The Influence of Taxonomy and Environment on Leaf Trait Variation Along Tropical Abiotic Gradients

Imma Oliveras; Lisa Bentley; Nikolaos M. Fyllas; Agne Gvozdevaite; Alexander Frederick Shenkin; Theresa Peprah; Paulo Morandi; Karine Silva Peixoto; Mickey Boakye; Stephen Adu-Bredu; Beatriz Schwantes Marimon; Ben Hur Marimon Junior; Norma Salinas; Roberta Martin; Gregory Asner; Sandra Díaz; Brian J. Enquist; Yadvinder Malhi

doi:10.3389/ffgc.2020.00018

The Influence of Taxonomy and Environment on Leaf Trait Variation Along Tropical Abiotic Gradients

Imma Oliveras, Lisa Bentley, Nikolaos M. Fyllas, Agne Gvozdevaite, Alexander Frederick Shenkin, Theresa Peprah, Paulo Morandi, Karine Silva Peixoto, Mickey Boakye, Stephen Adu-Bredu, Beatriz Schwantes Marimon, Ben Hur Marimon Junior, Norma Salinas, Roberta Martin, Gregory Asner, Sandra Díaz, Brian J. Enquist, Yadvinder Malhi

Geographical Sciences and Urban Planning, School of (SGSUP)

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Deconstructing functional trait variation and co-variation across a wide range of environmental conditions is necessary to increase the mechanistic understanding of community assembly processes and improve current parameterization of dynamic vegetation models. Here, we present a study that deconstructs leaf trait variation and co-variation into within-species, taxonomic-, and plot-environment components along three tropical environmental gradients in Peru, Brazil, and Ghana. To do so, we measured photosynthetic, chemical, and structural leaf traits using a standardized sampling protocol for more than 1,000 individuals belonging to 367 species. Variation associated with the taxonomic component (species + genus + family) for most traits was relatively consistent across environmental gradients, but within-species variation and plot-environment variation was strongly dependent on the environmental gradient. Trait-trait co-variation was strongly linked to the environmental gradient where traits were measured, although some traits had consistent co-variation components irrespective of gradient. Our results demonstrate that filtering along these tropical gradients is mostly expressed through trait taxonomic variation, but that trait co-variation is strongly dependent on the local environment, and thus global trait co-variation relationships might not always apply at smaller scales and may quickly change under future climate scenarios.

Original language	English (US)
Article number	18
Journal	Frontiers in Forests and Global Change
Volume	3
DOIs	https://doi.org/10.3389/ffgc.2020.00018
State	Published - Mar 3 2020

Keywords

environmental filtering
interspecific
intraspecific
trait covariation
variance partitioning

ASJC Scopus subject areas

Forestry
Ecology
Global and Planetary Change
Nature and Landscape Conservation
Environmental Science (miscellaneous)

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10.3389/ffgc.2020.00018

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Oliveras, I., Bentley, L., Fyllas, N. M., Gvozdevaite, A., Shenkin, A. F., Peprah, T., Morandi, P., Peixoto, K. S., Boakye, M., Adu-Bredu, S., Schwantes Marimon, B., Marimon Junior, B. H., Salinas, N., Martin, R., Asner, G., Díaz, S., Enquist, B. J., & Malhi, Y. (2020). The Influence of Taxonomy and Environment on Leaf Trait Variation Along Tropical Abiotic Gradients. Frontiers in Forests and Global Change, 3, Article 18. https://doi.org/10.3389/ffgc.2020.00018

Oliveras, I, Bentley, L, Fyllas, NM, Gvozdevaite, A, Shenkin, AF, Peprah, T, Morandi, P, Peixoto, KS, Boakye, M, Adu-Bredu, S, Schwantes Marimon, B, Marimon Junior, BH, Salinas, N, Martin, R , Asner, G, Díaz, S, Enquist, BJ & Malhi, Y 2020, 'The Influence of Taxonomy and Environment on Leaf Trait Variation Along Tropical Abiotic Gradients', Frontiers in Forests and Global Change, vol. 3, 18. https://doi.org/10.3389/ffgc.2020.00018

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title = "The Influence of Taxonomy and Environment on Leaf Trait Variation Along Tropical Abiotic Gradients",

abstract = "Deconstructing functional trait variation and co-variation across a wide range of environmental conditions is necessary to increase the mechanistic understanding of community assembly processes and improve current parameterization of dynamic vegetation models. Here, we present a study that deconstructs leaf trait variation and co-variation into within-species, taxonomic-, and plot-environment components along three tropical environmental gradients in Peru, Brazil, and Ghana. To do so, we measured photosynthetic, chemical, and structural leaf traits using a standardized sampling protocol for more than 1,000 individuals belonging to 367 species. Variation associated with the taxonomic component (species + genus + family) for most traits was relatively consistent across environmental gradients, but within-species variation and plot-environment variation was strongly dependent on the environmental gradient. Trait-trait co-variation was strongly linked to the environmental gradient where traits were measured, although some traits had consistent co-variation components irrespective of gradient. Our results demonstrate that filtering along these tropical gradients is mostly expressed through trait taxonomic variation, but that trait co-variation is strongly dependent on the local environment, and thus global trait co-variation relationships might not always apply at smaller scales and may quickly change under future climate scenarios.",

keywords = "environmental filtering, interspecific, intraspecific, trait covariation, variance partitioning",

author = "Imma Oliveras and Lisa Bentley and Fyllas, {Nikolaos M.} and Agne Gvozdevaite and Shenkin, {Alexander Frederick} and Theresa Peprah and Paulo Morandi and Peixoto, {Karine Silva} and Mickey Boakye and Stephen Adu-Bredu and {Schwantes Marimon}, Beatriz and {Marimon Junior}, {Ben Hur} and Norma Salinas and Roberta Martin and Gregory Asner and Sandra D{\'i}az and Enquist, {Brian J.} and Yadvinder Malhi",

note = "Funding Information: This work is a product of the Global Ecosystems Monitoring (GEM) network (gem.tropicalforests.ox.ac.uk) the Andes Biodiversity and Ecosystems Research Group ABERG (andesresearch.org) research consortia. Fieldwork and analysis for all sites was supported through a European Research Council advanced investigator grant GEM-TRAITS (321131) to YM. In addition, fieldwork in Peru was further supported grants to YM from the UK Natural Environment Research Council (Grant NE/J023418/1), and in Brazil through a Marie Curie Fellowship to IO (FP7-2012-IEF-327990-TipTropTrans), and in Ghana through a Royal Society-Leverhulme Africa Capacity Building Award to YM and SA-B. GA, and RM were supported by a grant from the John D. and Catherine T. MacArthur Foundation and NSF grant 1457812. BM-J and BM were supported by the Brazilian National Council of Science and Technology [Conselho Nacional de Desenvolvimento Cient{\'i}fico e Tecnol{\'o}gico (CNPq)] through CNPq/PPBio project (#457602), productivity grants (PQ-2), and CNPq/PELD (LTER) (#403725/2012-7). Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2020 Oliveras, Bentley, Fyllas, Gvozdevaite, Shenkin, Peprah, Morandi, Peixoto, Boakye, Adu-Bredu, Schwantes Marimon, Marimon Junior, Salinas, Martin, Asner, D{\'i}az, Enquist and Malhi.",

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doi = "10.3389/ffgc.2020.00018",

language = "English (US)",

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AU - Oliveras, Imma

AU - Bentley, Lisa

AU - Fyllas, Nikolaos M.

AU - Gvozdevaite, Agne

AU - Shenkin, Alexander Frederick

AU - Peprah, Theresa

AU - Morandi, Paulo

AU - Peixoto, Karine Silva

AU - Boakye, Mickey

AU - Adu-Bredu, Stephen

AU - Schwantes Marimon, Beatriz

AU - Marimon Junior, Ben Hur

AU - Salinas, Norma

AU - Martin, Roberta

AU - Asner, Gregory

AU - Díaz, Sandra

AU - Enquist, Brian J.

AU - Malhi, Yadvinder

N1 - Funding Information: This work is a product of the Global Ecosystems Monitoring (GEM) network (gem.tropicalforests.ox.ac.uk) the Andes Biodiversity and Ecosystems Research Group ABERG (andesresearch.org) research consortia. Fieldwork and analysis for all sites was supported through a European Research Council advanced investigator grant GEM-TRAITS (321131) to YM. In addition, fieldwork in Peru was further supported grants to YM from the UK Natural Environment Research Council (Grant NE/J023418/1), and in Brazil through a Marie Curie Fellowship to IO (FP7-2012-IEF-327990-TipTropTrans), and in Ghana through a Royal Society-Leverhulme Africa Capacity Building Award to YM and SA-B. GA, and RM were supported by a grant from the John D. and Catherine T. MacArthur Foundation and NSF grant 1457812. BM-J and BM were supported by the Brazilian National Council of Science and Technology [Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)] through CNPq/PPBio project (#457602), productivity grants (PQ-2), and CNPq/PELD (LTER) (#403725/2012-7). Publisher Copyright: © Copyright © 2020 Oliveras, Bentley, Fyllas, Gvozdevaite, Shenkin, Peprah, Morandi, Peixoto, Boakye, Adu-Bredu, Schwantes Marimon, Marimon Junior, Salinas, Martin, Asner, Díaz, Enquist and Malhi.

PY - 2020/3/3

Y1 - 2020/3/3

N2 - Deconstructing functional trait variation and co-variation across a wide range of environmental conditions is necessary to increase the mechanistic understanding of community assembly processes and improve current parameterization of dynamic vegetation models. Here, we present a study that deconstructs leaf trait variation and co-variation into within-species, taxonomic-, and plot-environment components along three tropical environmental gradients in Peru, Brazil, and Ghana. To do so, we measured photosynthetic, chemical, and structural leaf traits using a standardized sampling protocol for more than 1,000 individuals belonging to 367 species. Variation associated with the taxonomic component (species + genus + family) for most traits was relatively consistent across environmental gradients, but within-species variation and plot-environment variation was strongly dependent on the environmental gradient. Trait-trait co-variation was strongly linked to the environmental gradient where traits were measured, although some traits had consistent co-variation components irrespective of gradient. Our results demonstrate that filtering along these tropical gradients is mostly expressed through trait taxonomic variation, but that trait co-variation is strongly dependent on the local environment, and thus global trait co-variation relationships might not always apply at smaller scales and may quickly change under future climate scenarios.

AB - Deconstructing functional trait variation and co-variation across a wide range of environmental conditions is necessary to increase the mechanistic understanding of community assembly processes and improve current parameterization of dynamic vegetation models. Here, we present a study that deconstructs leaf trait variation and co-variation into within-species, taxonomic-, and plot-environment components along three tropical environmental gradients in Peru, Brazil, and Ghana. To do so, we measured photosynthetic, chemical, and structural leaf traits using a standardized sampling protocol for more than 1,000 individuals belonging to 367 species. Variation associated with the taxonomic component (species + genus + family) for most traits was relatively consistent across environmental gradients, but within-species variation and plot-environment variation was strongly dependent on the environmental gradient. Trait-trait co-variation was strongly linked to the environmental gradient where traits were measured, although some traits had consistent co-variation components irrespective of gradient. Our results demonstrate that filtering along these tropical gradients is mostly expressed through trait taxonomic variation, but that trait co-variation is strongly dependent on the local environment, and thus global trait co-variation relationships might not always apply at smaller scales and may quickly change under future climate scenarios.

KW - environmental filtering

KW - interspecific

KW - intraspecific

KW - trait covariation

KW - variance partitioning

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JF - Frontiers in Forests and Global Change

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ER -

The Influence of Taxonomy and Environment on Leaf Trait Variation Along Tropical Abiotic Gradients

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Keywords

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