@article{https://doi.org/10.60692/91jx9-hdh98,
doi = {10.60692/91JX9-HDH98},
url = {https://gresis.osc.int//doi/10.60692/91jx9-hdh98},
author = {Jinhui Jeanne Huang,
and Han Chen,
and Tingting Li,
and Edward McBean,
and Vijay P. Singh,
},
keywords = {Global Forest Drought Response and Climate Change,
Global and Planetary Change,
Environmental Science,
Physical Sciences,
Urban Heat Islands and Mitigation Strategies,
Environmental Engineering,
FOS: Environmental engineering,
Hydrological Modeling and Water Resource Management,
Water Science and Technology,
Hydrological Modeling,
Evapotranspiration,
Watershed Simulation,
Model Evaluation,
Transpiration,
FluxNet,
Sensible heat,
Eddy covariance,
Water cycle,
Latent heat,
Boundary (topology),
Mean squared error,
Flux (metallurgy),
Environmental science,
Vegetation (pathology),
Hydrology (agriculture),
Mathematics,
FOS: Mathematics,
Atmospheric sciences,
Meteorology,
Geology,
FOS: Earth and related environmental sciences,
Statistics,
Geography,
Ecosystem,
Ecology,
FOS: Biological sciences,
Geotechnical engineering,
Biology,
Medicine,
Mathematical analysis,
Botany,
Photosynthesis,
Materials science,
Pathology,
Metallurgy},
language = {en},
title = {A Modified Trapezoidal Framework Model for Partitioning Regional Evapotranspiration},
publisher = {OpenAlex},
year = {2020},
copyright = {cc-by}
}