Diversity in Resource Use Strategies Promotes Productivity in Young Planted Tree Species Mixtures

Joel Jensen; Haben Blondeel; Joannès Guillemot; Florian Schnabel; Hernán Serrano-León; Harald Auge; Lander Baeten; Nadia Barsoum; Jürgen Bauhus; Christel Baum; Raimundo Bermudez; Friderike Beyer; Pedro Brancalion; Jeannine Cavender-Bares; Nico Eisenhauer; Adam Felton; Olga Ferlian; Sebastian Fiedler; Tobias Gebauer; Douglas L. Godbold; Peter Hajek; Jefferson S. Hall; Dirk Hölscher; Hervé Jactel; Holger Kreft; Cathleen Lapadat; Chloe MacLaren; Nicolas Martin-StPaul; Céline Meredieu; Simone Mereu; Christian Messier; Rebecca A. Montgomery; Bart Muys; Charles A. Nock; John D. Parker; William C. Parker; Gustavo B. Paterno; Michael P. Perring; Quentin Ponette; Catherine Potvin; Peter B. Reich; James Rentch; Boris Rewald; Agnès Robin; Michael Scherer-Lorenzen; Hans Sandén; Katherine Sinacore; Rachel J. Standish; Artur Stefanski; Kris Verheyen; Laura J. Williams; Martin Weih

doi:10.1111/gcb.70493

Diversity in Resource Use Strategies Promotes Productivity in Young Planted Tree Species Mixtures

Joel Jensen
, Haben Blondeel
, Joannès Guillemot
, Florian Schnabel
, Hernán Serrano-León
, Harald Auge
, Lander Baeten
, Nadia Barsoum
, Jürgen Bauhus
, Christel Baum
, Raimundo Bermudez
, Friderike Beyer
, Pedro Brancalion
, Jeannine Cavender-Bares
, Nico Eisenhauer
, Adam Felton
, Olga Ferlian
, Sebastian Fiedler
, Tobias Gebauer
, Douglas L. Godbold

Peter Hajek, Jefferson S. Hall, Dirk Hölscher, Hervé Jactel, Holger Kreft, Cathleen Lapadat, Chloe MacLaren, Nicolas Martin-StPaul, Céline Meredieu, Simone Mereu, Christian Messier, Rebecca A. Montgomery, Bart Muys, Charles A. Nock, John D. Parker, William C. Parker, Gustavo B. Paterno, Michael P. Perring, Quentin Ponette, Catherine Potvin, Peter B. Reich, James Rentch, Boris Rewald, Agnès Robin, Michael Scherer-Lorenzen, Hans Sandén, Katherine Sinacore, Rachel J. Standish, Artur Stefanski, Kris Verheyen, Laura J. Williams, Martin Weih

Hawkesbury Institute for the Environment

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

2 Citations (Scopus)

1 Downloads (Pure)

Abstract

Mixed-species forestry is a promising approach to enhance productivity, increase carbon sequestration, and mitigate climate change. Diverse forests, composed of species with varying structures and functional trait profiles, may have higher functional and structural diversity, which are attributes relevant to a number of mechanisms that can influence productivity. However, it remains unclear whether the context-dependent roles of functional identity, functional diversity, and structural diversity can lead to a generalized understanding of tree diversity effects on stand productivity. To address these gaps, we analyzed growth data from 83,600 trees from 89 species across 21 young tree diversity experiments spanning five continents and three biomes. Results revealed a positive saturating relationship between tree species richness and stand productivity, with reduced variability in growth rates among more diverse stands. Structural equation modeling demonstrated that functional diversity mediated the positive effects of species richness on productivity. We additionally report a negative relationship between structural diversity and productivity, which decreased with increasing species richness. When partitioning net diversity effects, we found that selection effects played a dominant role in driving the overall increase in productivity in these predominantly young stands, contributing 77% of the net diversity effect. Selection effects increased with diversity in wood density. Furthermore, acquisitive species with lower wood density and higher leaf nitrogen content had higher productivity in more diverse stands, while conservative species showed neutral to slightly negative responses to species mixing. Together, these results suggest that combining acquisitive with conservative species allows acquisitive species to drive positive selection effects while conservative species tolerate competition. Thus, contrasting resource-use strategies can enhance productivity to optimize mixed-species forestry, with potential for both ecological and economic benefits.

Original language	English
Article number	e70493
Journal	Global change biology
Volume	31
Issue number	9
DOIs	https://doi.org/10.1111/gcb.70493
Publication status	Published - Sept 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Global Change Biology published by John Wiley & Sons Ltd.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 8 Decent Work and Economic Growth
SDG 12 Responsible Consumption and Production
SDG 13 Climate Action
SDG 15 Life on Land

Keywords

TreeDivNet
climate change mitigation
complementarity effects
forest management
functional traits
mixed-species forest plantations
selection effects
tree species richness

Access to Document

10.1111/gcb.70493

Cite this

Jensen, J., Blondeel, H., Guillemot, J., Schnabel, F., Serrano-León, H., Auge, H., Baeten, L., Barsoum, N., Bauhus, J., Baum, C., Bermudez, R., Beyer, F., Brancalion, P., Cavender-Bares, J., Eisenhauer, N., Felton, A., Ferlian, O., Fiedler, S., Gebauer, T., ... Weih, M. (2025). Diversity in Resource Use Strategies Promotes Productivity in Young Planted Tree Species Mixtures. Global change biology, 31(9), Article e70493. https://doi.org/10.1111/gcb.70493

@article{1a646b621dad472180db739e1f89feb3,

title = "Diversity in Resource Use Strategies Promotes Productivity in Young Planted Tree Species Mixtures",

abstract = "Mixed-species forestry is a promising approach to enhance productivity, increase carbon sequestration, and mitigate climate change. Diverse forests, composed of species with varying structures and functional trait profiles, may have higher functional and structural diversity, which are attributes relevant to a number of mechanisms that can influence productivity. However, it remains unclear whether the context-dependent roles of functional identity, functional diversity, and structural diversity can lead to a generalized understanding of tree diversity effects on stand productivity. To address these gaps, we analyzed growth data from 83,600 trees from 89 species across 21 young tree diversity experiments spanning five continents and three biomes. Results revealed a positive saturating relationship between tree species richness and stand productivity, with reduced variability in growth rates among more diverse stands. Structural equation modeling demonstrated that functional diversity mediated the positive effects of species richness on productivity. We additionally report a negative relationship between structural diversity and productivity, which decreased with increasing species richness. When partitioning net diversity effects, we found that selection effects played a dominant role in driving the overall increase in productivity in these predominantly young stands, contributing 77\% of the net diversity effect. Selection effects increased with diversity in wood density. Furthermore, acquisitive species with lower wood density and higher leaf nitrogen content had higher productivity in more diverse stands, while conservative species showed neutral to slightly negative responses to species mixing. Together, these results suggest that combining acquisitive with conservative species allows acquisitive species to drive positive selection effects while conservative species tolerate competition. Thus, contrasting resource-use strategies can enhance productivity to optimize mixed-species forestry, with potential for both ecological and economic benefits.",

keywords = "TreeDivNet, climate change mitigation, complementarity effects, forest management, functional traits, mixed-species forest plantations, selection effects, tree species richness",

author = "Joel Jensen and Haben Blondeel and Joann{\`e}s Guillemot and Florian Schnabel and Hern{\'a}n Serrano-Le{\'o}n and Harald Auge and Lander Baeten and Nadia Barsoum and J{\"u}rgen Bauhus and Christel Baum and Raimundo Bermudez and Friderike Beyer and Pedro Brancalion and Jeannine Cavender-Bares and Nico Eisenhauer and Adam Felton and Olga Ferlian and Sebastian Fiedler and Tobias Gebauer and Godbold, \{Douglas L.\} and Peter Hajek and Hall, \{Jefferson S.\} and Dirk H{\"o}lscher and Herv{\'e} Jactel and Holger Kreft and Cathleen Lapadat and Chloe MacLaren and Nicolas Martin-StPaul and C{\'e}line Meredieu and Simone Mereu and Christian Messier and Montgomery, \{Rebecca A.\} and Bart Muys and Nock, \{Charles A.\} and Parker, \{John D.\} and Parker, \{William C.\} and Paterno, \{Gustavo B.\} and Perring, \{Michael P.\} and Quentin Ponette and Catherine Potvin and Reich, \{Peter B.\} and James Rentch and Boris Rewald and Agn{\`e}s Robin and Michael Scherer-Lorenzen and Hans Sand{\'e}n and Katherine Sinacore and Standish, \{Rachel J.\} and Artur Stefanski and Kris Verheyen and Williams, \{Laura J.\} and Martin Weih",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Global Change Biology published by John Wiley \& Sons Ltd.",

year = "2025",

month = sep,

doi = "10.1111/gcb.70493",

language = "English",

volume = "31",

journal = "Global change biology",

issn = "1354-1013",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "9",

}

Jensen, J, Blondeel, H, Guillemot, J, Schnabel, F, Serrano-León, H, Auge, H, Baeten, L, Barsoum, N, Bauhus, J, Baum, C, Bermudez, R, Beyer, F, Brancalion, P, Cavender-Bares, J, Eisenhauer, N, Felton, A, Ferlian, O, Fiedler, S, Gebauer, T, Godbold, DL, Hajek, P, Hall, JS, Hölscher, D, Jactel, H, Kreft, H, Lapadat, C, MacLaren, C, Martin-StPaul, N, Meredieu, C, Mereu, S, Messier, C, Montgomery, RA, Muys, B, Nock, CA, Parker, JD, Parker, WC, Paterno, GB, Perring, MP, Ponette, Q, Potvin, C, Reich, PB, Rentch, J, Rewald, B, Robin, A, Scherer-Lorenzen, M, Sandén, H, Sinacore, K, Standish, RJ, Stefanski, A, Verheyen, K, Williams, LJ & Weih, M 2025, 'Diversity in Resource Use Strategies Promotes Productivity in Young Planted Tree Species Mixtures', Global change biology, vol. 31, no. 9, e70493. https://doi.org/10.1111/gcb.70493

TY - JOUR

T1 - Diversity in Resource Use Strategies Promotes Productivity in Young Planted Tree Species Mixtures

AU - Jensen, Joel

AU - Blondeel, Haben

AU - Guillemot, Joannès

AU - Schnabel, Florian

AU - Serrano-León, Hernán

AU - Auge, Harald

AU - Baeten, Lander

AU - Barsoum, Nadia

AU - Bauhus, Jürgen

AU - Baum, Christel

AU - Bermudez, Raimundo

AU - Beyer, Friderike

AU - Brancalion, Pedro

AU - Cavender-Bares, Jeannine

AU - Eisenhauer, Nico

AU - Felton, Adam

AU - Ferlian, Olga

AU - Fiedler, Sebastian

AU - Gebauer, Tobias

AU - Godbold, Douglas L.

AU - Hajek, Peter

AU - Hall, Jefferson S.

AU - Hölscher, Dirk

AU - Jactel, Hervé

AU - Kreft, Holger

AU - Lapadat, Cathleen

AU - MacLaren, Chloe

AU - Martin-StPaul, Nicolas

AU - Meredieu, Céline

AU - Mereu, Simone

AU - Messier, Christian

AU - Montgomery, Rebecca A.

AU - Muys, Bart

AU - Nock, Charles A.

AU - Parker, John D.

AU - Parker, William C.

AU - Paterno, Gustavo B.

AU - Perring, Michael P.

AU - Ponette, Quentin

AU - Potvin, Catherine

AU - Reich, Peter B.

AU - Rentch, James

AU - Rewald, Boris

AU - Robin, Agnès

AU - Scherer-Lorenzen, Michael

AU - Sandén, Hans

AU - Sinacore, Katherine

AU - Standish, Rachel J.

AU - Stefanski, Artur

AU - Verheyen, Kris

AU - Williams, Laura J.

AU - Weih, Martin

PY - 2025/9

Y1 - 2025/9

N2 - Mixed-species forestry is a promising approach to enhance productivity, increase carbon sequestration, and mitigate climate change. Diverse forests, composed of species with varying structures and functional trait profiles, may have higher functional and structural diversity, which are attributes relevant to a number of mechanisms that can influence productivity. However, it remains unclear whether the context-dependent roles of functional identity, functional diversity, and structural diversity can lead to a generalized understanding of tree diversity effects on stand productivity. To address these gaps, we analyzed growth data from 83,600 trees from 89 species across 21 young tree diversity experiments spanning five continents and three biomes. Results revealed a positive saturating relationship between tree species richness and stand productivity, with reduced variability in growth rates among more diverse stands. Structural equation modeling demonstrated that functional diversity mediated the positive effects of species richness on productivity. We additionally report a negative relationship between structural diversity and productivity, which decreased with increasing species richness. When partitioning net diversity effects, we found that selection effects played a dominant role in driving the overall increase in productivity in these predominantly young stands, contributing 77% of the net diversity effect. Selection effects increased with diversity in wood density. Furthermore, acquisitive species with lower wood density and higher leaf nitrogen content had higher productivity in more diverse stands, while conservative species showed neutral to slightly negative responses to species mixing. Together, these results suggest that combining acquisitive with conservative species allows acquisitive species to drive positive selection effects while conservative species tolerate competition. Thus, contrasting resource-use strategies can enhance productivity to optimize mixed-species forestry, with potential for both ecological and economic benefits.

AB - Mixed-species forestry is a promising approach to enhance productivity, increase carbon sequestration, and mitigate climate change. Diverse forests, composed of species with varying structures and functional trait profiles, may have higher functional and structural diversity, which are attributes relevant to a number of mechanisms that can influence productivity. However, it remains unclear whether the context-dependent roles of functional identity, functional diversity, and structural diversity can lead to a generalized understanding of tree diversity effects on stand productivity. To address these gaps, we analyzed growth data from 83,600 trees from 89 species across 21 young tree diversity experiments spanning five continents and three biomes. Results revealed a positive saturating relationship between tree species richness and stand productivity, with reduced variability in growth rates among more diverse stands. Structural equation modeling demonstrated that functional diversity mediated the positive effects of species richness on productivity. We additionally report a negative relationship between structural diversity and productivity, which decreased with increasing species richness. When partitioning net diversity effects, we found that selection effects played a dominant role in driving the overall increase in productivity in these predominantly young stands, contributing 77% of the net diversity effect. Selection effects increased with diversity in wood density. Furthermore, acquisitive species with lower wood density and higher leaf nitrogen content had higher productivity in more diverse stands, while conservative species showed neutral to slightly negative responses to species mixing. Together, these results suggest that combining acquisitive with conservative species allows acquisitive species to drive positive selection effects while conservative species tolerate competition. Thus, contrasting resource-use strategies can enhance productivity to optimize mixed-species forestry, with potential for both ecological and economic benefits.

KW - TreeDivNet

KW - climate change mitigation

KW - complementarity effects

KW - forest management

KW - functional traits

KW - mixed-species forest plantations

KW - selection effects

KW - tree species richness

UR - https://www.scopus.com/pages/publications/105017414858

U2 - 10.1111/gcb.70493

DO - 10.1111/gcb.70493

M3 - Article

C2 - 41013876

AN - SCOPUS:105017414858

SN - 1354-1013

VL - 31

JO - Global change biology

JF - Global change biology

IS - 9

M1 - e70493

ER -

Diversity in Resource Use Strategies Promotes Productivity in Young Planted Tree Species Mixtures

Abstract

Bibliographical note

UN SDGs

Keywords

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