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@ARTICLE{AguirreGutirrez:1040397,
author = {Aguirre-Gutiérrez, Jesús and Rifai, Sami W. and Deng,
Xiongjie and ter Steege, Hans and Thomson, Eleanor and
Corral-Rivas, Jose Javier and Guimaraes, Aretha Franklin and
Muller, Sandra and Klipel, Joice and Fauset, Sophie and
Resende, Angelica F. and Wallin, Göran and Joly, Carlos A.
and Abernethy, Katharine and Adu-Bredu, Stephen and
Alexandre Silva, Celice and de Oliveira, Edmar Almeida and
Almeida, Danilo R. A. and Alvarez-Davila, Esteban and Asner,
Gregory P. and Baker, Timothy R. and Benchimol, Maíra and
Bentley, Lisa Patrick and Berenguer, Erika and Blanc, Lilian
and Bonal, Damien and Bordin, Kauane and Borges de Lima,
Robson and Both, Sabine and Cabezas Duarte, Jaime and
Cardoso, Domingos and de Lima, Haroldo C. and Cavalheiro,
Larissa and Cernusak, Lucas A. and dos Santos Prestes,
Nayane Cristina C. and da Silva Zanzini, Antonio Carlos and
da Silva, Ricardo José and dos Santos Alves da Silva,
Robson and de Andrade Iguatemy, Mariana and de Sousa
Oliveira, Tony César and Dechant, Benjamin and Derroire,
Géraldine and Dexter, Kyle G. and Rodrigues, Domingos J.
and Espírito-Santo, Mário and Silva, Letícia Fernandes
and Domingues, Tomas Ferreira and Ferreira, Joice and Simon,
Marcelo Fragomeni and Girardin, Cécile A. J. and Hérault,
Bruno and Jeffery, Kathryn J. and Kalpuzha Ashtamoorthy,
Sreejith and Kavidapadinjattathil Sivadasan, Arunkumar and
Klitgaard, Bente and Laurance, William F. and Dan, Maurício
Lima and Magnusson, William E. and Campos-Filho, Eduardo
Malta and Manoel dos Santos, Rubens and Manzatto, Angelo
Gilberto and Silveira, Marcos and Marimon-Junior, Ben Hur
and Martin, Roberta E. and Vieira, Daniel Luis Mascia and
Metzker, Thiago and Milliken, William and Moonlight, Peter
and Moraes de Seixas, Marina Maria and Morandi, Paulo S. and
Muscarella, Robert and Nava-Miranda, María Guadalupe and
Nyirambangutse, Brigitte and Silva, Jhonathan Oliveira and
Oliveras Menor, Imma and Francisco Pena Rodrigues, Pablo
José and Pereira de Oliveira, Cinthia and Pereira Zanzini,
Lucas and Peres, Carlos A. and Punjayil, Vignesh and
Quesada, Carlos A. and Réjou-Méchain, Maxime and Riutta,
Terhi and Rivas-Torres, Gonzalo and Rosa, Clarissa and
Salinas, Norma and Bergamin, Rodrigo Scarton and Marimon,
Beatriz Schwantes and Shenkin, Alexander and Silva
Rodrigues, Priscyla Maria and Figueiredo, Axa Emanuelle
Simões and Garcia, Queila Souza and Spósito, Tereza and
Storck-Tonon, Danielle and Sullivan, Martin J. P. and
Svátek, Martin and Vieira Santiago, Wagner Tadeu and Arn
Teh, Yit and Theruvil Parambil Sivan, Prasad and Nascimento,
Marcelo Trindade and Veenendaal, Elmar and Zo-Bi, Irie
Casimir and Dago, Marie Ruth and Traoré, Soulemane and
Patacca, Marco and Badouard, Vincyane and de Padua Chaves e
Carvalho, Samuel and White, Lee J. T. and Zhang-Zheng,
Huanyuan and Zibera, Etienne and Zwerts, Joeri Alexander and
Burslem, David F. R. P. and Silman, Miles and Chave,
Jérôme and Enquist, Brian J. and Barlow, Jos and Phillips,
Oliver L. and Coomes, David A. and Malhi, Yadvinder},
title = {{C}anopy functional trait variation across {E}arth’s
tropical forests},
journal = {Nature},
volume = {641},
number = {8061},
issn = {0028-0836},
address = {London [u.a.]},
publisher = {Nature Publ. Group},
reportid = {FZJ-2025-01877},
pages = {129 - 136},
year = {2025},
abstract = {Tropical forest canopies are the biosphere’s most
concentrated atmospheric interface for carbon, water and
energy. However, in most Earth System Models, the diverse
and heterogeneous tropical forest biome is represented as a
largely uniform ecosystem with either a singular or a small
number of fixed canopy ecophysiological properties. This
situation arises, in part, from a lack of understanding
about how and why the functional properties of tropical
forest canopies vary geographically. Here, by combining
field-collected data from more than 1,800 vegetation plots
and tree traits with satellite remote-sensing, terrain,
climate and soil data, we predict variation across 13
morphological, structural and chemical functional traits of
trees, and use this to compute and map the functional
diversity of tropical forests. Our findings reveal that the
tropical Americas, Africa and Asia tend to occupy different
portions of the total functional trait space available
across tropical forests. Tropical American forests are
predicted to have $40\%$ greater functional richness than
tropical African and Asian forests. Meanwhile, African
forests have the highest functional $divergence—32\%$ and
$7\%$ higher than that of tropical American and Asian
forests, respectively. An uncertainty analysis highlights
priority regions for further data collection, which would
refine and improve these maps. Our predictions represent a
ground-based and remotely enabled global analysis of how and
why the functional traits of tropical forest canopies vary
across space.},
cin = {IBG-2},
ddc = {500},
cid = {I:(DE-Juel1)IBG-2-20101118},
pnm = {2171 - Biological and environmental resources for
sustainable use (POF4-217)},
pid = {G:(DE-HGF)POF4-2171},
typ = {PUB:(DE-HGF)16},
doi = {10.1038/s41586-025-08663-2},
url = {https://juser.fz-juelich.de/record/1040397},
}
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