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Article

Functional recovery of secondary tropical forests

Details

Citation

Poorter L, Rozendaal DMA, Bongers F, Almeida dJS, ?lvarez FS, Andrade JL, Arreola Villa LF, Becknell JM, Bhaskar R, Boukili V, Brancalion PHS, Cesar RG, Chave J, Chazdon RL & Dent DH (2021) Functional recovery of secondary tropical forests. Proceedings of the National Academy of Sciences, 118 (49), Art. No.: e2003405118. https://doi.org/10.1073/pnas.2003405118

Abstract
One-third of all Neotropical forests are secondary forests that regrow naturally after agricultural use through secondary succession. We need to understand better how and why succession varies across environmental gradients and broad geographic scales. Here, we analyze functional recovery using community data on seven plant characteristics (traits) of 1,016 forest plots from 30 chronosequence sites across the Neotropics. By analyzing communities in terms of their traits, we enhance understanding of the mechanisms of succession, assess ecosystem recovery, and use these insights to propose successful forest restoration strategies. Wet and dry forests diverged markedly for several traits that increase growth rate in wet forests but come at the expense of reduced drought tolerance, delay, or avoidance, which is important in seasonally dry forests. Dry and wet forests showed different successional pathways for several traits. In dry forests, species turnover is driven by drought tolerance traits that are important early in succession and in wet forests by shade tolerance traits that are important later in succession. In both forests, deciduous and compound-leaved trees decreased with forest age, probably because microclimatic conditions became less hot and dry. Our results suggest that climatic water availability drives functional recovery by influencing the start and trajectory of succession, resulting in a convergence of community trait values with forest age when vegetation cover builds up. Within plots, the range in functional trait values increased with age. Based on the observed successional trait changes, we indicate the consequences for carbon and nutrient cycling and propose an ecologically sound strategy to improve forest restoration success.

Keywords
tropical forest; secondary succession; functional traits; rainfall; community assembly

Notes
Additional co-authors: Gabriel Dalla Colletta, Dylan Craven, Ben H. J. de Jong, Julie S. Denslow, Saara J. DeWalt, Elisa Díaz García, Juan Manuel Dupuy, Sandra M. Durán, Mário M. Espírito Santo, Geraldo Wilson Fernandes, Bryan Finegan, Vanessa Granda Moser, Jefferson S. Hall, José Luis Hernández-Stefanoni, Catarina C. Jakovac, Deborah Kennard, Edwin Lebrija-Trejos, Susan G. Letcher, Madelon Lohbeck, Omar R. Lopez, Erika Marín-Spiotta, Miguel Martínez-Ramos, Jorge A. Meave, Francisco Mora, Vanessa de Souza Moreno, Sandra C. Müller, Rodrigo Mu?oz, Robert Muscarella, Yule R. F. Nunes, Susana Ochoa-Gaona, Rafael S. Oliveira, Horacio Paz, Arturo Sanchez-Azofeifa, Lucía Sanaphre-Villanueva, Marisol Toledo, Maria Uriarte, Luis P. Utrera, Michiel van Breugel, Masha T. van der Sande, Maria D. M. Veloso, S. Joseph Wright, Kátia J. Zanini, Jess K. Zimmerman, and Mark Westoby

Journal
Proceedings of the National Academy of Sciences: Volume 118, Issue 49

StatusPublished
Publication date31/12/2021
Publication date online29/11/2021
Date accepted by journal15/09/2021
URL
ISSN0027-8424
eISSN1091-6490