Trade-offs among restored ecosystem functions are context-dependent in Mediterranean-type regions

Sebastian Fiedler; Michael P. Perring; José A. Monteiro; Cristina Branquinho; Oksana Buzhdygan; Lohengrin A. Cavieres; Elsa E. Cleland; Jordi Cortina-Segarra; José M. Grünzweig; Jennifer A. Holm; Katja Irob; Trevor F. Keenan; Melanie Köbel; Fernando T. Maestre; Jörn Pagel; Natalia Rodríguez-Ramírez; Paloma Ruiz-Benito; Frank M. Schurr; Efrat Sheffer; Enrique Valencia; Britta Tietjen

doi:10.1002/ecog.07609

Trade-offs among restored ecosystem functions are context-dependent in Mediterranean-type regions

Sebastian Fiedler^*, Michael P. Perring, José A. Monteiro, Cristina Branquinho, Oksana Buzhdygan, Lohengrin A. Cavieres, Elsa E. Cleland, Jordi Cortina-Segarra, José M. Grünzweig, Jennifer A. Holm, Katja Irob, Trevor F. Keenan, Melanie Köbel, Fernando T. Maestre, Jörn Pagel, Natalia Rodríguez-Ramírez, Paloma Ruiz-Benito, Frank M. Schurr, Efrat Sheffer, Enrique ValenciaBritta Tietjen

^*Corresponding author for this work

Institute of Plant Sciences and Genetics in Agriculture

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

Abstract

Global biodiversity hotspots, including Mediterranean-type ecosystems worldwide, are highly threatened by global change that alters biodiversity, ecosystem functions, and services. Some restoration activities enhance ecosystem functions by reintroducing plant species based on known relationships between plant traits and ecosystem processes. Achieving multiple functions across different site conditions, however, requires understanding how abiotic factors like climate and soil, along with plant assemblages, influence ecosystem functions, including their trade-offs and synergies. We used the ModEST ecosystem simulation model, which integrates carbon, water, and nutrient processes with plant traits, to assess the relationships between restored plant assemblages and ecosystem functions in Mediterranean-type climates and soils. We investigated whether maximised carbon increment, water use efficiency, and nitrogen use efficiency, along with their trade-offs and synergies, varied across different abiotic contexts. Further, we asked whether assemblages that maximised functions varied across environments and among these functions. We found that maximised ecosystem carbon increment and nitrogen use efficiency occurred under moist, warm conditions, while water use efficiency peaked under drier conditions. Generally, the assemblage that maximised one function differed from those for other maximised functions. Synergies were rare, except between water and nitrogen use efficiencies in loam soils across most climates. Trade-offs among maximised functions were common, varying in strength with abiotic context and plant assemblages, and were more pronounced in sandy loam soils compared to clay-rich soils. Our findings suggest that due to variation in abiotic conditions within and across Mediterranean-type regions at the global scale, site-specific plant assemblages are required to maximise ecosystem functions. Thus, lessons from a single site cannot be transferred to another site, even where the same plant functional types are available for restoration. Our simulation results offer valuable insights into potential ecosystem performance under specific abiotic conditions following restoration with particular plant functional types, thereby informing local restoration efforts.

Original language	English
Journal	Ecography
DOIs	https://doi.org/10.1002/ecog.07609
State	Accepted/In press - 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Ecography published by John Wiley & Sons Ltd on behalf of Nordic Society Oikos.

Keywords

biotic and abiotic context
ecosystem functioning
ecosystem restoration
Mediterranean-type ecosystems (MTEs)
process-based simulation modelling
trade-offs and synergies

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10.1002/ecog.07609

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Fiedler, S., Perring, M. P., Monteiro, J. A., Branquinho, C., Buzhdygan, O., Cavieres, L. A., Cleland, E. E., Cortina-Segarra, J., Grünzweig, J. M., Holm, J. A., Irob, K., Keenan, T. F., Köbel, M., Maestre, F. T., Pagel, J., Rodríguez-Ramírez, N., Ruiz-Benito, P., Schurr, F. M., Sheffer, E., ... Tietjen, B. (Accepted/In press). Trade-offs among restored ecosystem functions are context-dependent in Mediterranean-type regions. Ecography. https://doi.org/10.1002/ecog.07609

@article{18b743867228404eb36754cc247a2c91,

title = "Trade-offs among restored ecosystem functions are context-dependent in Mediterranean-type regions",

abstract = "Global biodiversity hotspots, including Mediterranean-type ecosystems worldwide, are highly threatened by global change that alters biodiversity, ecosystem functions, and services. Some restoration activities enhance ecosystem functions by reintroducing plant species based on known relationships between plant traits and ecosystem processes. Achieving multiple functions across different site conditions, however, requires understanding how abiotic factors like climate and soil, along with plant assemblages, influence ecosystem functions, including their trade-offs and synergies. We used the ModEST ecosystem simulation model, which integrates carbon, water, and nutrient processes with plant traits, to assess the relationships between restored plant assemblages and ecosystem functions in Mediterranean-type climates and soils. We investigated whether maximised carbon increment, water use efficiency, and nitrogen use efficiency, along with their trade-offs and synergies, varied across different abiotic contexts. Further, we asked whether assemblages that maximised functions varied across environments and among these functions. We found that maximised ecosystem carbon increment and nitrogen use efficiency occurred under moist, warm conditions, while water use efficiency peaked under drier conditions. Generally, the assemblage that maximised one function differed from those for other maximised functions. Synergies were rare, except between water and nitrogen use efficiencies in loam soils across most climates. Trade-offs among maximised functions were common, varying in strength with abiotic context and plant assemblages, and were more pronounced in sandy loam soils compared to clay-rich soils. Our findings suggest that due to variation in abiotic conditions within and across Mediterranean-type regions at the global scale, site-specific plant assemblages are required to maximise ecosystem functions. Thus, lessons from a single site cannot be transferred to another site, even where the same plant functional types are available for restoration. Our simulation results offer valuable insights into potential ecosystem performance under specific abiotic conditions following restoration with particular plant functional types, thereby informing local restoration efforts.",

keywords = "biotic and abiotic context, ecosystem functioning, ecosystem restoration, Mediterranean-type ecosystems (MTEs), process-based simulation modelling, trade-offs and synergies",

author = "Sebastian Fiedler and Perring, {Michael P.} and Monteiro, {Jos{\'e} A.} and Cristina Branquinho and Oksana Buzhdygan and Cavieres, {Lohengrin A.} and Cleland, {Elsa E.} and Jordi Cortina-Segarra and Gr{\"u}nzweig, {Jos{\'e} M.} and Holm, {Jennifer A.} and Katja Irob and Keenan, {Trevor F.} and Melanie K{\"o}bel and Maestre, {Fernando T.} and J{\"o}rn Pagel and Natalia Rodr{\'i}guez-Ram{\'i}rez and Paloma Ruiz-Benito and Schurr, {Frank M.} and Efrat Sheffer and Enrique Valencia and Britta Tietjen",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Ecography published by John Wiley & Sons Ltd on behalf of Nordic Society Oikos.",

year = "2025",

doi = "10.1002/ecog.07609",

language = "אנגלית",

journal = "Ecography",

issn = "0906-7590",

publisher = "Wiley-Blackwell Publishing Ltd",

}

Fiedler, S, Perring, MP, Monteiro, JA, Branquinho, C, Buzhdygan, O, Cavieres, LA, Cleland, EE, Cortina-Segarra, J, Grünzweig, JM, Holm, JA, Irob, K, Keenan, TF, Köbel, M, Maestre, FT, Pagel, J, Rodríguez-Ramírez, N, Ruiz-Benito, P, Schurr, FM, Sheffer, E, Valencia, E & Tietjen, B 2025, 'Trade-offs among restored ecosystem functions are context-dependent in Mediterranean-type regions', Ecography. https://doi.org/10.1002/ecog.07609

TY - JOUR

T1 - Trade-offs among restored ecosystem functions are context-dependent in Mediterranean-type regions

AU - Fiedler, Sebastian

AU - Perring, Michael P.

AU - Monteiro, José A.

AU - Branquinho, Cristina

AU - Buzhdygan, Oksana

AU - Cavieres, Lohengrin A.

AU - Cleland, Elsa E.

AU - Cortina-Segarra, Jordi

AU - Grünzweig, José M.

AU - Holm, Jennifer A.

AU - Irob, Katja

AU - Keenan, Trevor F.

AU - Köbel, Melanie

AU - Maestre, Fernando T.

AU - Pagel, Jörn

AU - Rodríguez-Ramírez, Natalia

AU - Ruiz-Benito, Paloma

AU - Schurr, Frank M.

AU - Sheffer, Efrat

AU - Valencia, Enrique

AU - Tietjen, Britta

PY - 2025

Y1 - 2025

N2 - Global biodiversity hotspots, including Mediterranean-type ecosystems worldwide, are highly threatened by global change that alters biodiversity, ecosystem functions, and services. Some restoration activities enhance ecosystem functions by reintroducing plant species based on known relationships between plant traits and ecosystem processes. Achieving multiple functions across different site conditions, however, requires understanding how abiotic factors like climate and soil, along with plant assemblages, influence ecosystem functions, including their trade-offs and synergies. We used the ModEST ecosystem simulation model, which integrates carbon, water, and nutrient processes with plant traits, to assess the relationships between restored plant assemblages and ecosystem functions in Mediterranean-type climates and soils. We investigated whether maximised carbon increment, water use efficiency, and nitrogen use efficiency, along with their trade-offs and synergies, varied across different abiotic contexts. Further, we asked whether assemblages that maximised functions varied across environments and among these functions. We found that maximised ecosystem carbon increment and nitrogen use efficiency occurred under moist, warm conditions, while water use efficiency peaked under drier conditions. Generally, the assemblage that maximised one function differed from those for other maximised functions. Synergies were rare, except between water and nitrogen use efficiencies in loam soils across most climates. Trade-offs among maximised functions were common, varying in strength with abiotic context and plant assemblages, and were more pronounced in sandy loam soils compared to clay-rich soils. Our findings suggest that due to variation in abiotic conditions within and across Mediterranean-type regions at the global scale, site-specific plant assemblages are required to maximise ecosystem functions. Thus, lessons from a single site cannot be transferred to another site, even where the same plant functional types are available for restoration. Our simulation results offer valuable insights into potential ecosystem performance under specific abiotic conditions following restoration with particular plant functional types, thereby informing local restoration efforts.

AB - Global biodiversity hotspots, including Mediterranean-type ecosystems worldwide, are highly threatened by global change that alters biodiversity, ecosystem functions, and services. Some restoration activities enhance ecosystem functions by reintroducing plant species based on known relationships between plant traits and ecosystem processes. Achieving multiple functions across different site conditions, however, requires understanding how abiotic factors like climate and soil, along with plant assemblages, influence ecosystem functions, including their trade-offs and synergies. We used the ModEST ecosystem simulation model, which integrates carbon, water, and nutrient processes with plant traits, to assess the relationships between restored plant assemblages and ecosystem functions in Mediterranean-type climates and soils. We investigated whether maximised carbon increment, water use efficiency, and nitrogen use efficiency, along with their trade-offs and synergies, varied across different abiotic contexts. Further, we asked whether assemblages that maximised functions varied across environments and among these functions. We found that maximised ecosystem carbon increment and nitrogen use efficiency occurred under moist, warm conditions, while water use efficiency peaked under drier conditions. Generally, the assemblage that maximised one function differed from those for other maximised functions. Synergies were rare, except between water and nitrogen use efficiencies in loam soils across most climates. Trade-offs among maximised functions were common, varying in strength with abiotic context and plant assemblages, and were more pronounced in sandy loam soils compared to clay-rich soils. Our findings suggest that due to variation in abiotic conditions within and across Mediterranean-type regions at the global scale, site-specific plant assemblages are required to maximise ecosystem functions. Thus, lessons from a single site cannot be transferred to another site, even where the same plant functional types are available for restoration. Our simulation results offer valuable insights into potential ecosystem performance under specific abiotic conditions following restoration with particular plant functional types, thereby informing local restoration efforts.

KW - biotic and abiotic context

KW - ecosystem functioning

KW - ecosystem restoration

KW - Mediterranean-type ecosystems (MTEs)

KW - process-based simulation modelling

KW - trade-offs and synergies

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DO - 10.1002/ecog.07609

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SN - 0906-7590

JO - Ecography

JF - Ecography

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Trade-offs among restored ecosystem functions are context-dependent in Mediterranean-type regions

Abstract

Bibliographical note

Keywords

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