ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station
The ECOsystem Space Thermal Radiometer Experiment on the Space Station (ECOSTRESS) was launched to the International Space Station on June 29, 2018 by the National Aeronautics and Space Administration (NASA). The primary scientific focus of ECOSTRESS is on evapotranspiration (ET), which occurs as Level 3 (L3) latent heat flux (LE) data products. This data is generated from the Level 2 Earth Surface Temperature and Emissivity Product (L2_LSTE), along with the atmospheric and ancillary surface data. Here, we provide the first validation (Stage 1, preliminary) of the global product ECOSTRESS clear - sky ET (L3_ET_PT - JPL, Version 6.0) against LE measurements at 82 eddy covariance sites around the world. Overall, the ECOSTRESS ET product performs well against site measurements (instant clear sky / flyover time: r 2 = 0.88; overall bias = 8%; normalized root mean square error, RMSE = 6%) . ET uncertainty was generally constant across climate zones, biome types, and times of day (ECOSTRESS samples the diurnal cycle), although temperate sites are over-represented. ECOSTRESS 70 m high spatial resolution improved correlations by 85% and RMSE by 62%, relative to 1 km pixels. This document serves as a reference for the accuracy of ECOSTRESS L3 ET and the Stage 1 validation status for subsequent science that continues to use this data.
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| Format: | info:ar-repo/semantics/artículo biblioteca |
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Wiley
2020-04-06
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| Subjects: | evapotranspiration, evapotranspiración, Satélites, Satellites, Ecostress, Eddy Covariance, Latent Heat Flux, Validation, Ecotrista, Covarianza de Remolinos, Flujo de Calor Latente, Validacion, |
| Online Access: | http://hdl.handle.net/20.500.12123/8075 https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2019WR026058 https://doi.org/10.1029/2019WR026058 |
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evapotranspiration evapotranspiración Satélites Satellites Ecostress Eddy Covariance Latent Heat Flux Validation Ecotrista Covarianza de Remolinos Flujo de Calor Latente Validacion evapotranspiration evapotranspiración Satélites Satellites Ecostress Eddy Covariance Latent Heat Flux Validation Ecotrista Covarianza de Remolinos Flujo de Calor Latente Validacion |
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evapotranspiration evapotranspiración Satélites Satellites Ecostress Eddy Covariance Latent Heat Flux Validation Ecotrista Covarianza de Remolinos Flujo de Calor Latente Validacion evapotranspiration evapotranspiración Satélites Satellites Ecostress Eddy Covariance Latent Heat Flux Validation Ecotrista Covarianza de Remolinos Flujo de Calor Latente Validacion Fisher, Joshua B. Lee, Brian Purdy, Adam J. Halverson, Gregory H. Dohlen, Matthew R. Cawse-Nicholson, Kerry Wang, Audrey Anderson, Ray G. Aragon, Bruno Altaf Arain, M. Baldocchi, Dennis Baker, John M. Barral, Helene Bernacchi, Carl J. Bernhofer, Christian Biraud, Sebastien C. Bohrer, Gil Brunsell, Nathaniel Cappelaere, Bernard Castro - Contreras, Saulo Chun, Junghwa Conrad, Bryan J. Cremonese, Edoardo Demarty, Jerome Desai, Ankur R. De Ligne, Anne Foltynova, Lenka Goulden, Michael Griffis, Timothy J. Grunwald, Thomas Johnson, Mark S. Kang, Minseok Kelbe, Dave Kowalska, Natalia Jong - Hwan, Lim Mainassara, Ibrahim McCabe, Matthew F. Missik, Justine E.C. Mohanty, Binayak P. Moore, Caitlin E. Morillas, Laura Morrison, Ross Munger, J. Willians Posse Beaulieu, Gabriela Richardson, Andrew D. Russell, Eric S. Ryu, Youngryel Sanchez - Azofeifa, Arturo Schmidt, Marius Schwartz, Efrat Sharp, Iain Sigut, Ladislav Tang, Yao Hulley, Glynn Anderson, Martha Hain, Christopher French, Andrew Wood, Eric Hook, Simón ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station |
| description |
The ECOsystem Space Thermal Radiometer Experiment on the Space Station (ECOSTRESS) was launched to the International Space Station on June 29, 2018 by the National Aeronautics and Space Administration (NASA). The primary scientific focus of ECOSTRESS is on evapotranspiration (ET), which occurs as Level 3 (L3) latent heat flux (LE) data products. This data is generated from the Level 2 Earth Surface Temperature and Emissivity Product (L2_LSTE), along with the atmospheric and ancillary surface data. Here, we provide the first validation (Stage 1, preliminary) of the global product ECOSTRESS clear - sky ET (L3_ET_PT - JPL, Version 6.0) against LE measurements at 82 eddy covariance sites around the world. Overall, the ECOSTRESS ET product performs well against site measurements (instant clear sky / flyover time: r 2 = 0.88; overall bias = 8%; normalized root mean square error, RMSE = 6%) . ET uncertainty was generally constant across climate zones, biome types, and times of day (ECOSTRESS samples the diurnal cycle), although temperate sites are over-represented. ECOSTRESS 70 m high spatial resolution improved correlations by 85% and RMSE by 62%, relative to 1 km pixels. This document serves as a reference for the accuracy of ECOSTRESS L3 ET and the Stage 1 validation status for subsequent science that continues to use this data. |
| format |
info:ar-repo/semantics/artículo |
| topic_facet |
evapotranspiration evapotranspiración Satélites Satellites Ecostress Eddy Covariance Latent Heat Flux Validation Ecotrista Covarianza de Remolinos Flujo de Calor Latente Validacion |
| author |
Fisher, Joshua B. Lee, Brian Purdy, Adam J. Halverson, Gregory H. Dohlen, Matthew R. Cawse-Nicholson, Kerry Wang, Audrey Anderson, Ray G. Aragon, Bruno Altaf Arain, M. Baldocchi, Dennis Baker, John M. Barral, Helene Bernacchi, Carl J. Bernhofer, Christian Biraud, Sebastien C. Bohrer, Gil Brunsell, Nathaniel Cappelaere, Bernard Castro - Contreras, Saulo Chun, Junghwa Conrad, Bryan J. Cremonese, Edoardo Demarty, Jerome Desai, Ankur R. De Ligne, Anne Foltynova, Lenka Goulden, Michael Griffis, Timothy J. Grunwald, Thomas Johnson, Mark S. Kang, Minseok Kelbe, Dave Kowalska, Natalia Jong - Hwan, Lim Mainassara, Ibrahim McCabe, Matthew F. Missik, Justine E.C. Mohanty, Binayak P. Moore, Caitlin E. Morillas, Laura Morrison, Ross Munger, J. Willians Posse Beaulieu, Gabriela Richardson, Andrew D. Russell, Eric S. Ryu, Youngryel Sanchez - Azofeifa, Arturo Schmidt, Marius Schwartz, Efrat Sharp, Iain Sigut, Ladislav Tang, Yao Hulley, Glynn Anderson, Martha Hain, Christopher French, Andrew Wood, Eric Hook, Simón |
| author_facet |
Fisher, Joshua B. Lee, Brian Purdy, Adam J. Halverson, Gregory H. Dohlen, Matthew R. Cawse-Nicholson, Kerry Wang, Audrey Anderson, Ray G. Aragon, Bruno Altaf Arain, M. Baldocchi, Dennis Baker, John M. Barral, Helene Bernacchi, Carl J. Bernhofer, Christian Biraud, Sebastien C. Bohrer, Gil Brunsell, Nathaniel Cappelaere, Bernard Castro - Contreras, Saulo Chun, Junghwa Conrad, Bryan J. Cremonese, Edoardo Demarty, Jerome Desai, Ankur R. De Ligne, Anne Foltynova, Lenka Goulden, Michael Griffis, Timothy J. Grunwald, Thomas Johnson, Mark S. Kang, Minseok Kelbe, Dave Kowalska, Natalia Jong - Hwan, Lim Mainassara, Ibrahim McCabe, Matthew F. Missik, Justine E.C. Mohanty, Binayak P. Moore, Caitlin E. Morillas, Laura Morrison, Ross Munger, J. Willians Posse Beaulieu, Gabriela Richardson, Andrew D. Russell, Eric S. Ryu, Youngryel Sanchez - Azofeifa, Arturo Schmidt, Marius Schwartz, Efrat Sharp, Iain Sigut, Ladislav Tang, Yao Hulley, Glynn Anderson, Martha Hain, Christopher French, Andrew Wood, Eric Hook, Simón |
| author_sort |
Fisher, Joshua B. |
| title |
ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station |
| title_short |
ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station |
| title_full |
ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station |
| title_fullStr |
ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station |
| title_full_unstemmed |
ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station |
| title_sort |
ecostress: nasa's next generation mission to measure evapotranspiration from the international space station |
| publisher |
Wiley |
| publishDate |
2020-04-06 |
| url |
http://hdl.handle.net/20.500.12123/8075 https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2019WR026058 https://doi.org/10.1029/2019WR026058 |
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oai:localhost:20.500.12123-80752020-10-19T13:21:46Z ECOSTRESS: NASA's next generation mission to measure evapotranspiration from the international space station Fisher, Joshua B. Lee, Brian Purdy, Adam J. Halverson, Gregory H. Dohlen, Matthew R. Cawse-Nicholson, Kerry Wang, Audrey Anderson, Ray G. Aragon, Bruno Altaf Arain, M. Baldocchi, Dennis Baker, John M. Barral, Helene Bernacchi, Carl J. Bernhofer, Christian Biraud, Sebastien C. Bohrer, Gil Brunsell, Nathaniel Cappelaere, Bernard Castro - Contreras, Saulo Chun, Junghwa Conrad, Bryan J. Cremonese, Edoardo Demarty, Jerome Desai, Ankur R. De Ligne, Anne Foltynova, Lenka Goulden, Michael Griffis, Timothy J. Grunwald, Thomas Johnson, Mark S. Kang, Minseok Kelbe, Dave Kowalska, Natalia Jong - Hwan, Lim Mainassara, Ibrahim McCabe, Matthew F. Missik, Justine E.C. Mohanty, Binayak P. Moore, Caitlin E. Morillas, Laura Morrison, Ross Munger, J. Willians Posse Beaulieu, Gabriela Richardson, Andrew D. Russell, Eric S. Ryu, Youngryel Sanchez - Azofeifa, Arturo Schmidt, Marius Schwartz, Efrat Sharp, Iain Sigut, Ladislav Tang, Yao Hulley, Glynn Anderson, Martha Hain, Christopher French, Andrew Wood, Eric Hook, Simón evapotranspiration evapotranspiración Satélites Satellites Ecostress Eddy Covariance Latent Heat Flux Validation Ecotrista Covarianza de Remolinos Flujo de Calor Latente Validacion The ECOsystem Space Thermal Radiometer Experiment on the Space Station (ECOSTRESS) was launched to the International Space Station on June 29, 2018 by the National Aeronautics and Space Administration (NASA). The primary scientific focus of ECOSTRESS is on evapotranspiration (ET), which occurs as Level 3 (L3) latent heat flux (LE) data products. This data is generated from the Level 2 Earth Surface Temperature and Emissivity Product (L2_LSTE), along with the atmospheric and ancillary surface data. Here, we provide the first validation (Stage 1, preliminary) of the global product ECOSTRESS clear - sky ET (L3_ET_PT - JPL, Version 6.0) against LE measurements at 82 eddy covariance sites around the world. Overall, the ECOSTRESS ET product performs well against site measurements (instant clear sky / flyover time: r 2 = 0.88; overall bias = 8%; normalized root mean square error, RMSE = 6%) . ET uncertainty was generally constant across climate zones, biome types, and times of day (ECOSTRESS samples the diurnal cycle), although temperate sites are over-represented. ECOSTRESS 70 m high spatial resolution improved correlations by 85% and RMSE by 62%, relative to 1 km pixels. This document serves as a reference for the accuracy of ECOSTRESS L3 ET and the Stage 1 validation status for subsequent science that continues to use this data. Fil: Fisher, Joshua B. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Lee, Brian. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Purdy, Adam J. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Halverson, Gregory H. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Dohlen, Matthew B. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Cawse - Nicholson, Kerry. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Wang, Audrey. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Anderson, Ray G. U.S. Department of Agriculture; Estados Unidos Fil: Aragon, Bruno. King Abdullah University of Science and Technology. Division of Biological and Environmental Science and Engineering. Hydrology, Agriculture and Land Observation Group (HALO); Arabia Saudita Fil: Arain, M. Alfat. McMaster University. School of Geography and Earth Sciences; Canadá Fil: Baldocchi, Dennis D. University of California, Berkeley. Department of Environmental Science, Policy and Management; Estados Unidos Fil: Baker, John M. U.S. Department of Agriculture; Estados Unidos Fil: Barral, Helene. University Montpellier. HydroSciences Montpellier (HSM); Francia Fil: Bernacchi, Carl J. University of Illinois Urbana‐Champaign. Institute for Sustainability, Energy, and Environment and Carl R. Woese Institute for Genomic Biology. Center for Advanced Bioenergy and Bioproducts Innovation; Estados Unidos. U.S. Department of Agriculture, Global Change and Photosynthesis Research Unit; Estados Unidos Fil: Bernhofer, Christian. Technische Universität Dresden, Institute of Hydrology and Meteorology; Alemania Fil: Biraud, Sebastien C. Lawrence Berkeley National Laboratory; Estados Unidos Fil: Bohrer, Gil. Ohio State University. Department of Civil, Environmental and Geodetic Engineering; Estados Unidos Fil: Brunsell, Nathaniel. University of Kansas. Department of Geography and Atmospheric Science; Estados Unidos Fil: Cappelaere, Bernard. University Montpellier. HydroSciences Montpellier (HSM); Francia Fil: Castro - Contreras, Saulo. University of Alberta. Earth and Atmospheric Sciences Department. Centre for Earth Observation Sciences (CEOS); Canadá Fil: Chum, Junghwa. National Institute of Forest Science; Corea del Sur Fil: Conrad, Bryan. University of Kansas. Department of Geography and Atmospheric Science; Estados Unidos Fil: Cremonese, Edoardo. Environmental Protection Agency of Aosta Valley; Italia Fil: Demarty, Jerome. University Montpellier. HydroSciences Montpellier (HSM); Francia Fil: Desai, Ankur R. University of Wisconsin‐Madison. Department of Atmospheric and Oceanic Sciences; Estados Unidos Fil: De Ligne, Anne. University of Liege. TERRA Teaching and Research Centre. Gembloux Agro‐Bio Tech; Bélgica Fil: Foltynova, Lenka. Czech Academy of Sciences. Global Change Research Institute ; República Checa Fil: Goulden, Michael L. University of California Irvine. Department of Earth System Science; Estados Unidos Fil: Griffis, Timothy J. University of Minnesota. Department of Soil, Water, and Climate; Estados Unidos Fil: Grunwald, Thomas. Technische Universität Dresden, Institute of Hydrology and Meteorology; Alemania Fil: Johnson, Mark S. University of British Columbia. Department of Earth, Ocean, and Atmospheric Sciences; Canadá Fil: Kang, Minseok. National Center for AgroMeteorology; Corea del Sur Fil: Kelbe, Dave. Xerra Earth Observation Institute; Nueva Zelanda Fil: Kowalska, Natalia. Czech Academy of Sciences. Global Change Research Institute ; República Checa Fil: Jong - Hwan, Lim. National Institute of Forest Science; Corea del Sur Fil: Mainassara, Ibrahim. University Montpellier. HydroSciences Montpellier (HSM); Francia Fil: McCabe, Matthew F. King Abdullah University of Science and Technology. Division of Biological and Environmental Science and Engineering. Hydrology, Agriculture and Land Observation Group (HALO); Arabia Saudita Fil: Missik, Justine E.C. Washington State University. Department of Civil and Environmental Engineering. Laboratory for Atmospheric Research; Estados Unidos Fil: Mohanty, Binayak P. Texas A&M University. Texas Water Observatory; Estados Unidos Fil: Moore, Caitlin E. University of Illinois Urbana‐Champaign. Institute for Sustainability, Energy, and Environment and Carl R. Woese Institute for Genomic Biology. Center for Advanced Bioenergy and Bioproducts Innovation; Estados Unidos Fil: Morillas, Laura. University of British Columbia. Department of Earth, Ocean, and Atmospheric Sciences; Canadá Fil: Morrison, Ross. Centre for Ecology and Hydrology; Reino Unido Fil: Munger, J. Willians. Harvard University. School of Engineering and Applied Sciences; Estados Unidos Fil: Posse, Gabriela. Instituto Nacional de Tecnología Agropecuaria (INTA). Instituto de Clima y Agua; Argentina Fil: Richardson, Andrew D. Northern Arizona University Center for Ecosystem Science and Society; Estados Unidos Fil: Russell, Eric. S. Washington State University. Department of Civil and Environmental Engineering. Laboratory for Atmospheric Research; Estados Unidos Fil: Ryu, Youngryel. Seoul National University . Department of Landscape Architecture and Rural Systems Engineering; Corea del Sur Fil: Sanchez - Azofeifa, Arturo. University of Alberta. Earth and Atmospheric Sciences Department. Centre for Earth Observation Sciences (CEOS); Canadá Fil: Schmidt, Marius. IInstitute of Bio‐ and Geosciences: Agrosphere (IBG‐3) Forschungszentrum Jülich IBG‐3; Alemania Fil: Schwartz, Efrat. Weizmann Institute of Science. Department of Earth and Planetary Sciences, ; Israel Fil: Sharp, Iain. University of Alberta. Earth and Atmospheric Sciences Department. Centre for Earth Observation Sciences (CEOS); Canadá Fil: Sigut, Ladislav. Czech Academy of Sciences. Global Change Research Institute ; República Checa Fil: Tang, Yao. Georgia Institute of Technology. School of Civil and Environmental Engineering; Estados Unidos Fil: Hulley, Glynn. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos Fil: Anderson, Martha. U.S. Department of Agriculture‐Agricultural Research Service; Estados Unidos Fil: Hain, Christopher. NASA Marshall Space Flight Center; Estados Unidos Fil: French, Andrew. U.S. Department of Agriculture; Estados Unidos Fil: Wood, Eric. Princeton University. Department of Civil and Environmental Engineering; Estados Unidos Fil: Hook, Simón. California Institute of Technology. Jet Propulsion Laboratory; Estados Unidos 2020-10-19T11:29:24Z 2020-10-19T11:29:24Z 2020-04-06 info:ar-repo/semantics/artículo info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion http://hdl.handle.net/20.500.12123/8075 https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2019WR026058 1944-7973 https://doi.org/10.1029/2019WR026058 eng info:eu-repo/semantics/openAccess application/pdf Wiley Water Resources Research 56 (4) : e2019WR026058 (April 2020) |