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Beyond species means – the intraspecific contribution to global wood density variation
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Summary
Wood density is central for estimating vegetation carbon storage and a plant functional trait of great ecological and evolutionary importance. However, the global extent of wood density variation is unclear, especially at the intraspecific level. We assembled the most comprehensive wood density collection to date, including 109 626 records from 16 829 plant species across woody life forms and biomes (GWDD v.2, available here: doi:
10.5281/zenodo.16919509
). Using the GWDD v.2, we explored the sources of wood density variation within individuals, within species and across environmental gradients. Intraspecific variation accounted for
c
. 15% of overall wood density variation (SD = 0.068 g cm
−3
). Variance was 50% smaller in sapwood than heartwood, and 30% smaller in branchwood than trunkwood. Individuals in extreme environments (dry, hot and acidic soils) had higher wood density than conspecifics elsewhere (+0.02 g cm
−3
,
c
. 4% of the mean). Intraspecific environmental effects strongly tracked interspecific patterns (
r
= 0.83) but were 70–80% smaller and varied considerably among taxa. Individual plant wood density was difficult to predict (root mean square error > 0.08 g cm
−3
; single‐measurement
R
2
= 0.59). We recommend: (1) systematic sampling of multiple individuals and tissues for local applications; and (2) expanded taxonomic coverage combined with integrative models for robust estimates across ecological scales.
Wiley
Fabian Jörg Fischer
Jérôme Chave
Amy Zanne
Tommaso Jucker
Alex Fajardo
Adeline Fayolle
Renato Augusto Ferreira de Lima
Ghislain Vieilledent
Hans Beeckman
Wannes Hubau
Tom De Mil
Daniel Wallenus
Ana María Aldana
Esteban Alvarez‐Dávila
Luciana F. Alves
Deborah M. G. Apgaua
Fátima Arcanjo
Jean‐François Bastin
Andrii Bilous
Philippe Birnbaum
Volodymyr Blyshchyk
Joli Borah
Vanessa Boukili
J. Julio Camarero
Luisa Casas
Roberto Cazzolla Gatti
Jeffrey Q. Chambers
Ezequiel Chimbioputo Fabiano
Brendan Choat
Georgina Conti
Will Cornwell
Javid Ahmad Dar
Ashesh Kumar Das
Magnus Dobler
Dao Dougabka
David P. Edwards
Robert Evans
Daniel Falster
Philip Fearnside
Olivier Flores
Nikolaos Fyllas
Jean Gérard
Rosa C. Goodman
Daniel Guibal
L. Francisco Henao‐Diaz
Vincent Hervé
Peter Hietz
Jürgen Homeier
Thomas Ibanez
Jugo Ilic
Steven Jansen
Rinku Moni Kalita
Tanaka Kenzo
Liana Kindermann
Subashree Kothandaraman
Martyna Kotowska
Yasuhiro Kubota
Patrick Langbour
James Lawson
André Luiz Alves de Lima
Roman Mathias Link
Anja Linstädter
Rosana López
Cate Macinnis‐Ng
Luiz Fernando S. Magnago
Adam R. Martin
Ashley M. Matheny
James K. McCarthy
Regis B. Miller
Arun Jyoti Nath
Bruce Walker Nelson
Marco Njana
Euler Melo Nogueira
Alexandre Oliveira
Rafael Oliveira
Mark Olson
Yusuke Onoda
Keryn Paul
Daniel Piotto
Phil Radtke
Onja Razafindratsima
Tahiana Ramananantoandro
Jennifer Read
Sarah Richardson
Enrique G. de la Riva
Oris Rodríguez‐Reyes
Samir G. Rolim
Victor Rolo
Julieta A. Rosell
Roberto Salguero‐Gómez
Nadia S. Santini
Bernhard Schuldt
Luitgard Schwendenmann
Arne Sellin
Timothy Staples
Pablo R. Stevenson
Somaiah Sundarapandian
Masha T. van der Sande
Bernard Thibaut
David Yue Phin Tng
José Marcelo Domingues Torezan
Boris Villanueva
Aaron Weiskittel
Jessie Wells
S. Joseph Wright
Kasia Zieminska
Title: Beyond species means – the intraspecific contribution to global wood density variation
Description:
Summary
Wood density is central for estimating vegetation carbon storage and a plant functional trait of great ecological and evolutionary importance.
However, the global extent of wood density variation is unclear, especially at the intraspecific level.
We assembled the most comprehensive wood density collection to date, including 109 626 records from 16 829 plant species across woody life forms and biomes (GWDD v.
2, available here: doi:
10.
5281/zenodo.
16919509
).
Using the GWDD v.
2, we explored the sources of wood density variation within individuals, within species and across environmental gradients.
Intraspecific variation accounted for
c
.
15% of overall wood density variation (SD = 0.
068 g cm
−3
).
Variance was 50% smaller in sapwood than heartwood, and 30% smaller in branchwood than trunkwood.
Individuals in extreme environments (dry, hot and acidic soils) had higher wood density than conspecifics elsewhere (+0.
02 g cm
−3
,
c
.
4% of the mean).
Intraspecific environmental effects strongly tracked interspecific patterns (
r
= 0.
83) but were 70–80% smaller and varied considerably among taxa.
Individual plant wood density was difficult to predict (root mean square error > 0.
08 g cm
−3
; single‐measurement
R
2
= 0.
59).
We recommend: (1) systematic sampling of multiple individuals and tissues for local applications; and (2) expanded taxonomic coverage combined with integrative models for robust estimates across ecological scales.
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