An evolutionary perspective on leaf economics: phylogenetics of leaf mass per area in vascular plants

In plant leaves, resource use follows a trade‐off between rapid resource capture and conservative storage. This “worldwide leaf economics spectrum” consists of a suite of intercorrelated leaf traits, among which leaf mass per area, LMA, is one of the most fundamental as it indicates the cost of leaf...

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Published inEcology and evolution Vol. 4; no. 14; pp. 2799 - 2811
Main Authors Flores, Olivier, Garnier, Eric, Wright, Ian J., Reich, Peter B., Pierce, Simon, Dìaz, Sandra, Pakeman, Robin J., Rusch, Graciela M., Bernard‐Verdier, Maud, Testi, Baptiste, Bakker, Jan P., Bekker, Renée M., Cerabolini, Bruno E. L., Ceriani, Roberta M., Cornu, Guillaume, Cruz, Pablo, Delcamp, Matthieu, Dolezal, Jiri, Eriksson, Ove, Fayolle, Adeline, Freitas, Helena, Golodets, Carly, Gourlet‐Fleury, Sylvie, Hodgson, John G., Brusa, Guido, Kleyer, Michael, Kunzmann, Dieter, Lavorel, Sandra, Papanastasis, Vasilios P., Pérez‐Harguindeguy, Natalia, Vendramini, Fernanda, Weiher, Evan
Format Journal Article
LanguageEnglish
Published England John Wiley & Sons, Inc 01.07.2014
Wiley Open Access
Blackwell Publishing Ltd
Subjects
Biodiversity and Ecology
Biological evolution
Brownian model
Construction costs
Diversification
Economics
Environmental Sciences
Evolution
Flowers & plants
functional trait
Hypotheses
Interception
Leaves
Original Research
Ornstein-Uhlenbeck model
Phenotypes
phenotypic evolution
Phylogenetics
Phylogeny
Plant species
Plants
Woody plants
functional trait
Brownian model
phenotypic evolution
Ornstein–Uhlenbeck model
Ornstein-Uhlenbeck model
Online AccessGet full text

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Abstract In plant leaves, resource use follows a trade‐off between rapid resource capture and conservative storage. This “worldwide leaf economics spectrum” consists of a suite of intercorrelated leaf traits, among which leaf mass per area, LMA, is one of the most fundamental as it indicates the cost of leaf construction and light‐interception borne by plants. We conducted a broad‐scale analysis of the evolutionary history of LMA across a large dataset of 5401 vascular plant species. The phylogenetic signal in LMA displayed low but significant conservatism, that is, leaf economics tended to be more similar among close relatives than expected by chance alone. Models of trait evolution indicated that LMA evolved under weak stabilizing selection. Moreover, results suggest that different optimal phenotypes evolved among large clades within which extremes tended to be selected against. Conservatism in LMA was strongly related to growth form, as were selection intensity and phenotypic evolutionary rates: woody plants showed higher conservatism in relation to stronger stabilizing selection and lower evolutionary rates compared to herbaceous taxa. The evolutionary history of LMA thus paints different evolutionary trajectories of vascular plant species across clades, revealing the coordination of leaf trait evolution with growth forms in response to varying selection regimes. Phylogenetic patterns in a key trait of plants resource‐use strategies, leaf mass per area, are analyzed across a large dataset of vascular plants. Growth forms appear as a major correlate of the tempo of trait evolution. Different phenotypic optima are evidenced major across clades suggesting phylogenetic constraints in the phenotypic evolution of leaves.
AbstractList In plant leaves, resource use follows a trade-off between rapid resource capture and conservative storage. This worldwide leaf economics spectrum consists of a suite of intercorrelated leaf traits, among which leaf mass per area, LMA, is one of the most fundamental as it indicates the cost of leaf construction and light-interception borne by plants. We conducted a broad-scale analysis of the evolutionary history of LMA across a large dataset of 5401 vascular plant species. The phylogenetic signal in LMA displayed low but significant conservatism, that is, leaf economics tended to be more similar among close relatives than expected by chance alone. Models of trait evolution indicated that LMA evolved under weak stabilizing selection. Moreover, results suggest that different optimal phenotypes evolved among large clades within which extremes tended to be selected against. Conservatism in LMA was strongly related to growth form, as were selection intensity and phenotypic evolutionary rates: woody plants showed higher conservatism in relation to stronger stabilizing selection and lower evolutionary rates compared to herbaceous taxa. The evolutionary history of LMA thus paints different evolutionary trajectories of vascular plant species across clades, revealing the coordination of leaf trait evolution with growth forms in response to varying selection regimes.
In plant leaves, resource use follows a trade‐off between rapid resource capture and conservative storage. This “worldwide leaf economics spectrum” consists of a suite of intercorrelated leaf traits, among which leaf mass per area, LMA, is one of the most fundamental as it indicates the cost of leaf construction and light‐interception borne by plants. We conducted a broad‐scale analysis of the evolutionary history of LMA across a large dataset of 5401 vascular plant species. The phylogenetic signal in LMA displayed low but significant conservatism, that is, leaf economics tended to be more similar among close relatives than expected by chance alone. Models of trait evolution indicated that LMA evolved under weak stabilizing selection. Moreover, results suggest that different optimal phenotypes evolved among large clades within which extremes tended to be selected against. Conservatism in LMA was strongly related to growth form, as were selection intensity and phenotypic evolutionary rates: woody plants showed higher conservatism in relation to stronger stabilizing selection and lower evolutionary rates compared to herbaceous taxa. The evolutionary history of LMA thus paints different evolutionary trajectories of vascular plant species across clades, revealing the coordination of leaf trait evolution with growth forms in response to varying selection regimes. Phylogenetic patterns in a key trait of plants resource‐use strategies, leaf mass per area, are analyzed across a large dataset of vascular plants. Growth forms appear as a major correlate of the tempo of trait evolution. Different phenotypic optima are evidenced major across clades suggesting phylogenetic constraints in the phenotypic evolution of leaves.
In plant leaves, resource use follows a trade-off between rapid resource capture and conservative storage. This "worldwide leaf economics spectrum" consists of a suite of intercorrelated leaf traits, among which leaf mass per area, LMA, is one of the most fundamental as it indicates the cost of leaf construction and light-interception borne by plants. We conducted a broad-scale analysis of the evolutionary history of LMA across a large dataset of 5401 vascular plant species. The phylogenetic signal in LMA displayed low but significant conservatism, that is, leaf economics tended to be more similar among close relatives than expected by chance alone. Models of trait evolution indicated that LMA evolved under weak stabilizing selection. Moreover, results suggest that different optimal phenotypes evolved among large clades within which extremes tended to be selected against. Conservatism in LMA was strongly related to growth form, as were selection intensity and phenotypic evolutionary rates: woody plants showed higher conservatism in relation to stronger stabilizing selection and lower evolutionary rates compared to herbaceous taxa. The evolutionary history of LMA thus paints different evolutionary trajectories of vascular plant species across clades, revealing the coordination of leaf trait evolution with growth forms in response to varying selection regimes. Phylogenetic patterns in a key trait of plants resource-use strategies, leaf mass per area, are analyzed across a large dataset of vascular plants. Growth forms appear as a major correlate of the tempo of trait evolution. Different phenotypic optima are evidenced major across clades suggesting phylogenetic constraints in the phenotypic evolution of leaves.
In plant leaves, resource use follows a trade-off between rapid resource capture and conservative storage. This "worldwide leaf economics spectrum" consists of a suite of intercorrelated leaf traits, among which leaf mass per area, LMA, is one of the most fundamental as it indicates the cost of leaf construction and light-interception borne by plants. We conducted a broad-scale analysis of the evolutionary history of LMA across a large dataset of 5401 vascular plant species. The phylogenetic signal in LMA displayed low but significant conservatism, that is, leaf economics tended to be more similar among close relatives than expected by chance alone. Models of trait evolution indicated that LMA evolved under weak stabilizing selection. Moreover, results suggest that different optimal phenotypes evolved among large clades within which extremes tended to be selected against. Conservatism in LMA was strongly related to growth form, as were selection intensity and phenotypic evolutionary rates: woody plants showed higher conservatism in relation to stronger stabilizing selection and lower evolutionary rates compared to herbaceous taxa. The evolutionary history of LMA thus paints different evolutionary trajectories of vascular plant species across clades, revealing the coordination of leaf trait evolution with growth forms in response to varying selection regimes.In plant leaves, resource use follows a trade-off between rapid resource capture and conservative storage. This "worldwide leaf economics spectrum" consists of a suite of intercorrelated leaf traits, among which leaf mass per area, LMA, is one of the most fundamental as it indicates the cost of leaf construction and light-interception borne by plants. We conducted a broad-scale analysis of the evolutionary history of LMA across a large dataset of 5401 vascular plant species. The phylogenetic signal in LMA displayed low but significant conservatism, that is, leaf economics tended to be more similar among close relatives than expected by chance alone. Models of trait evolution indicated that LMA evolved under weak stabilizing selection. Moreover, results suggest that different optimal phenotypes evolved among large clades within which extremes tended to be selected against. Conservatism in LMA was strongly related to growth form, as were selection intensity and phenotypic evolutionary rates: woody plants showed higher conservatism in relation to stronger stabilizing selection and lower evolutionary rates compared to herbaceous taxa. The evolutionary history of LMA thus paints different evolutionary trajectories of vascular plant species across clades, revealing the coordination of leaf trait evolution with growth forms in response to varying selection regimes.
Author Pierce, Simon
Gourlet‐Fleury, Sylvie
Ceriani, Roberta M.
Delcamp, Matthieu
Eriksson, Ove
Bernard‐Verdier, Maud
Papanastasis, Vasilios P.
Freitas, Helena
Garnier, Eric
Flores, Olivier
Hodgson, John G.
Reich, Peter B.
Kleyer, Michael
Dolezal, Jiri
Wright, Ian J.
Rusch, Graciela M.
Kunzmann, Dieter
Lavorel, Sandra
Bekker, Renée M.
Vendramini, Fernanda
Cruz, Pablo
Cornu, Guillaume
Brusa, Guido
Bakker, Jan P.
Weiher, Evan
Cerabolini, Bruno E. L.
Golodets, Carly
Dìaz, Sandra
Pakeman, Robin J.
Testi, Baptiste
Pérez‐Harguindeguy, Natalia
Fayolle, Adeline
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  surname: Weiher
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  organization: University of Wisconsin‐Eau Claire
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Copyright 2014 The Authors. published by John Wiley & Sons Ltd.
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Issue 14
Keywords functional trait
Brownian model
phenotypic evolution
Ornstein–Uhlenbeck model
Ornstein-Uhlenbeck model
Language English
License Attribution
http://creativecommons.org/licenses/by/3.0
Attribution: http://creativecommons.org/licenses/by
This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
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content type line 14
content type line 23
Funding Information This work was supported by the ANR project A-BI-ME (Activités humaines, dynamique et gestion de la BIodiversité en milieu MEditerranéen, ANR-05-BDIV-014, 2006–2008).
ORCID 0000-0002-6770-0031
0000-0002-1416-0449
0000-0002-7300-2811
0000-0002-9392-5154
0000-0002-7523-5176
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Snippet In plant leaves, resource use follows a trade‐off between rapid resource capture and conservative storage. This “worldwide leaf economics spectrum” consists of...
In plant leaves, resource use follows a trade-off between rapid resource capture and conservative storage. This "worldwide leaf economics spectrum" consists of...
In plant leaves, resource use follows a trade-off between rapid resource capture and conservative storage. This “worldwide leaf economics spectrum” consists of...
In plant leaves, resource use follows a trade-off between rapid resource capture and conservative storage. This worldwide leaf economics spectrum consists of a...
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SourceType Open Access Repository
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StartPage 2799
SubjectTerms Biodiversity and Ecology
Biological evolution
Brownian model
Construction costs
Diversification
Economics
Environmental Sciences
Evolution
Flowers & plants
functional trait
Hypotheses
Interception
Leaves
Original Research
Ornstein-Uhlenbeck model
Phenotypes
phenotypic evolution
Phylogenetics
Phylogeny
Plant species
Plants
Woody plants
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Title An evolutionary perspective on leaf economics: phylogenetics of leaf mass per area in vascular plants
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fece3.1087
https://www.ncbi.nlm.nih.gov/pubmed/25165520
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https://pubmed.ncbi.nlm.nih.gov/PMC4130440
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Volume 4
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