Trait structure and redundancy determine sensitivity to disturbance in marine fish communities

Matthew McLean; Arnaud Auber; Nicholas A.J. Graham; Peter Houk; Sébastien Villéger; Cyrille Violle; Wilfried Thuiller; Shaun K. Wilson; David Mouillot

doi:10.1111/gcb.14662

Trait structure and redundancy determine sensitivity to disturbance in marine fish communities

Matthew McLean, Arnaud Auber, Nicholas A.J. Graham, Peter Houk, Sébastien Villéger, Cyrille Violle, Wilfried Thuiller, Shaun K. Wilson, David Mouillot

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

79 Citations (Scopus)

Abstract

Trait diversity is believed to influence ecosystem dynamics through links between organismal traits and ecosystem processes. Theory predicts that key traits and high trait redundancy—large species richness and abundance supporting the same traits—can buffer communities against environmental disturbances. While experiments and data from simple ecological systems lend support, large-scale evidence from diverse, natural systems under major disturbance is lacking. Here, using long-term data from both temperate (English Channel) and tropical (Seychelles Islands) fishes, we show that sensitivity to disturbance depends on communities’ initial trait structure and initial trait redundancy. In both ecosystems, we found that increasing dominance by climatically vulnerable traits (e.g., small, fast-growing pelagics/corallivores) rendered fish communities more sensitive to environmental change, while communities with higher trait redundancy were more resistant. To our knowledge, this is the first study demonstrating the influence of trait structure and redundancy on community sensitivity over large temporal and spatial scales in natural systems. Our results exemplify a consistent link between biological structure and community sensitivity that may be transferable across ecosystems and taxa and could help anticipate future disturbance impacts on biodiversity and ecosystem functioning.

Original language	English
Pages (from-to)	3424-3437
Number of pages	14
Journal	Global Change Biology
Volume	25
Issue number	10
DOIs	https://doi.org/10.1111/gcb.14662
Publication status	Published - Oct 1 2019
Externally published	Yes

Bibliographical note

Funding Information:
We sincerely thank all scientists who contributed to this work, especially those who participated in fisheries monitoring and data collection in the Eastern English Channel and Seychelles Islands. In particular, we thank IFREMER, the Seychelles Fishing Authority, Seychelles Marine Parks Authority, and Nature Seychelles whose logistical contributions made this work possible, and Simon Jennings who collected the 1994 Seychelles data. We also thank le centre de synthèse et d'analyse sur la biodiversité (CESAB) for providing a collaborative research environment that helped advance this work. This study was supported by Electricité de France, IFREMER, Région Hauts-de-France (RESTICLIM project), and the Total Foundation (FUTURE REEFS project).

Publisher Copyright:
© 2019 John Wiley & Sons Ltd

ASJC Scopus Subject Areas

Global and Planetary Change
Environmental Chemistry
Ecology
General Environmental Science

UN SDGs

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

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10.1111/gcb.14662

Cite this

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title = "Trait structure and redundancy determine sensitivity to disturbance in marine fish communities",

abstract = "Trait diversity is believed to influence ecosystem dynamics through links between organismal traits and ecosystem processes. Theory predicts that key traits and high trait redundancy—large species richness and abundance supporting the same traits—can buffer communities against environmental disturbances. While experiments and data from simple ecological systems lend support, large-scale evidence from diverse, natural systems under major disturbance is lacking. Here, using long-term data from both temperate (English Channel) and tropical (Seychelles Islands) fishes, we show that sensitivity to disturbance depends on communities{\textquoteright} initial trait structure and initial trait redundancy. In both ecosystems, we found that increasing dominance by climatically vulnerable traits (e.g., small, fast-growing pelagics/corallivores) rendered fish communities more sensitive to environmental change, while communities with higher trait redundancy were more resistant. To our knowledge, this is the first study demonstrating the influence of trait structure and redundancy on community sensitivity over large temporal and spatial scales in natural systems. Our results exemplify a consistent link between biological structure and community sensitivity that may be transferable across ecosystems and taxa and could help anticipate future disturbance impacts on biodiversity and ecosystem functioning.",

author = "Matthew McLean and Arnaud Auber and Graham, {Nicholas A.J.} and Peter Houk and S{\'e}bastien Vill{\'e}ger and Cyrille Violle and Wilfried Thuiller and Wilson, {Shaun K.} and David Mouillot",

note = "Funding Information: We sincerely thank all scientists who contributed to this work, especially those who participated in fisheries monitoring and data collection in the Eastern English Channel and Seychelles Islands. In particular, we thank IFREMER, the Seychelles Fishing Authority, Seychelles Marine Parks Authority, and Nature Seychelles whose logistical contributions made this work possible, and Simon Jennings who collected the 1994 Seychelles data. We also thank le centre de synth{\`e}se et d'analyse sur la biodiversit{\'e} (CESAB) for providing a collaborative research environment that helped advance this work. This study was supported by Electricit{\'e} de France, IFREMER, R{\'e}gion Hauts-de-France (RESTICLIM project), and the Total Foundation (FUTURE REEFS project). Publisher Copyright: {\textcopyright} 2019 John Wiley & Sons Ltd",

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AU - Auber, Arnaud

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AU - Violle, Cyrille

AU - Thuiller, Wilfried

AU - Wilson, Shaun K.

AU - Mouillot, David

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N2 - Trait diversity is believed to influence ecosystem dynamics through links between organismal traits and ecosystem processes. Theory predicts that key traits and high trait redundancy—large species richness and abundance supporting the same traits—can buffer communities against environmental disturbances. While experiments and data from simple ecological systems lend support, large-scale evidence from diverse, natural systems under major disturbance is lacking. Here, using long-term data from both temperate (English Channel) and tropical (Seychelles Islands) fishes, we show that sensitivity to disturbance depends on communities’ initial trait structure and initial trait redundancy. In both ecosystems, we found that increasing dominance by climatically vulnerable traits (e.g., small, fast-growing pelagics/corallivores) rendered fish communities more sensitive to environmental change, while communities with higher trait redundancy were more resistant. To our knowledge, this is the first study demonstrating the influence of trait structure and redundancy on community sensitivity over large temporal and spatial scales in natural systems. Our results exemplify a consistent link between biological structure and community sensitivity that may be transferable across ecosystems and taxa and could help anticipate future disturbance impacts on biodiversity and ecosystem functioning.

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Trait structure and redundancy determine sensitivity to disturbance in marine fish communities

Abstract

Bibliographical note

ASJC Scopus Subject Areas

UN SDGs

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