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Wet and Dry Tropical Forests Show Opposite Successional Pathways in Wood Density but Converge over Time

Overview
Journal Nat Ecol Evol
Publisher Springer Nature
Specialty Biology
Date 2019 Apr 24
PMID 31011177
Citations 23
Authors
Lourens Poorter
Danae M A Rozendaal
Frans Bongers
Jarcilene S de Almeida-Cortez
Angelica Maria Almeyda Zambrano
Francisco S Alvarez
Jose Luis Andrade
Luis Felipe Arreola Villa
Patricia Balvanera
Justin M Becknell
Tony V Bentos
Radika Bhaskar
Vanessa Boukili
Pedro H S Brancalion
Eben N Broadbent
Ricardo G Cesar
Jerome Chave
Robin L Chazdon
Gabriel Dalla Colletta
Dylan Craven
Ben H J de Jong
Julie S Denslow
Daisy H Dent
Saara J DeWalt
Elisa Diaz Garcia
Juan Manuel Dupuy
Sandra M Duran
Mario M Espirito Santo
Maria C Fandino
Geraldo Wilson Fernandes
Bryan Finegan
Vanessa Granda Moser
Jefferson S Hall
Jose Luis Hernandez-Stefanoni
Catarina C Jakovac
Andre B Junqueira
Deborah Kennard
Edwin Lebrija-Trejos
Susan G Letcher
Madelon Lohbeck
Omar R Lopez
Erika Marin-Spiotta
Miguel Martinez-Ramos
Sebastiao V Martins
Paulo E S Massoca
Jorge A Meave
Rita Mesquita
Francisco Mora
Vanessa de Souza Moreno
Sandra C Muller
Rodrigo Munoz
Robert Muscarella
Silvio Nolasco de Oliveira Neto
Yule R F Nunes
Susana Ochoa-Gaona
Horacio Paz
Marielos Pena-Claros
Daniel Piotto
Jorge Ruiz
Lucia Sanaphre-Villanueva
Arturo Sanchez-Azofeifa
Naomi B Schwartz
Marc K Steininger
William Wayt Thomas
Marisol Toledo
Maria Uriarte
Luis P Utrera
Michiel van Breugel
Masha T van der Sande
Hans Van der Wal
Maria D M Veloso
Hans F M Vester
Ima C G Vieira
Pedro Manuel Villa
G Bruce Williamson
S Joseph Wright
Katia J Zanini
Jess K Zimmerman
Mark Westoby
Affiliations
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Abstract

Tropical forests are converted at an alarming rate for agricultural use and pastureland, but also regrow naturally through secondary succession. For successful forest restoration, it is essential to understand the mechanisms of secondary succession. These mechanisms may vary across forest types, but analyses across broad spatial scales are lacking. Here, we analyse forest recovery using 1,403 plots that differ in age since agricultural abandonment from 50 sites across the Neotropics. We analyse changes in community composition using species-specific stem wood density (WD), which is a key trait for plant growth, survival and forest carbon storage. In wet forest, succession proceeds from low towards high community WD (acquisitive towards conservative trait values), in line with standard successional theory. However, in dry forest, succession proceeds from high towards low community WD (conservative towards acquisitive trait values), probably because high WD reflects drought tolerance in harsh early successional environments. Dry season intensity drives WD recovery by influencing the start and trajectory of succession, resulting in convergence of the community WD over time as vegetation cover builds up. These ecological insights can be used to improve species selection for reforestation. Reforestation species selected to establish a first protective canopy layer should, among other criteria, ideally have a similar WD to the early successional communities that dominate under the prevailing macroclimatic conditions.

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Tao W, He J, Smith N, Yang H, Liu J, Chen L Proc Biol Sci. 2024; 291(2033):20241427.

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Mapping multi-dimensional variability in water stress strategies across temperate forests.

Liu D, Esquivel-Muelbert A, Acil N, Astigarraga J, Cienciala E, Fridman J Nat Commun. 2024; 15(1):8909.

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