The impact of structured higher order interactions on ecological network stability
The impact of structured higher order interactions on ecological network stability
The impact of higher-order interactions, those involving more than two species, is increasingly appreciated as having the potential to strongly influence the dynamics of complex ecological systems. However, although the critical importance of the structure of pairwise interaction networks is well established, studies of higher-order interactions still largely assume random structures. Here, we demonstrate the strong impact of structured higher-order interactions on simulated ecological communities. We focus on effects caused by interaction modifications within food webs, where a consumer resource interaction is modified by a third species, and for which plausible structures can be hypothesised. We show how interaction modifications introduced under a range of non-random distributions may impact the overall network structure. Local stability and the size of the feasibility domain are critically dependent on the inter-relationship between trophic and non-trophic effects. Where interaction modifications are structured into mutual interference motifs (associated with consumers switching between resources) synergistic signs and topological effects have particularly consequential impacts. Furthermore, we show that previous results of the impact of higher-order interactions on diversity-stability relationships can be reversed when higher-order interactions are structured, not random. Empirical data on interaction modifications will be a key part of improving understanding the dynamics of communities, particularly the distribution of interaction modification signs across networks.
Higher-order interaction, Food web, Stability, Interaction modification, Interaction network, Feasibility, Non-trophic effect
Terry, J. Christopher. D.
45080e50-8452-43a1-8caa-3c08912e9e09
Bonsall, Michael B.
d0b21c0f-ede4-40e9-91a2-4fe41a06d3c6
Morris, Rebecca J.
f63d9be3-e08f-4251-b6a0-43b312d3997e
29 January 2025
Terry, J. Christopher. D.
45080e50-8452-43a1-8caa-3c08912e9e09
Bonsall, Michael B.
d0b21c0f-ede4-40e9-91a2-4fe41a06d3c6
Morris, Rebecca J.
f63d9be3-e08f-4251-b6a0-43b312d3997e
Terry, J. Christopher. D., Bonsall, Michael B. and Morris, Rebecca J.
(2025)
The impact of structured higher order interactions on ecological network stability.
Theoretical Ecology, 18 (1), [9].
(doi:10.1007/s12080-025-00603-0).
Abstract
The impact of higher-order interactions, those involving more than two species, is increasingly appreciated as having the potential to strongly influence the dynamics of complex ecological systems. However, although the critical importance of the structure of pairwise interaction networks is well established, studies of higher-order interactions still largely assume random structures. Here, we demonstrate the strong impact of structured higher-order interactions on simulated ecological communities. We focus on effects caused by interaction modifications within food webs, where a consumer resource interaction is modified by a third species, and for which plausible structures can be hypothesised. We show how interaction modifications introduced under a range of non-random distributions may impact the overall network structure. Local stability and the size of the feasibility domain are critically dependent on the inter-relationship between trophic and non-trophic effects. Where interaction modifications are structured into mutual interference motifs (associated with consumers switching between resources) synergistic signs and topological effects have particularly consequential impacts. Furthermore, we show that previous results of the impact of higher-order interactions on diversity-stability relationships can be reversed when higher-order interactions are structured, not random. Empirical data on interaction modifications will be a key part of improving understanding the dynamics of communities, particularly the distribution of interaction modification signs across networks.
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s12080-025-00603-0
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Accepted/In Press date: 16 January 2025
Published date: 29 January 2025
Keywords:
Higher-order interaction, Food web, Stability, Interaction modification, Interaction network, Feasibility, Non-trophic effect
Identifiers
Local EPrints ID: 503228
URI: http://eprints.soton.ac.uk/id/eprint/503228
ISSN: 1874-1746
PURE UUID: ff4aed11-8013-42db-a5ad-bdd2db818b75
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Date deposited: 24 Jul 2025 16:47
Last modified: 18 Sep 2025 01:53
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Author:
J. Christopher. D. Terry
Author:
Michael B. Bonsall
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