Leaf-level coordination principles propagate to the ecosystem scale

Ulisse Gomarasca; Mirco Migliavacca; Jens Kattge; Jacob A. Nelson; Ülo Niinemets; Christian Wirth; Alessandro Cescatti; Michael Bahn; Richard Nair; Alicia T.R. Acosta; M. Altaf Arain; Mirela Beloiu; T. Andrew Black; Hans Henrik Bruun; Solveig Franziska Bucher; Nina Buchmann; Chaeho Byun; Arnaud Carrara; Adriano Conte; Ana C. da Silva; Gregory Duveiller; Silvano Fares; Andreas Ibrom; Alexander Knohl; Benjamin Komac; Jean Marc Limousin; Christopher H. Lusk; Miguel D. Mahecha; David Martini; Vanessa Minden; Leonardo Montagnani; Akira S. Mori; Yusuke Onoda; Josep Peñuelas; Oscar Perez-Priego; Peter Poschlod; Thomas L. Powell; Peter B. Reich; Ladislav Šigut; Peter M. van Bodegom; Sophia Walther; Georg Wohlfahrt; Ian J. Wright; Markus Reichstein

doi:10.1038/s41467-023-39572-5

Leaf-level coordination principles propagate to the ecosystem scale

Ulisse Gomarasca, Mirco Migliavacca, Jens Kattge, Jacob A. Nelson, Ülo Niinemets, Christian Wirth, Alessandro Cescatti, Michael Bahn, Richard Nair, Alicia T.R. Acosta, M. Altaf Arain, Mirela Beloiu, T. Andrew Black, Hans Henrik Bruun, Solveig Franziska Bucher, Nina Buchmann, Chaeho Byun, Arnaud Carrara, Adriano Conte, Ana C. da SilvaGregory Duveiller, Silvano Fares, Andreas Ibrom, Alexander Knohl, Benjamin Komac, Jean Marc Limousin, Christopher H. Lusk, Miguel D. Mahecha, David Martini, Vanessa Minden, Leonardo Montagnani, Akira S. Mori, Yusuke Onoda, Josep Peñuelas, Oscar Perez-Priego, Peter Poschlod, Thomas L. Powell, Peter B. Reich, Ladislav Šigut, Peter M. van Bodegom, Sophia Walther, Georg Wohlfahrt, Ian J. Wright, Markus Reichstein

Hawkesbury Institute for the Environment

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Abstract

Fundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories" the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis" are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.

Original language	English
Article number	3948
Number of pages	11
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-39572-5 https://doi.org/10.1038/s41467-023-39572-5
Publication status	Published - Dec 2023

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Publisher Copyright:
© 2023, The Author(s).

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Gomarasca, U., Migliavacca, M., Kattge, J., Nelson, J. A., Niinemets, Ü., Wirth, C., Cescatti, A., Bahn, M., Nair, R., Acosta, A. T. R., Arain, M. A., Beloiu, M., Black, T. A., Bruun, H. H., Bucher, S. F., Buchmann, N., Byun, C., Carrara, A., Conte, A., ... Reichstein, M. (2023). Leaf-level coordination principles propagate to the ecosystem scale. Nature Communications, 14(1), Article 3948. https://doi.org/10.1038/s41467-023-39572-5, https://doi.org/10.1038/s41467-023-39572-5

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title = "Leaf-level coordination principles propagate to the ecosystem scale",

abstract = "Fundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories{"} the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis{"} are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.",

author = "Ulisse Gomarasca and Mirco Migliavacca and Jens Kattge and Nelson, {Jacob A.} and {\"U}lo Niinemets and Christian Wirth and Alessandro Cescatti and Michael Bahn and Richard Nair and Acosta, {Alicia T.R.} and Arain, {M. Altaf} and Mirela Beloiu and Black, {T. Andrew} and Bruun, {Hans Henrik} and Bucher, {Solveig Franziska} and Nina Buchmann and Chaeho Byun and Arnaud Carrara and Adriano Conte and {da Silva}, {Ana C.} and Gregory Duveiller and Silvano Fares and Andreas Ibrom and Alexander Knohl and Benjamin Komac and Limousin, {Jean Marc} and Lusk, {Christopher H.} and Mahecha, {Miguel D.} and David Martini and Vanessa Minden and Leonardo Montagnani and Mori, {Akira S.} and Yusuke Onoda and Josep Pe{\~n}uelas and Oscar Perez-Priego and Peter Poschlod and Powell, {Thomas L.} and Reich, {Peter B.} and Ladislav {\v S}igut and {van Bodegom}, {Peter M.} and Sophia Walther and Georg Wohlfahrt and Wright, {Ian J.} and Markus Reichstein",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41467-023-39572-5",

language = "English",

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journal = "Nature Communications",

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Gomarasca, U, Migliavacca, M, Kattge, J, Nelson, JA, Niinemets, Ü, Wirth, C, Cescatti, A, Bahn, M, Nair, R, Acosta, ATR, Arain, MA, Beloiu, M, Black, TA, Bruun, HH, Bucher, SF, Buchmann, N, Byun, C, Carrara, A, Conte, A, da Silva, AC, Duveiller, G, Fares, S, Ibrom, A, Knohl, A, Komac, B, Limousin, JM, Lusk, CH, Mahecha, MD, Martini, D, Minden, V, Montagnani, L, Mori, AS, Onoda, Y, Peñuelas, J, Perez-Priego, O, Poschlod, P, Powell, TL, Reich, PB, Šigut, L, van Bodegom, PM, Walther, S, Wohlfahrt, G, Wright, IJ & Reichstein, M 2023, 'Leaf-level coordination principles propagate to the ecosystem scale', Nature Communications, vol. 14, no. 1, 3948. https://doi.org/10.1038/s41467-023-39572-5, https://doi.org/10.1038/s41467-023-39572-5

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T1 - Leaf-level coordination principles propagate to the ecosystem scale

AU - Gomarasca, Ulisse

AU - Migliavacca, Mirco

AU - Kattge, Jens

AU - Nelson, Jacob A.

AU - Niinemets, Ülo

AU - Wirth, Christian

AU - Cescatti, Alessandro

AU - Bahn, Michael

AU - Nair, Richard

AU - Acosta, Alicia T.R.

AU - Arain, M. Altaf

AU - Beloiu, Mirela

AU - Black, T. Andrew

AU - Bruun, Hans Henrik

AU - Bucher, Solveig Franziska

AU - Buchmann, Nina

AU - Byun, Chaeho

AU - Carrara, Arnaud

AU - Conte, Adriano

AU - da Silva, Ana C.

AU - Duveiller, Gregory

AU - Fares, Silvano

AU - Ibrom, Andreas

AU - Knohl, Alexander

AU - Komac, Benjamin

AU - Limousin, Jean Marc

AU - Lusk, Christopher H.

AU - Mahecha, Miguel D.

AU - Martini, David

AU - Minden, Vanessa

AU - Montagnani, Leonardo

AU - Mori, Akira S.

AU - Onoda, Yusuke

AU - Peñuelas, Josep

AU - Perez-Priego, Oscar

AU - Poschlod, Peter

AU - Powell, Thomas L.

AU - Reich, Peter B.

AU - Šigut, Ladislav

AU - van Bodegom, Peter M.

AU - Walther, Sophia

AU - Wohlfahrt, Georg

AU - Wright, Ian J.

AU - Reichstein, Markus

PY - 2023/12

Y1 - 2023/12

N2 - Fundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories" the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis" are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.

AB - Fundamental axes of variation in plant traits result from trade-offs between costs and benefits of resource-use strategies at the leaf scale. However, it is unclear whether similar trade-offs propagate to the ecosystem level. Here, we test whether trait correlation patterns predicted by three well-known leaf- and plant-level coordination theories" the leaf economics spectrum, the global spectrum of plant form and function, and the least-cost hypothesis" are also observed between community mean traits and ecosystem processes. We combined ecosystem functional properties from FLUXNET sites, vegetation properties, and community mean plant traits into three corresponding principal component analyses. We find that the leaf economics spectrum (90 sites), the global spectrum of plant form and function (89 sites), and the least-cost hypothesis (82 sites) all propagate at the ecosystem level. However, we also find evidence of additional scale-emergent properties. Evaluating the coordination of ecosystem functional properties may aid the development of more realistic global dynamic vegetation models with critical empirical data, reducing the uncertainty of climate change projections.

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U2 - 10.1038/s41467-023-39572-5

DO - 10.1038/s41467-023-39572-5

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SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3948

ER -

Leaf-level coordination principles propagate to the ecosystem scale

Abstract

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