01772naa a2200337 a 450000100080000000500110000800800410001902400520006010000170011224501190012926000090024852007890025765000160104665000130106265000120107565000160108765000140110365000130111765000220113065300240115265300160117665300210119265300250121370000210123870000200125970000220127970000230130170000180132470000240134277300680136621610222024-01-23       2023    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.3389/fenvs.2023.12232192DOI1 aALBERTON, B.  aRelationship between tropical leaf phenology and ecosystem productivity using phenocameras.h[electronic resource]  c2023  aThe interplay of water and light, regarded as the main driver of tropical plant dynamics, determines leaf phenology and ecosystem productivity. Leaf phenology has been discussed as a key variable to explain photosynthetic seasonality in evergreen tropical forests, but the question is still open for seasonally tropical ecosystems. In the search for implementing long-term phenology monitoring in the tropics, phenocameras have proven to be an accurate method to estimate vegetative phenology in tropical communities. Here, we investigated the temporal patterns of leaf phenology and their relation to gross primary productivity (GPP) in a comparative study across three contrasting tropical biomes: dry forest (caatinga), woodland savanna (cerrado), and rainforest (Atlantic Forest).  aDry forests  aCaatinga  aCerrado  aEcossistema  aFenologia  aFloresta  aFloresta Tropical  aAtlântico floresta  aFenocâmera  aFenologia foliar  aFenologia vegetativa1 aMARTIN, T. C. M.1 aROCHA, H. R. da1 aRICHARDSON, A. D.1 aMOURA, M. S. B. de1 aTORRES, R. S.1 aMORELLATO, L. P. C.  tFrontiers in Environmental Sciencegv. 11, 1223219, Sept. 2023.