Yao Y., Liang S., Li X., Chen J., Wang K., Jia K., Cheng J., Jiang B., Fisher J.B., Mu Q., Grünwald T., Bernhofer C., Roupsard O.
2015
Accurate estimation of the terrestrial latent heat flux (LE) for each plant functional type (PFT) at high spatial and temporal scales remains a major challenge. We developed a satellite-based hybrid algorithm to determine the Priestley¿Taylor (PT) parameter for estimating global terrestrial LE across multiple biomes. The hybrid algorithm combines a simple empirical equation with physically based ...
Météorologie et climatologie; Ecologie végétale; Méthodes de relevé; Méthodes mathématiques et statistiques
2015
Accurate estimation of the terrestrial latent heat flux (LE) for each plant functional type (PFT) at high spatial and temporal scales remains a major challenge. We developed a satellite-based hybrid algorithm to determine the Priestley¿Taylor (PT) parameter for estimating global terrestrial LE across multiple biomes. The hybrid algorithm combines a simple empirical equation with physically based ...
Météorologie et climatologie; Ecologie végétale; Méthodes de relevé; Méthodes mathématiques et statistiques