Root traits as drivers of plant and ecosystem functioning: current understanding, pitfalls and future research needs

Grégoire T. Freschet; Catherine Roumet; Louise H. Comas; Monique Weemstra; A. Glyn Bengough; Boris Rewald; Richard D. Bardgett; Gerlinde B. De Deyn; David Johnson; Jitka Klimešová; Martin Lukac; M. Luke McCormack; Ina C. Meier; Loïc Pagès; Hendrik Poorter; Iván Prieto; Nina Wurzburger; Marcin Zadworny; Agnieszka Bagniewska-Zadworna; Elison B. Blancaflor; Ivano Brunner; Arthur Gessler; Sarah E. Hobbie; Colleen M. Iversen; Liesje Mommer; Catherine Picon-Cochard; Johannes A. Postma; Laura Rose; Peter Ryser; Michael Scherer-Lorenzen; Nadejda A. Soudzilovskaia; Tao Sun; Oscar J. Valverde-Barrantes; Alexandra Weigelt; Larry M. York; Alexia Stokes

doi:10.1111/nph.17072

Root traits as drivers of plant and ecosystem functioning: current understanding, pitfalls and future research needs

Grégoire T. Freschet, Catherine Roumet, Louise H. Comas, Monique Weemstra, A. Glyn Bengough, Boris Rewald, Richard D. Bardgett, Gerlinde B. De Deyn, David Johnson, Jitka Klimešová, Martin Lukac, M. Luke McCormack, Ina C. Meier, Loïc Pagès, Hendrik Poorter, Iván Prieto, Nina Wurzburger, Marcin Zadworny, Agnieszka Bagniewska-Zadworna, Elison B. BlancaflorIvano Brunner, Arthur Gessler, Sarah E. Hobbie, Colleen M. Iversen, Liesje Mommer, Catherine Picon-Cochard, Johannes A. Postma, Laura Rose, Peter Ryser, Michael Scherer-Lorenzen, Nadejda A. Soudzilovskaia, Tao Sun, Oscar J. Valverde-Barrantes, Alexandra Weigelt, Larry M. York, Alexia Stokes

Ecology, Evolution and Behavior

Research output: Contribution to journal › Comment/debate › peer-review

268 Scopus citations

Abstract

The effects of plants on the biosphere, atmosphere and geosphere are key determinants of terrestrial ecosystem functioning. However, despite substantial progress made regarding plant belowground components, we are still only beginning to explore the complex relationships between root traits and functions. Drawing on the literature in plant physiology, ecophysiology, ecology, agronomy and soil science, we reviewed 24 aspects of plant and ecosystem functioning and their relationships with a number of root system traits, including aspects of architecture, physiology, morphology, anatomy, chemistry, biomechanics and biotic interactions. Based on this assessment, we critically evaluated the current strengths and gaps in our knowledge, and identify future research challenges in the field of root ecology. Most importantly, we found that belowground traits with the broadest importance in plant and ecosystem functioning are not those most commonly measured. Also, the estimation of trait relative importance for functioning requires us to consider a more comprehensive range of functionally relevant traits from a diverse range of species, across environments and over time series. We also advocate that establishing causal hierarchical links among root traits will provide a hypothesis-based framework to identify the most parsimonious sets of traits with the strongest links on functions, and to link genotypes to plant and ecosystem functioning.

Original language	English (US)
Pages (from-to)	1123-1158
Number of pages	36
Journal	New Phytologist
Volume	232
Issue number	3
DOIs	https://doi.org/10.1111/nph.17072
State	Published - Nov 2021

Bibliographical note

Publisher Copyright:
© 2021 The Authors. New Phytologist © 2021 New Phytologist Foundation

Keywords

belowground ecology
ecosystem properties and processes
environmental gradients
plant functions
root traits
spatial and temporal scales
trait causal relationships
trait covariation

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Freschet, G. T., Roumet, C., Comas, L. H., Weemstra, M., Bengough, A. G., Rewald, B., Bardgett, R. D., De Deyn, G. B., Johnson, D., Klimešová, J., Lukac, M., McCormack, M. L., Meier, I. C., Pagès, L., Poorter, H., Prieto, I., Wurzburger, N., Zadworny, M., Bagniewska-Zadworna, A., ... Stokes, A. (2021). Root traits as drivers of plant and ecosystem functioning: current understanding, pitfalls and future research needs. New Phytologist, 232(3), 1123-1158. https://doi.org/10.1111/nph.17072

Freschet, GT, Roumet, C, Comas, LH, Weemstra, M, Bengough, AG, Rewald, B, Bardgett, RD, De Deyn, GB, Johnson, D, Klimešová, J, Lukac, M, McCormack, ML, Meier, IC, Pagès, L, Poorter, H, Prieto, I, Wurzburger, N, Zadworny, M, Bagniewska-Zadworna, A, Blancaflor, EB, Brunner, I, Gessler, A, Hobbie, SE, Iversen, CM, Mommer, L, Picon-Cochard, C, Postma, JA, Rose, L, Ryser, P, Scherer-Lorenzen, M, Soudzilovskaia, NA, Sun, T, Valverde-Barrantes, OJ, Weigelt, A, York, LM & Stokes, A 2021, 'Root traits as drivers of plant and ecosystem functioning: current understanding, pitfalls and future research needs', New Phytologist, vol. 232, no. 3, pp. 1123-1158. https://doi.org/10.1111/nph.17072

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abstract = "The effects of plants on the biosphere, atmosphere and geosphere are key determinants of terrestrial ecosystem functioning. However, despite substantial progress made regarding plant belowground components, we are still only beginning to explore the complex relationships between root traits and functions. Drawing on the literature in plant physiology, ecophysiology, ecology, agronomy and soil science, we reviewed 24 aspects of plant and ecosystem functioning and their relationships with a number of root system traits, including aspects of architecture, physiology, morphology, anatomy, chemistry, biomechanics and biotic interactions. Based on this assessment, we critically evaluated the current strengths and gaps in our knowledge, and identify future research challenges in the field of root ecology. Most importantly, we found that belowground traits with the broadest importance in plant and ecosystem functioning are not those most commonly measured. Also, the estimation of trait relative importance for functioning requires us to consider a more comprehensive range of functionally relevant traits from a diverse range of species, across environments and over time series. We also advocate that establishing causal hierarchical links among root traits will provide a hypothesis-based framework to identify the most parsimonious sets of traits with the strongest links on functions, and to link genotypes to plant and ecosystem functioning.",

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AU - Comas, Louise H.

AU - Weemstra, Monique

AU - Bengough, A. Glyn

AU - Rewald, Boris

AU - Bardgett, Richard D.

AU - De Deyn, Gerlinde B.

AU - Johnson, David

AU - Klimešová, Jitka

AU - Lukac, Martin

AU - McCormack, M. Luke

AU - Meier, Ina C.

AU - Pagès, Loïc

AU - Poorter, Hendrik

AU - Prieto, Iván

AU - Wurzburger, Nina

AU - Zadworny, Marcin

AU - Bagniewska-Zadworna, Agnieszka

AU - Blancaflor, Elison B.

AU - Brunner, Ivano

AU - Gessler, Arthur

AU - Hobbie, Sarah E.

AU - Iversen, Colleen M.

AU - Mommer, Liesje

AU - Picon-Cochard, Catherine

AU - Postma, Johannes A.

AU - Rose, Laura

AU - Ryser, Peter

AU - Scherer-Lorenzen, Michael

AU - Soudzilovskaia, Nadejda A.

AU - Sun, Tao

AU - Valverde-Barrantes, Oscar J.

AU - Weigelt, Alexandra

AU - York, Larry M.

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AB - The effects of plants on the biosphere, atmosphere and geosphere are key determinants of terrestrial ecosystem functioning. However, despite substantial progress made regarding plant belowground components, we are still only beginning to explore the complex relationships between root traits and functions. Drawing on the literature in plant physiology, ecophysiology, ecology, agronomy and soil science, we reviewed 24 aspects of plant and ecosystem functioning and their relationships with a number of root system traits, including aspects of architecture, physiology, morphology, anatomy, chemistry, biomechanics and biotic interactions. Based on this assessment, we critically evaluated the current strengths and gaps in our knowledge, and identify future research challenges in the field of root ecology. Most importantly, we found that belowground traits with the broadest importance in plant and ecosystem functioning are not those most commonly measured. Also, the estimation of trait relative importance for functioning requires us to consider a more comprehensive range of functionally relevant traits from a diverse range of species, across environments and over time series. We also advocate that establishing causal hierarchical links among root traits will provide a hypothesis-based framework to identify the most parsimonious sets of traits with the strongest links on functions, and to link genotypes to plant and ecosystem functioning.

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KW - ecosystem properties and processes

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KW - plant functions

KW - root traits

KW - spatial and temporal scales

KW - trait causal relationships

KW - trait covariation

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JO - New Phytologist

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IS - 3

ER -

Root traits as drivers of plant and ecosystem functioning: current understanding, pitfalls and future research needs

Abstract

Bibliographical note

Keywords

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