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- Zheng-Hong Tan; Jun-Fu Zhao; Guan-Ze Wang; Meng-Ping Chen; Lian-Yan Yang; Chun-Sheng He; Natalia Restrepo-Coupe; Shu-Shi Peng; Xue-Yan Liu; Humberto R. da Rocha; Yoshiko Kosugi; Takashi Hirano; Scott R. Saleska; Michael L. Goulden; Jiye Zeng; Fang-Jun Ding; Fu Gao; Liang Song
- Agricultural and forest meteorology 2019 v.275 pp. 317-328
- aerodynamics; diurnal variation; dry season; eddy covariance; environmental factors; evaporation; evapotranspiration; models; momentum; seasonal variation; transpiration; tropical forests; turbulent flow; water vapor
- ... Tropical forests are responsible for the evaporation and transpiration of large quantities of water into the atmosphere annually. Surface conductance (gs) is a poorly understood phenomenon that plays a central role in regulating this evapotranspiration. We studied the calculations, variations, and environmental factors controlling gs based on eddy flux measurements from 10 tropical forest sites th ...