sameAs
Observed contrast changes in snow cover phenology in northern middle and high latitudes from 2001-2014.Differentiating moss from higher plants is critical in studying the carbon cycle of the boreal biome.Time-lag effects of global vegetation responses to climate change.Satellite-based analysis of evapotranspiration and water balance in the grassland ecosystems of Dryland East AsiaAn Empirical Orthogonal Function-Based Algorithm for Estimating Terrestrial Latent Heat Flux from Eddy Covariance, Meteorological and Satellite ObservationsEnhanced wintertime greenhouse effect reinforcing Arctic amplification and initial sea-ice melting.Clear sky visibility has decreased over land globally from 1973 to 2007.Changes in forest biomass and linkage to climate and forest disturbances over Northeastern China.An Improved Land Surface Emissivity Parameter for Land Surface Models Using Global Remote Sensing ObservationsFirst operational BRDF, albedo nadir reflectance products from MODISEstimation of high-resolution terrestrial evapotranspiration from Landsat data using a simple Taylor skill fusion methodCharacterization and intercomparison of global moderate resolution leaf area index (LAI) products: Analysis of climatologies and theoretical uncertaintiesRadiometric measurements of gap probability in conifer tree canopiesAlternative approaches for estimating leaf area index (LAI) from remotely sensed satellite and aircraft imageryAssessment and simulation of global terrestrial latent heat flux by synthesis of CMIP5 climate models and surface eddy covariance observationsEstimation of evapotranspiration over the terrestrial ecosystems in ChinaEstimation of gross primary production over the terrestrial ecosystems in ChinaA satellite-based hybrid algorithm to determine the Priestley–Taylor parameter for global terrestrial latent heat flux estimation across multiple biomesCorrigendum to: A satellite-based hybrid algorithm to determine the Priestley–Taylor parameter for global terrestrial latent heat flux estimation across multiple biomes [Remote Sens. Environ. 165 (2015) 216–233]Using Bayesian model averaging to estimate terrestrial evapotranspiration in ChinaBayesian multimodel estimation of global terrestrial latent heat flux from eddy covariance, meteorological, and satellite observationsComparison of satellite-based evapotranspiration models over terrestrial ecosystems in ChinaMODIS-driven estimation of terrestrial latent heat flux in China based on a modified Priestley–Taylor algorithmEmpirical estimation of daytime net radiation from shortwave radiation and ancillary informationDesigning the Climate Observing System of the FutureInvestigating the impacts of the North Atlantic Oscillation on global vegetation changes by a remotely sensed vegetation indexInvestigation on the Patterns of Global Vegetation Change Using a Satellite-Sensed Vegetation IndexImpact of sensor's point spread function on land cover characterization: assessment and deconvolutionTowards a Broadband Parameterization Scheme for Estimating Surface Solar Irradiance: Development and Preliminary Results on MODIS ProductsSatellite Detection of Water Stress Effects on Terrestrial Latent Heat Flux With MODIS Shortwave Infrared Reflectance DataDeveloping a composite daily snow cover extent record over the Tibetan Plateau from 1981 to 2016 using multisource dataEvaluation of Three Long Time Series for Global Fraction of Absorbed Photosynthetically Active Radiation (FAPAR) ProductsRecent Progress in Quantitative Land Remote Sensing in ChinaLand Surface Air Temperature Data Are Considerably Different Among BEST-LAND, CRU-TEM4v, NASA-GISS, and NOAA-NCEIHierarchical Bayesian space-time estimation of monthly maximum and minimum surface air temperatureLong-term record of top-of-atmosphere albedo over land generated from AVHRR dataDeveloping an Integrated Remote Sensing Based Biodiversity Index for Predicting Animal Species RichnessEstimation of all-sky instantaneous surface incident shortwave radiation from Moderate Resolution Imaging Spectroradiometer data using optimization methodImproving Satellite Estimates of the Fraction of Absorbed Photosynthetically Active Radiation Through Data Integration: Methodology and ValidationComprehensive Assessment of Global Surface Net Radiation Products and Uncertainty Analysis
P50
Q30386867-63B52AF6-16A8-4021-9C19-2BC742AC654DQ30833481-4BE23BF0-EAB0-4D20-84DB-340ACF005CBFQ30928392-756A2934-39B4-41BD-A947-CC520E0ADF29Q33638205-BD9A77E7-7EB4-40E4-A6EE-8749347F9BA7Q36089609-A23271B8-3527-4E1A-BB25-6ABBC6B1023CQ41436635-37DD09B4-71D4-4ADB-BB35-EF6A37502D29Q46340371-22A98D4E-27D7-44A8-8EE5-871EB05CA37FQ46911710-033B5103-3DBB-4A7F-B245-A14575E60130Q56083079-339A2AF2-317C-43D9-998F-0A7DBA3BDC95Q57033822-CC0EDA88-E0DA-4153-9DAF-677E6B2933E4Q57036343-9A00815D-F8B4-414C-84EE-242BD0AA2B93Q57159789-8145BACB-D898-4FA2-A6AD-74F63FC8611FQ57199419-1F18623C-DC8F-48DB-B56E-20725E7A7125Q57240981-67CD65F4-00C2-4AB7-88D8-33BCA16BBB25Q57431576-A0A79028-E505-4A20-941C-48A025C384C4Q57707496-0862DF79-DD9A-47D1-AE95-B32D06654100Q57707504-81615845-A6A7-4C48-97D0-00C9CBE70C5FQ58053482-A5073C86-3035-443C-9B68-45ADC698ABF4Q58053486-32529461-18D7-4B43-AF21-8DDC5794E79FQ58053491-E8D47E1A-A70E-467E-87A9-1F5420CB814CQ58053493-5DD07C13-B7CB-43BB-875C-8A9C210DD9F5Q58053499-6C700931-37AA-45FD-88B2-8F1C7CEE9046Q58053524-98AB63F3-7797-4CD4-915C-488D112DC47BQ58070099-DC72C601-2DD7-45D9-90DA-65844E8B117FQ58072433-0A2A6160-00AA-4D61-9262-D122BDE3CA92Q58102748-23B5B58A-7446-4E8E-9CFC-DA8A1F155984Q58102812-5066F787-2366-4B34-BDB7-7A4582B66AA0Q58102872-D3FCA5C9-43D7-4077-91FF-782C3DE65669Q58194595-B3857BFA-0AE4-4573-B1E1-3C6E1A8DF8A3Q58194596-F8B85E3E-9EFE-4803-902B-7F970F7EFFD3Q58194597-E07CF944-7283-4091-AEBD-67D8178C7805Q58194598-26F7D74B-6386-48BF-AEFA-7DA03D60804BQ58194599-6EE6D29E-E100-4767-8042-AC61767EF4DBQ58194600-ED03F9A7-4788-40E9-AD05-87912ED51C2AQ58194601-CD636FAB-DB69-4A54-91DF-6C9591A8FB3DQ58194603-B8037E69-486D-4B4A-9046-3EEC19B5EC2FQ58194604-6E79E569-6475-4601-A2A0-22D528AB9A21Q58194605-75995C3C-D83D-43D7-AB44-5CA89AF0A3FCQ58194606-8D30D069-6A9C-47CF-B870-8955E84F9496Q58194607-36D2251B-7201-4E71-AD7E-10D519EC92D9
P50
description
Forscher
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chercheur
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hulumtues
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ingenieur
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investigador
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researcher
@en
հետազոտող
@hy
研究者
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name
Shunlin Liang
@ast
Shunlin Liang
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Shunlin Liang
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Shunlin Liang
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label
Shunlin Liang
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Shunlin Liang
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Shunlin Liang
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Shunlin Liang
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altLabel
shunlin liang
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shunlin liang
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shunlin liang
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shunlin liang
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Shunlin Liang
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Shunlin Liang
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Shunlin Liang
@es
Shunlin Liang
@nl
P166
P21
P31
P496
0000-0003-2708-9183