Vezy R., Christina M., Roupsard O., Nouvellon Y., Duursma R.A., Medlyn B.E., Soma M., Charbonnier F., Blitz-Frayret C., Stape J.L., Laclau J.P., Virginio Filho E.D.M., Bonnefond J.M., Rapidel B., Do F.C., Rocheteau A., Picart D., Borgonovo C., Loustau D., Le Maire G.
2018
Evapotranspiration and energy partitioning are complex to estimate because they result from the interaction of many different processes, especially in multi-species and multi-strata ecosystems. We used MAESPA model, a mechanistic, 3D model of coupled radiative transfer, photosynthesis, and balances of energy and water, to simulate the partitioning of energy and evapotranspiration in homogeneous ...
Physiologie et biochimie végétales; Systèmes et modes de culture; Méthodes de relevé
2018
Evapotranspiration and energy partitioning are complex to estimate because they result from the interaction of many different processes, especially in multi-species and multi-strata ecosystems. We used MAESPA model, a mechanistic, 3D model of coupled radiative transfer, photosynthesis, and balances of energy and water, to simulate the partitioning of energy and evapotranspiration in homogeneous ...
Physiologie et biochimie végétales; Systèmes et modes de culture; Méthodes de relevé