower; meteorological; meteo tower; modeltopography; time of year; snow; snow melt; temperature; water vapor; sun angle; irradiation; vegetation; soil moisture; clouds; windRnet; temperature; G; LE; H; KinSWE; wind speed; 2m_temperature; 0m_temperature; relative humidity; Kin; Rnet; G; H; LE; Melt energy2m_temperature; relative humidity; wind speed; 0m_temperature; Kintime of year; slopeslopeclimate; vegetation type;
Arctic_SEB_2013-2014_1Literature research72.000000-38.0000003211.0132JournalMiller, Nb; Shupe, Md; Cox, Cj; Noone, D; Persson, Pog; Steffen, KSurface energy budget responses to radiative forcing at Summit, GreenlandCryosphere2017https://doi.org/10.5194/tc-11-497-201720132014allyeariceSummit; Greenlandlocalmonthly averagein situ measurementsnoin situ; EC tower; meteorologicalclouds; atmosphere; time of year; temperature; water vapor; mixing; wind; pressureLin; Lout; Kin; Kout; Rnet; LE; H; G; storage; temperature500m_temperature; 0m_temperature; -1m_temperature; Rnet; LE; H; G; cloud cover; LWP; PWV; Louttime of year; time of day; LWP
Arctic_SEB_2013-2013_1 Literature research68.34300018.824833380.0133JournalStiegler, C; Johansson, M; Christensen, Tr; Mastepanov, M; Lindroth, ATundra permafrost thaw causes significant shifts in energy partitioningTellus Series B-Chemical and Physical Meteorology2016https://doi.org/10.3402/tellusb.v68.3046720132013summerP1Stordalen; Storflaket; Tornetrõsk; Abisko; Swedenlocalseasonal average; 12June-31August; 12-26June; 10-24July; 7-31August; weekly averagein situ; comparativenoin situ; EC towerpermafrost; irradiation; soil moisture; vegetation; albedo; landcover; time of day; temperature; atmosphere; water vapor; wind; time of yearLE; H; G; Rnet; Kin; Kout; Lin; Lout; temperature; albedo; ETRnet; H; LE; G; EBCKin; Lout; Lin; Kout; Knet; Lnet; Rnet; albedo; H; LE; G; bowen; 2m_temperature; 0m_temperature; -0.02m_temperature; air pressure; mixing ratio; relative humidity; VPD; ET; wind speed; friction velocity; resistancetime of day; vegetation type; Rnetvegetation typeclimate; 2m_temperature; precipitation; landscape; vegetation type
Arctic_SEB_2013-2013_1Literature research68.34300018.824833380.0133JournalStiegler, C; Johansson, M; Christensen, Tr; Mastepanov, M; Lindroth, ATundra permafrost thaw causes significant shifts in energy partitioningTellus Series B-Chemical and Physical Meteorology2016https://doi.org/10.3402/tellusb.v68.3046720132013summerG4Stordalen; Storflaket; Tornetrõsk; Abisko; Swedenlocalseasonal average; 12June-31August; 12-26June; 10-24July; 7-31August; weekly averagein situ; comparativenoin situ; EC towerpermafrost; irradiation; soil moisture; vegetation; albedo; landcover; time of day; temperature; atmosphere; water vapor; wind; time of yearLE; H; G; Rnet; Kin; Kout; Lin; Lout; temperature; albedo; ETRnet; H; LE; G; EBCKin; Lout; Lin; Kout; Knet; Lnet; Rnet; albedo; H; LE; G; bowen; 2m_temperature; 0m_temperature; -0.02m_temperature; air pressure; mixing ratio; relative humidity; VPD; ET; wind speed; friction velocity; resistancetime of day; vegetation type; Rnetvegetation typeclimate; 2m_temperature; precipitation; landscape; vegetation type
Arctic_SEB_2013-2013_1Literature research68.34300018.824833380.0133JournalStiegler, C; Johansson, M; Christensen, Tr; Mastepanov, M; Lindroth, ATundra permafrost thaw causes significant shifts in energy partitioningTellus Series B-Chemical and Physical Meteorology2016https://doi.org/10.3402/tellusb.v68.3046720132013summerW3Stordalen; Storflaket; Tornetrõsk; Abisko; Swedenlocalseasonal average; 12June-31August; 12-26June; 10-24July; 7-31August; weekly averagein situ; comparativenoin situ; EC towerpermafrost; irradiation; soil moisture; vegetation; albedo; landcover; time of day; temperature; atmosphere; water vapor; wind; time of yearLE; H; G; Rnet; Kin; Kout; Lin; Lout; temperature; albedo; ETRnet; H; LE; G; EBCKin; Lout; Lin; Kout; Knet; Lnet; Rnet; albedo; H; LE; G; bowen; 2m_temperature; 0m_temperature; -0.02m_temperature; air pressure; mixing ratio; relative humidity; VPD; ET; wind speed; friction velocity; resistancetime of day; vegetation type; Rnetvegetation typeclimate; 2m_temperature; precipitation; landscape; vegetation type
Arctic_SEB_2006-2008_1 Literature research71.316667-155.3833338.0142JournalCox, Cj; Walden, Vp; Rowe, PmA comparison of the atmospheric conditions at eureka, Canada, and Barrow, Alaska (2006-2008)Journal of Geophysical Research-Atmospheres2012https://doi.org/10.1029/2011JD01716420062008allyeartundraEureka; Nunavut; Canada; ARM; Barrow; Alaska; USAlocal; regionalmonthly averagein situ measurements; comparative; reanalysis; modelunclearin situ; model; reanalysis; ERA-Interim; EC tower; network; IASOAclouds; atmosphere; temperature; water vapor; wind; irradiation; time of yeartemperature; Lin2m_temperature; water vapor; Lin; CRFtime of year; time; cloud cover
Arctic_SEB_2006-2008_2 Literature research80.000000-85.58333310.0142JournalCox, Cj; Walden, Vp; Rowe, PmA comparison of the atmospheric conditions at eureka, Canada, and Barrow, Alaska (2006-2008)Journal of Geophysical Research-Atmospheres2012https://doi.org/10.1029/2011JD01716420062008allyeartundraEureka; Nunavut; Canada; ARM; Barrow; Alaska; USAlocal; regionalmonthly averagein situ measurements; comparative; reanalysis; modelunclearin situ; model; reanalysis; ERA-Interim; EC tower; network; IASOAclouds; atmosphere; temperature; water vapor; wind; irradiation; time of yeartemperature; Lin2m_temperature; water vapor; Lin; CRFtime of year; time; cloud cover
Arctic_SEB_2007-2010_1 Literature research79.980000-85.93000085.0149JournalVan Tricht, K; Lhermitte, S; Gorodetskaya, Iv; Van Lipzig, NpmImproving satellite-retrieved surface radiative fluxes in polar regions using a smart sampling approachCryosphere2016https://doi.org/10.5194/tc-10-2379-201620072010allyeartundraEureka; Nunavut; Canada; Ny Alesynd; Svalbard; Greenland interior; AWSlocal; regionaldiscrete measurementscomparison satellite and in situ; satellite validationnosatellite; CALIPSO; CloudSat; in situ; networkclouds; landcover; altitudeKin; LinLinlocation; altitudevegetation type; topography
Arctic_SEB_2002-2010_1 Literature research71.300000-156.500000157JournalNiu, Xl; Pinker, RtRadiative fluxes at Barrow, Alaska: a satellite viewJournal of Climate2011https://doi.org/10.1175/JCLI-D-11-00062.120022010allyeartundraBarrow; Alaska; USA; Arcticlocal; regionaldaily average; 1May; DOY50-300satellite validation; comparison satellite and in situ and reanalysisunclearsatellite; MODIS; AVHRR; in situ; model; reanalysis; NCEPsnow; sea ice; time of yearKin; Kout; Knet; albedoalbedo; Knet; Kin; Kout; snow cover; sun zenith angletime of year
Arctic_SEB_1995-1998_1 Literature research71.300000-156.500000161JournalLing, F; Zhang, TjSensitivity of ground thermal regime and surface energy fluxes to tundra snow density in northern AlaskaCold Regions Science and Technology2006https://doi.org/10.1016/j.coldregions.2005.09.00219951998allyeartundraBarrow; Alaska; USA; CMDLlocaldaily averagemodel experiment; comparison model and model; comparative; simulation of SEBunclearin situ; model; meteorologicalsnow; wind; temperature; atmosphere; irradiation; time of yearG; temperature; LE; H; albedosnow depth; albedo; -0.01m_temperature; -0.29m_temperature; -0.50m_temperature; -1m_temperaturetime of yearsnow density; thermal conductivity; volumetric heat capacity
Arctic_SEB_2013-2014_1Literature research70.830000147.490000165JournalJuszak, I; Eugster, W; Heijmans, Mmpd; Schaepman-Strub, GContrasting radiation and soil heat fluxes in Arctic shrub and wet sedge tundraBiogeosciences2016https://doi.org/10.5194/bg-13-4049-201620132014summerG4Kytalyk; Siberia; Russialocaldaily average; seasonal averagein situ measurements; comparative; replicatednoin situvegetation; albedo; clouds; temperature; soil; permafrost; soil moisture; sun angle; LAIalbedo; G; Kin; Kout; Lin; Lout; Knet; Lnet; temperature; Rnetcanopy height; Kin; Kout; Lin Lout; Knet; Lnet; Rnet; albedo; transmittance; 0m_temperature; 2m_temperature; G; ALTalbedo; transmittance; Rnet; Knet; 0.04m_temperature; Gvegetation type; leaf area; wood area; time of day; time of year; solar zenith anglevegetation type; cloud coverclimate; permafrost; vegetation type; growing season; active layer thickness; standing biomass; soil moisture
Arctic_SEB_2000-2000_1 Literature research61.916667-112.266667170JournalOswald, Cj; Rouse, WrThermal characteristics and energy balance of various-size Canadian shield lakes in the Mackenzie river basinJournal of Hydrometeorology2004https://doi.org/10.1175/1525-7541(2004)005<0129:TCAEBO>2.0.CO;220002000allyearwaterYellowknife; NWT; Canadalocaldaily averagein situ measurements; comparativenoin situ; meteorological; meteo towertemperature; landcover; wind; irradiation; water vapor; time of yearRnet; temperature; Lout; Kin; LE; H; storage; ET2m_temperature; 0m_temperature; wind speed; Rnet; LE; H; storagetime of year; lake type; weatherclimate; 2m_temperature; precipitation; landscape; landcover
Arctic_SEB_2000-2000_2 Literature research62.916667-111.083333170JournalOswald, Cj; Rouse, WrThermal characteristics and energy balance of various-size Canadian shield lakes in the Mackenzie river basinJournal of Hydrometeorology2004https://doi.org/10.1175/1525-7541(2004)005<0129:TCAEBO>2.0.CO;220002000allyearwaterYellowknife; NWT; Canadalocaldaily averagein situ measurements; comparativenoin situ; meteorological; meteo towertemperature; landcover; wind; irradiation; water vapor; time of yearRnet; temperature; Lout; Kin; LE; H; storage; ET2m_temperature; 0m_temperature; wind speed; Rnet; LE; H; storagetime of year; lake type; weatherclimate; 2m_temperature; precipitation; landscape; landcover
Arctic_SEB_2000-2000_3 Literature research63.583333-112.116667170JournalOswald, Cj; Rouse, WrThermal characteristics and energy balance of various-size Canadian shield lakes in the Mackenzie river basinJournal of Hydrometeorology2004https://doi.org/10.1175/1525-7541(2004)005<0129:TCAEBO>2.0.CO;220002000allyearwaterYellowknife; NWT; Canadalocaldaily averagein situ measurements; comparativenoin situ; meteorological; meteo towertemperature; landcover; wind; irradiation; water vapor; time of yearRnet; temperature; Lout; Kin; LE; H; storage; ET2m_temperature; 0m_temperature; wind speed; Rnet; LE; H; storagetime of year; lake type; weatherclimate; 2m_temperature; precipitation; landscape; landcover
Arctic_SEB_2000-2000_4 Literature research62.516667-113.633333170JournalOswald, Cj; Rouse, WrThermal characteristics and energy balance of various-size Canadian shield lakes in the Mackenzie river basinJournal of Hydrometeorology2004https://doi.org/10.1175/1525-7541(2004)005<0129:TCAEBO>2.0.CO;220002000allyearwaterYellowknife; NWT; Canadalocaldaily averagein situ measurements; comparativenoin situ; meteorological; meteo towertemperature; landcover; wind; irradiation; water vapor; time of yearRnet; temperature; Lout; Kin; LE; H; storage; ET2m_temperature; 0m_temperature; wind speed; Rnet; LE; H; storagetime of year; lake type; weatherclimate; 2m_temperature; precipitation; landscape; landcover
Arctic_SEB_1995-1999_1 Literature research71.300000-156.500000172JournalLing, F; Zhang, TjModeled impacts of changes in tundra snow thickness on ground thermal regime and heat flow to the atmosphere in northernmost AlaskaGlobal and Planetary Change2007https://doi.org/10.1016/j.gloplacha.2006.11.00919951999allyeartundraBarrow; Alaska; USAlocaldaily average; 2May-21June; annual averagemodel experiment; simulation of SEBnomodel; in situ; meteorological; meteo towersnow; time of year; albedo; atmosphere; pressure; wind; irradiation; time of dayG; albedo; temperature;snow thickness; 2m_temperature; dewpoint_temperature; atmospheric pressure; wind speed; Kin; albedo; -1m_temperature; G; -0.01m_temperature; -0,29m_temperature; -0.5m_temperature; -1m_temperature; -3m_temperaturetime of year; snow thicknesssnow thickness
Arctic_SEB_1988-1988_1Literature research79.000000-76.000000175JournalSzilder, K; Henry, Ghr; Lozowski, Ep; Labine, CDiagnosing the diurnal surface energy balance over the summer tundra at Princess Marie Bay from simple short-period measurementsTheoretical and Applied Climatology1996https://doi.org/10.1007/BF0086516219881988summerP2Princess Marie Bay; Ellesmere Island; Canadalocal15min average; 18July-25July; 8day averagemodel experiment; model validation; comparison model and in situH_inferred|LE_inferredmodel; in situ; meteorological; meteo towerirradiation; wind; temperature; permafrost; time of day; clouds; sun angle; soilKin; temperature; Knet; Lout; Lin; Rnet; H2m_temperature; 0m_temperature; -0.6m_temperature; Kin; Lout; Lin; Rnet; H; Gtime of year; time of day
Arctic_SEB_2000-2002_1 Literature research64.502900-163.696400182JournalSturm, M; Douglas, T; Racine, C; Liston, GeChanging snow and shrub conditions affect albedo with global implicationsJournal of Geophysical Research-Biogeosciences2005https://doi.org/10.1029/2005JG00001320002002winter|springtundraCouncil; Alaska; USAlocalseasonal average; daily average; 1January-1May; 21April-10June; 1September-30Junein situ measurements; comparative; model experiment; simulation of SEBnoin situ; model; meteorologicalvegetation; snow; albedo; snow melt; topography; sun angle; time of year; temperature; irradiationalbedoalbedo; snow depth; 2m_temperature; surface debrisalbedoKnettime of year; vegetation typetime; vegetation type; time of yearvegetation typevegetation type; vegetation cover; standing biomass; canopy height; stem diameter
Arctic_SEB_2000-2002_2 Literature research64.891700-163.649600182JournalSturm, M; Douglas, T; Racine, C; Liston, GeChanging snow and shrub conditions affect albedo with global implicationsJournal of Geophysical Research-Biogeosciences2005https://doi.org/10.1029/2005JG00001320002002winter|springS2Council; Alaska; USAlocalseasonal average; daily average; 1January-1May; 21April-10June; 1September-30Junein situ measurements; comparative; model experiment; simulation of SEBnoin situ; model; meteorologicalvegetation; snow; albedo; snow melt; topography; sun angle; time of year; temperature; irradiationalbedoalbedo; snow depth; 2m_temperature; surface debrisalbedoKnettime of year; vegetation typetime; vegetation type; time of yearvegetation typevegetation type; vegetation cover; standing biomass; canopy height; stem diameter
Arctic_SEB_2000-2002_3 Literature research64.935400-163.737800182JournalSturm, M; Douglas, T; Racine, C; Liston, GeChanging snow and shrub conditions affect albedo with global implicationsJournal of Geophysical Research-Biogeosciences2005https://doi.org/10.1029/2005JG00001320002002winter|springS2Council; Alaska; USAlocalseasonal average; daily average; 1January-1May; 21April-10June; 1September-30Junein situ measurements; comparative; model experiment; simulation of SEBnoin situ; model; meteorologicalvegetation; snow; albedo; snow melt; topography; sun angle; time of year; temperature; irradiationalbedoalbedo; snow depth; 2m_temperature; surface debrisalbedoKnettime of year; vegetation typetime; vegetation type; time of yearvegetation typevegetation type; vegetation cover; standing biomass; canopy height; stem diameter
Arctic_SEB_2012-2012_1 Literature research78.050000-66.3666671490.0185JournalNiwano, M; Aoki, T; Matoba, S; Yamaguchi, S; Tanikawa, T; Kuchiki, K; Motoyama, HNumerical simulation of extreme snowmelt observed at the sigma-a site, northwest Greenland, during summer 2012Cryosphere2015https://doi.org/10.5194/tc-9-971-201520122012summericeGreenland Ice Sheetlocal5min average; hourly average; 30June-14July; 30June-9July; 10July-14Julyin situ measurements; simulation of SEB; comparative; model validation; comparison model and in situnoin situ; model; SMAP; meteorological; reanalysisatmosphere; snow; snow melt; precipitation; time of year; temperature; albedo; clouds; wind; water vapor; aerosolstemperature; albedo; Kin; Lin; Knet; Lnet; H; LE; G; RnetKnet; Lnet; H; LE; G; Rnet; Hrain; 3m_temperature; 0m_temperature; relative snow depth; albedo; relative humidity; wind speed; wind direction; Kin; Lin; snow depth; snow shape; snow grain size; mass concentration elemental carbon and dusttime of year; temperature
Arctic_SEB_2014-2015_1 Literature research68.610000161.350000191JournalGockede, M; Kittler, F; Kwon, Mj; Burjack, I; Heimann, M; Kolle, O; Zimov, N; Zimov, SShifted energy fluxes, increased bowen ratios, and reduced thaw depths linked with drainage-induced changes in permafrost ecosystem structureCryosphere2017https://doi.org/10.5194/tc-11-2975-201720142015allyearG4Chersky; Siberia; Russialocalmonthly average; daily average; seasonal average; June-Septemberexperimental treatment; in situ measurements; comparative; replicatedunclearin situ; EC tower; meteorological; meteo towersoil moisture; drought; vegetation; snow; temperature; precipitation; time of yearG; H; Knet; albedo; Kin; temperature; Rnet; LERnet; H; LE; bowen; 2m_temperature; precipitation; vegetation cover; Kin; albedo; Knet; -0.04m_temperature; -0.16m_temperature; -0.64m_temperature; -0.05m_temperature; -0.35m_temperature; ALTRnet; H; LE; bowenalbedo; Knet; Rnet; H; LE; bowentime of year; time; soil moisturesoil moisturesoil moisturesoil; hydrology; climate; vegetation type; vegetation cover; landscape; landcover; temperature; precipitation
Arctic_SEB_2008-2008_1 Literature research68.990000-150.280000192JournalRocha, Av; Shaver, GrAdvantages of a two band evi calculated from solar and photosynthetically active radiation fluxesAgricultural and Forest Meteorology2009https://doi.org/10.1016/j.agrformet.2009.03.01620082008summerburned G4Anaktuvuk River; Alaska; USAlocaldaily averagesatellite measurements; comparativenosatellite; in situ; EC towerNDVI; EVI; disturbance; fire; time of yearalbedoalbedo; NDVI; EVI; EVI2time of year; burn severity; vegetation cover
Arctic_SEB_2008-2008_2 Literature research68.950000-150.210000192JournalRocha, Av; Shaver, GrAdvantages of a two band evi calculated from solar and photosynthetically active radiation fluxesAgricultural and Forest Meteorology2009https://doi.org/10.1016/j.agrformet.2009.03.01620082008summerburned G4Anaktuvuk River; Alaska; USAlocaldaily averagesatellite measurements; comparativenosatellite; in situ; EC towerNDVI; EVI; disturbance; fire; time of yearalbedoalbedo; NDVI; EVI; EVI2time of year; burn severity; vegetation cover
Arctic_SEB_2008-2008_3 Literature research68.930000-150.270000192JournalRocha, Av; Shaver, GrAdvantages of a two band evi calculated from solar and photosynthetically active radiation fluxesAgricultural and Forest Meteorology2009https://doi.org/10.1016/j.agrformet.2009.03.01620082008summerG4Anaktuvuk River; Alaska; USAlocaldaily averagesatellite measurements; comparativenosatellite; in situ; EC towerNDVI; EVI; disturbance; fire; time of yearalbedoalbedo; NDVI; EVI; EVI2time of year; burn severity; vegetation cover
Arctic_SEB_2012-2014_1 Literature research71.600000128.90000015.0195JournalVinogradova, Aa; Titkova, Tb; Ivanova, YaEpisodes with anomalously high black carbon concentration in surface air in the region of Tiksi station, YakutiyaAtmospheric and Oceanic Optics2019https://doi.org/10.1134/S102485601901018420122014allyeartundraTiksi; Russialocalhourly average; March-September; daily average; monthly averagein situ measurements; comparativeunclearin situ; meteo towerdisturbance, fire; aerosol; time of yeartemperature; Kin; Kout; Lin; Lout; RnetBC concentration; Knet; Lnet; 2m_temperature; RnetBC concentration; 2m_temperature; Rnettime of year; yeartime; time of year
Arctic_SEB_2012-2012_1Literature research72.600000-37.950000196JournalBennartz, R; Shupe, Md; Turner, Dd; Walden, Vp; Steffen, K; Cox, Cj; Kulie, Ms; Miller, Nb; Pettersen, CJuly 2012 Greenland melt extent enhanced by low-level liquid cloudsNature2013https://doi.org/10.1038/nature1200220122012summericeSummit; Greenlandlocal; regionalJuly; hourly average; seasonal averagein situ measurements; simulation of SEB; comparative; model validation; comparison model and in situunclearCoordinate source unclearin situ; satellite; remote sensing; model; MODISclouds; water vapor; time of yeartemperature; Lin; Kin500m_temperature; 2m_temperature; LWP; WVP; ice melt; cloud occurrencetime of year
Arctic_SEB_1994-2008_1 Literature research71.316667-155.400000198JournalZib, Bj; Dong, Xq; Xi, Bk; Kennedy, AEvaluation and intercomparison of cloud fraction and radiative fluxes in recent reanalyses over the Arctic using bsrn surface observationsJournal of Climate2012https://doi.org/10.1175/JCLI-D-11-00147.119942008allyeartundraBarrow; Alaska; USA; Arctic; Ny Alesynd; Svalbard; BSRNlocal; regionalmonthly average; yearly average; seasonal averagecomparison reanalysis and reanalysis and in situ; validationyesin situ; reanalysis; meteo tower; MERRA; CFSR; 20CR; ERA-I; R2; meteorological; BSRN; ARMclouds; water vapor; aerosol; time of yearLin; Kin; temperaturecloud cover; Kin; Lin; 2m_temperatureKin; Lintime of yeartime of year
Arctic_SEB_1994-2008_2 Literature research78.91666711.933333198JournalZib, Bj; Dong, Xq; Xi, Bk; Kennedy, AEvaluation and intercomparison of cloud fraction and radiative fluxes in recent reanalyses over the Arctic using bsrn surface observationsJournal of Climate2012https://doi.org/10.1175/JCLI-D-11-00147.119942008allyeartundraBarrow; Alaska; USA; Arctic; Ny Alesynd; Svalbard; BSRNlocal; regionalmonthly average; yearly average; seasonal averagecomparison reanalysis and reanalysis and in situ; validationyesin situ; reanalysis; meteo tower; MERRA; CFSR; 20CR; ERA-I; R2; meteorological; BSRN; ARMclouds; water vapor; aerosol; time of yearLin; Kin; temperaturecloud cover; Kin; Lin; 2m_temperatureKin; Lintime of yeartime of year
Arctic_SEB_1989-1990_1 Literature research79.966667-83.533333118.0202JournalYoung, Kl; Woo, MkModelling net radiation in a high Arctic environment using summer field camp dataInternational Journal of Climatology1997https://doi.org/10.1002/(SICI)1097-0088(199709)17:11<1211::AID-JOC194>3.0.CO;2-Z19891990summerB2Hot Weather Creek; Fosheim Peninsula; Ellesmere Island; NWT; Canadalocal5day average; daily average; DOY170-232comparison model and in situ; model validation; in situ measurements; comparativeG_inferredmodel; in situclouds; albedo; atmosphere; temperature; wind; topography; snow melt; time of year; soil; water vapor; precipitationRnet; H; LE; GRnet; H; LE; GRnet; H; LE; Gtime of year; topography; albedo; precipitationtopography; albedovegetation type; vegetation cover; topography; soil; climate; 1.5m_temperature; precipitation; clouds
Arctic_SEB_1989-1990_1Literature research79.966667-83.53333395.0202JournalYoung, Kl; Woo, MkModelling net radiation in a high Arctic environment using summer field camp dataInternational Journal of Climatology1997https://doi.org/10.1002/(SICI)1097-0088(199709)17:11<1211::AID-JOC194>3.0.CO;2-Z19891990summerP2Hot Weather Creek; Fosheim Peninsula; Ellesmere Island; NWT; Canadalocal5day average; daily average; DOY170-232comparison model and in situ; model validation; in situ measurements; comparativeG_inferredmodel; in situclouds; albedo; atmosphere; temperature; wind; topography; snow melt; time of year; soil; water vapor; precipitationRnet; H; LE; GRnet; H; LE; GRnet; H; LE; Gtime of year; topography; albedo; precipitationtopography; albedovegetation type; vegetation cover; topography; soil; climate; 1.5m_temperature; precipitation; clouds
Arctic_SEB_1989-1990_1Literature research79.966667-83.53333396.0202JournalYoung, Kl; Woo, MkModelling net radiation in a high Arctic environment using summer field camp dataInternational Journal of Climatology1997https://doi.org/10.1002/(SICI)1097-0088(199709)17:11<1211::AID-JOC194>3.0.CO;2-Z19891990summerB3|B4|P2Hot Weather Creek; Fosheim Peninsula; Ellesmere Island; NWT; Canadalocal5day average; daily average; DOY170-232comparison model and in situ; model validation; in situ measurements; comparativeG_inferredmodel; in situclouds; albedo; atmosphere; temperature; wind; topography; snow melt; time of year; soil; water vapor; precipitationRnet; H; LE; GRnet; H; LE; GRnet; H; LE; Gtime of year; topography; albedo; precipitationtopography; albedovegetation type; vegetation cover; topography; soil; climate; 1.5m_temperature; precipitation; clouds
Arctic_SEB_1989-1990_1Literature research79.966667-83.53333399.0202JournalYoung, Kl; Woo, MkModelling net radiation in a high Arctic environment using summer field camp dataInternational Journal of Climatology1997https://doi.org/10.1002/(SICI)1097-0088(199709)17:11<1211::AID-JOC194>3.0.CO;2-Z19891990summerP2Hot Weather Creek; Fosheim Peninsula; Ellesmere Island; NWT; Canadalocal5day average; daily average; DOY170-232comparison model and in situ; model validation; in situ measurements; comparativeG_inferredmodel; in situclouds; albedo; atmosphere; temperature; wind; topography; snow melt; time of year; soil; water vapor; precipitationRnet; H; LE; GRnet; H; LE; GRnet; H; LE; Gtime of year; topography; albedo; precipitationtopography; albedovegetation type; vegetation cover; topography; soil; climate; 1.5m_temperature; precipitation; clouds
Arctic_SEB_1989-1990_1Literature research79.966667-83.53333385.0202JournalYoung, Kl; Woo, MkModelling net radiation in a high Arctic environment using summer field camp dataInternational Journal of Climatology1997https://doi.org/10.1002/(SICI)1097-0088(199709)17:11<1211::AID-JOC194>3.0.CO;2-Z19891990summerP2Hot Weather Creek; Fosheim Peninsula; Ellesmere Island; NWT; Canadalocal5day average; daily average; DOY170-232comparison model and in situ; model validation; in situ measurements; comparativeG_inferredmodel; in situclouds; albedo; atmosphere; temperature; wind; topography; snow melt; time of year; soil; water vapor; precipitationRnet; H; LE; GRnet; H; LE; GRnet; H; LE; Gtime of year; topography; albedo; precipitationtopography; albedovegetation type; vegetation cover; topography; soil; climate; 1.5m_temperature; precipitation; clouds
Arctic_SEB_1991-1999_1 Literature research64.841650-162.30681749.0217JournalBeringer, J; Chapin, Fs; Thompson, Cc; Mcguire, AdSurface energy exchanges along a tundra-forest transition and feedbacks to climateAgricultural and Forest Meteorology2005https://doi.org/10.1016/j.agrformet.2005.05.00619911999summerG4Council; Seward; Alaska; USAlocalseasonal average; growing season; daily average; halfhourly average; 18June-22August; 14July-27July; 4August-22August; 19June-13July; 18June-22Augustin situ measurements; comparativenoin situ; meteorological; meteo tower; EC towervegetation; landcover; LAI; albedo; resistance; water vapor; temperature; soil moisture; soil; time of dayH; LE; albedo; Kin; Kout; Lin; Lout; Rnet; temperature; GLAI; albedo; Rnet; LE; H; G; bowen; evaporative fraction; H fraction; G fractionvegetation cover; topography; Kin; Kout; Lin; Lout; Rnet; 2m_temperature; soil characteristics; VPD; wind speed; albedo midday; LAI; bowen; LE max; H max; G max; vegetation structure; resistance; Rnet; H; LE; Gbowen; evaporative fraction; H fraction; G fractionvegetation type; time of dayvegetation typevegetation typeclimate; 2m_temperature; precipitation; vegetation type; vegetation cover; topography; soil; soil moisture; soil bulk density; permafrost; hydrology
Arctic_SEB_1991-1999_2 Literature research64.891167-162.36400083.0217JournalBeringer, J; Chapin, Fs; Thompson, Cc; Mcguire, AdSurface energy exchanges along a tundra-forest transition and feedbacks to climateAgricultural and Forest Meteorology2005https://doi.org/10.1016/j.agrformet.2005.05.00619911999summerS2Council; Seward; Alaska; USAlocalseasonal average; growing season; daily average; halfhourly average; 18June-22August; 14July-27July; 4August-22August; 19June-13July; 18June-22Augustin situ measurements; comparativenoin situ; meteorological; meteo tower; EC towervegetation; landcover; LAI; albedo; resistance; water vapor; temperature; soil moisture; soil; time of dayH; LE; albedo; Kin; Kout; Lin; Lout; Rnet; temperature; GLAI; albedo; Rnet; LE; H; G; bowen; evaporative fraction; H fraction; G fractionvegetation cover; topography; Kin; Kout; Lin; Lout; Rnet; 2m_temperature; soil characteristics; VPD; wind speed; albedo midday; LAI; bowen; LE max; H max; G max; vegetation structure; resistance; Rnet; H; LE; Gbowen; evaporative fraction; H fraction; G fractionvegetation type; time of dayvegetation typevegetation typeclimate; 2m_temperature; precipitation; vegetation type; vegetation cover; topography; soil; soil moisture; soil bulk density; permafrost; hydrology
Arctic_SEB_1991-1999_3 Literature research64.935683-163.264300137.0217JournalBeringer, J; Chapin, Fs; Thompson, Cc; Mcguire, AdSurface energy exchanges along a tundra-forest transition and feedbacks to climateAgricultural and Forest Meteorology2005https://doi.org/10.1016/j.agrformet.2005.05.00619911999summerS1Council; Seward; Alaska; USAlocalseasonal average; growing season; daily average; halfhourly average; 18June-22August; 14July-27July; 4August-22August; 19June-13July; 18June-22Augustin situ measurements; comparativenoin situ; meteorological; meteo tower; EC towervegetation; landcover; LAI; albedo; resistance; water vapor; temperature; soil moisture; soil; time of dayH; LE; albedo; Kin; Kout; Lin; Lout; Rnet; temperature; GLAI; albedo; Rnet; LE; H; G; bowen; evaporative fraction; H fraction; G fractionvegetation cover; topography; Kin; Kout; Lin; Lout; Rnet; 2m_temperature; soil characteristics; VPD; wind speed; albedo midday; LAI; bowen; LE max; H max; G max; vegetation structure; resistance; Rnet; H; LE; Gbowen; evaporative fraction; H fraction; G fractionvegetation type; time of dayvegetation typevegetation typeclimate; 2m_temperature; precipitation; vegetation type; vegetation cover; topography; soil; soil moisture; soil bulk density; permafrost; hydrology
Arctic_SEB_2011-2013_1 Literature research72.600000-38.5000003255.0223JournalMiller, Nb; Shupe, Md; Cox, Cj; Walden, Vp; Turner, Dd; Steffen, KCloud radiative forcing at Summit, GreenlandJournal of Climate2015https://doi.org/10.1175/JCLI-D-15-0076.120112013allyeariceSummit; Greenland Ice Sheetlocal3hour average; monthly averagein situ measurements; comparativenoin situ; meteorological; modelclouds; time of year; water vapor; albedo; sun angle; temperature; pressurealbedo; Lin; Kin; temperature; Kout; Lout; Rnetalbedo; Kin; Kout; Lin; Lout; Lnet; Knet; Rnet; cloud cover; LWP; cloud thickness; CRFsolar zenith angle; time of year; cloud cover; LWP; cloud thickness
Arctic_SEB_1994-1994_1 Literature research69.383333-147.133333590.0224JournalMcfadden, Jp; Chapin, Fs; Hollinger, DySubgrid-scale variability in the surface energy balance of Arctic tundraJournal of Geophysical Research-Atmospheres1998https://doi.org/10.1029/98JD0240019941994summerP1Happy Valley; Alaska; USAlocal; regionalJuly; seasonal average; midday averagein situ measurements; comparativenoin situ; EC tower; meteorological; satellite; landsat; meteo towervegetation; landcover; soil moisture; LAI; topography; temperature; precipitation; wind; water vapor; irradiation; time of dayET; G; Rnet; LE; H; temperature2m_temperature; 0m_temperature; G; Rnet; H; LE; bowen; saturation deficit2m_temperature; 0m_temperature; wind speed; water vapor; Kin; Rnet; H fraction; LE fraction; bowen; ET; E; conductance; CO2Rnettime of day; vegetation type; soil moisturevegetation typevegetation type; Kinsoil moisture; canopy height; LAI; vegetation type; vegetation cover; climate; 2m_temperature; 0m_temperature; precipitation; irradiation
Arctic_SEB_1994-1994_2 Literature research69.100000-149.000000438.0224JournalMcfadden, Jp; Chapin, Fs; Hollinger, DySubgrid-scale variability in the surface energy balance of Arctic tundraJournal of Geophysical Research-Atmospheres1998https://doi.org/10.1029/98JD0240019941994summerG4Happy Valley; Alaska; USAlocal; regionalJuly; seasonal average; midday averagein situ measurements; comparativenoin situ; EC tower; meteorological; satellite; landsat; meteo towervegetation; landcover; soil moisture; LAI; topography; temperature; precipitation; wind; water vapor; irradiation; time of dayET; G; Rnet; LE; H; temperature2m_temperature; 0m_temperature; G; Rnet; H; LE; bowen; saturation deficit2m_temperature; 0m_temperature; wind speed; water vapor; Kin; Rnet; H fraction; LE fraction; bowen; ET; E; conductance; CO2Rnettime of day; vegetation type; soil moisturevegetation typevegetation type; Kinsoil moisture; canopy height; LAI; vegetation type; vegetation cover; climate; 2m_temperature; 0m_temperature; precipitation; irradiation
Arctic_SEB_1994-1994_3 Literature research69.100000-148.983333443.0224JournalMcfadden, Jp; Chapin, Fs; Hollinger, DySubgrid-scale variability in the surface energy balance of Arctic tundraJournal of Geophysical Research-Atmospheres1998https://doi.org/10.1029/98JD0240019941994summerG4Happy Valley; Alaska; USAlocal; regionalJuly; seasonal average; midday averagein situ measurements; comparativenoin situ; EC tower; meteorological; satellite; landsat; meteo towervegetation; landcover; soil moisture; LAI; topography; temperature; precipitation; wind; water vapor; irradiation; time of dayET; G; Rnet; LE; H; temperature2m_temperature; 0m_temperature; G; Rnet; H; LE; bowen; saturation deficit2m_temperature; 0m_temperature; wind speed; water vapor; Kin; Rnet; H fraction; LE fraction; bowen; ET; E; conductance; CO2Rnettime of day; vegetation type; soil moisturevegetation typevegetation type; Kinsoil moisture; canopy height; LAI; vegetation type; vegetation cover; climate; 2m_temperature; 0m_temperature; precipitation; irradiation
Arctic_SEB_1994-1994_3Literature research69.100000-148.983333443.0224JournalMcfadden, Jp; Chapin, Fs; Hollinger, DySubgrid-scale variability in the surface energy balance of Arctic tundraJournal of Geophysical Research-Atmospheres1998https://doi.org/10.1029/98JD0240019941994summerS1Happy Valley; Alaska; USAlocal; regionalJuly; seasonal average; midday averagein situ measurements; comparativenoin situ; EC tower; meteorological; satellite; landsat; meteo towervegetation; landcover; soil moisture; LAI; topography; temperature; precipitation; wind; water vapor; irradiation; time of dayET; G; Rnet; LE; H; temperature2m_temperature; 0m_temperature; G; Rnet; H; LE; bowen; saturation deficit2m_temperature; 0m_temperature; wind speed; water vapor; Kin; Rnet; H fraction; LE fraction; bowen; ET; E; conductance; CO2Rnettime of day; vegetation type; soil moisturevegetation typevegetation type; Kinsoil moisture; canopy height; LAI; vegetation type; vegetation cover; climate; 2m_temperature; 0m_temperature; precipitation; irradiation
Arctic_SEB_1994-1994_4 Literature research69.166667-147.150000336.0224JournalMcfadden, Jp; Chapin, Fs; Hollinger, DySubgrid-scale variability in the surface energy balance of Arctic tundraJournal of Geophysical Research-Atmospheres1998https://doi.org/10.1029/98JD0240019941994summerG3Happy Valley; Alaska; USAlocal; regionalJuly; seasonal average; midday averagein situ measurements; comparativenoin situ; EC tower; meteorological; satellite; landsat; meteo towervegetation; landcover; soil moisture; LAI; topography; temperature; precipitation; wind; water vapor; irradiation; time of dayET; G; Rnet; LE; H; temperature2m_temperature; 0m_temperature; G; Rnet; H; LE; bowen; saturation deficit2m_temperature; 0m_temperature; wind speed; water vapor; Kin; Rnet; H fraction; LE fraction; bowen; ET; E; conductance; CO2Rnettime of day; vegetation type; soil moisturevegetation typevegetation type; Kinsoil moisture; canopy height; LAI; vegetation type; vegetation cover; climate; 2m_temperature; 0m_temperature; precipitation; irradiation
Arctic_SEB_2007-2008_1Literature research70.816667-146.533333229JournalBlok, D; Heijmans, Mmpd; Schaepman-Strub, G; Kononov, Av; Maximov, Tc; Berendse, FShrub expansion may reduce summer permafrost thaw in Siberian tundraGlobal Change Biology2010https://doi.org/10.1111/j.1365-2486.2009.02110.x20072008summerG4Kytalyk; Siberia; Russialocalpoint averagein situ measurements; experiment; replicated; ANOVA; regressionnoin situ measurementsvegetation; permafrost; time of year; landcoverG; Rnet; temperature; storageALTALT; G; Rnetvegetation type; betula nana cover; time of year; topographytime of year; vegetation type; betula nana cover; topographypermafrost; climate; 2m_temperature; precipitation; vegetation type; vegetation cover; snow depth
Arctic_SEB_2012-2012_1Literature research63.016667-43.866667235JournalSolomon, A; Shupe, Md; Miller, NbCloud-atmospheric boundary layer-surface interactions on the Greenland ice sheet during the July 2012 extreme melt eventJournal of Climate2017https://doi.org/10.1175/JCLI-D-16-0071.120122012summericeSummit; South Dome; Greenland; AWSlocal; regional10-13July; halfhourly average; hourly averagesimulation of SEB; model experiment; comparative; model validation; comparison model and in situ; in situ measurementsunclearmodel; WRF; CAMclouds; time of day; albedo; atmosphere; water vapor; temperatureLin; Knet; Lout; albedo; LE; H; G; temperatureLin; Lout; Knet; LWP; IWP; albedo; 0m_temperature; CRF; 1m_temperature; wind speedtime of year
Arctic_SEB_2012-2012_1Literature research72.600000-37.950000235JournalSolomon, A; Shupe, Md; Miller, NbCloud-atmospheric boundary layer-surface interactions on the Greenland ice sheet during the July 2012 extreme melt eventJournal of Climate2017https://doi.org/10.1175/JCLI-D-16-0071.120122012summericeSummit; South Dome; Greenland; AWSlocal; regional10-13July; halfhourly average; hourly averagesimulation of SEB; model experiment; comparative; model validation; comparison model and in situ; in situ measurementsunclearmodel; WRF; CAMclouds; time of day; albedo; atmosphere; water vapor; temperatureLin; Knet; Lout; albedo; LE; H; G; temperatureLin; Lout; Knet; LWP; IWP; albedo; 0m_temperature; CRF; 1m_temperature; wind speedtime of year
Arctic_SEB_1996-1997_1Literature research74.050000-21.000000237JournalSoegaard, H; Hasholt, B; Friborg, T; Nordstroem, CSurface energy- and water balance in a high-Arctic environment in ne GreenlandTheoretical and Applied Climatology2001https://doi.org/10.1007/s00704017000419961997summerWZackenberg; Greenlandlocalseasonal average; DOY152-238; DOY158-238; DOY192-213; 1Sep-31Augustin situ measurements; comparativenoin situ; EC tower; modelvegetation; landcover; soil moisture; snow melt; topography; resistance; LAI; precipitation; irradiation; albedo; time of year; temperature; time of dayET; LE; H; Rnet; G; temperature; albedoKin; albedo; 2m_temperature; LAI; precipitation; discharge; ET; surface resistance; -0.2m_temperature; -0.6m_temperature; soil moisture; stomatal resistance; LE; 0m_temperatureRnet; LE; H; G; bowen; resistance; LAI; precipitation; ETtime of year; vegetation type; LAI; time of dayvegetation type; time; time of yearclimate; 2m_temperature; hydrology; vegetation type; vegetation cover; soil; LAI; surface resistance
Arctic_SEB_1996-1997_1Literature research74.050000-21.000000237JournalSoegaard, H; Hasholt, B; Friborg, T; Nordstroem, CSurface energy- and water balance in a high-Arctic environment in ne GreenlandTheoretical and Applied Climatology2001https://doi.org/10.1007/s00704017000419961997summerPZackenberg; Greenlandlocalseasonal average; DOY152-238; DOY158-238; DOY192-213; 1Sep-31Augustin situ measurements; comparativenoin situ; EC tower; modelvegetation; landcover; soil moisture; snow melt; topography; resistance; LAI; precipitation; irradiation; albedo; time of year; temperature; time of dayET; LE; H; Rnet; G; temperature; albedoKin; albedo; 2m_temperature; LAI; precipitation; discharge; ET; surface resistance; -0.2m_temperature; -0.6m_temperature; soil moisture; stomatal resistance; LE; 0m_temperatureRnet; LE; H; G; bowen; resistance; LAI; precipitation; ETtime of year; vegetation type; LAI; time of dayvegetation type; time; time of yearclimate; 2m_temperature; hydrology; vegetation type; vegetation cover; soil; LAI; surface resistance
Arctic_SEB_1996-1997_1Literature research74.050000-21.000000237JournalSoegaard, H; Hasholt, B; Friborg, T; Nordstroem, CSurface energy- and water balance in a high-Arctic environment in ne GreenlandTheoretical and Applied Climatology2001https://doi.org/10.1007/s00704017000419961997summerSZackenberg; Greenlandlocalseasonal average; DOY152-238; DOY158-238; DOY192-213; 1Sep-31Augustin situ measurements; comparativenoin situ; EC tower; modelvegetation; landcover; soil moisture; snow melt; topography; resistance; LAI; precipitation; irradiation; albedo; time of year; temperature; time of dayET; LE; H; Rnet; G; temperature; albedoKin; albedo; 2m_temperature; LAI; precipitation; discharge; ET; surface resistance; -0.2m_temperature; -0.6m_temperature; soil moisture; stomatal resistance; LE; 0m_temperatureRnet; LE; H; G; bowen; resistance; LAI; precipitation; ETtime of year; vegetation type; LAI; time of dayvegetation type; time; time of yearclimate; 2m_temperature; hydrology; vegetation type; vegetation cover; soil; LAI; surface resistance
Arctic_SEB_2012-2013_1 Literature research61.200000-138.300000244JournalWilliamson, Sn; Barrio, Ic; Hik, Ds; Gamon, JaPhenology and species determine growing-season albedo increase at the altitudinal limit of shrub growth in the sub-ArcticGlobal Change Biology2016https://doi.org/10.1111/gcb.1329720122013summerS1Ruby Ranges; Yukon; Canadalocalseasonal average; July-August; 15July-29July; hourly average; 10min averagein situ measurements; comparative; replicated; satellite measurements; regression; ANOVA; mixed-modelunclearin situ; satellite; MODIS; albedometerphenology; vegetation; time of year; snow melt; LAI; irradiation; cloudsalbedo; Kinalbedoalbedotime of year; vegetation typeyear; time of year; vegetation typevegetation type; vegetation cover; canopy height
Arctic_SEB_2012-2013_1Literature research61.200000-138.300000244JournalWilliamson, Sn; Barrio, Ic; Hik, Ds; Gamon, JaPhenology and species determine growing-season albedo increase at the altitudinal limit of shrub growth in the sub-ArcticGlobal Change Biology2016https://doi.org/10.1111/gcb.1329720122013summerGRuby Ranges; Yukon; Canadalocalseasonal average; July-August; 15July-29July; hourly average; 10min averagein situ measurements; comparative; replicated; satellite measurements; regression; ANOVA; mixed-modelunclearin situ; satellite; MODIS; albedometerphenology; vegetation; time of year; snow melt; LAI; irradiation; cloudsalbedo; Kinalbedoalbedotime of year; vegetation typeyear; time of year; vegetation typevegetation type; vegetation cover; canopy height
Arctic_SEB_2012-2013_1Literature research61.200000-138.300000244JournalWilliamson, Sn; Barrio, Ic; Hik, Ds; Gamon, JaPhenology and species determine growing-season albedo increase at the altitudinal limit of shrub growth in the sub-ArcticGlobal Change Biology2016https://doi.org/10.1111/gcb.1329720122013summerSRuby Ranges; Yukon; Canadalocalseasonal average; July-August; 15July-29July; hourly average; 10min averagein situ measurements; comparative; replicated; satellite measurements; regression; ANOVA; mixed-modelunclearin situ; satellite; MODIS; albedometerphenology; vegetation; time of year; snow melt; LAI; irradiation; cloudsalbedo; Kinalbedoalbedotime of year; vegetation typeyear; time of year; vegetation typevegetation type; vegetation cover; canopy height
Arctic_SEB_2012-2013_1Literature research61.200000-138.300000244JournalWilliamson, Sn; Barrio, Ic; Hik, Ds; Gamon, JaPhenology and species determine growing-season albedo increase at the altitudinal limit of shrub growth in the sub-ArcticGlobal Change Biology2016https://doi.org/10.1111/gcb.1329720122013summerPRuby Ranges; Yukon; Canadalocalseasonal average; July-August; 15July-29July; hourly average; 10min averagein situ measurements; comparative; replicated; satellite measurements; regression; ANOVA; mixed-modelunclearin situ; satellite; MODIS; albedometerphenology; vegetation; time of year; snow melt; LAI; irradiation; cloudsalbedo; Kinalbedoalbedotime of year; vegetation typeyear; time of year; vegetation typevegetation type; vegetation cover; canopy height
Arctic_SEB_2008-2008_1Literature research78.91666711.083333250JournalWestermann, S; Luers, J; Langer, M; Piel, K; Boike, JThe annual surface energy budget of a high-Arctic permafrost site on Svalbard, NorwayCryosphere2009https://doi.org/10.5194/tc-3-245-200920082008allyearB3|B4Ny Alesynd; Svalbardlocalseasonal average; 1July-31August; 1September-31September; 1October-15March; 15March-15April; 16April-31May; 1June-30June; annual average; daily averagein situ measurements; comparativenoin situ; meteorological; meteo tower; EC towertime of year; permafrost; soil moisture; snow melt; snow; mixing ratio; temperature; water vapor; cloudsRnet; H; LE; G; Knet; Lnet; ET; temperature; Kin; Kout; Lin; Lout; windH; LE; G; soil moisture; bowen; 0m_temperature; snow cover; temperature gradient;2m_temperature; precipitation; air pressure; relative humidity; Kin; Kout; Knet; Lin; Lout; Lnet; H; LE; Gbulk; G; Melt; EBCtime of year; soil moisture; Lin; wind speedtime of year; sun and snow conditionsclimate; 2m_temperature; precipitation; topography; vegetation; landscape
Arctic_SEB_2003-2003_1 Literature research68.750000-132.500000179.0254JournalEndrizzi, S; Marsh, PObservations and modeling of turbulent fluxes during melt at the shrub-tundra transition zone 1: point scale variationsHydrology Research2010https://doi.org/10.2166/nh.2010.14920032003springP1TVC; Inuvik; NWT; Canadalocalhourly average; seasonal averagecomparison model and in situ; model validation; in situ measurements; comparativenoin situ; modeltime of year; vegetation; landcover; snow; snow melt; soil; LAILE; H2m_temperature; LE; HSWE; 2m_temperature; H; LEtime of year; location; vegetation type; snow coverlocation; vegetation type; snow covertopography; vegetation type; canopy height; roughtness length; LAI
Arctic_SEB_2003-2003_1Literature research68.750000-132.500000156.0254JournalEndrizzi, S; Marsh, PObservations and modeling of turbulent fluxes during melt at the shrub-tundra transition zone 1: point scale variationsHydrology Research2010https://doi.org/10.2166/nh.2010.14920032003springS1TVC; Inuvik; NWT; Canadalocalhourly average; seasonal averagecomparison model and in situ; model validation; in situ measurements; comparativenoin situ; modeltime of year; vegetation; landcover; snow; snow melt; soil; LAILE; H2m_temperature; LE; HSWE; 2m_temperature; H; LEtime of year; location; vegetation type; snow coverlocation; vegetation type; snow covertopography; vegetation type; canopy height; roughtness length; LAI
Arctic_SEB_1951-2009_1 Literature research76.500000-68.800000263JournalMuscari, G; Di Biagio, C; Di Sarra, A; Cacciani, M; Ascanius, Se; Bertagnolio, Pp; Cesaroni, C; De Zafra, Rl; Eriksen, P; Fiocco, G; Fiorucci, I; Fua, DObservations of surface radiation and stratospheric processes at Thule air base, Greenland, during the ipyAnnals of Geophysics2014https://doi.org/10.4401/ag-638219512009allyeariceThule; Greenlandlocalmonthly average; daily average; 10day averagein situ measurementsnoin situ; meteorological; meteo towertime of year; time; clouds; water vapor; albedo; aerosols; wind; precipitation; snow; pressure; temperatureLin; Kin; temperature2m_temperature; wind speed; precipitation; atmospheric pressure; relative humidity; Kin; Lin; water vaportime of year
Arctic_SEB_2005-2005_1 Literature research68.490000-155.750000568.0265JournalMalik, Mj; Van Der Velde, R; Vekerdy, Z; Su, ZbImproving modeled snow albedo estimates during the spring melt seasonJournal of Geophysical Research-Atmospheres2014https://doi.org/10.1002/2013JD02134420052005allyearsnowIvotuk; Brooks Range; Alaska; USAlocaldaily average; hourly average; 31May-12June; 23May-17Junemodel parametrization; model validation; comparison model and modelunclearin situ measurements; meteorological; meteo tower; model; LSM; BATS; CLASS; VASlocation; landcover; climate; time of year; temperature; water vapor; precipitation; pressure; wind; soil moisturealbedo; Kout; ET; Lin; Kinalbedo; snow depthtime of yearclimate
Arctic_SEB_2013-2015_1 Literature research68.620000-149.300000930.0266JournalShati, F; Prakash, S; Norouzi, H; Blake, RAssessment of differences between near-surface air and soil temperatures for reliable detection of high-latitude freeze and thaw statesCold Regions Science and Technology2018https://doi.org/10.1016/j.coldregions.2017.10.00720132015allyearS|PImnaviat Creek; Rocky Point; Monahan Flat; Alaska; USA; SNOTELlocal; regionalseasonal average; hourly averagein situ measurements; comparativenoin situ; meteorological; meteo tower; satellite; MODIS; AMSR2; network; SNOTELtemperature; time of year; time of day; snowtemperature; Lout2m_temperature; -0.05m_temperature; temperature difference frequencylocation; time of day
Arctic_SEB_2013-2015_2 Literature research64.530000-163.42000076.0266JournalShati, F; Prakash, S; Norouzi, H; Blake, RAssessment of differences between near-surface air and soil temperatures for reliable detection of high-latitude freeze and thaw statesCold Regions Science and Technology2018https://doi.org/10.1016/j.coldregions.2017.10.00720132015allyearS|PImnaviat Creek; Rocky Point; Monahan Flat; Alaska; USA; SNOTELlocal; regionalseasonal average; hourly averagein situ measurements; comparativenoin situ; meteorological; meteo tower; satellite; MODIS; AMSR2; network; SNOTELtemperature; time of year; time of day; snowtemperature; Lout2m_temperature; -0.05m_temperature; temperature difference frequencylocation; time of day
Arctic_SEB_2013-2015_3 Literature research63.300000-147.650000826.0266JournalShati, F; Prakash, S; Norouzi, H; Blake, RAssessment of differences between near-surface air and soil temperatures for reliable detection of high-latitude freeze and thaw statesCold Regions Science and Technology2018https://doi.org/10.1016/j.coldregions.2017.10.00720132015allyearS|PImnaviat Creek; Rocky Point; Monahan Flat; Alaska; USA; SNOTELlocal; regionalseasonal average; hourly averagein situ measurements; comparativenoin situ; meteorological; meteo tower; satellite; MODIS; AMSR2; network; SNOTELtemperature; time of year; time of day; snowtemperature; Lout2m_temperature; -0.05m_temperature; temperature difference frequencylocation; time of day
Arctic_SEB_2002-2012_1 Literature research68.983333-149.716667290JournalJiang, Yy; Rocha, Av; O'donnell, Ja; Drysdale, Ja; Rastetter, Eb; Shaver, Gr; Zhuang, QlContrasting soil thermal responses to fire in Alaskan tundra and boreal forestJournal of Geophysical Research-Earth Surface2015https://doi.org/10.1002/2014JF00318020022012unclearburned G4Alaska; USAlocaldaily averagein situ measurements; comparative; replicated; simulation of SEB; model validationunclearin situ; modeldisturbance; fire; soil; soil moisture; permafrost; vegetation; temperature; albedoG; temperature; albedo; -0.05m_temperaturealbedo; 0m_temperature; -0.2m_temperaturetime of yearburn severity; yearvegetation type; permafrost; soil type; soil moisture; vegetation cover; surface roughness; ALT; disturbance
Arctic_SEB_2002-2012_2 Literature research68.950000-149.783333290JournalJiang, Yy; Rocha, Av; O'donnell, Ja; Drysdale, Ja; Rastetter, Eb; Shaver, Gr; Zhuang, QlContrasting soil thermal responses to fire in Alaskan tundra and boreal forestJournal of Geophysical Research-Earth Surface2015https://doi.org/10.1002/2014JF00318020022012unclearburned G4Alaska; USAlocaldaily averagein situ measurements; comparative; replicated; simulation of SEB; model validationunclearin situ; modeldisturbance; fire; soil; soil moisture; permafrost; vegetation; temperature; albedoG; temperature; albedo; -0.05m_temperaturealbedo; 0m_temperature; -0.2m_temperaturetime of yearburn severity; yearvegetation type; permafrost; soil type; soil moisture; vegetation cover; surface roughness; ALT; disturbance
Arctic_SEB_2002-2012_3 Literature research68.933333-149.733333290JournalJiang, Yy; Rocha, Av; O'donnell, Ja; Drysdale, Ja; Rastetter, Eb; Shaver, Gr; Zhuang, QlContrasting soil thermal responses to fire in Alaskan tundra and boreal forestJournal of Geophysical Research-Earth Surface2015https://doi.org/10.1002/2014JF00318020022012unclearG4Alaska; USAlocaldaily averagein situ measurements; comparative; replicated; simulation of SEB; model validationunclearin situ; modeldisturbance; fire; soil; soil moisture; permafrost; vegetation; temperature; albedoG; temperature; albedo; -0.05m_temperaturealbedo; 0m_temperature; -0.2m_temperaturetime of yearburn severity; yearvegetation type; permafrost; soil type; soil moisture; vegetation cover; surface roughness; ALT; disturbance
Arctic_SEB_2013-2013_1Literature research71.300000-156.500000295JournalCohen, Lr; Raz-Yaseef, N; Curtis, Jb; Young, Jm; Rahn, Ta; Wilson, Cj; Wullschleger, Sd; Newman, BdMeasuring diurnal cycles of evapotranspiration in the Arctic with an automated chamber systemEcohydrology2015https://doi.org/10.1002/eco.153220132013summer|fallW1Barrow; Alaska; USAlocalhalfhour average; June-Septemberin situ; comparison in situ and in situnoin situ; meteorologicaltemperature; water vapor; irradiation; time of yearETET; Kin; relative humidity; 1.2m_temperaturetime of yearclimate; 2m_temperature; precipitation; landscape; vegetation type; topography; permafrost; soil type
Arctic_SEB_1999-1999_1Literature research78.91666711.933333305JournalNardino, M; Georgiadis, TA simple snowmelt parameterization for an Arctic siteNuovo Cimento della Societa Italiana di Fisica C-Geophysics and Space Physics2004https://doi.org/10.1393/ncc/i2004-10008-019991999spring|summersnowNy Alesynd; Svalbardlocal3hour average; daily average; 7May-30Junein situ measurementsnoin situ; meteorological; modelsnow melt; clouds; wind; advection; atmosphere; time of year; temperature; albedo; water vapor; precipitationRnet; H; LE; albedo; temperature; Lin; Lout; Kin; G; Kout; Knet; LnetKnet; Lnet; Rnet; Kin; Lin; Kout; Lout; albedo; 2m_temperature; wind speed; cloud cover; precipitationtime of year; humidity
Arctic_SEB_1996-1999_1 Literature research68.450000-133.320000307JournalPetrone, Rm; Rouse, WrSynoptic controls on the surface energy and water budgets in sub-Arctic regions of CanadaInternational Journal of Climatology2000https://doi.org/10.1002/1097-0088(200008)20:10<1149::AID-JOC527>3.0.CO;2-M19961999spring|summer|fallW2|G2Churchill; TVC; Inuvik; NWT; Canadalocal; regional21April-7September; seasonal averagein situ measurements; comparative; replicatedunclearin situ; GIS; meteorologicaltemperature; water vapor; precipitation; atmosphere; advection; wind; clouds; vegetation; soil moisture; soilET; Kin; Rnet; LE; Hsynoptic type2m_temperature; cloud cover; VPD; frequency; Kin fraction; bowen; precipitation; evaporationKin fraction; Rnettime of year; locationsynoptic type; locationcloud cover; Kinvegetation type; soil type; climate; synoptic type
Arctic_SEB_2002-2002_1 Literature research64.866667-146.150000308JournalHeijmans, Mmpd; Arp, Wj; Chapin, FsControls on moss evaporation in a boreal black spruce forestGlobal Biogeochemical Cycles2004https://doi.org/10.1029/2003GB00212820022002springWFairbanks; Alaska; USAlocalseasonal average; daily average; 1June-8Septemberin situ measurements; comparative; experimental treatment; replicated; regression; ANOVAunclearin situ; experimentvegetation; soil moisture; landcover; precipitation; time of yearETET; precipitationETETvegetation type; precipitation; soil moisture; time of yearvegetation typevegetation type; precipitationclimate; 2m_temperature; precipitation; vegetation density; canopy height; vegetation type; LAI
Arctic_SEB_1998-2005_1 Literature research71.300000-156.500000311JournalPaquin-Ricard, D; Jones, C; Vaillancourt, PaUsing arm observations to evaluate cloud and clear-sky radiation processes as simulated by the Canadian regional climate model gemMonthly Weather Review2010https://doi.org/10.1175/2009MWR2745.119982005allyeartundraBarrow; Alaska; USAlocalseasonal average; June-August; December-February; 4hour average; 3day averagecomparison model and in situ; model validation; in situ measurements; comparativeunclearmodel; meteorological; in situ; ARM; GEM-LAM; satellite; ISCCPclouds; irradiation; aerosols; water vapor; time of day; precipitation; time of yearLin; Kin; temperature; albedocloud cover; atmospheric pressure; IWV; 2m_temperature; Kin; Lin; LWPtime of day; time of year; cloud cover; LWP; precipitation
Arctic_SEB_2007-2015_1 Literature research66.910000-38.300000312JournalMcilhattan, Ea; L'ecuyer, Ts; Miller, NbObservational evidence linking Arctic supercooled liquid cloud biases in cesm to snowfall processesJournal of Climate2017https://doi.org/10.1175/JCLI-D-16-0666.120072015allyeariceSummit; Greenland; Arcticlocal; regionalyearly average; monthly averagecomparison model and satellite; simulation of SEBnomodel; in situ; meteorological; CESM-LE; satellite; GC-NET; meteo tower; networclouds; snow; precipitation; temperatureLinLCC frequency; LinLin; frequency LCC; precipitation frequencytime of yearlocation
Arctic_SEB_2007-2015_2 Literature research81.990000-38.300000312JournalMcilhattan, Ea; L'ecuyer, Ts; Miller, NbObservational evidence linking Arctic supercooled liquid cloud biases in cesm to snowfall processesJournal of Climate2017https://doi.org/10.1175/JCLI-D-16-0666.120072015allyeariceSummit; Greenland; Arcticlocal; regionalyearly average; monthly averagecomparison model and satellite; simulation of SEBnomodel; in situ; meteorological; CESM-LE; satellite; GC-NET; meteo tower; networclouds; snow; precipitation; temperatureLinLCC frequency; LinLin; frequency LCC; precipitation frequencytime of yearlocation
Arctic_SEB_1999-2000_1 Literature research60.76000089.410000319JournalArneth, A; Lloyd, J; Shibistova, O; Sogachev, A; Kolle, OSpring in the boreal environment: observations on pre- and post-melt energy and CO2 fluxes in two central Siberian ecosystemsBoreal Environment Research200619992000springWYenisey river; Zotino; Siberia; Russialocalseasonal average; daily average; 1April-31May; monthly_sumin situ measurements; comparativeyesin situ; EC tower; meteorologicalvegetation; temperature; snow melt; time of year; wind; precipitation; GHG; water vapor; albedo; soilRnet; H; LE; Rnet; temperature; albedo; G; -0.05m_temperature; 2m_temperature; snow depth; Rnet; H; LE; albedo; Rnet; G; MeltETtime of year; vegetation type; photosynthesisvegetation type; time; time of yearclimate; 2m_temperature; precipitation; vegetation type; vegetation cover
Arctic_SEB_1997-1998_1 Literature research71.300000-156.500000320JournalLing, F; Zhang, TjImpact of the timing and duration of seasonal snow cover on the active layer and permafrost in the Alaskan ArcticPermafrost and Periglacial Processes2003https://doi.org/10.1002/ppp.44519971998spring|summer|falltundraBarrow; Alaska; USAlocaldaily average; September-Augustmodel experiment; simulation of SEB; comparison model and modelyesmodel; in situ; meteorologicalsnow; snow melt; time of year; wind; irradiation; pressure; temperature; soilG; temperature; Kin2m_temperature; snow thickness; Kin; wind speed; atmospheric pressure; -0.5m_temperature; -1m_temperature; -2m_temperaturetime of year
Arctic_SEB_2003-2010_1 Literature research67.100000-49.883333490.0323JournalVan Den Broeke, Mr; Smeets, Cjpp; Van De Wal, RswThe seasonal cycle and interannual variability of surface energy balance and melt in the ablation zone of the west Greenland ice sheetCryosphere2011https://doi.org/10.5194/tc-5-377-201120032010allyeariceGreenlandlocal7year average; daily average; monthly average; hourly average; 16May-3September; 1August-26Septemberin situ measurements; simulation of SEB; model validation; comparison model and in situ; comparativeyesin situ; meteorological; modeltime of year; time of day; time; landcover; continentality; albedo; roughness; temperature; pressure; water vapor; wind; snowKin; albedo; temperature; Kout; Lin; Lout; Knet; Lnet; Rnet; H; LE; Galbedo; snow depth; ice ablation; melt frequency; Knet; Lnet; H; LE; G; Melt; 2m_temperature; 0m_temperatureKin; Kout; Knet; Lin; Lout; Lnet; Rnet; H; LE; G; MeltLnettime of year; time; continentality; snow cover; ice covercontinentality; snow cover; ice coverKnetclimate; continentality; 2m_temperature; relative humidity; specific humidity; wind speed; mass balance
Arctic_SEB_2003-2010_2 Literature research67.083333-48.6166671020.0323JournalVan Den Broeke, Mr; Smeets, Cjpp; Van De Wal, RswThe seasonal cycle and interannual variability of surface energy balance and melt in the ablation zone of the west Greenland ice sheetCryosphere2011https://doi.org/10.5194/tc-5-377-201120032010allyeariceGreenlandlocal7year average; daily average; monthly average; hourly average; 16May-3September; 1August-26Septemberin situ measurements; simulation of SEB; model validation; comparison model and in situ; comparativeyesin situ; meteorological; modeltime of year; time of day; time; landcover; continentality; albedo; roughness; temperature; pressure; water vapor; wind; snowKin; albedo; temperature; Kout; Lin; Lout; Knet; Lnet; Rnet; H; LE; Galbedo; snow depth; ice ablation; melt frequency; Knet; Lnet; H; LE; G; Melt; 2m_temperature; 0m_temperatureKin; Kout; Knet; Lin; Lout; Lnet; Rnet; H; LE; G; MeltLnettime of year; time; continentality; snow cover; ice covercontinentality; snow cover; ice coverKnetclimate; continentality; 2m_temperature; relative humidity; specific humidity; wind speed; mass balance
Arctic_SEB_2003-2010_3 Literature research67.050000-47.7666671520.0323JournalVan Den Broeke, Mr; Smeets, Cjpp; Van De Wal, RswThe seasonal cycle and interannual variability of surface energy balance and melt in the ablation zone of the west Greenland ice sheetCryosphere2011https://doi.org/10.5194/tc-5-377-201120032010allyeariceGreenlandlocal7year average; daily average; monthly average; hourly average; 16May-3September; 1August-26Septemberin situ measurements; simulation of SEB; model validation; comparison model and in situ; comparativeyesin situ; meteorological; modeltime of year; time of day; time; landcover; continentality; albedo; roughness; temperature; pressure; water vapor; wind; snowKin; albedo; temperature; Kout; Lin; Lout; Knet; Lnet; Rnet; H; LE; Galbedo; snow depth; ice ablation; melt frequency; Knet; Lnet; H; LE; G; Melt; 2m_temperature; 0m_temperatureKin; Kout; Knet; Lin; Lout; Lnet; Rnet; H; LE; G; MeltLnettime of year; time; continentality; snow cover; ice covercontinentality; snow cover; ice coverKnetclimate; continentality; 2m_temperature; relative humidity; specific humidity; wind speed; mass balance
Arctic_SEB_1994-2015_1 Literature research69.879000-46.9860002022.0324JournalVandecrux, B; Fausto, Rs; Langen, Pl; Van As, D; Macferrin, M; Colgan, Wt; Ingeman-Nielsen, T; Steffen, K; Jensen, Ns; Moller, Mt; Box, JeDrivers of firn density on the Greenland ice sheet revealed by weather station observations and modelingJournal of Geophysical Research-Earth Surface2018https://doi.org/10.1029/2017JF00459719942015allyeariceCrawford Point; Dye-2; NASA-SE; Summit; Greenlandlocal12year average; 17year averagesimulation of SEB; model validation; comparative; comparison in situ and modelnoin situ; meteorological; meteo tower; network; GC-Net; modelsnow; time; precipitationH; LE; Rnet; Knet; Lnet; GKnet; Lnet; LE; H; G; MeltH; Le; Knet; Lnet; G; firn densitytime; locationtime; location
Arctic_SEB_1994-2015_2 Literature research66.480000-46.2790002165.0324JournalVandecrux, B; Fausto, Rs; Langen, Pl; Van As, D; Macferrin, M; Colgan, Wt; Ingeman-Nielsen, T; Steffen, K; Jensen, Ns; Moller, Mt; Box, JeDrivers of firn density on the Greenland ice sheet revealed by weather station observations and modelingJournal of Geophysical Research-Earth Surface2018https://doi.org/10.1029/2017JF00459719942015allyeariceCrawford Point; Dye-2; NASA-SE; Summit; Greenlandlocal12year average; 17year averagesimulation of SEB; model validation; comparative; comparison in situ and modelnoin situ; meteorological; meteo tower; network; GC-Net; modelsnow; time; precipitationH; LE; Rnet; Knet; Lnet; GKnet; Lnet; LE; H; G; MeltH; Le; Knet; Lnet; G; firn densitytime; locationtime; location
Arctic_SEB_1994-2015_3 Literature research66.481000-42.3220002360.0324JournalVandecrux, B; Fausto, Rs; Langen, Pl; Van As, D; Macferrin, M; Colgan, Wt; Ingeman-Nielsen, T; Steffen, K; Jensen, Ns; Moller, Mt; Box, JeDrivers of firn density on the Greenland ice sheet revealed by weather station observations and modelingJournal of Geophysical Research-Earth Surface2018https://doi.org/10.1029/2017JF00459719942015allyeariceCrawford Point; Dye-2; NASA-SE; Summit; Greenlandlocal12year average; 17year averagesimulation of SEB; model validation; comparative; comparison in situ and modelnoin situ; meteorological; meteo tower; network; GC-Net; modelsnow; time; precipitationH; LE; Rnet; Knet; Lnet; GKnet; Lnet; LE; H; G; MeltH; Le; Knet; Lnet; G; firn densitytime; locationtime; location
Arctic_SEB_1994-2015_4 Literature research72.580000-38.5040003208.0324JournalVandecrux, B; Fausto, Rs; Langen, Pl; Van As, D; Macferrin, M; Colgan, Wt; Ingeman-Nielsen, T; Steffen, K; Jensen, Ns; Moller, Mt; Box, JeDrivers of firn density on the Greenland ice sheet revealed by weather station observations and modelingJournal of Geophysical Research-Earth Surface2018https://doi.org/10.1029/2017JF00459719942015allyeariceCrawford Point; Dye-2; NASA-SE; Summit; Greenlandlocal12year average; 17year averagesimulation of SEB; model validation; comparative; comparison in situ and modelnoin situ; meteorological; meteo tower; network; GC-Net; modelsnow; time; precipitationH; LE; Rnet; Knet; Lnet; GKnet; Lnet; LE; H; G; MeltH; Le; Knet; Lnet; G; firn densitytime; locationtime; location
Arctic_SEB_1994-2015_1Literature research69.879000-46.9860001990.0324JournalVandecrux, B; Fausto, Rs; Langen, Pl; Van As, D; Macferrin, M; Colgan, Wt; Ingeman-Nielsen, T; Steffen, K; Jensen, Ns; Moller, Mt; Box, JeDrivers of firn density on the Greenland ice sheet revealed by weather station observations and modelingJournal of Geophysical Research-Earth Surface2018https://doi.org/10.1029/2017JF00459719942015allyeariceCrawford Point; Dye-2; NASA-SE; Summit; Greenlandlocal12year average; 17year averagesimulation of SEB; model validation; comparative; comparison in situ and modelnoin situ; meteorological; meteo tower; network; GC-Net; modelsnow; time; precipitationH; LE; Rnet; Knet; Lnet; GKnet; Lnet; LE; H; G; MeltH; Le; Knet; Lnet; G; firn densitytime; locationtime; location
Arctic_SEB_1994-2015_5 Literature research69.568000-49.3160001149.0324JournalVandecrux, B; Fausto, Rs; Langen, Pl; Van As, D; Macferrin, M; Colgan, Wt; Ingeman-Nielsen, T; Steffen, K; Jensen, Ns; Moller, Mt; Box, JeDrivers of firn density on the Greenland ice sheet revealed by weather station observations and modelingJournal of Geophysical Research-Earth Surface2018https://doi.org/10.1029/2017JF00459719942015allyeariceCrawford Point; Dye-2; NASA-SE; Summit; Greenlandlocal12year average; 17year averagesimulation of SEB; model validation; comparative; comparison in situ and modelnoin situ; meteorological; meteo tower; network; GC-Net; modelsnow; time; precipitationH; LE; Rnet; Knet; Lnet; GKnet; Lnet; LE; H; G; MeltH; Le; Knet; Lnet; G; firn densitytime; locationtime; location
Arctic_SEB_1994-2015_6 Literature research67.000000-47.0240001840.0324JournalVandecrux, B; Fausto, Rs; Langen, Pl; Van As, D; Macferrin, M; Colgan, Wt; Ingeman-Nielsen, T; Steffen, K; Jensen, Ns; Moller, Mt; Box, JeDrivers of firn density on the Greenland ice sheet revealed by weather station observations and modelingJournal of Geophysical Research-Earth Surface2018https://doi.org/10.1029/2017JF00459719942015allyeariceCrawford Point; Dye-2; NASA-SE; Summit; Greenlandlocal12year average; 17year averagesimulation of SEB; model validation; comparative; comparison in situ and modelnoin situ; meteorological; meteo tower; network; GC-Net; modelsnow; time; precipitationH; LE; Rnet; Knet; Lnet; GKnet; Lnet; LE; H; G; MeltH; Le; Knet; Lnet; G; firn densitytime; locationtime; location
Arctic_SEB_1996-1997_1Literature research60.11666717.08333345.0328JournalKellner, ESurface energy fluxes and control of evapotranspiration from a swedish sphagnum mireAgricultural and Forest Meteorology2001https://doi.org/10.1016/S0168-1923(01)00283-019961997summerS2Stormossen; Swedenlocaldaily average; monthly average; hourly average; 13-31May; 1-31July; seasonal averagein situ measurements; comparative; replicatedLE_inferred|H_inferredin situ; model; EC tower; meteorologicalsoil moisture; water vapor; irradiation; topography; vegetation; soil; roughness; temperature; time of year; time of day; advection; landcovertemperature; G; LE; H; albedo; Rnet; ETwater table; soil moisture; thermal conductivity; G; 0m_temperature; 2m_temperature; -0.05m_temperature; -0.2m_temperature; -0.4m_temperature; Rnet; LE; H; G; bowen; surface resistanceG; Rnet; ET; H; bowen; LE fraction; G fractiontime of year; location; soil moisture; time of daytime of year; time; location; time of dayclimate; 2m_temperature; precipitation; topography; landscape; vegetation type; vegetation cover; biomass; LAI
Arctic_SEB_2013-2013_1Literature research69.50000027.500000333JournalTe Beest, M; Sitters, J; Menard, Cb; Olofsson, JReindeer grazing increases summer albedo by reducing shrub abundance in Arctic tundraEnvironmental Research Letters2016https://doi.org/10.1088/1748-9326/aa512820132013summerS1Troms; Norwaylocalseasonal averagemodel experiment; simulation of SEB; in situ measurements; replicated; regression; ANOVA; mixed-modelunclearin situ; model; JULESlanduse; disturbance; grazing; vegetation; LAI; NDVI; soil moisture; temperature; time of yearalbedo; Rnet; LE; H; Galbedo; NDVI; soil moisture; shrub height; LAI; -0.05m_temperaturevegetation type; grazing; LAI; shrub cover; shrub heightclimate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_2013-2013_1Literature research69.50000027.500000333JournalTe Beest, M; Sitters, J; Menard, Cb; Olofsson, JReindeer grazing increases summer albedo by reducing shrub abundance in Arctic tundraEnvironmental Research Letters2016https://doi.org/10.1088/1748-9326/aa512820132013summerG2Troms; Norwaylocalseasonal averagemodel experiment; simulation of SEB; in situ measurements; replicated; regression; ANOVA; mixed-modelunclearin situ; model; JULESlanduse; disturbance; grazing; vegetation; LAI; NDVI; soil moisture; temperature; time of yearalbedo; Rnet; LE; H; Galbedo; NDVI; soil moisture; shrub height; LAI; -0.05m_temperaturevegetation type; grazing; LAI; shrub cover; shrub heightclimate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_2013-2013_1Literature research69.50000027.500000333JournalTe Beest, M; Sitters, J; Menard, Cb; Olofsson, JReindeer grazing increases summer albedo by reducing shrub abundance in Arctic tundraEnvironmental Research Letters2016https://doi.org/10.1088/1748-9326/aa512820132013summerG3Troms; Norwaylocalseasonal averagemodel experiment; simulation of SEB; in situ measurements; replicated; regression; ANOVA; mixed-modelunclearin situ; model; JULESlanduse; disturbance; grazing; vegetation; LAI; NDVI; soil moisture; temperature; time of yearalbedo; Rnet; LE; H; Galbedo; NDVI; soil moisture; shrub height; LAI; -0.05m_temperaturevegetation type; grazing; LAI; shrub cover; shrub heightclimate; 2m_temperature; precipitation; vegetation type
Arctic_SEB_2002-2002_1Literature research71.300000-156.500000334JournalStone, Rs; Anderson, Gp; Andrews, E; Dutton, Eg; Shettle, EpIncursions and radiative impact of asian dust in northern AlaskaGeophysical Research Letters2007https://doi.org/10.1029/2007GL02987820022002springtundraBarrow; Alaska; USAlocalminute average; Aprilmodel experiment; simulation of SEB; model validation; comparison model and in situunclearin situ; modelaerosols; mixing ratio; time of day; sun angle; irradiation; atmosphere; time of yearKnet; temperatureKnetRnetAOD; solar zenith anglesolar zenith angle
Arctic_SEB_2007-2014_1 Literature research80.147138-86.429149610.0335JournalMariani, Z; Strong, K; Drummond, JrDistributions of downwelling radiance at 10 and 20 mu m in the high ArcticAtmosphere-Ocean2016https://doi.org/10.1080/07055900.2016.121682520072014allyearBEureka; Canadalocalminute averagein situ measurements; comparativeunclearin situwater vapor; clouds; temperature; time of year; timeLout; Lin; temperaturetemperature; precipitable water vapor; fraction of observationstime; time of year; brightness temperature; time of year; cloud cover
Arctic_SEB_2000-2007_1 Literature research67.100000-49.883333490.0342JournalVan Den Broeke, M; Smeets, P; Ettema, J; Munneke, PkSurface radiation balance in the ablation zone of the west Greenland ice sheetJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00928320002007allyeariceGreenland Ice Sheet; AWS; Kangerlussuaq transectlocaldaily average; monthly average; seasonal average; yearly averagein situ measurements; comparativeyesin situ; meteorological; meteo towerwind; snow; snow melt; time of year; clouds; continentality; landcover; albedo; topography; temperature; water vaporKin; Kout; Knet; Lin; albedo; Lout; Lnet; Rnet; temperaturesnow depth; Kin; albedo; Knet; Kin fraction; Lin; Lnet; Lout; Rnet; cloud thicknessKin; Kout; Knet; Lin; Lout; Lnet; RnetKnet; Lnet; Rnettime of year; location; continentality; elevation; atmosphere; cloud covertime of year; location; continentalitycloud cover; continentality; time of yearcontinentality; mass balance; 6m_temperature; climate; wind speed; 0m_temperature
Arctic_SEB_2000-2007_2 Literature research67.083333-48.6166671020.0342JournalVan Den Broeke, M; Smeets, P; Ettema, J; Munneke, PkSurface radiation balance in the ablation zone of the west Greenland ice sheetJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00928320002007allyeariceGreenland Ice Sheet; AWS; Kangerlussuaq transectlocaldaily average; monthly average; seasonal average; yearly averagein situ measurements; comparativeyesin situ; meteorological; meteo towerwind; snow; snow melt; time of year; clouds; continentality; landcover; albedo; topography; temperature; water vaporKin; Kout; Knet; Lin; albedo; Lout; Lnet; Rnet; temperaturesnow depth; Kin; albedo; Knet; Kin fraction; Lin; Lnet; Lout; Rnet; cloud thicknessKin; Kout; Knet; Lin; Lout; Lnet; RnetKnet; Lnet; Rnettime of year; location; continentality; elevation; atmosphere; cloud covertime of year; location; continentalitycloud cover; continentality; time of yearcontinentality; mass balance; 6m_temperature; climate; wind speed; 0m_temperature
Arctic_SEB_2000-2007_3 Literature research67.050000-47.7666671520.0342JournalVan Den Broeke, M; Smeets, P; Ettema, J; Munneke, PkSurface radiation balance in the ablation zone of the west Greenland ice sheetJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00928320002007allyeariceGreenland Ice Sheet; AWS; Kangerlussuaq transectlocaldaily average; monthly average; seasonal average; yearly averagein situ measurements; comparativeyesin situ; meteorological; meteo towerwind; snow; snow melt; time of year; clouds; continentality; landcover; albedo; topography; temperature; water vaporKin; Kout; Knet; Lin; albedo; Lout; Lnet; Rnet; temperaturesnow depth; Kin; albedo; Knet; Kin fraction; Lin; Lnet; Lout; Rnet; cloud thicknessKin; Kout; Knet; Lin; Lout; Lnet; RnetKnet; Lnet; Rnettime of year; location; continentality; elevation; atmosphere; cloud covertime of year; location; continentalitycloud cover; continentality; time of yearcontinentality; mass balance; 6m_temperature; climate; wind speed; 0m_temperature
Arctic_SEB_2000-2007_4 Literature research72.966667-37.2333333203.0342JournalVan Den Broeke, M; Smeets, P; Ettema, J; Munneke, PkSurface radiation balance in the ablation zone of the west Greenland ice sheetJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00928320002007allyeariceGreenland Ice Sheet; AWS; Kangerlussuaq transectlocaldaily average; monthly average; seasonal average; yearly averagein situ measurements; comparativeyesin situ; meteorological; meteo towerwind; snow; snow melt; time of year; clouds; continentality; landcover; albedo; topography; temperature; water vaporKin; Kout; Knet; Lin; albedo; Lout; Lnet; Rnet; temperaturesnow depth; Kin; albedo; Knet; Kin fraction; Lin; Lnet; Lout; Rnet; cloud thicknessKin; Kout; Knet; Lin; Lout; Lnet; RnetKnet; Lnet; Rnettime of year; location; continentality; elevation; atmosphere; cloud covertime of year; location; continentalitycloud cover; continentality; time of yearcontinentality; mass balance; 6m_temperature; climate; wind speed; 0m_temperature
Arctic_SEB_2007-2010_1Literature research76.500000-68.800000225.0357JournalDi Biagio, C; Di Sarra, A; Eriksen, P; Ascanius, Se; Muscari, G; Holben, BEffect of surface albedo, water vapour, and atmospheric aerosols on the cloud-free shortwave radiative budget in the ArcticClimate Dynamics2012https://doi.org/10.1007/s00382-011-1280-120072010allyearBThule; Greenlandlocaldaily average; 10day average; 4year average; seasonal average; monthly averagein situ measurements; comparative; replicated; regression; model validationnoin situ; satellite; MODIS; model; meteorologicalwater vapor; aerosol; irradiance; albedo; time of year; sun angle; temperature; timeKin; albedoKin; cloud cover; 2m_temperature; albedo; water vapor; AOD; frequency; angstrom coefficientalbedo; water vaporKintime of year; time; AODtime of yearalbedo; water vapor; time of year
Arctic_SEB_1999-2008_1 Literature research71.320139-155.3777191.0372JournalLiljedahl, Ak; Hinzman, Ld; Harazono, Y; Zona, D; Tweedie, Ce; Hollister, Rd; Engstrom, R; Oechel, WcNonlinear controls on evapotranspiration in Arctic coastal wetlandsBiogeosciences2011https://doi.org/10.5194/bg-8-3375-201119992008summerW2Barrow; Alaska; USAlocalyearly average; 8year average; seasonal average; daily average; hourly averagein situ measurements; comparativenoin situ; EC towersoil moisture; water vapor; resistance; vegetation; LAI; temperature; precipitation; time of year; windET; LE; H; G; Rnet; temperaturesoil moisture; water table; water saturation; G fraction; H fraction; LE fraction; LE; Priestley Taylor; bowen; resistance; VPD; H; LE; G; Rnet; 2m_temperature; wind direction; temperature gradientSWE; precipitation; 2m_temperature; VPD; LE fraction; H fraction; G fraction; bowen; temperature gradient; VPD; resistance; closure; bowen; Priestley Taylortime of year; time; water potential; VPD; time of daytime; wind direction; location; soil moistureclimate; 2m_temperature; precipitation; soil type; permafrost; vegetation type; vegetation cover; LAI;
Arctic_SEB_1999-2008_2 Literature research71.280881-155.4035334.5372JournalLiljedahl, Ak; Hinzman, Ld; Harazono, Y; Zona, D; Tweedie, Ce; Hollister, Rd; Engstrom, R; Oechel, WcNonlinear controls on evapotranspiration in Arctic coastal wetlandsBiogeosciences2011https://doi.org/10.5194/bg-8-3375-201119992008summerW3Barrow; Alaska; USAlocalyearly average; 8year average; seasonal average; daily average; hourly averagein situ measurements; comparativenoin situ; EC towersoil moisture; water vapor; resistance; vegetation; LAI; temperature; precipitation; time of year; windET; LE; H; G; Rnet; temperaturesoil moisture; water table; water saturation; G fraction; H fraction; LE fraction; LE; Priestley Taylor; bowen; resistance; VPD; H; LE; G; Rnet; 2m_temperature; wind direction; temperature gradientSWE; precipitation; 2m_temperature; VPD; LE fraction; H fraction; G fraction; bowen; temperature gradient; VPD; resistance; closure; bowen; Priestley Taylortime of year; time; water potential; VPD; time of daytime; wind direction; location; soil moistureclimate; 2m_temperature; precipitation; soil type; permafrost; vegetation type; vegetation cover; LAI;
Arctic_SEB_1965-2000_1 Literature research71.300000-156.6000008.0384JournalStone, Rs; Dutton, Eg; Harris, Jm; Longenecker, DEarlier spring snowmelt in northern Alaska as an indicator of climate changeJournal of Geophysical Research-Atmospheres2002https://doi.org/10.1029/2000JD00028619652000allyeartundraBarrow; Alaska; USAlocaldaily average; monthly average; seasonal averagecomparison in situ and in situ; comparativenoin situ; model; GCM; networksnow; snow melt; temperature; teleconnection; time; atmosphere; time of year; albedo; irradiation; precipitation; water vapor; cloudstemperature; RnetKin; Kout; albedoRnet; 2m_temperaturemelt date; water equivalent precipitation; 2m_temperature; cloud covertime of year; yearmelt dateyear
Arctic_SEB_1965-2000_2 Literature research69.400000-148.800000351.0384JournalStone, Rs; Dutton, Eg; Harris, Jm; Longenecker, DEarlier spring snowmelt in northern Alaska as an indicator of climate changeJournal of Geophysical Research-Atmospheres2002https://doi.org/10.1029/2000JD00028619652000allyeartundraBarrow; Alaska; USAlocaldaily average; monthly average; seasonal averagecomparison in situ and in situ; comparativenoin situ; model; GCM; networksnow; snow melt; temperature; teleconnection; time; atmosphere; time of year; albedo; irradiation; precipitation; water vapor; cloudstemperature; RnetKin; Kout; albedoRnet; 2m_temperaturemelt date; water equivalent precipitation; 2m_temperature; cloud covertime of year; yearmelt dateyear
Arctic_SEB_1965-2000_3 Literature research69.900000-148.10000076.0384JournalStone, Rs; Dutton, Eg; Harris, Jm; Longenecker, DEarlier spring snowmelt in northern Alaska as an indicator of climate changeJournal of Geophysical Research-Atmospheres2002https://doi.org/10.1029/2000JD00028619652000allyeartundraBarrow; Alaska; USAlocaldaily average; monthly average; seasonal averagecomparison in situ and in situ; comparativenoin situ; model; GCM; networksnow; snow melt; temperature; teleconnection; time; atmosphere; time of year; albedo; irradiation; precipitation; water vapor; cloudstemperature; RnetKin; Kout; albedoRnet; 2m_temperaturemelt date; water equivalent precipitation; 2m_temperature; cloud covertime of year; yearmelt dateyear
Arctic_SEB_1965-2000_4 Literature research70.100000-143.60000015.0384JournalStone, Rs; Dutton, Eg; Harris, Jm; Longenecker, DEarlier spring snowmelt in northern Alaska as an indicator of climate changeJournal of Geophysical Research-Atmospheres2002https://doi.org/10.1029/2000JD00028619652000allyeartundraBarrow; Alaska; USAlocaldaily average; monthly average; seasonal averagecomparison in situ and in situ; comparativenoin situ; model; GCM; networksnow; snow melt; temperature; teleconnection; time; atmosphere; time of year; albedo; irradiation; precipitation; water vapor; cloudstemperature; RnetKin; Kout; albedoRnet; 2m_temperaturemelt date; water equivalent precipitation; 2m_temperature; cloud covertime of year; yearmelt dateyear
Arctic_SEB_1991-1991_1 Literature research67.000000-50.000000150.0399JournalGallee, H; Duynkerke, PgAir-snow interactions and the surface energy and mass balance over the melting zone of west Greenland during the Greenland ice margin experimentJournal of Geophysical Research-Atmospheres1997https://doi.org/10.1029/96JD0335819911991summertundraGreenlandlocal5-24July; seasonal averagesimulation of SEB; in situ measurements; comparison model and in situ; model validation; comparativenomodel; in situ; meteo tower; dirigiblewind; temperature; water vapor; atmosphere; snow; ice; time of day; snow melt; continentalitytemperature; Knet; Lnet; H; LE2m_temperature; wind speed; wind directiondistance from ice edge; altitude; 2m_temperature; wind speedtime of day; distance from ice edgelocation; landcover
Arctic_SEB_1991-1991_1Literature research67.000000-50.000000341.0399JournalGallee, H; Duynkerke, PgAir-snow interactions and the surface energy and mass balance over the melting zone of west Greenland during the Greenland ice margin experimentJournal of Geophysical Research-Atmospheres1997https://doi.org/10.1029/96JD0335819911991summericeGreenlandlocal5-24July; seasonal averagesimulation of SEB; in situ measurements; comparison model and in situ; model validation; comparativenomodel; in situ; meteo tower; dirigiblewind; temperature; water vapor; atmosphere; snow; ice; time of day; snow melt; continentalitytemperature; Knet; Lnet; H; LE2m_temperature; wind speed; wind directiondistance from ice edge; altitude; 2m_temperature; wind speedtime of day; distance from ice edgelocation; landcover
Arctic_SEB_1991-1991_1Literature research67.000000-50.0000001028.0399JournalGallee, H; Duynkerke, PgAir-snow interactions and the surface energy and mass balance over the melting zone of west Greenland during the Greenland ice margin experimentJournal of Geophysical Research-Atmospheres1997https://doi.org/10.1029/96JD0335819911991summericeGreenlandlocal5-24July; seasonal averagesimulation of SEB; in situ measurements; comparison model and in situ; model validation; comparativenomodel; in situ; meteo tower; dirigiblewind; temperature; water vapor; atmosphere; snow; ice; time of day; snow melt; continentalitytemperature; Knet; Lnet; H; LE2m_temperature; wind speed; wind directiondistance from ice edge; altitude; 2m_temperature; wind speedtime of day; distance from ice edgelocation; landcover
Arctic_SEB_1991-1991_1Literature research67.000000-50.0000001520.0399JournalGallee, H; Duynkerke, PgAir-snow interactions and the surface energy and mass balance over the melting zone of west Greenland during the Greenland ice margin experimentJournal of Geophysical Research-Atmospheres1997https://doi.org/10.1029/96JD0335819911991summericeGreenlandlocal5-24July; seasonal averagesimulation of SEB; in situ measurements; comparison model and in situ; model validation; comparativenomodel; in situ; meteo tower; dirigiblewind; temperature; water vapor; atmosphere; snow; ice; time of day; snow melt; continentalitytemperature; Knet; Lnet; H; LE2m_temperature; wind speed; wind directiondistance from ice edge; altitude; 2m_temperature; wind speedtime of day; distance from ice edgelocation; landcover
Arctic_SEB_2004-2004_1 Literature research71.300000-156.500000403JournalStone, Rs; Anderson, Gp; Shettle, Ep; Andrews, E; Loukachine, K; Dutton, Eg; Schaaf, C; Roman, MoRadiative impact of boreal smoke in the Arctic: observed and modeledJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00965720042004summertundraBarrow; Alaska; USAlocal2-2Julyin situ measurements; model validation; simulation of SEB; comparison model and satellite and in situnoin situ; meteorological; meteo tower; model; MODTRAN; satellite; CERESaerosols; sun angle; landcover; time of day; albedo; clouds; disturbance; fireKnet; KnetTOA; temperatureAOD; Knetalbedo; DARFwavelength; aerosol type; AOD; solar zenith angle; albedosolar zenith angle
Arctic_SEB_1995-1996_1 Literature research78.93333311.916667406JournalHarding, Rj; Lloyd, CrFluxes of water and energy from three high latitude tundra sites in SvalbardNordic Hydrology199819951996summer|fallP1Ny Alesynd; Svalbardlocalhourly average; daily average; June-August; 29May-18July; 2-12June; 31May-21June; seasonal averagein situ measurements; comparativenoin situtime; snow; temperature; landcover; precipitation; soiltemperature; LE; H; ET2m_temperature; albedo; precipitation; snow depth; snow cover; Rnet; LE; H; ET fractionRnet; LE; H; snow melttime of year; time; slope; aspectslope; aspect; timetopography; vegetation type; soil type
Arctic_SEB_2002-2004_1 Literature research69.614833161.339167415JournalCorradi, C; Kolle, O; Walter, K; Zimov, Sa; Schulze, EdCarbon dioxide and methane exchange of a north-east Siberian tussock tundraGlobal Change Biology2005https://doi.org/10.1111/j.1365-2486.2005.01023.x20022004summerG4Cherskii; Kolyma; Siberia; Russialocaldiscrete_measurements; daily averagein situ measurements; comparativenoin situ; meteorological; EC tower; meteo tower; published; modelGHG; water vapor; wind; temperature; pressure; precipitation; soil moisture; climate; time of year; vegetation; LAI; permafrostLE; H; Rnet; Lin; Kin; Lout; Kout; G; temperature; albedo; ETbiomass; precipitation; photon flux density; albedo; 2m_temperature; VPD; Rnet; LE; H; bowen; 0m_temperaturetime of yearclimate; 2m_temperature; precipitation; permafrost; vegetation type; vegetation cover
Arctic_SEB_1991-1991_1Literature research67.000000-51.000000416JournalMeesters, Agca; Henneken, Eac; Bink, Nj; Vugts, Hf; Cannemeijer, FSimulation of the atmospheric circulation near the Greenland ice-sheet marginGlobal and Planetary Change1994https://doi.org/10.1016/0921-8181(94)90007-819911991summertundraGreenlandlocal12July; daily average; halfhourly averagein situ measurements; model validation; simulation of SEBunclearmodel; in situ; GIMEXatmosphere; wind; landcover; snow; temperature; heterogeneitytemperature0m_temperature; 8m_temperature; 30m_temperature; wind speed; wind direction; Kin; Kout; Rnet; H; LE; 6m_temperaturetime of day; continentality
Arctic_SEB_1991-1991_1Literature research67.000000-51.000000416JournalMeesters, Agca; Henneken, Eac; Bink, Nj; Vugts, Hf; Cannemeijer, FSimulation of the atmospheric circulation near the Greenland ice-sheet marginGlobal and Planetary Change1994https://doi.org/10.1016/0921-8181(94)90007-819911991summericeGreenlandlocal12July; daily average; halfhourly averagein situ measurements; model validation; simulation of SEBunclearmodel; in situ; GIMEXatmosphere; wind; landcover; snow; temperature; heterogeneitytemperature0m_temperature; 8m_temperature; 30m_temperature; wind speed; wind direction; Kin; Kout; Rnet; H; LE; 6m_temperaturetime of day; continentality
Arctic_SEB_2007-2009_1Literature research69.05573320.774083473.0426JournalLepparanta, M; Lindgren, E; Shirasawa, KThe heat budget of lake Kilpisjarvi in the Arctic tundraHydrology Research2017https://doi.org/10.2166/nh.2016.17120072009allyearice|waterLake Kilpisjarvi; Norwaylocal14December-12June; 9September-21May; seasonal average; daily averageyesmeteorologicalsnow; climate; time of year; advectionRnet; H; LE0m_temperature; H; LE; Knet; Lnet; snow depth; ice thickness; Rnettime of yeartopography; climate; 2m_temperature; ice freeze and melt dynamics
Arctic_SEB_2007-2009_2 Literature research69.05600020.772967473.0426JournalLepparanta, M; Lindgren, E; Shirasawa, KThe heat budget of lake Kilpisjarvi in the Arctic tundraHydrology Research2017https://doi.org/10.2166/nh.2016.17120072009allyearice|waterLake Kilpisjarvi; Norwaylocal14December-12June; 9September-21May; seasonal average; daily averageyesmeteorologicalsnow; climate; time of year; advectionRnet; H; LE0m_temperature; H; LE; Knet; Lnet; snow depth; ice thickness; Rnettime of yeartopography; climate; 2m_temperature; ice freeze and melt dynamics
Arctic_SEB_2003-2007_1 Literature research68.750000-132.950000441JournalMarsh, P; Bartlett, P; Mackay, M; Pohl, S; Lantz, TSnowmelt energetics at a shrub tundra site in the western Canadian ArcticHydrological Processes2010https://doi.org/10.1002/hyp.778620032007spring|summertundraTVC; NWT; Canadalocaldaily average; 15April-14Junein situ measurements; comparative; model experiment; simulation of SEB; model validationnoin situ; meteorological; meteo tower; EC tower; model; CLASSsnow; snow melt; vegetation; landcover; wind; albedo; temperature; time of year; water vapor; pressure; precipitation; soil; LAILE; H; Kout; Lout; Lin; Kin; albedo; Rnet; temperaturealbedo; Kin; 2m_temperature; Kout; Knet; Lin; Lout; Lnet; Rnet; H; LE; wind speed; SWE; snow cover; Meltvegetation type; time of year; snow melt; snow depthtopography; permafrost; vegetation type; snow dynamics; SWE; canopy height
Arctic_SEB_2003-2007_1Literature research68.750000-132.950000441JournalMarsh, P; Bartlett, P; Mackay, M; Pohl, S; Lantz, TSnowmelt energetics at a shrub tundra site in the western Canadian ArcticHydrological Processes2010https://doi.org/10.1002/hyp.778620032007spring|summerG3TVC; NWT; Canadalocaldaily average; 15April-14Junein situ measurements; comparative; model experiment; simulation of SEB; model validationnoin situ; meteorological; meteo tower; EC tower; model; CLASSsnow; snow melt; vegetation; landcover; wind; albedo; temperature; time of year; water vapor; pressure; precipitation; soil; LAILE; H; Kout; Lout; Lin; Kin; albedo; Rnet; temperaturealbedo; Kin; 2m_temperature; Kout; Knet; Lin; Lout; Lnet; Rnet; H; LE; wind speed; SWE; snow cover; Meltvegetation type; time of year; snow melt; snow depthtopography; permafrost; vegetation type; snow dynamics; SWE; canopy height
Arctic_SEB_1995-1995_1 Literature research71.300000-156.500000442JournalLynch, Ah; Bonan, Gb; Chapin, Fs; Wu, WImpact of tundra ecosystems on the surface energy budget and climate of AlaskaJournal of Geophysical Research-Atmospheres1999https://doi.org/10.1029/98JD0279819951995summerG4Barrow; North slope Alaska; Alaska; USA; Betty Pingo; Franklin Bluffs; Sagwon; West Kuparuk; Imnavait; Kotzebue; Nomelocal; regionalhourly average; 19July-1August; 1-9Julymodel experiment; simulation of SEB; model validation; comparative; comparison model and in situunclearmodel; LSM; NCAR; ARCSYM; ECMWF; in situ; EC tower; meteorological; meteo tower; networklandcover; vegetation; soil moisture; time of year; clouds; LAI; roots; roughness; temperature; precipitation; teleconnection; advection; albedo; wind; water vapor; pressuretemperature; Rnet; LE; H; G; Kin; LinRnet; H; LE; 0m_temperaturetime of day; vegetation type
Arctic_SEB_1998-2011_1 Literature research64.130000-51.370000500.0465JournalEkici, A; Chadburn, S; Chaudhary, N; Hajdu, Lh; Marmy, A; Peng, S; Boike, J; Burke, E; Friend, Ad; Hauck, C; Krinner, G; Langer, M; Miller, Pa; Beer, CSite-level model intercomparison of high latitude and high altitude soil thermal dynamics in tundra and barren landscapesCryosphere2015https://doi.org/10.5194/tc-9-1343-201519982011allyearS1Nuuk; Greenland; Schilthorn; Switzerland; Samoylov; Lena River; Siberia; Russia; Bayelva; Svalbardlocalseasonal average; yearly averagesimulation of SEB; comparative; comparison model and modelunclearmodel; JSBACH; ORCHIDEE; JULES; COUP; HYBRID8; LPJ-GUESS; reanalysis; WATCHsnow; snow melt; soil; soil moisture; landcover; permafrost; vegetation; irradiation; climate; temperature; precipitation; water vapor; pressure; windtemperature; Lin; Kin; Rnet; -0.05m_temperature; snow depthtime of year; location; 2m_temperature; time; yearclimate; 2m_temperature; precipitation; snow cover dynamics; vegetation type; permafrost; topography
Arctic_SEB_1998-2011_2 Literature research72.400000126.500000465JournalEkici, A; Chadburn, S; Chaudhary, N; Hajdu, Lh; Marmy, A; Peng, S; Boike, J; Burke, E; Friend, Ad; Hauck, C; Krinner, G; Langer, M; Miller, Pa; Beer, CSite-level model intercomparison of high latitude and high altitude soil thermal dynamics in tundra and barren landscapesCryosphere2015https://doi.org/10.5194/tc-9-1343-201519982011allyearW1Nuuk; Greenland; Schilthorn; Switzerland; Samoylov; Lena River; Siberia; Russia; Bayelva; Svalbardlocalseasonal average; yearly averagesimulation of SEB; comparative; comparison model and modelunclearmodel; JSBACH; ORCHIDEE; JULES; COUP; HYBRID8; LPJ-GUESS; reanalysis; WATCHsnow; snow melt; soil; soil moisture; landcover; permafrost; vegetation; irradiation; climate; temperature; precipitation; water vapor; pressure; windtemperature; Lin; Kin; Rnet; -0.05m_temperature; snow depthtime of year; location; 2m_temperature; time; yearclimate; 2m_temperature; precipitation; snow cover dynamics; vegetation type; permafrost; topography
Arctic_SEB_1998-2011_3 Literature research78.91000011.95000025.0465JournalEkici, A; Chadburn, S; Chaudhary, N; Hajdu, Lh; Marmy, A; Peng, S; Boike, J; Burke, E; Friend, Ad; Hauck, C; Krinner, G; Langer, M; Miller, Pa; Beer, CSite-level model intercomparison of high latitude and high altitude soil thermal dynamics in tundra and barren landscapesCryosphere2015https://doi.org/10.5194/tc-9-1343-201519982011allyearG1Nuuk; Greenland; Schilthorn; Switzerland; Samoylov; Lena River; Siberia; Russia; Bayelva; Svalbardlocalseasonal average; yearly averagesimulation of SEB; comparative; comparison model and modelunclearmodel; JSBACH; ORCHIDEE; JULES; COUP; HYBRID8; LPJ-GUESS; reanalysis; WATCHsnow; snow melt; soil; soil moisture; landcover; permafrost; vegetation; irradiation; climate; temperature; precipitation; water vapor; pressure; windtemperature; Lin; Kin; Rnet; -0.05m_temperature; snow depthtime of year; location; 2m_temperature; time; yearclimate; 2m_temperature; precipitation; snow cover dynamics; vegetation type; permafrost; topography
Arctic_SEB_2003-2004_1 Literature research60.583333-134.8166671363.0479JournalBewley, D; Essery, R; Pomeroy, J; Menard, CMeasurements and modelling of snowmelt and turbulent heat fluxes over shrub tundraHydrology and Earth System Sciences2010https://doi.org/10.5194/hess-14-1331-201020032004springG3Wolf Creek; Yukon; Canadalocaldaily average; 15April-14May; hourly averagein situ measurements; comparative; model experiment; model validation; comparison model and in situunclearin situ; meteorological; modelvegetation; snow; snow melt; landcover; wind; temperature; irradiation; time of yearKin; Lin; temperature; LE; H; Rnet2m_temperature; Kin; Lin; wind speed; snow cover; H; LE; snow depth; SWEH; LEtime of year; SWE; locationtime; locationclimate; 2m_temperature; precipitation; vegetation type; canopy height; snow cover
Arctic_SEB_2003-2004_1Literature research60.583333-134.8166671424.0479JournalBewley, D; Essery, R; Pomeroy, J; Menard, CMeasurements and modelling of snowmelt and turbulent heat fluxes over shrub tundraHydrology and Earth System Sciences2010https://doi.org/10.5194/hess-14-1331-201020032004springS1Wolf Creek; Yukon; Canadalocaldaily average; 15April-14May; hourly averagein situ measurements; comparative; model experiment; model validation; comparison model and in situunclearin situ; meteorological; modelvegetation; snow; snow melt; landcover; wind; temperature; irradiation; time of yearKin; Lin; temperature; LE; H; Rnet2m_temperature; Kin; Lin; wind speed; snow cover; H; LE; snow depth; SWEH; LEtime of year; SWE; locationtime; locationclimate; 2m_temperature; precipitation; vegetation type; canopy height; snow cover
Arctic_SEB_1985-1989_1 Literature research68.050000-148.750000517JournalKane, Dl; Hinzman, Ld; Benson, Cs; Liston, GeSnow hydrology of a headwater Arctic basin .1. Physical measurements and process studiesWater Resources Research1991https://doi.org/10.1029/91WR0026219851989winter|springwaterImnavait Creek; Alaska; USAlocal; regionaldaily averagein situ measurements; comparative; replicatednoin situ; meteorologicalscale; soil moisture; snow; snow melt; albedo; precipitation; topography; wind; advectionET; albedoalbedo; SWEEtime of year; timetimetopography; soil type
Arctic_SEB_2008-2008_1Literature research72.366667126.050000524JournalMuster, S; Langer, M; Heim, B; Westermann, S; Boike, JSubpixel heterogeneity of ice-wedge polygonal tundra: a multi-scale analysis of land cover and evapotranspiration in the Lena river delta, SiberiaTellus Series B-Chemical and Physical Meteorology2012https://doi.org/10.3402/tellusb.v64i0.1730120082008summer|falltundraSamoylov; Lena River; Siberia; Russialocal; regionalseasonal average; daily average; July-Septembersatellite measurements; satellite validation; comparison satellite and in situ; in situ measurements; replicatedunclearsatellite; CHRIS; PROBA; Landsat-7; in situ; remote sensing; dirigible; EC tower; meteorologicallandcover; heterogeneity; scale; time of year; vegetation; topography; soil moisture; precipitation; water vapor; precipitation; wind; resistance; irradiationET; LE; temperature; RnetET; Rnet; precipitationET fraction; ETvegetation type; time of yearvegetation type; time of yearvegetation type; landscape; climate; 2m_temperature; precipitation; snow melt; permafrost; topography; vegetation cover
Arctic_SEB_1997-2018_1 Literature research75.620000-35.9700002660.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_2 Literature research67.000000-47.0300001840.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_3 Literature research79.830000-25.170000870.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_4 Literature research67.070000-48.8400001270.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_5 Literature research64.950000-49.890000920.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_6 Literature research64.510000-49.2700001120.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_7 Literature research61.240000-46.7300001000.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_8 Literature research61.100000-46.830000630.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_9 Literature research61.180000-46.820000900.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_10 Literature research72.390000-27.230000970.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_11 Literature research65.780000-38.900000890.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_12 Literature research76.420000-68.150000760.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_13 Literature research72.890000-53.580000940.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_14 Literature research67.100000-49.950000670.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_15 Literature research79.910000-24.080000370.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_16 Literature research64.480000-49.540000530.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_17 Literature research61.030000-46.850000280.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_18 Literature research72.220000-26.820000460.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_19 Literature research65.640000-38.900000250.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_20 Literature research76.400000-68.270000570.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_21 Literature research72.900000-54.300000220.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeariceGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_22 Literature research70.470000-149.8900002.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeartundraGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_23 Literature research71.320000-156.6200008.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeartundraGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_24 Literature research70.500000-157.41000020.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyeartundraGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_1997-2018_25 Literature research79.975000-74.1450000.0525JournalNielsen-Englyst, P; Hoyer, Jl; Madsen, Ks; Tonboe, R; Dybkjaer, G; Alerskans, EIn situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the ArcticCryosphere2019https://doi.org/10.5194/tc-13-1005-201919972018allyearice|waterGreenland; Arctic Ocean; Alaska; Arcticlocal; regionalhalfhourly average; monthly averagein situ measurements; regressionyesin situ; network; meteorological; meteo tower; PROMICE; ARM; ICEARC; SHEBAtemperature; time of year; time of day; wind; clouds; landcover; locationtemperature; Rnet2m_temperature; 0m_temperature; temperature gradient; wind speedtemperature gradienttime of day; time of year; cloud cover; location; surface type; 0m_temperaturetime of year; cloud cover; location; surface type
Arctic_SEB_2001-2003_1 Literature research71.300000-156.600000527JournalMolders, N; Luijting, H; Sassen, KUse of atmospheric radiation measurement program data from Barrow, Alaska, for evaluation and development of snow-albedo parameterizationsMeteorology and Atmospheric Physics2008https://doi.org/10.1007/s00703-007-0271-620012003allyeariceBarrow; Alaska; USAlocaldaily average; February-May; seasonal averagemodel parametrization; model validation; comparison model and in situnoin situ; ARM; model; meteorological; meteo tower; ECHAM; HTSVS; ISBA; SASTsnow; albedo; precipitation; snow melt; temperature; time of day; time of year; windalbedo; Kin; Kout; temperature2m_temperature; wind speed; snow depth; albedoalbedotime of year; time; temperature; wind speed; snow depthtimeclimate; vegetation type
Arctic_SEB_2011-2011_1 Literature research72.366667126.050000528JournalHelbig, M; Boike, J; Langer, M; Schreiber, P; Runkle, Brk; Kutzbach, LSpatial and seasonal variability of polygonal tundra water balance: Lena river delta, northern Siberia (Russia)Hydrogeology Journal2013https://doi.org/10.1007/s10040-012-0933-420112011summerWSamoylov; Lena River; Siberia; Russialocal22May-19August; halfhour average; seasonal averagein situ measurements; replicated; comparativenoin situ; meteorological; meteo towerlandcover; soil; time of year; soil moisture; precipitation; topography; permafrost; pressure; water vapor; wind; temperatureET; temperature2m_temperature; soil moisture; precipitation; -0.05m_temperature; -0.1m_temperature; ET; hydraulic conductivity; lateral flow; runofftime of year; snow melt; soil type; soil depth; permafrost degradationpermafrost; landscape; topography; climate; 2m_temperature; precipitation; soil type; vegetation type
Arctic_SEB_2004-2004_1Literature research71.300000-156.600000534JournalDe Boer, G; Collins, Wd; Menon, S; Long, CnUsing surface remote sensors to derive radiative characteristics of mixed-phase clouds: an example from m-paceAtmospheric Chemistry and Physics2011https://doi.org/10.5194/acp-11-11937-201120042004fall|wintertundraARM; Barrow; Alaska; USAlocalSeptember-Novembersimulation of SEB; model validation; comparison model and model and in situnomodel; in situ; ARM; radiosonde; remote sensing; RRTMGclouds; time of day; temperature; atmosphereKnet; Lnet; Kout; Lout; Kin; Lin; temperatureKnet; Lnet; Kout; Lout; Kin; Lin; CRFtime of year; cloud depth; LWP; IWP
Arctic_SEB_2000-2000_1Literature research71.300000-156.600000540JournalDong, Xq; Mace, GgArctic stratus cloud properties and radiative forcing derived from ground-based data collected at Barrow, AlaskaJournal of Climate2003https://doi.org/10.1175/1520-0442(2003)016<0445:ASCPAR>2.0.CO;220002000spring|summer|falltundraARM; Barrow; Alaska; USAlocal10day average; May-September; monthly averagein situ measurements; comparative; comparison in situ and satelliteunclearin situ; meteorological; ARM; remote sensing; radiosonde; satelliteclouds; time of year; temperature; pressure; water vaporalbedo; Rnet; Kin; Kout; Knet; Lin; Lout; Lnet; temperaturecloud fraction; cloud height; cloud temperature; cloud thickness; LWC; LWP; albedo; transmission; Knet; Lnet; CRFcloud fraction; low cloud fraction; cloud height; cloud temperature; LWP; LWC; albedo; Knet; Lnet; CRF; transmissiontime of year; cloud heigth; height above surface; cloud fractiontime of year; cloud fraction
Arctic_SEB_1 Literature research64.891167-162.356500541JournalThompson, C; Beringer, J; Chapin, Fs; Mcguire, AdStructural complexity and land-surface energy exchange along a gradient from Arctic tundra to boreal forestJournal of Vegetation Science2004https://doi.org/10.1658/1100-9233(2004)015[0397:SCALEE]2.0.CO;2summerW2Council; Alaska; USAlocalseasonal averagein situ measurements; comparative; replicatedunclearin situ; EC tower; meteorologicalvegetation; LAI; landcover; irradiation; time of year; topography; soil moisture; temperaturealbedo; Rnet; G; LE; Hvegetation cover; albedo; G fraction; LE fraction; H fractionvegetation cover; biomass; canopy height; LAI; SAI; albedo; Rnet; G fraction; LE fraction; H fractionvegetation type; plant functional type; biomass; LAIvegetation type; plant functional typeclimate; 2m_temperature; precipitation; vegetation type; permafrost; soil type; vegetation cover
Arctic_SEB_1Literature research64.891167-162.356500541JournalThompson, C; Beringer, J; Chapin, Fs; Mcguire, AdStructural complexity and land-surface energy exchange along a gradient from Arctic tundra to boreal forestJournal of Vegetation Science2004https://doi.org/10.1658/1100-9233(2004)015[0397:SCALEE]2.0.CO;2summerS2Council; Alaska; USAlocalseasonal averagein situ measurements; comparative; replicatedunclearin situ; EC tower; meteorologicalvegetation; LAI; landcover; irradiation; time of year; topography; soil moisture; temperaturealbedo; Rnet; G; LE; Hvegetation cover; albedo; G fraction; LE fraction; H fractionvegetation cover; biomass; canopy height; LAI; SAI; albedo; Rnet; G fraction; LE fraction; H fractionvegetation type; plant functional type; biomass; LAIvegetation type; plant functional typeclimate; 2m_temperature; precipitation; vegetation type; permafrost; soil type; vegetation cover
Arctic_SEB_1Literature research64.891167-162.356500541JournalThompson, C; Beringer, J; Chapin, Fs; Mcguire, AdStructural complexity and land-surface energy exchange along a gradient from Arctic tundra to boreal forestJournal of Vegetation Science2004https://doi.org/10.1658/1100-9233(2004)015[0397:SCALEE]2.0.CO;2summerG3Council; Alaska; USAlocalseasonal averagein situ measurements; comparative; replicatedunclearin situ; EC tower; meteorologicalvegetation; LAI; landcover; irradiation; time of year; topography; soil moisture; temperaturealbedo; Rnet; G; LE; Hvegetation cover; albedo; G fraction; LE fraction; H fractionvegetation cover; biomass; canopy height; LAI; SAI; albedo; Rnet; G fraction; LE fraction; H fractionvegetation type; plant functional type; biomass; LAIvegetation type; plant functional typeclimate; 2m_temperature; precipitation; vegetation type; permafrost; soil type; vegetation cover
Arctic_SEB_1995-1995_1Literature research69.100000-149.000000550JournalSturm, M; Mcfadden, Jp; Liston, Ge; Chapin, Fs; Racine, Ch; Holmgren, JSnow-shrub interactions in Arctic tundra: a hypothesis with climatic implicationsJournal of Climate2001https://doi.org/10.1175/1520-0442(2001)014<0336:SSIIAT>2.0.CO;219951995winter|springG4Alaska; USAlocalhourly averagein situ measurements; comparative; replicatednoin situ; remote sensingvegetation; landcover; snow; snow melt; time of year; soil moisture temperature; LAI; topographytemperature0m_temperature; 2m_temperaturevegetation cover; canopy heigth; stem diameter; LAI; snow depth; snow depth; SWE; 0m_temperature; snow densitytime of year; vegetation typevegetation typetopography; vegetation type
Arctic_SEB_1995-1995_1Literature research69.100000-149.000000550JournalSturm, M; Mcfadden, Jp; Liston, Ge; Chapin, Fs; Racine, Ch; Holmgren, JSnow-shrub interactions in Arctic tundra: a hypothesis with climatic implicationsJournal of Climate2001https://doi.org/10.1175/1520-0442(2001)014<0336:SSIIAT>2.0.CO;219951995winter|springS1Alaska; USAlocalhourly averagein situ measurements; comparative; replicatednoin situ; remote sensingvegetation; landcover; snow; snow melt; time of year; soil moisture temperature; LAI; topographytemperature0m_temperature; 2m_temperaturevegetation cover; canopy heigth; stem diameter; LAI; snow depth; snow depth; SWE; 0m_temperature; snow densitytime of year; vegetation typevegetation typetopography; vegetation type
Arctic_SEB_1995-1995_1Literature research69.100000-149.000000550JournalSturm, M; Mcfadden, Jp; Liston, Ge; Chapin, Fs; Racine, Ch; Holmgren, JSnow-shrub interactions in Arctic tundra: a hypothesis with climatic implicationsJournal of Climate2001https://doi.org/10.1175/1520-0442(2001)014<0336:SSIIAT>2.0.CO;219951995winter|springW2|W3Alaska; USAlocalhourly averagein situ measurements; comparative; replicatednoin situ; remote sensingvegetation; landcover; snow; snow melt; time of year; soil moisture temperature; LAI; topographytemperature0m_temperature; 2m_temperaturevegetation cover; canopy heigth; stem diameter; LAI; snow depth; snow depth; SWE; 0m_temperature; snow densitytime of year; vegetation typevegetation typetopography; vegetation type
Arctic_SEB_2003-2011_1 Literature research72.366667126.050000556JournalYi, S; Wischnewski, K; Langer, M; Muster, S; Boike, JFreeze/thaw processes in complex permafrost landscapes of northern Siberia simulated using the tem ecosystem model: impact of thermokarst ponds and lakesGeoscientific Model Development2014https://doi.org/10.5194/gmd-7-1671-201420032011unclearWSamoylov; Siberia; Russialocaldaily average; monthly averagesimulation of SEB; model validation; comparison model and model and in situnomodel; DOS-TEM; in situsoil moisture; soil; landcover; vegetation; snow; timetemperaturesnow thickness; -0.02m_temperature; -0.01m_temperature; -0.51m_temperature; -0.4m_temperature; -0.69m_temperature; -0.86m_temperature; -2m_temperature; -4m_temperature; -6m_temperaturetime; time of year; vegetation typeclimate; 2m_temperature; precipitation; vegetation type; vegetation cover
Arctic_SEB_2003-2011_1Literature research72.366667126.050000556JournalYi, S; Wischnewski, K; Langer, M; Muster, S; Boike, JFreeze/thaw processes in complex permafrost landscapes of northern Siberia simulated using the tem ecosystem model: impact of thermokarst ponds and lakesGeoscientific Model Development2014https://doi.org/10.5194/gmd-7-1671-201420032011unclearwaterSamoylov; Siberia; Russialocaldaily average; monthly averagesimulation of SEB; model validation; comparison model and model and in situnomodel; DOS-TEM; in situsoil moisture; soil; landcover; vegetation; snow; timetemperaturesnow thickness; -0.02m_temperature; -0.01m_temperature; -0.51m_temperature; -0.4m_temperature; -0.69m_temperature; -0.86m_temperature; -2m_temperature; -4m_temperature; -6m_temperaturetime; time of year; vegetation typeclimate; 2m_temperature; precipitation; vegetation type; vegetation cover
Arctic_SEB_2000-2008_1 Literature research70.750000-154.000000560JournalMatell, N; Anderson, Rs; Overeem, I; Wobus, C; Urban, Fe; Clow, GdModeling the subsurface thermal impact of Arctic thaw lakes in a warming climateComputers & Geosciences2013https://doi.org/10.1016/j.cageo.2011.08.02820002008unclearwaterDrew Point; Alaska; USAlocaldaily averagesimulation of SEB; comparativenomodel; in situlandcover; permafrost; soil moisture; ice; temperaturetemperature2m_temperature; -0.2m_temperature; -0.7m_temperature; -1.2m_temperaturetime; time of year
Arctic_SEB_1991-1991_1Literature research67.000000-54.00000050.0573JournalVandenbroeke, Mr; Duynkerke, Pg; Oerlemans, JThe observed katabatic flow at the edge of the Greenland ice-sheet during GIMEX-91Global and Planetary Change1994https://doi.org/10.1016/0921-8181(94)90003-519911991summertundraSondre Stromfjord; Greenlandlocal5-24July; hourly average; seasonal averagein situ measurements; comparativeyesin situ; dirigible; GIMEXtemperature; time of year; wind; ice; landcover; atmosphere; advection; time of day; pressure; water vapor; cloudstemperature; LE; H; Rnet; Kin; G; ET2m_temperature; wind speed; wind direction; atmospheric pressure; cloud cover; specific humidity2m_temperature; wind speedtime of year; location; vegetation type; distance from ice edge; time of daylocation; distance from ice edge
Arctic_SEB_1991-1991_1Literature research67.000000-54.000000330.0573JournalVandenbroeke, Mr; Duynkerke, Pg; Oerlemans, JThe observed katabatic flow at the edge of the Greenland ice-sheet during GIMEX-91Global and Planetary Change1994https://doi.org/10.1016/0921-8181(94)90003-519911991summertundraSondre Stromfjord; Greenlandlocal5-24July; hourly average; seasonal averagein situ measurements; comparativeyesin situ; dirigible; GIMEXtemperature; time of year; wind; ice; landcover; atmosphere; advection; time of day; pressure; water vapor; cloudstemperature; LE; H; Rnet; Kin; G; ET2m_temperature; wind speed; wind direction; atmospheric pressure; cloud cover; specific humidity2m_temperature; wind speedtime of year; location; vegetation type; distance from ice edge; time of daylocation; distance from ice edge
Arctic_SEB_1991-1991_1Literature research67.000000-54.000000300.0573JournalVandenbroeke, Mr; Duynkerke, Pg; Oerlemans, JThe observed katabatic flow at the edge of the Greenland ice-sheet during GIMEX-91Global and Planetary Change1994https://doi.org/10.1016/0921-8181(94)90003-519911991summertundraSondre Stromfjord; Greenlandlocal5-24July; hourly average; seasonal averagein situ measurements; comparativeyesin situ; dirigible; GIMEXtemperature; time of year; wind; ice; landcover; atmosphere; advection; time of day; pressure; water vapor; cloudstemperature; LE; H; Rnet; Kin; G; ET2m_temperature; wind speed; wind direction; atmospheric pressure; cloud cover; specific humidity2m_temperature; wind speedtime of year; location; vegetation type; distance from ice edge; time of daylocation; distance from ice edge
Arctic_SEB_1991-1991_1Literature research67.000000-54.000000150.0573JournalVandenbroeke, Mr; Duynkerke, Pg; Oerlemans, JThe observed katabatic flow at the edge of the Greenland ice-sheet during GIMEX-91Global and Planetary Change1994https://doi.org/10.1016/0921-8181(94)90003-519911991summertundraSondre Stromfjord; Greenlandlocal5-24July; hourly average; seasonal averagein situ measurements; comparativeyesin situ; dirigible; GIMEXtemperature; time of year; wind; ice; landcover; atmosphere; advection; time of day; pressure; water vapor; cloudstemperature; LE; H; Rnet; Kin; G; ET2m_temperature; wind speed; wind direction; atmospheric pressure; cloud cover; specific humidity2m_temperature; wind speedtime of year; location; vegetation type; distance from ice edge; time of daylocation; distance from ice edge
Arctic_SEB_1991-1991_1Literature research67.000000-54.00000050.0582JournalElkhalfi, ATwo-dimensional simulations of katabatic layers observed during the GIMEX experimentAnnales Geophysicae-Atmospheres Hydrospheres and Space Sciences1999https://doi.org/10.1007/s00585-999-0533-319911991summertundraSondre Stromfjord; Greenlandlocal12July; hourly averagein situ measurements; simulation of SEB; comparativeyesmodel; in situ measurements; GIMEXlandcover; wind; location; location; roughness; time of day; water vaporRnet; H; LE; temperature; albedoRnet; H; LE; 2m_temperature; specific humidity; wind speed; wind direction; ablationtime of day; vegetation type; distance from ice edge
Arctic_SEB_1991-1991_1Literature research67.000000-54.000000330.0582JournalElkhalfi, ATwo-dimensional simulations of katabatic layers observed during the GIMEX experimentAnnales Geophysicae-Atmospheres Hydrospheres and Space Sciences1999https://doi.org/10.1007/s00585-999-0533-319911991summertundraSondre Stromfjord; Greenlandlocal12July; hourly averagein situ measurements; simulation of SEB; comparativeyesmodel; in situ measurements; GIMEXlandcover; wind; location; location; roughness; time of day; water vaporRnet; H; LE; temperature; albedoRnet; H; LE; 2m_temperature; specific humidity; wind speed; wind direction; ablationtime of day; vegetation type; distance from ice edge
Arctic_SEB_1991-1991_1Literature research67.000000-54.000000300.0582JournalElkhalfi, ATwo-dimensional simulations of katabatic layers observed during the GIMEX experimentAnnales Geophysicae-Atmospheres Hydrospheres and Space Sciences1999https://doi.org/10.1007/s00585-999-0533-319911991summertundraSondre Stromfjord; Greenlandlocal12July; hourly averagein situ measurements; simulation of SEB; comparativeyesmodel; in situ measurements; GIMEXlandcover; wind; location; location; roughness; time of day; water vaporRnet; H; LE; temperature; albedoRnet; H; LE; 2m_temperature; specific humidity; wind speed; wind direction; ablationtime of day; vegetation type; distance from ice edge
Arctic_SEB_1991-1991_1Literature research67.000000-54.000000150.0582JournalElkhalfi, ATwo-dimensional simulations of katabatic layers observed during the GIMEX experimentAnnales Geophysicae-Atmospheres Hydrospheres and Space Sciences1999https://doi.org/10.1007/s00585-999-0533-319911991summertundraSondre Stromfjord; Greenlandlocal12July; hourly averagein situ measurements; simulation of SEB; comparativeyesmodel; in situ measurements; GIMEXlandcover; wind; location; location; roughness; time of day; water vaporRnet; H; LE; temperature; albedoRnet; H; LE; 2m_temperature; specific humidity; wind speed; wind direction; ablationtime of day; vegetation type; distance from ice edge
Arctic_SEB_1998-2005_1Literature research72.366667126.050000593JournalBoike, J; Wille, C; Abnizova, AClimatology and summer energy and water balance of polygonal tundra in the Lena river delta, SiberiaJournal of Geophysical Research-Biogeosciences2008https://doi.org/10.1029/2007JG00054019982005allyearWSamoylov; Lena River; Siberia; Russialocalmonthly average; 1June-24Augustin situ measurements; comparativeH_inferredin situ; meteorological; meteo towerclimate; precipitation; drought; soil moisture; atmosphere; advection; irradiation; soil; temperature; water vapor; wind; snow; time of yearLE; G; Rnet; H; ETRnet; 2m_temperature; snow depth; -0.47m_temperature; 0m_temperature; soil moisture; precipitation; snow depth; LE; H; G; ET; storage; bowen; LE fraction; G fraction; H fractionRnet; LE; H; G; Qrain; precipitation; ET; storagetime of year; year; 2m_temperature; climateyear; climate; time of yearpermafrost; topography; flooding; soil type; vegetation type; climate; 2m_temperature; precipitation
Arctic_SEB_2015-2015_1 Literature research78.91800011.89500061.0597JournalMarkowicz, Km; Pakszys, P; Ritter, C; Zielinski, T; Udisti, R; Cappelletti, D; Mazzola, M; Shiobara, M; Xian, P; Zawadzka, O; Lisok, J; Petelski, T; Makuch, P; Karasinski, GImpact of north american intense fires on aerosol optical properties measured over the european Arctic in July 2015Journal of Geophysical Research-Atmospheres2016https://doi.org/10.1002/2016JD02531020152015summerEurope; Spitsbergen; Svalbard; Norway; Andenes; Hornsund; Ny Alesundlocal; regionaldaily averagein situ measurements; satellite measurements; regression; comparativenoin situ; dirigible; remote sensing; modeldisturbance; fire; aerosols; water vapor; MODIS; satelliteKin; Kout; Lin; LoutAOD; Knet; Lnettime of year; location
Arctic_SEB_2015-2015_2 Literature research77.00000013.55000012.0597JournalMarkowicz, Km; Pakszys, P; Ritter, C; Zielinski, T; Udisti, R; Cappelletti, D; Mazzola, M; Shiobara, M; Xian, P; Zawadzka, O; Lisok, J; Petelski, T; Makuch, P; Karasinski, GImpact of north american intense fires on aerosol optical properties measured over the european Arctic in July 2015Journal of Geophysical Research-Atmospheres2016https://doi.org/10.1002/2016JD02531020152015summerEurope; Spitsbergen; Svalbard; Norway; Andenes; Hornsund; Ny Alesundlocal; regionaldaily averagein situ measurements; satellite measurements; regression; comparativenoin situ; dirigible; remote sensing; modeldisturbance; fire; aerosols; water vapor; MODIS; satelliteKin; Kout; Lin; LoutAOD; Knet; Lnettime of year; location
Arctic_SEB_2015-2015_3 Literature research69.27900016.009000380.0597JournalMarkowicz, Km; Pakszys, P; Ritter, C; Zielinski, T; Udisti, R; Cappelletti, D; Mazzola, M; Shiobara, M; Xian, P; Zawadzka, O; Lisok, J; Petelski, T; Makuch, P; Karasinski, GImpact of north american intense fires on aerosol optical properties measured over the european Arctic in July 2015Journal of Geophysical Research-Atmospheres2016https://doi.org/10.1002/2016JD02531020152015summerEurope; Spitsbergen; Svalbard; Norway; Andenes; Hornsund; Ny Alesundlocal; regionaldaily averagein situ measurements; satellite measurements; regression; comparativenoin situ; dirigible; remote sensing; modeldisturbance; fire; aerosols; water vapor; MODIS; satelliteKin; Kout; Lin; LoutAOD; Knet; Lnettime of year; location
Arctic_SEB_1994-2009_1 Literature research71.300000-156.500000598JournalShiklomanov, Ni; Streletskiy, Da; Nelson, Fe; Hollister, Rd; Romanovsky, Ve; Tweedie, Ce; Bockheim, Jg; Brown, JDecadal variations of active-layer thickness in moisture-controlled landscapes, Barrow, AlaskaJournal of Geophysical Research-Biogeosciences2010https://doi.org/10.1029/2009JG00124819942009allyearWBarrow; Alaska; USAlocal; regionaldaily average; monthly average; yearly averagein situ measurements; comparative; replicated; experimental treatmentnoin situ; network; CALM; ITEX; Biocomplexity experimentpermafrost; time; time of year; soil moisture; topography; vegetationtemperature; -4.77m_temperature; -12.77m_temperature; -0.2m_temperature; -1.2m_temperature; -0.5m_temperature; ALT; snow depthALTtime of year; time; location; surface type; organic layer thicknesstime; location; surface typeclimate; 2m_temperature; precipitation; topography; vegetation type; soil type; permafrost
Arctic_SEB_1999-2009_1 Literature research70.466667-156.600000608JournalJiang, Yy; Zhuang, Ql; O'donnell, JaModeling thermal dynamics of active layer soils and near-surface permafrost using a fully coupled water and heat transport modelJournal of Geophysical Research-Atmospheres2012https://doi.org/10.1029/2012JD01751219992009allyearW2|W3Atqasuk; Alaska; USA; Betty Pingo; West Dock high; Toolik; Sagwonlocaldaily averagemodel experiment; simulation of SEB; model validation; comparison in situ and model; comparative; regressionnomodel; in situ; networkclimate; disturbance; fire; topography; soil; soil moisture; vegetation; permafrost; timetemperature; -0.05m_temperature; -0.10m_temperature; -0.15m_temperature; -0.20m_temperature; -1.2m_temperature; soil moisture; 0m_temperaturetime of year; year
Arctic_SEB_1999-2009_1Literature research70.466667-156.600000608JournalJiang, Yy; Zhuang, Ql; O'donnell, JaModeling thermal dynamics of active layer soils and near-surface permafrost using a fully coupled water and heat transport modelJournal of Geophysical Research-Atmospheres2012https://doi.org/10.1029/2012JD01751219992009allyearW1Atqasuk; Alaska; USA; Betty Pingo; West Dock high; Toolik; Sagwonlocaldaily averagemodel experiment; simulation of SEB; model validation; comparison in situ and model; comparative; regressionnomodel; in situ; networkclimate; disturbance; fire; topography; soil; soil moisture; vegetation; permafrost; timetemperature; -0.05m_temperature; -0.10m_temperature; -0.15m_temperature; -0.20m_temperature; -1.2m_temperature; soil moisture; 0m_temperaturetime of year; year
Arctic_SEB_1990-1991_1 Literature research67.000000-54.00000050.0611JournalOerlemans, J; Vugts, HfA meteorological experiment in the melting zone of the Greenland ice-sheetBulletin of the American Meteorological Society1993https://doi.org/10.1175/1520-0477(1993)074<0355:AMEITM>2.0.CO;219901991summertundraSondre Stromfjord; Greenlandlocaldaily average; 12June-30July; seasonal averagein situ measurements; comparativeyesmeteorological; in situ; meteo tower; network; dirigible; radiosonde; GIMEXwater vapor; temperature; wind; landcover; ice; soil moisture; time of day; time of year; continentality; irradiationalbedo; Rin2m_temperature; Kin; albedo; potential temperature; Rnet; wind speedelevation; Kin; albedo; Knet; 2m_temperature; potential temperature; wind speedtime of year; distance from ice edge; vegetation type; elevation; year; time of dayvegetation type
Arctic_SEB_1990-1991_1Literature research67.000000-54.000000330.0611JournalOerlemans, J; Vugts, HfA meteorological experiment in the melting zone of the Greenland ice-sheetBulletin of the American Meteorological Society1993https://doi.org/10.1175/1520-0477(1993)074<0355:AMEITM>2.0.CO;219901991summertundraSondre Stromfjord; Greenlandlocaldaily average; 12June-30July; seasonal averagein situ measurements; comparativeyesmeteorological; in situ; meteo tower; network; dirigible; radiosonde; GIMEXwater vapor; temperature; wind; landcover; ice; soil moisture; time of day; time of year; continentality; irradiationalbedo; Rin2m_temperature; Kin; albedo; potential temperature; Rnet; wind speedelevation; Kin; albedo; Knet; 2m_temperature; potential temperature; wind speedtime of year; distance from ice edge; vegetation type; elevation; year; time of dayvegetation type
Arctic_SEB_1990-1991_1Literature research67.000000-54.000000300.0611JournalOerlemans, J; Vugts, HfA meteorological experiment in the melting zone of the Greenland ice-sheetBulletin of the American Meteorological Society1993https://doi.org/10.1175/1520-0477(1993)074<0355:AMEITM>2.0.CO;219901991summertundraSondre Stromfjord; Greenlandlocaldaily average; 12June-30July; seasonal averagein situ measurements; comparativeyesmeteorological; in situ; meteo tower; network; dirigible; radiosonde; GIMEXwater vapor; temperature; wind; landcover; ice; soil moisture; time of day; time of year; continentality; irradiationalbedo; Rin2m_temperature; Kin; albedo; potential temperature; Rnet; wind speedelevation; Kin; albedo; Knet; 2m_temperature; potential temperature; wind speedtime of year; distance from ice edge; vegetation type; elevation; year; time of dayvegetation type
Arctic_SEB_1990-1991_1Literature research67.000000-54.000000150.0611JournalOerlemans, J; Vugts, HfA meteorological experiment in the melting zone of the Greenland ice-sheetBulletin of the American Meteorological Society1993https://doi.org/10.1175/1520-0477(1993)074<0355:AMEITM>2.0.CO;219901991summertundraSondre Stromfjord; Greenlandlocaldaily average; 12June-30July; seasonal averagein situ measurements; comparativeyesmeteorological; in situ; meteo tower; network; dirigible; radiosonde; GIMEXwater vapor; temperature; wind; landcover; ice; soil moisture; time of day; time of year; continentality; irradiationalbedo; Rin2m_temperature; Kin; albedo; potential temperature; Rnet; wind speedelevation; Kin; albedo; Knet; 2m_temperature; potential temperature; wind speedtime of year; distance from ice edge; vegetation type; elevation; year; time of dayvegetation type
Arctic_SEB_2006-2009_1 Literature research64.866667-110.416667612JournalGrant, Rf; Humphreys, Er; Lafleur, PmEcosystem CO2 and CH4 exchange in a mixed tundra and a fen within a hydrologically diverse Arctic landscape: 1. Modeling versus measurementsJournal of Geophysical Research-Biogeosciences2015https://doi.org/10.1002/2014JG00288820062009allyearS|G4Daring Lake; NWT; Canadalocal15May-31August; seasonal average; hourly averagesimulation of SEB; comparative; regression; model valitdation; comparison model and in situnomodel; ecosys; EC tower; in situ; networktopography; permafrost; GHG; time; landcover; vegetation; temperature; water vapor; soil; soil moisture; precipitation; time of yeartemperature; Rnet; LE; H; Rnet2m_temperature; CO2 exchange; precipitation; Rnet; LE; H; VPD; Kin; -0.05m_temperaturesoil characteristics; 2m_temperature; precipitation; snow melt; CO2 exchange; GPP; respirationtime of year; vegetation typevegetation type; time; time of yeartopography; soil type; vegetation type; landscape; soil characteristics
Arctic_SEB_2006-2009_1Literature research64.866667-110.416667612JournalGrant, Rf; Humphreys, Er; Lafleur, PmEcosystem CO2 and CH4 exchange in a mixed tundra and a fen within a hydrologically diverse Arctic landscape: 1. Modeling versus measurementsJournal of Geophysical Research-Biogeosciences2015https://doi.org/10.1002/2014JG00288820062009allyearW3Daring Lake; NWT; Canadalocal15May-31August; seasonal average; hourly averagesimulation of SEB; comparative; regression; model valitdation; comparison model and in situnomodel; ecosys; EC tower; in situ; networktopography; permafrost; GHG; time; landcover; vegetation; temperature; water vapor; soil; soil moisture; precipitation; time of yeartemperature; Rnet; LE; H; Rnet2m_temperature; CO2 exchange; precipitation; Rnet; LE; H; VPD; Kin; -0.05m_temperaturesoil characteristics; 2m_temperature; precipitation; snow melt; CO2 exchange; GPP; respirationtime of year; vegetation typevegetation type; time; time of yeartopography; soil type; vegetation type; landscape; soil characteristics
Arctic_SEB_1984-1991_1 Literature research78.95805612.478333628JournalPutkonen, JSoil thermal properties and heat transfer processes near Ny-Alesund, northwestern Spitsbergen, SvalbardPolar Research1998https://doi.org/10.1111/j.1751-8369.1998.tb00270.x19841991allyearBNy Alesynd; Svalbard; Norwaylocaldaily average; hourly averagein situ measurements; comparative; simulation of SEB; model validation; comparison model and in situeunclearin situ; modelsoil; soil moisture; time of year; locationtemperaturewater table; thermal conductivity; 0.01m_temperature; 0m_temperature; -0.5m_temperature; -1m_temperaturetime of year; time of dayclimate; 2m_temperature; precipitation; landscape; soil type
Arctic_SEB_1998-2013_1 Literature research71.300000-156.600000662JournalAtchley, Al; Painter, Sl; Harp, Dr; Coon, Et; Wilson, Cj; Liljedahl, Ak; Romanovsky, VeUsing field observations to inform thermal hydrology models of permafrost dynamics with ats (v0.83)Geoscientific Model Development2015https://doi.org/10.5194/gmd-8-2701-201519982013allyearS|PBarrow; Alaska; USAlocal; regionaldaily average; seasonal averagemodel validation; simulation of SEB; comparison model and in situ; comparativeyesmodel; in situ measurements; meteo tower; meteorological; ARM; NGEE-Arctic; BEOtopography; landcover, soil; time of year; snow; temperature; irradiation; water vapor; windtemperature; -0.40m_temperature; -0.02m_temperaturesnow depth; snow density; SWEsurface type; time of yearsurface type
Arctic_SEB_2009-2014_1 Literature research80.050000-86.420000600.0666JournalGrachev, Aa; Persson, Pog; Uttal, T; Akish, Ea; Cox, Cj; Morris, Sm; Fairall, Cw; Stone, Rs; Lesins, G; Makshtas, Ap; Repina, IaSeasonal and latitudinal variations of surface fluxes at two Arctic terrestrial sitesClimate Dynamics2018https://doi.org/10.1007/s00382-017-3983-420092014allyeartundraEureka; Nunavut; Canada; Tiksi; Siberia; Russialocalhourly average; daily average; 5day averagein situ measurement; comparativenoin situ; meteorological; meteo tower; EC towertime of year; latitude; topography; clouds; snow; soil; irradiation; permafrost; temperature; snow melt; sun angle; soil moisture; water vapor; wind; precipitation; pressureKin; Kout; Lin; Lout; Rnet; LE; H; G; temperaturewind speed; 2m_temperature; 6m_temperature; 10m_temperature; -0.10m_temperature; -0.20m_temperature; -0.45m_temperature; -1.2m_temperature; G; Kin; Kout; Lin; Lout; Rnet; albedo; H; LE; CO2time of year; location; latitude; timetopography; landscape
Arctic_SEB_2009-2014_2 Literature research71.600000128.900000666JournalGrachev, Aa; Persson, Pog; Uttal, T; Akish, Ea; Cox, Cj; Morris, Sm; Fairall, Cw; Stone, Rs; Lesins, G; Makshtas, Ap; Repina, IaSeasonal and latitudinal variations of surface fluxes at two Arctic terrestrial sitesClimate Dynamics2018https://doi.org/10.1007/s00382-017-3983-420092014allyeartundraEureka; Nunavut; Canada; Tiksi; Siberia; Russialocalhourly average; daily average; 5day averagein situ measurement; comparativenoin situ; meteorological; meteo tower; EC towertime of year; latitude; topography; clouds; snow; soil; irradiation; permafrost; temperature; snow melt; sun angle; soil moisture; water vapor; wind; precipitation; pressureKin; Kout; Lin; Lout; Rnet; LE; H; G; temperaturewind speed; 2m_temperature; 6m_temperature; 10m_temperature; -0.10m_temperature; -0.20m_temperature; -0.45m_temperature; -1.2m_temperature; G; Kin; Kout; Lin; Lout; Rnet; albedo; H; LE; CO2time of year; location; latitude; timetopography; landscape
Arctic_SEB_2000-2014_1 Literature research72.366667126.466667689JournalLanger, M; Westermann, S; Boike, J; Kirillin, G; Grosse, G; Peng, S; Krinner, GRapid degradation of permafrost underneath waterbodies in tundra landscapes-toward a representation of thermokarst in land surface modelsJournal of Geophysical Research-Earth Surface2016https://doi.org/10.1002/2016JF00395620002014allyearwaterSamoylov; Lena River; Siberia; Russialocalseasonal average; discrete measurementssimulation of SEB; comparative; comparison model and modelunclearmodel; in situ; CryoGrid3landcover; soil moisture; permafrost; temperature; soil; wind; albedo; ice; snow; GHGtemperature; G; -2m_temperature; -4m_temperature; -6m_temperature; -0.9m_temperaturelake size; time of yearpermafrost; climate; 2m_temperature; soil type; snow dynamics; vegetation type; landscape
Arctic_SEB_2012-2013_1Literature research69.579590-140.198530697JournalWolter, J; Lantuit, H; Fritz, M; Macias-Fauria, M; Myers-Smith, I; Herzschuh, UVegetation composition and shrub extent on the Yukon coast, Canada, are strongly linked to ice-wedge polygon degradationPolar Research2016https://doi.org/10.3402/polar.v35.2748920122013summerG3Yukon; Canadalocal; regionaldiscrete_measurements; daily averagein situ measurements; comparative; simulation of SEB; replicatednoin situ; modelsoil; soil moisture; permafrost; temperature; topography; permafrosttemperatureALT; -0.05m_temperaturesurface typetopography; vegetation type; climate; 2m_temperature; precipitation; soil type; permafrost; ALT
Arctic_SEB_2012-2013_2 Literature research69.324710-139.020920697JournalWolter, J; Lantuit, H; Fritz, M; Macias-Fauria, M; Myers-Smith, I; Herzschuh, UVegetation composition and shrub extent on the Yukon coast, Canada, are strongly linked to ice-wedge polygon degradationPolar Research2016https://doi.org/10.3402/polar.v35.2748920122013summerW3Yukon; Canadalocal; regionaldiscrete_measurements; daily averagein situ measurements; comparative; simulation of SEB; replicatednoin situ; modelsoil; soil moisture; permafrost; temperature; topography; permafrosttemperatureALT; -0.05m_temperaturesurface typetopography; vegetation type; climate; 2m_temperature; precipitation; soil type; permafrost; ALT
Arctic_SEB_2012-2013_3 Literature research69.579300-138.957400697JournalWolter, J; Lantuit, H; Fritz, M; Macias-Fauria, M; Myers-Smith, I; Herzschuh, UVegetation composition and shrub extent on the Yukon coast, Canada, are strongly linked to ice-wedge polygon degradationPolar Research2016https://doi.org/10.3402/polar.v35.2748920122013summerS1Yukon; Canadalocal; regionaldiscrete_measurements; daily averagein situ measurements; comparative; simulation of SEB; replicatednoin situ; modelsoil; soil moisture; permafrost; temperature; topography; permafrosttemperatureALT; -0.05m_temperaturesurface typetopography; vegetation type; climate; 2m_temperature; precipitation; soil type; permafrost; ALT
Arctic_SEB_2012-2013_4 Literature research69.499790-139.181500697JournalWolter, J; Lantuit, H; Fritz, M; Macias-Fauria, M; Myers-Smith, I; Herzschuh, UVegetation composition and shrub extent on the Yukon coast, Canada, are strongly linked to ice-wedge polygon degradationPolar Research2016https://doi.org/10.3402/polar.v35.2748920122013summerW3Yukon; Canadalocal; regionaldiscrete_measurements; daily averagein situ measurements; comparative; simulation of SEB; replicatednoin situ; modelsoil; soil moisture; permafrost; temperature; topography; permafrosttemperatureALT; -0.05m_temperaturesurface typetopography; vegetation type; climate; 2m_temperature; precipitation; soil type; permafrost; ALT
Arctic_SEB_2006-2007_1 Literature research71.323000-156.6090007.6701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearWAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_2 Literature research71.166800-156.8743007.0701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyeartundraAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_3 Literature research70.471800-157.40700020.0701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearWAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_4 Literature research70.485900-156.78450015.4701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyeartundraAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_5 Literature research70.279500-148.89570011.6701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearWAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_6 Literature research70.244100-148.61940013.5701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyeartundraAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_7 Literature research69.892200-148.76800077.6701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearGAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_8 Literature research69.424300-148.695900299.0701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearGAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_9 Literature research69.426200-150.340400158.0701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearGAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_10 Literature research68.640100-149.406500774.0701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearGAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_11 Literature research64.749200-148.445600216.8701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearGAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_12 Literature research65.495000-164.910000235.8701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearGAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_13 Literature research64.843300-163.705300140.0701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearS|PAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2006-2007_14 Literature research64.901800-163.54830091.9701JournalHines, Km; Bromwich, Dh; Bai, Ls; Barlage, M; Slater, AgDevelopment and testing of polar wrf. Part iii: Arctic landJournal of Climate2011https://doi.org/10.1175/2010JCLI3460.120062007allyearAlaska; USA; Barrow; Atqasuk; Council; Bonanza Creek; Ocean Point; Upper Kuparuk; Betty Pingolocal; regionaldaily average; seasonal averagesimulation of SEB; model validation; comparison model and in situ; model experiment; model parametrizationunclearmodel; WRF; in situ; networktime of year; soil; clouds; snow; snow melt; albedo; water vapor; landcover; vegetation; topography; pressure; temperature; windtemperature; G; Kin; albedo; Linpressure; 2m_temperature; -0.25m_temperature; wind speed; Kin; Lin; water vapor; cloud covertime of year; time of day
Arctic_SEB_2011-2011_1Literature research72.600000-37.950000708JournalWright, P; Bergin, M; Dibb, J; Lefer, B; Domine, F; Carman, T; Carmagnola, C; Dumont, M; Courville, Z; Schaaf, C; Wang, ZsComparing MODIS daily snow albedo to spectral albedo field measurements in central GreenlandRemote Sensing of Environment2014https://doi.org/10.1016/j.rse.2013.08.04420112011spring|summericeSummit; Greenlandlocal; regionaldaily average; discrete measurementssatellite validation; comparison satellite and in situnosatellite; in situ; BSRNalbedo; snowalbedoalbedoalbedotime of yearlocation
Arctic_SEB_1995-1997_1 Literature research79.93333311.91666720.0714JournalLloyd, Cr; Harding, Rj; Friborg, T; Aurela, MSurface fluxes of heat and water vapour from sites in the european ArcticTheoretical and Applied Climatology2001https://doi.org/10.1007/s00704017000319951997summerGEurope; Ny Alesund; Svalbard; Zackenberg; Greenland; Finland; Kaamanen; Skalluvaaralocalseasonal average; 28June-27August; daily average; hourly average; monthly averagein situ measurement; comparativenoEC tower; in situclimate; latitude; topography; permafrost; soil moisture; vegetation; resistance; roughness; irradiation; snow; time of year; temperature; soil; precipitation; wind; water vaporLE; H; Rnet; G; ET; Lin; Lout; Kin; Kout; temperature; albedoalbedo; Rnet; LE; H; EBC; surface resistancealbedo; roughness length; surface resistance; snow melt; 2m_temperature; ET; LE; Rnet; H; ET fraction bowen; priestley-taylortime of year; vegetation typevegetation type; time of year; timevegetation type; soil type; climate; 2m_temperature; precipitation; permafrost; snow dynamics
Arctic_SEB_1995-1997_2 Literature research74.466667-19.43333350.0714JournalLloyd, Cr; Harding, Rj; Friborg, T; Aurela, MSurface fluxes of heat and water vapour from sites in the european ArcticTheoretical and Applied Climatology2001https://doi.org/10.1007/s00704017000319951997summerWEurope; Ny Alesund; Svalbard; Zackenberg; Greenland; Finland; Kaamanen; Skalluvaaralocalseasonal average; 28June-27August; daily average; hourly average; monthly averagein situ measurement; comparativenoEC tower; in situclimate; latitude; topography; permafrost; soil moisture; vegetation; resistance; roughness; irradiation; snow; time of year; temperature; soil; precipitation; wind; water vaporLE; H; Rnet; G; ET; Lin; Lout; Kin; Kout; temperature; albedoalbedo; Rnet; LE; H; EBC; surface resistancealbedo; roughness length; surface resistance; snow melt; 2m_temperature; ET; LE; Rnet; H; ET fraction bowen; priestley-taylortime of year; vegetation typevegetation type; time of year; timevegetation type; soil type; climate; 2m_temperature; precipitation; permafrost; snow dynamics
Arctic_SEB_1995-1997_3 Literature research69.13333327.283333155.0714JournalLloyd, Cr; Harding, Rj; Friborg, T; Aurela, MSurface fluxes of heat and water vapour from sites in the european ArcticTheoretical and Applied Climatology2001https://doi.org/10.1007/s00704017000319951997summerWEurope; Ny Alesund; Svalbard; Zackenberg; Greenland; Finland; Kaamanen; Skalluvaaralocalseasonal average; 28June-27August; daily average; hourly average; monthly averagein situ measurement; comparativenoEC tower; in situclimate; latitude; topography; permafrost; soil moisture; vegetation; resistance; roughness; irradiation; snow; time of year; temperature; soil; precipitation; wind; water vaporLE; H; Rnet; G; ET; Lin; Lout; Kin; Kout; temperature; albedoalbedo; Rnet; LE; H; EBC; surface resistancealbedo; roughness length; surface resistance; snow melt; 2m_temperature; ET; LE; Rnet; H; ET fraction bowen; priestley-taylortime of year; vegetation typevegetation type; time of year; timevegetation type; soil type; climate; 2m_temperature; precipitation; permafrost; snow dynamics
Arctic_SEB_1995-1997_4 Literature research69.81666727.200000280.0714JournalLloyd, Cr; Harding, Rj; Friborg, T; Aurela, MSurface fluxes of heat and water vapour from sites in the european ArcticTheoretical and Applied Climatology2001https://doi.org/10.1007/s00704017000319951997summerWEurope; Ny Alesund; Svalbard; Zackenberg; Greenland; Finland; Kaamanen; Skalluvaaralocalseasonal average; 28June-27August; daily average; hourly average; monthly averagein situ measurement; comparativenoEC tower; in situclimate; latitude; topography; permafrost; soil moisture; vegetation; resistance; roughness; irradiation; snow; time of year; temperature; soil; precipitation; wind; water vaporLE; H; Rnet; G; ET; Lin; Lout; Kin; Kout; temperature; albedoalbedo; Rnet; LE; H; EBC; surface resistancealbedo; roughness length; surface resistance; snow melt; 2m_temperature; ET; LE; Rnet; H; ET fraction bowen; priestley-taylortime of year; vegetation typevegetation type; time of year; timevegetation type; soil type; climate; 2m_temperature; precipitation; permafrost; snow dynamics
Arctic_SEB_1972-2004_1 Literature research69.050000-133.360000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_2 Literature research69.070000-133.400000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_3 Literature research69.030000-133.370000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_4 Literature research69.030000-133.430000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_5 Literature research69.010000-133.500000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_6 Literature research68.600000-133.640000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_7 Literature research68.590000-133.650000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_8 Literature research68.680000-133.700000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_9 Literature research68.650000-133.730000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_10 Literature research68.560000-133.670000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1972-2004_11 Literature research68.540000-133.660000726JournalLantz, Tc; Marsh, P; Kokelj, SvRecent shrub proliferation in the Mackenzie delta uplands and microclimatic implicationsEcosystems2013https://doi.org/10.1007/s10021-012-9595-219722004spring|summershrub tundraInuvik; NWT; Canadalocal; regionaldialy average; monthly average; yearly averageremote sensing measurements; comparative; in situ measurements; replicatednoin situ; remote sensing; aircraftvegetation; albedo; snow; soil; disturbance; fire; time of year; landcoverRnet; albedo; temperature; Kin; Koutalbedo; Rnet; -0.10m_temperaturealbedo; snow depth; snow density; SWEvegetation type; shrub cover; time of yearvegetation type; shrub cover; time of year; timetopography; climate; 2m_temperature; disturbance; vegetation type
Arctic_SEB_1979-1995_1 Literature research80.60000058.000000736JournalAdams, Jm; Bond, Na; Overland, JeRegional variability of the Arctic heat budget in fall and winterJournal of Climate2000https://doi.org/10.1175/1520-0442(2000)013<3500:RVOTAH>2.0.CO;219791995fall|wintertundraArctic; Franz Josef Land; Anjou Island; Barrow; Alaska; USA; Eureka; Canadalocal; regionaldaily averageIn situ measurements; comparison in situ and reanalysisRnet_inferredin situ; reanalysis; NCEP; NCARatmosphere; advection; teleconnection; temperature; time of year; convergencetemperature; Fnet2m_temperaturetime of year; location
Arctic_SEB_1979-1995_2 Literature research76.000000138.000000736JournalAdams, Jm; Bond, Na; Overland, JeRegional variability of the Arctic heat budget in fall and winterJournal of Climate2000https://doi.org/10.1175/1520-0442(2000)013<3500:RVOTAH>2.0.CO;219791995fall|wintertundraArctic; Franz Josef Land; Anjou Island; Barrow; Alaska; USA; Eureka; Canadalocal; regionaldaily averageIn situ measurements; comparison in situ and reanalysisRnet_inferredin situ; reanalysis; NCEP; NCARatmosphere; advection; teleconnection; temperature; time of year; convergencetemperature; Fnet2m_temperaturetime of year; location
Arctic_SEB_1979-1995_3 Literature research71.300000-156.000000736JournalAdams, Jm; Bond, Na; Overland, JeRegional variability of the Arctic heat budget in fall and winterJournal of Climate2000https://doi.org/10.1175/1520-0442(2000)013<3500:RVOTAH>2.0.CO;219791995fall|wintertundraArctic; Franz Josef Land; Anjou Island; Barrow; Alaska; USA; Eureka; Canadalocal; regionaldaily averageIn situ measurements; comparison in situ and reanalysisRnet_inferredin situ; reanalysis; NCEP; NCARatmosphere; advection; teleconnection; temperature; time of year; convergencetemperature; Fnet2m_temperaturetime of year; location
Arctic_SEB_1979-1995_4 Literature research80.000000-86.000000736JournalAdams, Jm; Bond, Na; Overland, JeRegional variability of the Arctic heat budget in fall and winterJournal of Climate2000https://doi.org/10.1175/1520-0442(2000)013<3500:RVOTAH>2.0.CO;219791995fall|wintertundraArctic; Franz Josef Land; Anjou Island; Barrow; Alaska; USA; Eureka; Canadalocal; regionaldaily averageIn situ measurements; comparison in situ and reanalysisRnet_inferredin situ; reanalysis; NCEP; NCARatmosphere; advection; teleconnection; temperature; time of year; convergencetemperature; Fnet2m_temperaturetime of year; location
Arctic_SEB_1996-2005_1 Literature research61.300000-120.700000280.0739JournalZhang, Ys; Carey, Sk; Quinton, WlEvaluation of the algorithms and parameterizations for ground thawing and freezing simulation in permafrost regionsJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00934319962005allyearWScotty Creek; Granger Creek; Wolf Creek; Canadalocalannual averagemodel experiment; simulation of SEB; comparative; comparison model and model and in situ; model validationunclearmodel; in situsoil; soil moisture; permafrost; temperature; time of year; location; timetemperature; LEsoil moisture; ALT; Freezing depth; -0.4m_temperature; -0.02m_temperature; -0.1m_temperature; -0.2m_temperature; -0.4m_temperature; days after thawing start; days after freezing start; soil type; time of yearsoil type; soil characteristics; topography
Arctic_SEB_1996-2005_2 Literature research60.550000-134.8166671338.0739JournalZhang, Ys; Carey, Sk; Quinton, WlEvaluation of the algorithms and parameterizations for ground thawing and freezing simulation in permafrost regionsJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00934319962005allyeartundraScotty Creek; Granger Creek; Wolf Creek; Canadalocalannual averagemodel experiment; simulation of SEB; comparative; comparison model and model and in situ; model validationunclearmodel; in situsoil; soil moisture; permafrost; temperature; time of year; location; timetemperature; LEsoil moisture; ALT; Freezing depth; -0.4m_temperature; -0.02m_temperature; -0.1m_temperature; -0.2m_temperature; -0.4m_temperature; days after thawing start; days after freezing start; soil type; time of yearsoil type; soil characteristics; topography
Arctic_SEB_1996-2005_3 Literature research60.516667-134.4833331175.0739JournalZhang, Ys; Carey, Sk; Quinton, WlEvaluation of the algorithms and parameterizations for ground thawing and freezing simulation in permafrost regionsJournal of Geophysical Research-Atmospheres2008https://doi.org/10.1029/2007JD00934319962005allyearScotty Creek; Granger Creek; Wolf Creek; Canadalocalannual averagemodel experiment; simulation of SEB; comparative; comparison model and model and in situ; model validationunclearmodel; in situsoil; soil moisture; permafrost; temperature; time of year; location; timetemperature; LEsoil moisture; ALT; Freezing depth; -0.4m_temperature; -0.02m_temperature; -0.1m_temperature; -0.2m_temperature; -0.4m_temperature; days after thawing start; days after freezing start; soil type; time of yearsoil type; soil characteristics; topography
Arctic_SEB_1983-2005_1 Literature research71.300000-156.620000757JournalZhang, K; Kimball, Js; Mu, Qz; Jones, La; Goetz, Sj; Running, SwSatellite based analysis of northern et trends and associated changes in the regional water balance from 1983 to 2005Journal of Hydrology2009https://doi.org/10.1016/j.jhydrol.2009.09.04719832005allyearWArctic; Alaska; USA; Barrow; Atqasuk; Manitoba; Saskatchewan; Alberta; Canada; Ivotuk;local; regionaldaily average; yearly averagesimulation of SEB; regression; comparison model and satellite; model validationunclearsatellite; AVHRR; GIMMS; MODIS; GEWEX; NCEP; NCAR; reanalysis; in situ; network; model; GPCP; meteorological; meteo tower; EC toweryear; landcover; NDVI; vegetation; irradiation; albedo; climate; precipitation; resistance; time of yearET; albedoconductance; LE; precipitation; ETNDVI; time of year; time
Arctic_SEB_1983-2005_2 Literature research70.470000-157.410000757JournalZhang, K; Kimball, Js; Mu, Qz; Jones, La; Goetz, Sj; Running, SwSatellite based analysis of northern et trends and associated changes in the regional water balance from 1983 to 2005Journal of Hydrology2009https://doi.org/10.1016/j.jhydrol.2009.09.04719832005allyearG4Arctic; Alaska; USA; Barrow; Atqasuk; Manitoba; Saskatchewan; Alberta; Canada; Ivotuk;local; regionaldaily average; yearly averagesimulation of SEB; regression; comparison model and satellite; model validationunclearsatellite; AVHRR; GIMMS; MODIS; GEWEX; NCEP; NCAR; reanalysis; in situ; network; model; GPCP; meteorological; meteo tower; EC toweryear; landcover; NDVI; vegetation; irradiation; albedo; climate; precipitation; resistance; time of yearET; albedoconductance; LE; precipitation; ETNDVI; time of year; time
Arctic_SEB_1983-2005_3 Literature research68.490000-115.750000757JournalZhang, K; Kimball, Js; Mu, Qz; Jones, La; Goetz, Sj; Running, SwSatellite based analysis of northern et trends and associated changes in the regional water balance from 1983 to 2005Journal of Hydrology2009https://doi.org/10.1016/j.jhydrol.2009.09.04719832005allyearG4Arctic; Alaska; USA; Barrow; Atqasuk; Manitoba; Saskatchewan; Alberta; Canada; Ivotuk;local; regionaldaily average; yearly averagesimulation of SEB; regression; comparison model and satellite; model validationunclearsatellite; AVHRR; GIMMS; MODIS; GEWEX; NCEP; NCAR; reanalysis; in situ; network; model; GPCP; meteorological; meteo tower; EC toweryear; landcover; NDVI; vegetation; irradiation; albedo; climate; precipitation; resistance; time of yearET; albedoconductance; LE; precipitation; ETNDVI; time of year; time
Arctic_SEB_1998-2001_1 Literature research71.300000-156.600000758JournalSchaefer, K; Zhang, Tj; Slater, Ag; Lu, Lx; Etringer, A; Baker, IImproving simulated soil temperatures and soil freeze/thaw at high-latitude regions in the simple biosphere/carnegie-ames-stanford approach modelJournal of Geophysical Research-Earth Surface2009https://doi.org/10.1029/2008JF00112519982001allyeartundraBarrow; North Americalocalhalfhour averagesimulation of SEB; comparative; comparison model and model and in situ; model validationunclearmodel; SibCASA; in situ; EC tower; reanalysis; NARRsoil; soil moisture; permafrost; temperature; snow; wind; time of year; precipitation; snow melt; landcover; vegetationtemperature2m_temperature; precipitation; snow density; -0.08m_temperature; -0.1m_temperature; -0.5m_temperature; -1m_temperature; snow depthtime of year
Arctic_SEB_2008-2011_1 Literature research67.920000-139.470000784JournalRoy-Leveillee, P; Burn, Cr; Mcdonald, IdVegetation-permafrost relations within the forest-tundra ecotone near old crow, northern Yukon, CanadaPermafrost and Periglacial Processes2014https://doi.org/10.1002/ppp.180520082011allyearW3Old Crow Flats; Yukon; Canadalocal; regionalseasonal average; yearly average; daily average; monthly averagein situ measurement; comparative; replicatednoin situvegetation; snow; snow melt; soil; landcover; heterogeneity; permafrost; temperature; time of yeartemperaturesnow depth; permafrost temperature; -1.25m_temperature2m_temperature; TDD; FDD; permafrost temperature; 0m_temperature; canopy height; snow depth; snow densitycanopy height; permafrost temperature; time of yearvegetation type; time
Arctic_SEB_2002-2003_1 Literature research70.560000-156.6700008.0792JournalMilton, Sf; Earnshaw, PEvaluation of surface water and energy cycles in the met office global nwp model using CEOP dataJournal of the Meteorological Society of Japan2007https://doi.org/10.2151/jmsj.85A.4320022003allyearB2bgloballocal; globalseasonal average; monthly averagesimulation of SEB; model validation; comparison model and in situ and satellite and reanalysis; model parametrizationunclearmodel; NWP; GEWEX; CSE; in situ; network; satellite; reanalysis; ERA-40; GPCC; GPCPtime of day; time of year; year; precipitation; water vapor; temperature; clouds; snow melt; albedo; heterogeneitytemperature; Knet; Lnet; ET; albedo; Kin; Kout; Lin; Lout; LE; Hprecipitation; 2m_temperature; water vapor; Rnet; Knet; Lnet; Kin; Linprecipitationtime of yeartime
Arctic_SEB_2002-2003_2 Literature research71.670000128.33000038.0792JournalMilton, Sf; Earnshaw, PEvaluation of surface water and energy cycles in the met office global nwp model using CEOP dataJournal of the Meteorological Society of Japan2007https://doi.org/10.2151/jmsj.85A.4320022003allyearB2bgloballocal; globalseasonal average; monthly averagesimulation of SEB; model validation; comparison model and in situ and satellite and reanalysis; model parametrizationunclearmodel; NWP; GEWEX; CSE; in situ; network; satellite; reanalysis; ERA-40; GPCC; GPCPtime of day; time of year; year; precipitation; water vapor; temperature; clouds; snow melt; albedo; heterogeneitytemperature; Knet; Lnet; ET; albedo; Kin; Kout; Lin; Lout; LE; Hprecipitation; 2m_temperature; water vapor; Rnet; Knet; Lnet; Kin; Linprecipitationtime of yeartime
Arctic_SEB_1995-1995_1Literature research69.401000-147.194333360.0807JournalEugster, W; Mcfadden, Jp; Chapin, FsDifferences in surface roughness, energy, and CO2 fluxes in two moist tundra vegetation types, kuparuk watershed, Alaska, usaArctic Antarctic and Alpine Research2005https://doi.org/10.1657/1523-0430(2005)037[0061:DISREA]2.0.CO;219951995summertundraKuparuk River; Alaska; USAlocal21-29June; hourly averagein situ measurement; comparativenoGIS; satellite; in situ; meteorologicalvegetation; LAI; landcover; soil; roughness; soil moisture; time of day; temperature; permafrost; wind; precipitation; water vapor; irradiationLE; H; G; temperature; RnetRnet; G; LE; H; CO2; -0.05m_temperatureroughness length; canopy height; soil pH; 1.8m_temperature; 0.05m_temperature; -0.01m_temperature; -0.05m_temperature; LAI; Rnet; H; LE; G; CO2Rnet; H; LE; G; CO2time of day; vegetation typevegetation typevegetation typesoil type; vegetation type; species richness; LAI; vegetation cover; permafrost; ALT; topography; climate; 2m_temperature; precipitation
Arctic_SEB_1995-1995_2 Literature research69.441000-147.329667269.0807JournalEugster, W; Mcfadden, Jp; Chapin, FsDifferences in surface roughness, energy, and CO2 fluxes in two moist tundra vegetation types, kuparuk watershed, Alaska, usaArctic Antarctic and Alpine Research2005https://doi.org/10.1657/1523-0430(2005)037[0061:DISREA]2.0.CO;219951995summertundraKuparuk River; Alaska; USAlocal21-29June; hourly averagein situ measurement; comparativenoGIS; satellite; in situ; meteorologicalvegetation; LAI; landcover; soil; roughness; soil moisture; time of day; temperature; permafrost; wind; precipitation; water vapor; irradiationLE; H; G; temperature; RnetRnet; G; LE; H; CO2; -0.05m_temperatureroughness length; canopy height; soil pH; 1.8m_temperature; 0.05m_temperature; -0.01m_temperature; -0.05m_temperature; LAI; Rnet; H; LE; G; CO2Rnet; H; LE; G; CO2time of day; vegetation typevegetation typevegetation typesoil type; vegetation type; species richness; LAI; vegetation cover; permafrost; ALT; topography; climate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_1Literature research68.766667-148.5833331142.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerBAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_2Literature research69.383333-147.133333590.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerPAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_3Literature research68.633333-148.383333795.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerPAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_4 Literature research69.100000-149.000000380.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerS|PAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_5 Literature research69.066667-147.250000443.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerS|PAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_6 Literature research69.133333-147.400000349.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerS|PAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_7 Literature research69.016667-147.216667537.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerS|PAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_8 Literature research68.583333-149.750000366.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerS|PAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_8Literature research68.583333-149.750000625.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerS|PAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_4Literature research69.100000-149.000000610.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_4Literature research69.100000-149.000000488.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_9 Literature research68.616667-148.383333438.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_10 Literature research69.433333-147.333333443.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_11 Literature research69.400000-147.200000745.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_9Literature research68.616667-148.383333269.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_12 Literature research68.616667-148.683333360.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_13 Literature research69.033333-147.233333777.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_14 Literature research67.450000-149.916667938.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerGAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_15 Literature research69.166667-147.133333351.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerWAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_12Literature research68.616667-148.683333380.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerWAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_2Literature research70.283333-147.100000522.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerWAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_16 Literature research70.283333-147.083333336.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerWAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1994-1996_17 Literature research69.633333-148.400000917.0808JournalMcfadden, Jp; Eugster, W; Chapin, FsA regional study of the controls on water vapor and CO2 exchange in Arctic tundraEcology2003https://doi.org/10.1890/01-044419941996summerwaterAlaska; USAlocal; regionalseasonal average; discrete measurementsin situ measurements; comparative; replicatednoin situ; EC tower; network; FLUXNETvegetation; landcover; LAI; soil moisture; temperature; resistanceET; GET; ET fraction; conductancecontinentality; LAI; soil moisture; ALT; canopy height; LAI; conductance; roughness lengthET; ET fraction; conductancevegetation type; conductance; soil moisturevegetation type; locationvegetation type; conductance; soil moistureclimate; 2m_temperature; precipitation
Arctic_SEB_1992-1997_1 Literature research78.91666711.866667810JournalWinther, Jg; Gerland, S; Orbaek, Jb; Ivanov, B; Blanco, A; Boike, JSpectral reflectance of melting snow in a high Arctic watershed on Svalbard: some implications for optical satellite remote sensing studiesHydrological Processes1999https://doi.org/10.1002/(SICI)1099-1085(199909)13:12/13<2033::AID-HYP892>3.0.CO;2-M19921997spring|summersnow|tundraNy Alesund; Svalbard; Norwaylocaldaily average; April-Julyin situ measurements; comparative; satellite validation; comparison satellite and in situnoin situ; satellite; Landsatsnow; snow melt; clouds; temperature; aerosols; time of year; landcover; sun angle; yearalbedoalbedotime of yearclimate; 2m_temperature; landcover; permafrost; landscape
Arctic_SEB_2015-2015_1Literature research78.92600011.530000825JournalLisok, J; Rozwadowska, A; Pedersen, Jg; Markowicz, Km; Ritter, C; Kaminski, Jw; Struzewska, J; Mazzola, M; Udisti, R; Becagli, S; Gorecka, IRadiative impact of an extreme Arctic biomass-burning eventAtmospheric Chemistry and Physics2018https://doi.org/10.5194/acp-18-8829-201820152015summerNy Alesund; Svalbard; Norwaylocal; regionalhalfhourly averagesimulation of SEB; model validation; comparison in situ and model; comparativeunclearin situ; remote sensing; model; GIS; BSRNdisturbance; aerosols; time of year; time of dayRinFin; Foutaerosol cover
Arctic_SEB_2012-2013_1Literature research66.83000065.980000831JournalFrost, Gv; Epstein, He; Walker, Da; Matyshak, G; Ermokhina, KSeasonal and long-term changes to active-layer temperatures after tall shrubland expansion and succession in Arctic tundraEcosystems2018https://doi.org/10.1007/s10021-017-0165-520122013allyeartundraKharp; Siberia; Russialocaldaily average; seasonal averagein situ measurements; comparative; regression; replicatednoLand cover: Tundra undergoing shrubificationin situ; GIS; CAVMvegetation; time of year; time; soil; snow; temperaturetemperature2m_temperature; -0.05m_temperature; thawing factor; freezing factor; thawing degree dayssoil organic thickness; LAI; canopy height; -0.05m_temperature; -0.2m_temperaturetime of year; vegetation type; shrub cover; soil typevegetation typevegetation typeclimate; vegetation type; soil type; landscape; topography; 2m_temperature; precipitation
Arctic_SEB_2008-2008_1Literature research72.366667126.500000839JournalLanger, M; Westermann, S; Boike, JSpatial and temporal variations of summer surface temperatures of wet polygonal tundra in Siberia - implications for MODIS lst based permafrost monitoringRemote Sensing of Environment2010https://doi.org/10.1016/j.rse.2010.04.01220082008summer|fallWSamoylov; Lena River; Siberia; Russialocal; regionaldiscrete measurements; daily averagesatellite validation; comparison satellite and remote sensingnosatellite; remote sensing; MODISheterogeneity; landcover; clouds; precipitation; irradiation; temperature; time of year; soil moisturetemperature; Rnet2m_temperature; precipitation; 0m_temperature; -0.01m_temperature; -0.20m_temperature; -0.40m_temperature; Rnet; temperature gradienttime of year; surface type; soil moisture; Rnettopography; climate; 2m_temperature; precipitation; permafrost; vegetation type; vegetation cover
Arctic_SEB_2004-2013_1 Literature research78.92000011.530000843JournalYeo, H; Park, Sj; Kim, Bm; Shiobara, M; Kim, Sw; Kwon, H; Kim, Jh; Jeong, Jh; Park, Ss; Choi, TThe observed relationship of cloud to surface longwave radiation and air temperature at ny-angstrom lesund, SvalbardTellus Series B-Chemical and Physical Meteorology2018https://doi.org/10.1080/16000889.2018.145058920042013allyeartundraNy Alesund; Spitsbergen; Svalbard; Norwaylocalmonthly average; halfhour averagein situ measurements; comparative; regressionnoin situ; meteorologicalclouds; time of year; advection; atmosphere; temperature; teleconnectionLin; Lout; temperature; Kin; Koutcloud fraction; cloud height; Kin; Kout; Lin; Lout; 2m_temperatureLin; Louttime of year; cloud cover; cloud base height; 2m_temperaturecloud cover
Arctic_SEB_1969-2013_1 Literature research78.93333311.883333852JournalLopez-Moreno, Ji; Boike, J; Sanchez-Lorenzo, A; Pomeroy, JwImpact of climate warming on snow processes in Ny-Alesund, a polar maritime site at SvalbardGlobal and Planetary Change2016https://doi.org/10.1016/j.gloplacha.2016.09.00619692013allyearBBayelva station; Ny Alesund; Svalbard; Norwaylocalyearly averagemodel experiment; simulation of SEB; comparativeunclearmodel; CRHM; CMIP5; in situ; Metno; meteorological; network; meteo towertemperature; water vapor; wind; precipitation; snow; time; time of year; irradiationRnet; Lin; temperature; Kin2m_temperature; precipitation; snow depth; SWESWE2m_temperature; precipitationtime; time of year; 2m_temperature2m_temperaturetimetopography; vegetation type; soil type; climate; 2m_temperature; precipitation
Arctic_SEB_2003-2008_1 Literature research71.323000-156.6070008.0868JournalWang, Xw; Zender, CsArctic and antArctic diurnal and seasonal variations of snow albedo from multiyear baseline surface radiation network measurementsJournal of Geophysical Research-Earth Surface2011https://doi.org/10.1029/2010JF00186420032008allyeartundraNy Alesund; Svalbard; Norway; Barrow; Alaska; USA; Antarcticlocalmonthly average; yearly averagein situ measurement; comparativeunclearin situ; network; BSRNsun angle; snow; time of year; time of day; snow melt; latitude; clouds; topography; windalbedo; Kin; Kout; temperaturealbedo; 2m_temperature; Kin; Kout; cloud cover; solar zenith anglecloud cover; Kin; albedotime of year; time of day; cloud cover; locationtime of day; time of year; cloud cover; locationtopography; landscape; vegetation type
Arctic_SEB_2003-2008_2 Literature research78.92500011.95000011.0868JournalWang, Xw; Zender, CsArctic and antArctic diurnal and seasonal variations of snow albedo from multiyear baseline surface radiation network measurementsJournal of Geophysical Research-Earth Surface2011https://doi.org/10.1029/2010JF00186420032008allyeartundraNy Alesund; Svalbard; Norway; Barrow; Alaska; USA; Antarcticlocalmonthly average; yearly averagein situ measurement; comparativeunclearin situ; network; BSRNsun angle; snow; time of year; time of day; snow melt; latitude; clouds; topography; windalbedo; Kin; Kout; temperaturealbedo; 2m_temperature; Kin; Kout; cloud cover; solar zenith anglecloud cover; Kin; albedotime of year; time of day; cloud cover; locationtime of day; time of year; cloud cover; locationtopography; landscape; vegetation type
Arctic_SEB_2013-2013_1Literature research71.300000-156.500000869JournalBisht, G; Riley, Wj; Wainwright, Hm; Dafflon, B; Yuan, Fm; Romanovsky, VeImpacts of microtopographic snow redistribution and lateral subsurface processes on hydrologic and thermal states in an Arctic polygonal ground ecosystem: a case study using elm-3d v1.0Geoscientific Model Development2018https://doi.org/10.5194/gmd-11-61-201820132013allyearWBarrow; Alaska; USAlocal; regionalmonthly averagesimulation of SEB; comparative; model experiment; model validation; comparison model and in situ; in situ measurements; replicated; regressionunclearmodel; ELM-3D; E3SM; in situ; NGEE-Arctictopography; snow; wind; heterogeneity; soil moisturetemperature; H; LEsnow depth; -0.20m_temperature; -0.50m_temperature; -0.75m_temperature; -1m_temperaturesurface type; time of yearclimate; 2m_temperature; precipitation; vegetation type; permafrost; ALT; topography
Arctic_SEB_2004-2006_1 Literature research64.868850-110.425033873JournalLafleur, Pm; Humphreys, ErSpring warming and carbon dioxide exchange over low Arctic tundra in central CanadaGlobal Change Biology2008https://doi.org/10.1111/j.1365-2486.2007.01529.x20042006winter|spring|summerS1TERS; Daring Lake; NWT; CanadalocalMay-August; 5day_mean; seasonal averagein situ measurements; comparativenoEC tower; in situ; meteorological; meteo towertemperature; snow; snow melt; precipitation; drought; GHG; soil; time of year; wind; water vapor; irradiation; soil moisturetemperature; ET; Kin; Kout; LE2m_temperature; -0.05m_temperature; ET2m_temperature; ETtime of year; timetimeclimate; 2m_temperature; precipitation; vegetation type; landscape; canopy height; vegetation cover; phenology
Arctic_SEB_2012-2013_1Literature research67.15000050.016667886JournalMoustafa, Se; Rennermalm, Ak; Smith, Lc; Miller, Ma; Mioduszewski, Jr; Koenig, Ls; Hom, Mg; Shuman, CaMulti-modal albedo distributions in the ablation area of the southwestern Greenland ice sheetCryosphere2015https://doi.org/10.5194/tc-9-905-201520122013summericeGreenland; Kangerlussuaqlocal; regionalJune; discrete measurementsin situ measurements; comparative; satellite measurementsnoin situ; satellite; meteorological; meteo tower; MODISsnow; snow melt; atmosphere; temperature; time of yearalbedoalbedo; ablation rate; Kin; Koutalbedotime of year; continentality; albedo; surface type; solar zenith anglesolar zenith angle; cloud cover; time of year; time of day; surface type
Arctic_SEB_2006-2006_1 Literature research80.000000-24.000000550.0891JournalBoggild, Ce; Brandt, Re; Brown, Kj; Warren, SgThe ablation zone in northeast Greenland: ice types, albedos and impuritiesJournal of Glaciology2010https://doi.org/10.3189/00221431079119077620062006summericeKronprinz Christians Land; Greenlandlocal26July-12August; seasonal averagein situ measurements; comparativenoin situaerosol; landcover; temperature; topography; soil; soil moisture; snow; snow meltalbedoice type; elevationalbedodistance from ice edgecloud cover; solar zenith angle; ice type
Arctic_SEB_2006-2006_1Literature research80.000000-24.000000330.0891JournalBoggild, Ce; Brandt, Re; Brown, Kj; Warren, SgThe ablation zone in northeast Greenland: ice types, albedos and impuritiesJournal of Glaciology2010https://doi.org/10.3189/00221431079119077620062006summerBKronprinz Christians Land; Greenlandlocal26July-12August; seasonal averagein situ measurements; comparativenoin situaerosol; landcover; temperature; topography; soil; soil moisture; snow; snow meltalbedoice type; elevationalbedodistance from ice edgecloud cover; solar zenith angle; ice type
Arctic_SEB_2006-2006_2 Literature research70.469611-156.59102824.0903JournalOechel, Wc; Laskowski, Ca; Burba, G; Gioli, B; Kalhori, AamAnnual patterns and budget of CO2 flux in an Arctic tussock tundra ecosystemJournal of Geophysical Research-Biogeosciences2014https://doi.org/10.1002/2013JG00243120062006allyearG4Atqasuk; North Slope; Alaska; USAlocalseasonal average; halfhour average; yearly averagein situ measurements; comparative; regressionnoin situ; EC tower; meteorologicalGHG; temperature; time of year; water vapor; wind; irradiation; precipitation; time of dayRnet; temperature; H; LERnet; 2m_temperature; -0.05m_temperatureRnet; 2m_temperature; -0.05m_temperature; wind speed; H; LEtime of year; freezing; thawing; time of daytime of yearvegetation type; canopy height; topography; soil type; permafrost; ALT
Arctic_SEB_1995-1999_1Literature research79.93333311.916667904JournalEssery, R; Blyth, E; Harding, R; Lloyd, CModelling albedo and distributed snowmelt across a low hill in SvalbardNordic Hydrology200519951999spring|summerB1Ny-Alesund; Svalbard; Norwaylocal; regionaldiscrete measurementssimulation of SEB; model validationnoin situ; simulation of SEBsnow; snow melt; time of year; heterogeneity; timealbedo; temperaturealbedoSWEtime of year; timetime of yearvegetation type; climate; 2m_temperature; precipitation; snow melt
Arctic_SEB_2014-2016_1 Literature research68.450000-133.300000908JournalZwieback, S; Westermann, S; Langer, M; Boike, J; Marsh, P; Berg, AImproving permafrost modeling by assimilating remotely sensed soil moistureWater Resources Research2019https://doi.org/10.1029/2018WR02324720142016summerBTVC; NWT; Canadalocal; regionaldaily average; 24July-25August; 05June-24August; discrete measurementssimulation of SEB; model validation; comparison model and in situ; in situ measurements; replicated; model experimentunclearCoordinates source unclear: Trail Valley Creek Research Centre located about 50km NE of Inuvik, Canadasatellite; model; CryoGrid3; in situ; MERRA2; reanalysis; Radarsat-2soil moisture; permafrost; heterogeneity; soil; topography; temperature; wind; water vapor; irradiation; albedo; snow; time of day; time of yeartemperature; G; -0.05m_temperature; -0.2m_temperature; 2m_temperature; precipitation; soil moisturetime of year; time; soil typetopography; landscape; permafrost; vegetation type; ALT; soil type
Arctic_SEB_2013-2015_1Literature research73.133333-80.000000910JournalDomine, F; Picard, G; Morin, S; Barrere, M; Madore, Jb; Langlois, AMajor issues in simulating some Arctic snowpack properties using current detailed snow physics models: consequences for the thermal regime and water budget of permafrostJournal of Advances in Modeling Earth Systems2019https://doi.org/10.1029/2018MS00144520132015allyearsnow|tundraBylot Island; Nunavut; Canadalocalhourly average; discrete measurementssimulation of SEB; model validation; comparison model and model and in situunclearmodel; Crocus; SNOWPACK; in situ; meteorological; meteo tower; reanalysis; ERA-Interimsnow; time of year; snow melttemperature; G0m_temperature; snow density; thermal conductivity; -0.1m_temperature; G; temperature gradienttime of year; snow heightclimate; 2m_temperature
Arctic_SEB_2012-2014_1Literature research68.03333319.050000922JournalJammet, M; Dengel, S; Kettner, E; Parmentier, Fjw; Wik, M; Crill, P; Friborg, TYear-round CH4 and CO2 flux dynamics in two contrasting freshwater ecosystems of the SubarcticBiogeosciences2017https://doi.org/10.5194/bg-14-5189-201720122014allyearWStordalen; Abisko; Swedenlocaldaily averagein situ measurement; comparativenoin situ; EC towerlandcover; time of year; irradiation; temperature; precipitation; lapse rate; soil; time of day; snowRnet; H; LE; temperature; albedo2m_temperature; -1m_temperature; -0.05m_temperature; precipitation; Rnet; albedo; temperature gradient; H; LE2m_temperature; -0.1m_temperature; -1m_temperature; KinCH4; CO2time of yeartime of year; year; vegetation type; ice cover; time of day2m_temperature; -0.1m_temperature; wind speed; LE; H; Kin; time of yearclimate; 2m_temperature; permafrost; vegetation type
Arctic_SEB_2012-2014_1Literature research68.03333319.050000922JournalJammet, M; Dengel, S; Kettner, E; Parmentier, Fjw; Wik, M; Crill, P; Friborg, TYear-round CH4 and CO2 flux dynamics in two contrasting freshwater ecosystems of the SubarcticBiogeosciences2017https://doi.org/10.5194/bg-14-5189-201720122014allyearwaterStordalen; Abisko; Swedenlocaldaily averagein situ measurement; comparativenoin situ; EC towerlandcover; time of year; irradiation; temperature; precipitation; lapse rate; soil; time of day; snowRnet; H; LE; temperature; albedo2m_temperature; -1m_temperature; -0.05m_temperature; precipitation; Rnet; albedo; temperature gradient; H; LE2m_temperature; -0.1m_temperature; -1m_temperature; KinCH4; CO2time of yeartime of year; year; vegetation type; ice cover; time of day2m_temperature; -0.1m_temperature; wind speed; LE; H; Kin; time of yearclimate; 2m_temperature; permafrost; vegetation type
Arctic_SEB_2015-2015_1Literature research72.659000-38.571000924JournalAdolph, Ac; Albert, Mr; Hall, DkNear-surface temperature inversion during summer at Summit, Greenland, and its relation to modis-derived surface temperaturesCryosphere2018https://doi.org/10.5194/tc-12-907-201820152015summericeSummit; Greenlandlocal; regional8June-18July; daily averagecomparison satellite and in situ; regressionnosatellite; MODIS; in situ; meteorological; meteo towerlapse rate; mixing ratio; temperature; irradiation; wind; time of year; cloudstemperature0m_temperature; 2m_temperature; frequency; temperature gradienttime of year; cloud cover; temperature gradient; wind speed; Kin
Arctic_SEB_1999-2014_1 Literature research71.281000-156.5960004.5938JournalLiljedahl, Ak; Hinzman, Ld; Kane, Dl; Oechel, Wc; Tweedie, Ce; Zona, DTundra water budget and implications of precipitation underestimationWater Resources Research2017https://doi.org/10.1002/2016WR02000119992014allyearWBiocomplexity Watershed; Barrow; Alaska; USA; Utqiagviklocalseasonal averagein situ measurement; comparativenoin situ; meteorological; meteo tower; EC towersnow; precipitation; wind; time of year; temperature; water vapor; irradiation; time; soil moistureETSWE; precipitation; runoff; ET; water table; soil moisture; snow melt2m_temperature; ET; storage; precipitation; ablation; runofftime; time of yeartime; time of yearclimate; precipitation; 2m_temperature; permafrost; vegetation type; soil type; ALT
Arctic_SEB_2009-2012_1 Literature research72.373000126.486000963JournalBoike, J; Georgi, C; Kirilin, G; Muster, S; Abramova, K; Fedorova, I; Chetverova, A; Grigoriev, M; Bornemann, N; Langer, MThermal processes of thermokarst lakes in the continuous permafrost zone of northern Siberia - observations and modeling (Lena river delta, Siberia)Biogeosciences2015https://doi.org/10.5194/bg-12-5941-201520092012allyearwaterSamoylov; Lena River; Siberia; Russialocalseasonal average; yearly average; daily average; hourly averagein situ measurements; comparative; simulation of SEB; model validation; comparison model and in situunclearin situ; model; Flaketemperature; time of year; landcover; ice; snowG; temperature; Lnet; Knet; Kin; Kout; Lin; Lout2m_temperature; Kin; Kout; Lin; Lout; Knet; Lnet; 0m_temperature; -2m_temperature; -4m_temperature; -6m_temperature; storagetime of year; location; ice coverhydrology; permafrost; soil type; landscape; 2m_temperature; lake characteristics; ice cover
Arctic_SEB_2009-2012_2 Literature research72.378000126.496000963JournalBoike, J; Georgi, C; Kirilin, G; Muster, S; Abramova, K; Fedorova, I; Chetverova, A; Grigoriev, M; Bornemann, N; Langer, MThermal processes of thermokarst lakes in the continuous permafrost zone of northern Siberia - observations and modeling (Lena river delta, Siberia)Biogeosciences2015https://doi.org/10.5194/bg-12-5941-201520092012allyearwaterSamoylov; Lena River; Siberia; Russialocalseasonal average; yearly average; daily average; hourly averagein situ measurements; comparative; simulation of SEB; model validation; comparison model and in situunclearin situ; model; Flaketemperature; time of year; landcover; ice; snowG; temperature; Lnet; Knet; Kin; Kout; Lin; Lout2m_temperature; Kin; Kout; Lin; Lout; Knet; Lnet; 0m_temperature; -2m_temperature; -4m_temperature; -6m_temperature; storagetime of year; location; ice coverhydrology; permafrost; soil type; landscape; 2m_temperature; lake characteristics; ice cover
Arctic_SEB_2009-2012_3 Literature research72.374000126.511000963JournalBoike, J; Georgi, C; Kirilin, G; Muster, S; Abramova, K; Fedorova, I; Chetverova, A; Grigoriev, M; Bornemann, N; Langer, MThermal processes of thermokarst lakes in the continuous permafrost zone of northern Siberia - observations and modeling (Lena river delta, Siberia)Biogeosciences2015https://doi.org/10.5194/bg-12-5941-201520092012allyearwaterSamoylov; Lena River; Siberia; Russialocalseasonal average; yearly average; daily average; hourly averagein situ measurements; comparative; simulation of SEB; model validation; comparison model and in situunclearin situ; model; Flaketemperature; time of year; landcover; ice; snowG; temperature; Lnet; Knet; Kin; Kout; Lin; Lout2m_temperature; Kin; Kout; Lin; Lout; Knet; Lnet; 0m_temperature; -2m_temperature; -4m_temperature; -6m_temperature; storagetime of year; location; ice coverhydrology; permafrost; soil type; landscape; 2m_temperature; lake characteristics; ice cover
Arctic_SEB_2009-2012_4 Literature research72.369000126.505000963JournalBoike, J; Georgi, C; Kirilin, G; Muster, S; Abramova, K; Fedorova, I; Chetverova, A; Grigoriev, M; Bornemann, N; Langer, MThermal processes of thermokarst lakes in the continuous permafrost zone of northern Siberia - observations and modeling (Lena river delta, Siberia)Biogeosciences2015https://doi.org/10.5194/bg-12-5941-201520092012allyearwaterSamoylov; Lena River; Siberia; Russialocalseasonal average; yearly average; daily average; hourly averagein situ measurements; comparative; simulation of SEB; model validation; comparison model and in situunclearin situ; model; Flaketemperature; time of year; landcover; ice; snowG; temperature; Lnet; Knet; Kin; Kout; Lin; Lout2m_temperature; Kin; Kout; Lin; Lout; Knet; Lnet; 0m_temperature; -2m_temperature; -4m_temperature; -6m_temperature; storagetime of year; location; ice coverhydrology; permafrost; soil type; landscape; 2m_temperature; lake characteristics; ice cover
Arctic_SEB_2009-2012_5 Literature research72.328000126.177000963JournalBoike, J; Georgi, C; Kirilin, G; Muster, S; Abramova, K; Fedorova, I; Chetverova, A; Grigoriev, M; Bornemann, N; Langer, MThermal processes of thermokarst lakes in the continuous permafrost zone of northern Siberia - observations and modeling (Lena river delta, Siberia)Biogeosciences2015https://doi.org/10.5194/bg-12-5941-201520092012allyearwaterSamoylov; Lena River; Siberia; Russialocalseasonal average; yearly average; daily average; hourly averagein situ measurements; comparative; simulation of SEB; model validation; comparison model and in situunclearin situ; model; Flaketemperature; time of year; landcover; ice; snowG; temperature; Lnet; Knet; Kin; Kout; Lin; Lout2m_temperature; Kin; Kout; Lin; Lout; Knet; Lnet; 0m_temperature; -2m_temperature; -4m_temperature; -6m_temperature; storagetime of year; location; ice coverhydrology; permafrost; soil type; landscape; 2m_temperature; lake characteristics; ice cover