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Improved modeling of canopy transpiration for temperate forests by incorporating a LAI-based dynamic parametrization scheme of stomatal slope

Jiaxin Jin, Yan Tao, Han Wang, Xuanlong Ma, Mingzhu He, Ying Wang, Weifeng Wang, Fengsheng Guo, Yulong Cai, Qiuan Zhu, Jin Wu

2022Agricultural and Forest Meteorology14 citationsDOI

Topics & Concepts

Leaf area indexSeasonalityEnvironmental scienceAtmospheric sciencesTranspirationEddy covarianceTemperate forestBiomeCanopyStomatal conductanceParametrization (atmospheric modeling)Temperate rainforestTemperate climateEcologyEcosystemBotanyPhotosynthesisBiologyPhysicsRadiative transferQuantum mechanicsPlant Water Relations and Carbon DynamicsRemote Sensing in AgricultureClimate variability and models
Improved modeling of canopy transpiration for temperate forests by incorporating a LAI-based dynamic parametrization scheme of stomatal slope | Litcius