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Stronger control of surface conductance by soil water content than vapor pressure deficit regulates evapotranspiration in an urban forest in Beijing, 2012–2022

Xinhao Li, Tianshan Zha, T. Andrew Black, Xin Jia, Rachhpal S. Jassal, Peng Liu, Yun Tian, Chuan Jin, Ruizhi Yang, Feng Zhang, Haiqun Yu, Jing Xie

2023Agricultural and Forest Meteorology13 citationsDOI

Topics & Concepts

EvapotranspirationVapour Pressure DeficitEddy covarianceEnvironmental scienceCanopy conductanceWater contentSoil waterRelative humidityHydrology (agriculture)Stomatal conductanceAtmospheric sciencesPrecipitationGrowing seasonBeijingLeaf area indexTranspirationGeographyEcosystemEcologyMeteorologyPhotosynthesisSoil scienceChemistryGeologyEngineeringChinaArchaeologyBiologyGeotechnical engineeringBiochemistryPlant Water Relations and Carbon DynamicsUrban Heat Island MitigationClimate variability and models
Stronger control of surface conductance by soil water content than vapor pressure deficit regulates evapotranspiration in an urban forest in Beijing, 2012–2022 | Litcius