Recent advances in remote sensing of evapotranspiration
Evapotranspiration (ET) plays an important role in coupling the global energy, water, and
biogeochemical cycles and explains ecosystem responses to global environmental change …
biogeochemical cycles and explains ecosystem responses to global environmental change …
Hybrid modeling of evapotranspiration: inferring stomatal and aerodynamic resistances using combined physics-based and machine learning
Hybrid modeling of evapotranspiration: inferring stomatal and aerodynamic resistances using
combined physics-based and machine learning - IOPscience This site uses cookies. By …
combined physics-based and machine learning - IOPscience This site uses cookies. By …
Integrating machine learning with thermal-driven analytical energy balance model improved terrestrial evapotranspiration estimation through enhanced surface …
Global evapotranspiration modeling faces significant challenges in understanding the
complex interplay between aerodynamic and canopy-surface conductance, especially in …
complex interplay between aerodynamic and canopy-surface conductance, especially in …
Insights into the aerodynamic versus radiometric surface temperature debate in thermal‐based evaporation modeling
Global evaporation monitoring from Earth observation thermal infrared satellite missions is
historically challenged due to the unavailability of any direct measurements of aerodynamic …
historically challenged due to the unavailability of any direct measurements of aerodynamic …
Evaluating European ECOSTRESS hub evapotranspiration products across a range of soil‐atmospheric aridity and biomes over Europe
Abstract The ECOsystem Spaceborne Thermal Radiometer Experiment on Space Station
(ECOSTRESS) is a scientific mission that collects high spatio‐temporal resolution (∼ 70 m …
(ECOSTRESS) is a scientific mission that collects high spatio‐temporal resolution (∼ 70 m …
Correction for LST directionality impact on the estimation of surface upwelling longwave radiation over vegetated surfaces at the satellite scale
Surface upwelling longwave radiation (SULR) is a major component of the Earth's radiation
budget and directly influences the retrieval of evapotranspiration (ET) in the terrestrial …
budget and directly influences the retrieval of evapotranspiration (ET) in the terrestrial …
Thermally derived evapotranspiration from the Surface Temperature Initiated Closure (STIC) model improves cropland GPP estimates under dry conditions
Satellite-based gross primary productivity (GPP) monitoring in croplands is challenging due
to our limited ability to empirically constrain photosynthetic capacity and associated …
to our limited ability to empirically constrain photosynthetic capacity and associated …
Soil and atmospheric drought explain the biophysical conductance responses in diagnostic and prognostic evaporation models over two contrasting European forest …
Diagnosing and predicting evaporation through satellite‐based surface energy balance
(SEB) and land surface models (LSMs) faces challenges due to the non‐linear responses of …
(SEB) and land surface models (LSMs) faces challenges due to the non‐linear responses of …
Vegetation greening and climate change promote an increase in evapotranspiration across Siberia
The greening of the Arctic and pan-Arctic regions in recent decades has been widely
confirmed, while the details regarding the greening feedback effects involving the water and …
confirmed, while the details regarding the greening feedback effects involving the water and …
Downwelling longwave radiation and sensible heat flux observations are critical for surface temperature and emissivity estimation from flux tower data
Land surface temperature (LST) is a preeminent state variable that controls the energy and
water exchange between the Earth's surface and the atmosphere. At the landscape-scale …
water exchange between the Earth's surface and the atmosphere. At the landscape-scale …