Rooting for function: community-level fine-root traits relate to many ecosystem functions

Kathryn E. Barry; Justus Hennecke; Alexandra Weigelt; Joana Bergmann; Helge Bruelheide; Grégoire T. Freschet; Colleen M. Iversen; Thomas W. Kuyper; Daniel C. Laughlin; M. Luke McCormack; Catherine Roumet; Fons van der Plas; Jasper van Ruijven; Rachel Wijsmuller; Harald Auge; Nico Eisenhauer; Josephine Haase; Charles A. Nock; Yvonne Oelmann; Wolfgang Wilcke; Liesje Mommer

doi:10.1111/nph.70606

Rooting for function: community-level fine-root traits relate to many ecosystem functions

Kathryn E. Barry
, Justus Hennecke
, Alexandra Weigelt
, Joana Bergmann
, Helge Bruelheide
, Grégoire T. Freschet
, Colleen M. Iversen
, Thomas W. Kuyper
, Daniel C. Laughlin
, M. Luke McCormack
, Catherine Roumet
, Fons van der Plas
, Jasper van Ruijven
, Rachel Wijsmuller
, Harald Auge
, Nico Eisenhauer
, Josephine Haase
, Charles A. Nock
, Yvonne Oelmann
, Wolfgang Wilcke

Liesje Mommer

Plant-Soil Interactions

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

Abstract

Humans are driving biodiversity change, which also alters community functional traits. However, how changes in the functional traits of the community alter ecosystem functions—especially belowground—remains an important gap in our understanding of the consequences of biodiversity change. We test hypotheses for how the root traits of the root economics space (composed of the collaboration and conservation gradients) are associated with proxies for ecosystem functioning across grassland and forest ecosystems in both observational and experimental datasets from 810 plant communities. First, we assessed whether community-weighted means of the root economics space traits adhered to the same trade-offs as species-level root traits. Then, we examined the relationships between community-weighted mean root traits and aboveground biomass production, root standing biomass, soil fauna biomass, soil microbial biomass, decomposition of standard and plot-specific material, ammonification, nitrification, phosphatase activity, and drought resistance. We found evidence for a community collaboration gradient but not for a community conservation gradient. Yet, links between community root traits and ecosystem functions were more common than we expected, especially for aboveground biomass, microbial biomass, and decomposition. These findings suggest that changes in species composition, which alter root trait means, will in turn affect critical ecosystem functions.

Original language	English
Pages (from-to)	3221-3239
Number of pages	19
Journal	New Phytologist
Volume	248
Issue number	6
DOIs	https://doi.org/10.1111/nph.70606
State	Published - Dec 2025

Funding

We thank the establishers, maintainers, coordinators, technical and research staff, and data owners of all involved projects, as well as the contributors of GRooT. We further thank the data contributors Felix Gottschall, Forest Isbell and Claus Florian Stange. The workshop series for this study was supported by the New Phytologist Foundation. We acknowledge the support from iDiv (DFG FZT 118, 202548816). CMI was supported by the Biological and Environmental Research program in the Department of Energy's Office of Science. We further thank the funders of the individual projects: Biodiversity Exploratories (DFG SPP 1374), Cedar Creek (NSF DEB-0620652, DEB-1234162 and DEB-1831944), FunDivEUROPE (EU FP7 – 265171), Jena Experiment (DFG FOR 5000), Kreinitz Experiment (Helmholtz Centre for Environmental Research – UFZ), NEON (US NSF), Wageningen Biodiversity Experiment (NWO 014.22.011) as well as the funders of the studies that collected the data. We thank the establishers, maintainers, coordinators, technical and research staff, and data owners of all involved projects, as well as the contributors of GRooT. We further thank the data contributors Felix Gottschall, Forest Isbell and Claus Florian Stange. The workshop series for this study was supported by the New Phytologist Foundation. We acknowledge the support from iDiv (DFG FZT 118, 202548816). CMI was supported by the Biological and Environmental Research program in the Department of Energy's Office of Science. We further thank the funders of the individual projects: Biodiversity Exploratories (DFG SPP 1374), Cedar Creek (NSF DEB‐0620652, DEB‐1234162 and DEB‐1831944), FunDivEUROPE (EU FP7 – 265171), Jena Experiment (DFG FOR 5000), Kreinitz Experiment (Helmholtz Centre for Environmental Research – UFZ), NEON (US NSF), Wageningen Biodiversity Experiment (NWO 014.22.011) as well as the funders of the studies that collected the data.

Keywords

biodiversity
ecosystem functions
fine roots
functional diversity
root economics space
root traits
trait-functioning relationships

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10.1111/nph.70606

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Barry, K. E., Hennecke, J., Weigelt, A., Bergmann, J., Bruelheide, H., Freschet, G. T., Iversen, C. M., Kuyper, T. W., Laughlin, D. C., McCormack, M. L., Roumet, C., van der Plas, F., van Ruijven, J., Wijsmuller, R., Auge, H., Eisenhauer, N., Haase, J., Nock, C. A., Oelmann, Y., ... Mommer, L. (2025). Rooting for function: community-level fine-root traits relate to many ecosystem functions. New Phytologist, 248(6), 3221-3239. https://doi.org/10.1111/nph.70606

@article{02b2963688224ec1add996db7c229851,

title = "Rooting for function: community-level fine-root traits relate to many ecosystem functions",

abstract = "Humans are driving biodiversity change, which also alters community functional traits. However, how changes in the functional traits of the community alter ecosystem functions—especially belowground—remains an important gap in our understanding of the consequences of biodiversity change. We test hypotheses for how the root traits of the root economics space (composed of the collaboration and conservation gradients) are associated with proxies for ecosystem functioning across grassland and forest ecosystems in both observational and experimental datasets from 810 plant communities. First, we assessed whether community-weighted means of the root economics space traits adhered to the same trade-offs as species-level root traits. Then, we examined the relationships between community-weighted mean root traits and aboveground biomass production, root standing biomass, soil fauna biomass, soil microbial biomass, decomposition of standard and plot-specific material, ammonification, nitrification, phosphatase activity, and drought resistance. We found evidence for a community collaboration gradient but not for a community conservation gradient. Yet, links between community root traits and ecosystem functions were more common than we expected, especially for aboveground biomass, microbial biomass, and decomposition. These findings suggest that changes in species composition, which alter root trait means, will in turn affect critical ecosystem functions.",

keywords = "biodiversity, ecosystem functions, fine roots, functional diversity, root economics space, root traits, trait-functioning relationships",

author = "Barry, \{Kathryn E.\} and Justus Hennecke and Alexandra Weigelt and Joana Bergmann and Helge Bruelheide and Freschet, \{Gr{\'e}goire T.\} and Iversen, \{Colleen M.\} and Kuyper, \{Thomas W.\} and Laughlin, \{Daniel C.\} and McCormack, \{M. Luke\} and Catherine Roumet and \{van der Plas\}, Fons and \{van Ruijven\}, Jasper and Rachel Wijsmuller and Harald Auge and Nico Eisenhauer and Josephine Haase and Nock, \{Charles A.\} and Yvonne Oelmann and Wolfgang Wilcke and Liesje Mommer",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). New Phytologist {\textcopyright} 2025 New Phytologist Foundation.",

year = "2025",

month = dec,

doi = "10.1111/nph.70606",

language = "English",

volume = "248",

pages = "3221--3239",

journal = "New Phytologist",

issn = "0028-646X",

publisher = "wiley",

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Barry, KE, Hennecke, J, Weigelt, A, Bergmann, J, Bruelheide, H, Freschet, GT, Iversen, CM, Kuyper, TW, Laughlin, DC, McCormack, ML, Roumet, C, van der Plas, F, van Ruijven, J, Wijsmuller, R, Auge, H, Eisenhauer, N, Haase, J, Nock, CA, Oelmann, Y, Wilcke, W & Mommer, L 2025, 'Rooting for function: community-level fine-root traits relate to many ecosystem functions', New Phytologist, vol. 248, no. 6, pp. 3221-3239. https://doi.org/10.1111/nph.70606

TY - JOUR

T1 - Rooting for function

T2 - community-level fine-root traits relate to many ecosystem functions

AU - Barry, Kathryn E.

AU - Hennecke, Justus

AU - Weigelt, Alexandra

AU - Bergmann, Joana

AU - Bruelheide, Helge

AU - Freschet, Grégoire T.

AU - Iversen, Colleen M.

AU - Kuyper, Thomas W.

AU - Laughlin, Daniel C.

AU - McCormack, M. Luke

AU - Roumet, Catherine

AU - van der Plas, Fons

AU - van Ruijven, Jasper

AU - Wijsmuller, Rachel

AU - Auge, Harald

AU - Eisenhauer, Nico

AU - Haase, Josephine

AU - Nock, Charles A.

AU - Oelmann, Yvonne

AU - Wilcke, Wolfgang

AU - Mommer, Liesje

PY - 2025/12

Y1 - 2025/12

N2 - Humans are driving biodiversity change, which also alters community functional traits. However, how changes in the functional traits of the community alter ecosystem functions—especially belowground—remains an important gap in our understanding of the consequences of biodiversity change. We test hypotheses for how the root traits of the root economics space (composed of the collaboration and conservation gradients) are associated with proxies for ecosystem functioning across grassland and forest ecosystems in both observational and experimental datasets from 810 plant communities. First, we assessed whether community-weighted means of the root economics space traits adhered to the same trade-offs as species-level root traits. Then, we examined the relationships between community-weighted mean root traits and aboveground biomass production, root standing biomass, soil fauna biomass, soil microbial biomass, decomposition of standard and plot-specific material, ammonification, nitrification, phosphatase activity, and drought resistance. We found evidence for a community collaboration gradient but not for a community conservation gradient. Yet, links between community root traits and ecosystem functions were more common than we expected, especially for aboveground biomass, microbial biomass, and decomposition. These findings suggest that changes in species composition, which alter root trait means, will in turn affect critical ecosystem functions.

AB - Humans are driving biodiversity change, which also alters community functional traits. However, how changes in the functional traits of the community alter ecosystem functions—especially belowground—remains an important gap in our understanding of the consequences of biodiversity change. We test hypotheses for how the root traits of the root economics space (composed of the collaboration and conservation gradients) are associated with proxies for ecosystem functioning across grassland and forest ecosystems in both observational and experimental datasets from 810 plant communities. First, we assessed whether community-weighted means of the root economics space traits adhered to the same trade-offs as species-level root traits. Then, we examined the relationships between community-weighted mean root traits and aboveground biomass production, root standing biomass, soil fauna biomass, soil microbial biomass, decomposition of standard and plot-specific material, ammonification, nitrification, phosphatase activity, and drought resistance. We found evidence for a community collaboration gradient but not for a community conservation gradient. Yet, links between community root traits and ecosystem functions were more common than we expected, especially for aboveground biomass, microbial biomass, and decomposition. These findings suggest that changes in species composition, which alter root trait means, will in turn affect critical ecosystem functions.

KW - biodiversity

KW - ecosystem functions

KW - fine roots

KW - functional diversity

KW - root economics space

KW - root traits

KW - trait-functioning relationships

UR - https://www.scopus.com/pages/publications/105018515634

U2 - 10.1111/nph.70606

DO - 10.1111/nph.70606

M3 - Article

AN - SCOPUS:105018515634

SN - 0028-646X

VL - 248

SP - 3221

EP - 3239

JO - New Phytologist

JF - New Phytologist

IS - 6

ER -

Rooting for function: community-level fine-root traits relate to many ecosystem functions

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Keywords

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