New handbook for standardised measurement of plant functional traits worldwide

N. Pérez-Harguindeguy; S. Díaz; E. Garnier; S. Lavorel; H. Poorter; P. Jaureguiberry; M. S. Bret-Harte; W. K. Cornwell; J. M. Craine; D. E. Gurvich; C. Urcelay; E. J. Veneklaas; P. B. Reich; L. Poorter; I. J. Wright; P. Ray; L. Enrico; J. G. Pausas; A. C. De Vos; N. Buchmann; G. Funes; F. Quétier; J. G. Hodgson; K. Thompson; H. D. Morgan; H. Ter Steege; M. G.A. Van Der Heijden; L. Sack; B. Blonder; P. Poschlod; M. V. Vaieretti; G. Conti; A. C. Staver; S. Aquino; J. H.C. Cornelissen

doi:10.1071/BT12225

New handbook for standardised measurement of plant functional traits worldwide

N. Pérez-Harguindeguy, S. Díaz, E. Garnier, S. Lavorel, H. Poorter, P. Jaureguiberry, M. S. Bret-Harte, W. K. Cornwell, J. M. Craine, D. E. Gurvich, C. Urcelay, E. J. Veneklaas, P. B. Reich, L. Poorter, I. J. Wright, P. Ray, L. Enrico, J. G. Pausas, A. C. De Vos, N. BuchmannG. Funes, F. Quétier, J. G. Hodgson, K. Thompson, H. D. Morgan, H. Ter Steege, M. G.A. Van Der Heijden, L. Sack, B. Blonder, P. Poschlod, M. V. Vaieretti, G. Conti, A. C. Staver, S. Aquino, J. H.C. Cornelissen

Arizona State University

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

2954 Scopus citations

Abstract

Plant functional traits are the features (morphological, physiological, phenological) that represent ecological strategies and determine how plants respond to environmental factors, affect other trophic levels and influence ecosystem properties. Variation in plant functional traits, and trait syndromes, has proven useful for tackling many important ecological questions at a range of scales, giving rise to a demand for standardised ways to measure ecologically meaningful plant traits. This line of research has been among the most fruitful avenues for understanding ecological and evolutionary patterns and processes. It also has the potential both to build a predictive set of local, regional and global relationships between plants and environment and to quantify a wide range of natural and human-driven processes, including changes in biodiversity, the impacts of species invasions, alterations in biogeochemical processes and vegetation-atmosphere interactions. The importance of these topics dictates the urgent need for more and better data, and increases the value of standardised protocols for quantifying trait variation of different species, in particular for traits with power to predict plant-and ecosystem-level processes, and for traits that can be measured relatively easily. Updated and expanded from the widely used previous version, this handbook retains the focus on clearly presented, widely applicable, step-by-step recipes, with a minimum of text on theory, and not only includes updated methods for the traits previously covered, but also introduces many new protocols for further traits. This new handbook has a better balance between whole-plant traits, leaf traits, root and stem traits and regenerative traits, and puts particular emphasis on traits important for predicting species' effects on key ecosystem properties. We hope this new handbook becomes a standard companion in local and global efforts to learn about the responses and impacts of different plant species with respect to environmental changes in the present, past and future.

Original language	English (US)
Pages (from-to)	167-234
Number of pages	68
Journal	Australian Journal of Botany
Volume	61
Issue number	3
DOIs	https://doi.org/10.1071/BT12225
State	Published - 2013

Keywords

biodiversity
ecophysiology
ecosystem dynamics
ecosystem functions
environmental change
plant morphology.

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Plant Science

Access to Document

10.1071/BT12225

Cite this

Pérez-Harguindeguy, N., Díaz, S., Garnier, E., Lavorel, S., Poorter, H., Jaureguiberry, P., Bret-Harte, M. S., Cornwell, W. K., Craine, J. M., Gurvich, D. E., Urcelay, C., Veneklaas, E. J., Reich, P. B., Poorter, L., Wright, I. J., Ray, P., Enrico, L., Pausas, J. G., De Vos, A. C., ... Cornelissen, J. H. C. (2013). New handbook for standardised measurement of plant functional traits worldwide. Australian Journal of Botany, 61(3), 167-234. https://doi.org/10.1071/BT12225

Pérez-Harguindeguy, N, Díaz, S, Garnier, E, Lavorel, S, Poorter, H, Jaureguiberry, P, Bret-Harte, MS, Cornwell, WK, Craine, JM, Gurvich, DE, Urcelay, C, Veneklaas, EJ, Reich, PB, Poorter, L, Wright, IJ, Ray, P, Enrico, L, Pausas, JG, De Vos, AC, Buchmann, N, Funes, G, Quétier, F, Hodgson, JG, Thompson, K, Morgan, HD, Ter Steege, H, Van Der Heijden, MGA, Sack, L, Blonder, B, Poschlod, P, Vaieretti, MV, Conti, G, Staver, AC, Aquino, S & Cornelissen, JHC 2013, 'New handbook for standardised measurement of plant functional traits worldwide', Australian Journal of Botany, vol. 61, no. 3, pp. 167-234. https://doi.org/10.1071/BT12225

@article{d89f3509920f4859a00e42276ab8caf1,

title = "New handbook for standardised measurement of plant functional traits worldwide",

abstract = "Plant functional traits are the features (morphological, physiological, phenological) that represent ecological strategies and determine how plants respond to environmental factors, affect other trophic levels and influence ecosystem properties. Variation in plant functional traits, and trait syndromes, has proven useful for tackling many important ecological questions at a range of scales, giving rise to a demand for standardised ways to measure ecologically meaningful plant traits. This line of research has been among the most fruitful avenues for understanding ecological and evolutionary patterns and processes. It also has the potential both to build a predictive set of local, regional and global relationships between plants and environment and to quantify a wide range of natural and human-driven processes, including changes in biodiversity, the impacts of species invasions, alterations in biogeochemical processes and vegetation-atmosphere interactions. The importance of these topics dictates the urgent need for more and better data, and increases the value of standardised protocols for quantifying trait variation of different species, in particular for traits with power to predict plant-and ecosystem-level processes, and for traits that can be measured relatively easily. Updated and expanded from the widely used previous version, this handbook retains the focus on clearly presented, widely applicable, step-by-step recipes, with a minimum of text on theory, and not only includes updated methods for the traits previously covered, but also introduces many new protocols for further traits. This new handbook has a better balance between whole-plant traits, leaf traits, root and stem traits and regenerative traits, and puts particular emphasis on traits important for predicting species' effects on key ecosystem properties. We hope this new handbook becomes a standard companion in local and global efforts to learn about the responses and impacts of different plant species with respect to environmental changes in the present, past and future.",

keywords = "biodiversity, ecophysiology, ecosystem dynamics, ecosystem functions, environmental change, plant morphology.",

author = "N. P{\'e}rez-Harguindeguy and S. D{\'i}az and E. Garnier and S. Lavorel and H. Poorter and P. Jaureguiberry and Bret-Harte, {M. S.} and Cornwell, {W. K.} and Craine, {J. M.} and Gurvich, {D. E.} and C. Urcelay and Veneklaas, {E. J.} and Reich, {P. B.} and L. Poorter and Wright, {I. J.} and P. Ray and L. Enrico and Pausas, {J. G.} and {De Vos}, {A. C.} and N. Buchmann and G. Funes and F. Qu{\'e}tier and Hodgson, {J. G.} and K. Thompson and Morgan, {H. D.} and {Ter Steege}, H. and {Van Der Heijden}, {M. G.A.} and L. Sack and B. Blonder and P. Poschlod and Vaieretti, {M. V.} and G. Conti and Staver, {A. C.} and S. Aquino and Cornelissen, {J. H.C.}",

note = "Funding Information: This contribution was funded, in part, by the Inter-American Institute for Global Change Research (IAI) CRN 2015 and SGP-CRA2015, which were supported by US National Science Foundation Grants GEO-0452325 and GEO-1138881 The work was also funded by FONCyT (PICT 20441 and 365), CONICET (PIP 2006-2011 11220080101532), SECYT-Universidad Nacional de C{\'o}rdoba – Argentina, and the US NSF (DEB-0620652). The authors particularly thank Phil Grime and the UCPE–University of Sheffield, and Mark Westoby and the ARC–NZ Network of Vegetation Function–Macquarie University, for inspiring discussion and development of trait measurement. The authors also thank Marcelo Cabido, William Bond, Paula Tecco, Fernando Casanoves and Bryan Finegan for valuable discussions. The authors thank Diana Abal Solis and Juan Pablo Bellini for assistance with figures and diagrams and Valeria Falczuk for technical assistance in the laboratory. The authors appreciate helpful comments of Adrienne Nicotra, Hans Lambers and one anonymous reviewer, which greatly improved the quality of the manuscript. Many users of the previous handbook gave useful feedback on trait measurements. Finally, we thank plant species around the world for beginning to give away the secrets of their functioning and ecosystem-level impacts.",

year = "2013",

doi = "10.1071/BT12225",

language = "English (US)",

volume = "61",

pages = "167--234",

journal = "Australian Journal of Botany",

issn = "0067-1924",

publisher = "CSIRO",

number = "3",

}

TY - JOUR

T1 - New handbook for standardised measurement of plant functional traits worldwide

AU - Pérez-Harguindeguy, N.

AU - Díaz, S.

AU - Garnier, E.

AU - Lavorel, S.

AU - Poorter, H.

AU - Jaureguiberry, P.

AU - Bret-Harte, M. S.

AU - Cornwell, W. K.

AU - Craine, J. M.

AU - Gurvich, D. E.

AU - Urcelay, C.

AU - Veneklaas, E. J.

AU - Reich, P. B.

AU - Poorter, L.

AU - Wright, I. J.

AU - Ray, P.

AU - Enrico, L.

AU - Pausas, J. G.

AU - De Vos, A. C.

AU - Buchmann, N.

AU - Funes, G.

AU - Quétier, F.

AU - Hodgson, J. G.

AU - Thompson, K.

AU - Morgan, H. D.

AU - Ter Steege, H.

AU - Van Der Heijden, M. G.A.

AU - Sack, L.

AU - Blonder, B.

AU - Poschlod, P.

AU - Vaieretti, M. V.

AU - Conti, G.

AU - Staver, A. C.

AU - Aquino, S.

AU - Cornelissen, J. H.C.

N1 - Funding Information: This contribution was funded, in part, by the Inter-American Institute for Global Change Research (IAI) CRN 2015 and SGP-CRA2015, which were supported by US National Science Foundation Grants GEO-0452325 and GEO-1138881 The work was also funded by FONCyT (PICT 20441 and 365), CONICET (PIP 2006-2011 11220080101532), SECYT-Universidad Nacional de Córdoba – Argentina, and the US NSF (DEB-0620652). The authors particularly thank Phil Grime and the UCPE–University of Sheffield, and Mark Westoby and the ARC–NZ Network of Vegetation Function–Macquarie University, for inspiring discussion and development of trait measurement. The authors also thank Marcelo Cabido, William Bond, Paula Tecco, Fernando Casanoves and Bryan Finegan for valuable discussions. The authors thank Diana Abal Solis and Juan Pablo Bellini for assistance with figures and diagrams and Valeria Falczuk for technical assistance in the laboratory. The authors appreciate helpful comments of Adrienne Nicotra, Hans Lambers and one anonymous reviewer, which greatly improved the quality of the manuscript. Many users of the previous handbook gave useful feedback on trait measurements. Finally, we thank plant species around the world for beginning to give away the secrets of their functioning and ecosystem-level impacts.

PY - 2013

Y1 - 2013

N2 - Plant functional traits are the features (morphological, physiological, phenological) that represent ecological strategies and determine how plants respond to environmental factors, affect other trophic levels and influence ecosystem properties. Variation in plant functional traits, and trait syndromes, has proven useful for tackling many important ecological questions at a range of scales, giving rise to a demand for standardised ways to measure ecologically meaningful plant traits. This line of research has been among the most fruitful avenues for understanding ecological and evolutionary patterns and processes. It also has the potential both to build a predictive set of local, regional and global relationships between plants and environment and to quantify a wide range of natural and human-driven processes, including changes in biodiversity, the impacts of species invasions, alterations in biogeochemical processes and vegetation-atmosphere interactions. The importance of these topics dictates the urgent need for more and better data, and increases the value of standardised protocols for quantifying trait variation of different species, in particular for traits with power to predict plant-and ecosystem-level processes, and for traits that can be measured relatively easily. Updated and expanded from the widely used previous version, this handbook retains the focus on clearly presented, widely applicable, step-by-step recipes, with a minimum of text on theory, and not only includes updated methods for the traits previously covered, but also introduces many new protocols for further traits. This new handbook has a better balance between whole-plant traits, leaf traits, root and stem traits and regenerative traits, and puts particular emphasis on traits important for predicting species' effects on key ecosystem properties. We hope this new handbook becomes a standard companion in local and global efforts to learn about the responses and impacts of different plant species with respect to environmental changes in the present, past and future.

AB - Plant functional traits are the features (morphological, physiological, phenological) that represent ecological strategies and determine how plants respond to environmental factors, affect other trophic levels and influence ecosystem properties. Variation in plant functional traits, and trait syndromes, has proven useful for tackling many important ecological questions at a range of scales, giving rise to a demand for standardised ways to measure ecologically meaningful plant traits. This line of research has been among the most fruitful avenues for understanding ecological and evolutionary patterns and processes. It also has the potential both to build a predictive set of local, regional and global relationships between plants and environment and to quantify a wide range of natural and human-driven processes, including changes in biodiversity, the impacts of species invasions, alterations in biogeochemical processes and vegetation-atmosphere interactions. The importance of these topics dictates the urgent need for more and better data, and increases the value of standardised protocols for quantifying trait variation of different species, in particular for traits with power to predict plant-and ecosystem-level processes, and for traits that can be measured relatively easily. Updated and expanded from the widely used previous version, this handbook retains the focus on clearly presented, widely applicable, step-by-step recipes, with a minimum of text on theory, and not only includes updated methods for the traits previously covered, but also introduces many new protocols for further traits. This new handbook has a better balance between whole-plant traits, leaf traits, root and stem traits and regenerative traits, and puts particular emphasis on traits important for predicting species' effects on key ecosystem properties. We hope this new handbook becomes a standard companion in local and global efforts to learn about the responses and impacts of different plant species with respect to environmental changes in the present, past and future.

KW - biodiversity

KW - ecophysiology

KW - ecosystem dynamics

KW - ecosystem functions

KW - environmental change

KW - plant morphology.

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U2 - 10.1071/BT12225

DO - 10.1071/BT12225

M3 - Article

AN - SCOPUS:84878093794

SN - 0067-1924

VL - 61

SP - 167

EP - 234

JO - Australian Journal of Botany

JF - Australian Journal of Botany

IS - 3

ER -

New handbook for standardised measurement of plant functional traits worldwide

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