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Major axes of variation in tree demography across global forests

Authors :
Melina de Souza Leite
Sean M. McMahon
Paulo Inácio Prado
Stuart J. Davies
Alexandre Adalardo de Oliveira
Hannes P. De Deurwaerder
Salomón Aguilar
Kristina J. Anderson-Teixeira
Nurfarah Aqilah
Norman A. Bourg
Warren Y. Brockelman
Nicolas Castaño
Chia-Hao Chang-Yang
Yu-Yun Chen
George Chuyong
Keith Clay
Álvaro Duque
Sisira Ediriweera
Corneille E.N. Ewango
Gregory Gilbert
I.A.U.N. Gunatilleke
C.V.S. Gunatilleke
Robert Howe
Walter Huaraca Huasco
Akira Itoh
Daniel J. Johnson
David Kenfack
Kamil Král
Yao Tze Leong
James A. Lutz
Jean-Remy Makana
Yadvinder Malhi
William J. McShea
Mohizah Mohamad
Musalmah Nasardin
Anuttara Nathalang
Geoffrey Parker
Renan Parmigiani
Rolando Pérez
Richard P. Phillips
Pavel Šamonil
I-Fang Sun
Sylvester Tan
Duncan Thomas
Jill Thompson
María Uriarte
Amy Wolf
Jess Zimmerman
Daniel Zuleta
Marco D. Visser
Lisa Hülsmann
Publication Year :
2023
Publisher :
Cold Spring Harbor Laboratory, 2023.

Abstract

AimGlobal forests and their structural and functional features are shaped by many mechanisms that impact tree vital rates. Although many studies have tried to quantify how specific mechanisms influence vital rates, their relative importance among forests remains unclear. We aimed to assess the patterns of variation in vital rates among species and in space and time across forests to understand and provide a baseline for expectations of the relative importance of the different mechanisms in different contexts.Location21 forest plots worldwide.Time period1981-2021Major taxa studiedWoody plantsMethodsWe developed a conceptual and statistical framework (variance partitioning of multilevel models) that attributes the variability in growth, mortality, and recruitment to variation in species, space, and time, and their interactions, which we refer to asorganising principles(OPs). We applied it to data from 21 forest plots covering more than 2.9 million trees of approximately 6,500 species.ResultsDifferences among species, thespeciesOP, were a major source of variability in tree vital rates, explaining 28-33% of demographic variance alone, and in interaction withspace14-17%, totalling 40-43%. Models with small spatial grain sizes (quadrats at 5 × 5 m) retained most of the spatial OP, but a large proportion of variance remained unexplained (31-55%). The average variability among species declined with species richness across forests, indicating that diverse forests featured smaller interspecific differences in vital rates.Main conclusionsDecomposing variance in vital rates into the proposed OPs showed that taxonomy is crucial to predictions and understanding of tree demography. Our framework has a high potential for identifying the structuring mechanisms of global forest dynamics as it highlights the most promising avenues for future research both in terms of understanding the relative contributions of mechanisms to forest demography and diversity and for improving projections of forest ecosystems.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........65ef7b941671e449564d4ad30ffee91e
Full Text :
https://doi.org/10.1101/2023.01.11.523538