International audienceLeaf phenology in the humid tropics largely regulates the seasonality of forest carbon and water exchange. However, it is inadequately represented in most global land surface models due to limited understanding of its controls. Based on intensive field studies at four Amazonian evergreen forests, we propose a novel, quantitative representation of tropical forest leaf phenology, which links multiple environmental variables with the seasonality of new leaf production and old leaf litterfall. The new phenology simulates higher rates of leaf turnover (new leaves replacing old leaves) in dry seasons with more sunlight, which is then implemented in ORCHIDEE, together with recent findings of ontogeny-associated photosynthetic...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceLeaf phenology in the humid tropics largely regulates the seasonality of fores...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...
International audienceAmazonian evergreen forests show distinct canopy phenology and photosynthetic ...