Assessing the importance of species and their assemblages for the biodiversity-ecosystem multifunctionality relationship

Akira S. Mori; Forest Isbell; Marc W. Cadotte

doi:10.1002/ecy.4104

Assessing the importance of species and their assemblages for the biodiversity-ecosystem multifunctionality relationship

Akira S. Mori, Forest Isbell, Marc W. Cadotte

Ecology, Evolution and Behavior

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Abstract

Biodiversity changes, such as decline in species richness and biotic homogenization, can have grave consequences for ecosystem functionality. Careful investigation of biodiversity–ecosystem multifunctionality linkages with due consideration of conceptual and technical challenges is required to make the knowledge practically useful in managing social–ecological systems. In this paper, we introduced different methods to assess perspectives regarding the issue of diversity-multifunctionality, including a possible multifunctional redundancy/uniqueness, and the influences of the number and identity of functions on multifunctionality. In particular, we aimed to align methods with detecting the mechanisms underpinning diversity-multifunctional relationships that are free from statistical biases. Based on a set of novel methods that excluded analytical biases resulting from differences in the number and identities of multiple functions considered, we found that a substantial portion of species disproportionately supported ecosystem functions and that the diversity effects on multifunctionality were more markedly observed when more functions were considered. These results jointly emphasize that individual species are, to some extent, both functionally unique as well as redundant, highlighting the complexity and necessity for managed assemblages to retain high levels of diversity. We also observed that the relative magnitude of uniqueness or redundancy can differ between species and functions and therefore should be defined in a multifunctional context. We further found that only a small subset of species was identified as significantly less important, especially at low levels of multifunctionality. Taken together, given the low level of multifunctional redundancy we identified, we stress that unraveling the hierarchical roles of biodiversity at different levels, such as individual species and their assemblages, should be a high research priority, in both theory and practice.

Original language	English (US)
Article number	e4104
Journal	Ecology
Volume	104
Issue number	8
DOIs	https://doi.org/10.1002/ecy.4104
State	Published - Aug 2023

Bibliographical note

Funding Information:
Akira S. Mori was supported by the Mitsui & Co., Ltd. Environment Fund (funding no. R17‐0062) and the Grants‐in‐Aid for Scientific Research of the Japan Society for the Promotion of Science (15KK0022). Forest Isbell acknowledges support from the National Science Foundation CAREER award (DEB‐1845334). Marc W. Cadotte was supported by the Natural Sciences and Engineering Research Council of Canada (no. 386151). Logical support for field works in Shiretoko National Park was provided by the Shiretoko Nature Foundation. We thank Sayaka Udo for recalling the analytical approach introduced in this study and for her contributions to the first draft of the manuscript. We also acknowledge Jarrett Byrnes for developing and updating the R multifunc package, and two anonymous reviewers and the Editor for their constructive comments on our paper.

Funding Information:
Akira S. Mori was supported by the Mitsui & Co., Ltd. Environment Fund (funding no. R17-0062) and the Grants-in-Aid for Scientific Research of the Japan Society for the Promotion of Science (15KK0022). Forest Isbell acknowledges support from the National Science Foundation CAREER award (DEB-1845334). Marc W. Cadotte was supported by the Natural Sciences and Engineering Research Council of Canada (no. 386151). Logical support for field works in Shiretoko National Park was provided by the Shiretoko Nature Foundation. We thank Sayaka Udo for recalling the analytical approach introduced in this study and for her contributions to the first draft of the manuscript. We also acknowledge Jarrett Byrnes for developing and updating the R multifunc package, and two anonymous reviewers and the Editor for their constructive comments on our paper.

Publisher Copyright:
© 2023 The Authors. Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.

Keywords

biodiversity conservation
biodiversity–ecosystem multifunctionality linkages
biotic homogenization
ecosystem functionality
multifunctional redundancy/singularity
species richness

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10.1002/ecy.4104

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title = "Assessing the importance of species and their assemblages for the biodiversity-ecosystem multifunctionality relationship",

abstract = "Biodiversity changes, such as decline in species richness and biotic homogenization, can have grave consequences for ecosystem functionality. Careful investigation of biodiversity–ecosystem multifunctionality linkages with due consideration of conceptual and technical challenges is required to make the knowledge practically useful in managing social–ecological systems. In this paper, we introduced different methods to assess perspectives regarding the issue of diversity-multifunctionality, including a possible multifunctional redundancy/uniqueness, and the influences of the number and identity of functions on multifunctionality. In particular, we aimed to align methods with detecting the mechanisms underpinning diversity-multifunctional relationships that are free from statistical biases. Based on a set of novel methods that excluded analytical biases resulting from differences in the number and identities of multiple functions considered, we found that a substantial portion of species disproportionately supported ecosystem functions and that the diversity effects on multifunctionality were more markedly observed when more functions were considered. These results jointly emphasize that individual species are, to some extent, both functionally unique as well as redundant, highlighting the complexity and necessity for managed assemblages to retain high levels of diversity. We also observed that the relative magnitude of uniqueness or redundancy can differ between species and functions and therefore should be defined in a multifunctional context. We further found that only a small subset of species was identified as significantly less important, especially at low levels of multifunctionality. Taken together, given the low level of multifunctional redundancy we identified, we stress that unraveling the hierarchical roles of biodiversity at different levels, such as individual species and their assemblages, should be a high research priority, in both theory and practice.",

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note = "Funding Information: Akira S. Mori was supported by the Mitsui & Co., Ltd. Environment Fund (funding no. R17‐0062) and the Grants‐in‐Aid for Scientific Research of the Japan Society for the Promotion of Science (15KK0022). Forest Isbell acknowledges support from the National Science Foundation CAREER award (DEB‐1845334). Marc W. Cadotte was supported by the Natural Sciences and Engineering Research Council of Canada (no. 386151). Logical support for field works in Shiretoko National Park was provided by the Shiretoko Nature Foundation. We thank Sayaka Udo for recalling the analytical approach introduced in this study and for her contributions to the first draft of the manuscript. We also acknowledge Jarrett Byrnes for developing and updating the R multifunc package, and two anonymous reviewers and the Editor for their constructive comments on our paper. Funding Information: Akira S. Mori was supported by the Mitsui & Co., Ltd. Environment Fund (funding no. R17-0062) and the Grants-in-Aid for Scientific Research of the Japan Society for the Promotion of Science (15KK0022). Forest Isbell acknowledges support from the National Science Foundation CAREER award (DEB-1845334). Marc W. Cadotte was supported by the Natural Sciences and Engineering Research Council of Canada (no. 386151). Logical support for field works in Shiretoko National Park was provided by the Shiretoko Nature Foundation. We thank Sayaka Udo for recalling the analytical approach introduced in this study and for her contributions to the first draft of the manuscript. We also acknowledge Jarrett Byrnes for developing and updating the R multifunc package, and two anonymous reviewers and the Editor for their constructive comments on our paper. Publisher Copyright: {\textcopyright} 2023 The Authors. Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.",

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N2 - Biodiversity changes, such as decline in species richness and biotic homogenization, can have grave consequences for ecosystem functionality. Careful investigation of biodiversity–ecosystem multifunctionality linkages with due consideration of conceptual and technical challenges is required to make the knowledge practically useful in managing social–ecological systems. In this paper, we introduced different methods to assess perspectives regarding the issue of diversity-multifunctionality, including a possible multifunctional redundancy/uniqueness, and the influences of the number and identity of functions on multifunctionality. In particular, we aimed to align methods with detecting the mechanisms underpinning diversity-multifunctional relationships that are free from statistical biases. Based on a set of novel methods that excluded analytical biases resulting from differences in the number and identities of multiple functions considered, we found that a substantial portion of species disproportionately supported ecosystem functions and that the diversity effects on multifunctionality were more markedly observed when more functions were considered. These results jointly emphasize that individual species are, to some extent, both functionally unique as well as redundant, highlighting the complexity and necessity for managed assemblages to retain high levels of diversity. We also observed that the relative magnitude of uniqueness or redundancy can differ between species and functions and therefore should be defined in a multifunctional context. We further found that only a small subset of species was identified as significantly less important, especially at low levels of multifunctionality. Taken together, given the low level of multifunctional redundancy we identified, we stress that unraveling the hierarchical roles of biodiversity at different levels, such as individual species and their assemblages, should be a high research priority, in both theory and practice.

AB - Biodiversity changes, such as decline in species richness and biotic homogenization, can have grave consequences for ecosystem functionality. Careful investigation of biodiversity–ecosystem multifunctionality linkages with due consideration of conceptual and technical challenges is required to make the knowledge practically useful in managing social–ecological systems. In this paper, we introduced different methods to assess perspectives regarding the issue of diversity-multifunctionality, including a possible multifunctional redundancy/uniqueness, and the influences of the number and identity of functions on multifunctionality. In particular, we aimed to align methods with detecting the mechanisms underpinning diversity-multifunctional relationships that are free from statistical biases. Based on a set of novel methods that excluded analytical biases resulting from differences in the number and identities of multiple functions considered, we found that a substantial portion of species disproportionately supported ecosystem functions and that the diversity effects on multifunctionality were more markedly observed when more functions were considered. These results jointly emphasize that individual species are, to some extent, both functionally unique as well as redundant, highlighting the complexity and necessity for managed assemblages to retain high levels of diversity. We also observed that the relative magnitude of uniqueness or redundancy can differ between species and functions and therefore should be defined in a multifunctional context. We further found that only a small subset of species was identified as significantly less important, especially at low levels of multifunctionality. Taken together, given the low level of multifunctional redundancy we identified, we stress that unraveling the hierarchical roles of biodiversity at different levels, such as individual species and their assemblages, should be a high research priority, in both theory and practice.

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KW - multifunctional redundancy/singularity

KW - species richness

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Assessing the importance of species and their assemblages for the biodiversity-ecosystem multifunctionality relationship

Abstract

Bibliographical note

Keywords

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