Horizontal and vertical diversity jointly shape food web stability against small and large perturbations

Qinghua Zhao, Paul J. Van den Brink, Camille Carpentier, Yingying X.G. Wang, Pablo Rodríguez-Sánchez, Chi Xu, Silke Vollbrecht, Frits Gillissen, Marlies Vollebregt, Shaopeng Wang, Frederik De Laender

Research output: Contribution to journalLetterAcademicpeer-review

Abstract

The biodiversity of food webs is composed of horizontal (i.e. within trophic levels) and vertical diversity (i.e. the number of trophic levels). Understanding their joint effect on stability is a key challenge. Theory mostly considers their individual effects and focuses on small perturbations near equilibrium in hypothetical food webs. Here, we study the joint effects of horizontal and vertical diversity on the stability of hypothetical (modelled) and empirical food webs. In modelled food webs, horizontal and vertical diversity increased and decreased stability, respectively, with a stronger positive effect of producer diversity on stability at higher consumer diversity. Experiments with an empirical plankton food web, where we manipulated horizontal and vertical diversity and measured stability from species interactions and from resilience against large perturbations, confirmed these predictions. Taken together, our findings highlight the need to conserve horizontal biodiversity at different trophic levels to ensure stability.

LanguageEnglish
Pages1152-1162
JournalEcology Letters
Volume22
Issue number7
Early online date16 May 2019
DOIs
Publication statusPublished - Jul 2019

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food webs
food web
perturbation
trophic level
biodiversity
plankton
prediction
effect
trophic levels
experiment

Keywords

  • Equilibrium
  • horizontal diversity
  • large perturbations
  • small perturbations
  • stability
  • vertical diversity

Cite this

Zhao, Qinghua ; Van den Brink, Paul J. ; Carpentier, Camille ; Wang, Yingying X.G. ; Rodríguez-Sánchez, Pablo ; Xu, Chi ; Vollbrecht, Silke ; Gillissen, Frits ; Vollebregt, Marlies ; Wang, Shaopeng ; De Laender, Frederik. / Horizontal and vertical diversity jointly shape food web stability against small and large perturbations. In: Ecology Letters. 2019 ; Vol. 22, No. 7. pp. 1152-1162.
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abstract = "The biodiversity of food webs is composed of horizontal (i.e. within trophic levels) and vertical diversity (i.e. the number of trophic levels). Understanding their joint effect on stability is a key challenge. Theory mostly considers their individual effects and focuses on small perturbations near equilibrium in hypothetical food webs. Here, we study the joint effects of horizontal and vertical diversity on the stability of hypothetical (modelled) and empirical food webs. In modelled food webs, horizontal and vertical diversity increased and decreased stability, respectively, with a stronger positive effect of producer diversity on stability at higher consumer diversity. Experiments with an empirical plankton food web, where we manipulated horizontal and vertical diversity and measured stability from species interactions and from resilience against large perturbations, confirmed these predictions. Taken together, our findings highlight the need to conserve horizontal biodiversity at different trophic levels to ensure stability.",
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Horizontal and vertical diversity jointly shape food web stability against small and large perturbations. / Zhao, Qinghua; Van den Brink, Paul J.; Carpentier, Camille; Wang, Yingying X.G.; Rodríguez-Sánchez, Pablo; Xu, Chi; Vollbrecht, Silke; Gillissen, Frits; Vollebregt, Marlies; Wang, Shaopeng; De Laender, Frederik.

In: Ecology Letters, Vol. 22, No. 7, 07.2019, p. 1152-1162.

Research output: Contribution to journalLetterAcademicpeer-review

TY - JOUR

T1 - Horizontal and vertical diversity jointly shape food web stability against small and large perturbations

AU - Zhao, Qinghua

AU - Van den Brink, Paul J.

AU - Carpentier, Camille

AU - Wang, Yingying X.G.

AU - Rodríguez-Sánchez, Pablo

AU - Xu, Chi

AU - Vollbrecht, Silke

AU - Gillissen, Frits

AU - Vollebregt, Marlies

AU - Wang, Shaopeng

AU - De Laender, Frederik

PY - 2019/7

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AB - The biodiversity of food webs is composed of horizontal (i.e. within trophic levels) and vertical diversity (i.e. the number of trophic levels). Understanding their joint effect on stability is a key challenge. Theory mostly considers their individual effects and focuses on small perturbations near equilibrium in hypothetical food webs. Here, we study the joint effects of horizontal and vertical diversity on the stability of hypothetical (modelled) and empirical food webs. In modelled food webs, horizontal and vertical diversity increased and decreased stability, respectively, with a stronger positive effect of producer diversity on stability at higher consumer diversity. Experiments with an empirical plankton food web, where we manipulated horizontal and vertical diversity and measured stability from species interactions and from resilience against large perturbations, confirmed these predictions. Taken together, our findings highlight the need to conserve horizontal biodiversity at different trophic levels to ensure stability.

KW - Equilibrium

KW - horizontal diversity

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