Rewiring and indirect effects underpin modularity reshuffling in a marine food web under environmental shifts

Species are characterized by physiological and behavioral plasticity, which is part of their response to environmental shifts. Nonetheless, the collective response of ecological communities to environmental shifts cannot be predicted from the simple sum of individual species responses, since co‐exis...

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Published inEcology and evolution Vol. 9; no. 20; pp. 11631 - 11646
Main Authors D'Alelio, Domenico, Hay Mele, Bruno, Libralato, Simone, Ribera d'Alcalà, Maurizio, Jordán, Ferenc
Format Journal Article
LanguageEnglish
Published Bognor Regis John Wiley & Sons, Inc 01.10.2019
John Wiley and Sons Inc
Wiley
Subjects
Behavioral plasticity
Cascades
Community ecology
Community structure
Ecological monitoring
ecological networks
Ecologists
Ecosystems
Environmental changes
Environmental impact
Food chains
Food webs
Investigations
Modularity
Modules
Networks
Original Research
Plankton
Reconfiguration
Reproduction (biology)
Rewiring
Roles
Species
Trophic levels
Italy
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Abstract Species are characterized by physiological and behavioral plasticity, which is part of their response to environmental shifts. Nonetheless, the collective response of ecological communities to environmental shifts cannot be predicted from the simple sum of individual species responses, since co‐existing species are deeply entangled in interaction networks, such as food webs. For these reasons, the relation between environmental forcing and the structure of food webs is an open problem in ecology. To this respect, one of the main problems in community ecology is defining the role each species plays in shaping community structure, such as by promoting the subdivision of food webs in modules—that is, aggregates composed of species that more frequently interact—which are reported as community stabilizers. In this study, we investigated the relationship between species roles and network modularity under environmental shifts in a highly resolved food web, that is, a “weighted” ecological network reproducing carbon flows among marine planktonic species. Measuring network properties and estimating weighted modularity, we show that species have distinct roles, which differentially affect modularity and mediate structural modifications, such as modules reconfiguration, induced by environmental shifts. Specifically, short‐term environmental changes impact the abundance of planktonic primary producers; this affects their consumers’ behavior and cascades into the overall rearrangement of trophic links. Food web re‐adjustments are both direct, through the rewiring of trophic‐interaction networks, and indirect, with the reconfiguration of trophic cascades. Through such “systemic behavior,” that is, the way the food web acts as a whole, defined by the interactions among its parts, the planktonic food web undergoes a substantial rewiring while keeping almost the same global flow to upper trophic levels, and energetic hierarchy is maintained despite environmental shifts. This behavior suggests the potentially high resilience of plankton networks, such as food webs, to dramatic environmental changes, such as those provoked by global change. We show, for the first time, the fine‐scale dynamics of structural re‐adjustment in a complex food web, under a regime of changing resources. Our observation is novel, since we investigated directed and weighted modularity in an ecological network, which provides a much sounder view of food web architecture, and therefore functioning; our results are exciting, since food web re‐adjustments shown herein are analogous to those “systemic behaviors” described for other complex systems, such as human brain networks, but an analogous behaviour was never shown in ecological studies with such detail; ultimately, our paper is of general interest in ecology, since it demonstrates that food webs compartmentalization overcomes physical barriers, because species can migrate, and is mainly driven by the aggregation of trophic pathways, more than species co‐occurrence.
AbstractList Species are characterized by physiological and behavioral plasticity, which is part of their response to environmental shifts. Nonetheless, the collective response of ecological communities to environmental shifts cannot be predicted from the simple sum of individual species responses, since co‐existing species are deeply entangled in interaction networks, such as food webs. For these reasons, the relation between environmental forcing and the structure of food webs is an open problem in ecology. To this respect, one of the main problems in community ecology is defining the role each species plays in shaping community structure, such as by promoting the subdivision of food webs in modules—that is, aggregates composed of species that more frequently interact—which are reported as community stabilizers. In this study, we investigated the relationship between species roles and network modularity under environmental shifts in a highly resolved food web, that is, a “weighted” ecological network reproducing carbon flows among marine planktonic species. Measuring network properties and estimating weighted modularity, we show that species have distinct roles, which differentially affect modularity and mediate structural modifications, such as modules reconfiguration, induced by environmental shifts. Specifically, short‐term environmental changes impact the abundance of planktonic primary producers; this affects their consumers’ behavior and cascades into the overall rearrangement of trophic links. Food web re‐adjustments are both direct, through the rewiring of trophic‐interaction networks, and indirect, with the reconfiguration of trophic cascades. Through such “systemic behavior,” that is, the way the food web acts as a whole, defined by the interactions among its parts, the planktonic food web undergoes a substantial rewiring while keeping almost the same global flow to upper trophic levels, and energetic hierarchy is maintained despite environmental shifts. This behavior suggests the potentially high resilience of plankton networks, such as food webs, to dramatic environmental changes, such as those provoked by global change. We show, for the first time, the fine‐scale dynamics of structural re‐adjustment in a complex food web, under a regime of changing resources. Our observation is novel, since we investigated directed and weighted modularity in an ecological network, which provides a much sounder view of food web architecture, and therefore functioning; our results are exciting, since food web re‐adjustments shown herein are analogous to those “systemic behaviors” described for other complex systems, such as human brain networks, but an analogous behaviour was never shown in ecological studies with such detail; ultimately, our paper is of general interest in ecology, since it demonstrates that food webs compartmentalization overcomes physical barriers, because species can migrate, and is mainly driven by the aggregation of trophic pathways, more than species co‐occurrence.
Abstract Species are characterized by physiological and behavioral plasticity, which is part of their response to environmental shifts. Nonetheless, the collective response of ecological communities to environmental shifts cannot be predicted from the simple sum of individual species responses, since co‐existing species are deeply entangled in interaction networks, such as food webs. For these reasons, the relation between environmental forcing and the structure of food webs is an open problem in ecology. To this respect, one of the main problems in community ecology is defining the role each species plays in shaping community structure, such as by promoting the subdivision of food webs in modules—that is, aggregates composed of species that more frequently interact—which are reported as community stabilizers. In this study, we investigated the relationship between species roles and network modularity under environmental shifts in a highly resolved food web, that is, a “weighted” ecological network reproducing carbon flows among marine planktonic species. Measuring network properties and estimating weighted modularity, we show that species have distinct roles, which differentially affect modularity and mediate structural modifications, such as modules reconfiguration, induced by environmental shifts. Specifically, short‐term environmental changes impact the abundance of planktonic primary producers; this affects their consumers’ behavior and cascades into the overall rearrangement of trophic links. Food web re‐adjustments are both direct, through the rewiring of trophic‐interaction networks, and indirect, with the reconfiguration of trophic cascades. Through such “systemic behavior,” that is, the way the food web acts as a whole, defined by the interactions among its parts, the planktonic food web undergoes a substantial rewiring while keeping almost the same global flow to upper trophic levels, and energetic hierarchy is maintained despite environmental shifts. This behavior suggests the potentially high resilience of plankton networks, such as food webs, to dramatic environmental changes, such as those provoked by global change.
Species are characterized by physiological and behavioral plasticity, which is part of their response to environmental shifts. Nonetheless, the collective response of ecological communities to environmental shifts cannot be predicted from the simple sum of individual species responses, since co‐existing species are deeply entangled in interaction networks, such as food webs. For these reasons, the relation between environmental forcing and the structure of food webs is an open problem in ecology. To this respect, one of the main problems in community ecology is defining the role each species plays in shaping community structure, such as by promoting the subdivision of food webs in modules—that is, aggregates composed of species that more frequently interact—which are reported as community stabilizers.In this study, we investigated the relationship between species roles and network modularity under environmental shifts in a highly resolved food web, that is, a “weighted” ecological network reproducing carbon flows among marine planktonic species. Measuring network properties and estimating weighted modularity, we show that species have distinct roles, which differentially affect modularity and mediate structural modifications, such as modules reconfiguration, induced by environmental shifts.Specifically, short‐term environmental changes impact the abundance of planktonic primary producers; this affects their consumers’ behavior and cascades into the overall rearrangement of trophic links. Food web re‐adjustments are both direct, through the rewiring of trophic‐interaction networks, and indirect, with the reconfiguration of trophic cascades. Through such “systemic behavior,” that is, the way the food web acts as a whole, defined by the interactions among its parts, the planktonic food web undergoes a substantial rewiring while keeping almost the same global flow to upper trophic levels, and energetic hierarchy is maintained despite environmental shifts. This behavior suggests the potentially high resilience of plankton networks, such as food webs, to dramatic environmental changes, such as those provoked by global change.
Author Libralato, Simone
Ribera d'Alcalà, Maurizio
Jordán, Ferenc
D'Alelio, Domenico
Hay Mele, Bruno
AuthorAffiliation 1 Department of Integrative Marine Ecology Stazione Zoologica Anton Dohrn Naples Italy
2 Oceanography Division Istituto Nazionale di Oceanografia e di Geofisica Sperimentale ‐ OGS Trieste Italy
3 Balaton Limnological Institute and Evolutionary Systems Research Group MTA Centre for Ecological Research Tihany Hungary
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  organization: Stazione Zoologica Anton Dohrn
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  fullname: Jordán, Ferenc
  organization: MTA Centre for Ecological Research
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Snippet Species are characterized by physiological and behavioral plasticity, which is part of their response to environmental shifts. Nonetheless, the collective...
Abstract Species are characterized by physiological and behavioral plasticity, which is part of their response to environmental shifts. Nonetheless, the...
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SubjectTerms Behavioral plasticity
Cascades
Community ecology
Community structure
Ecological monitoring
ecological networks
Ecologists
Ecosystems
Environmental changes
Environmental impact
Food chains
Food webs
Investigations
Modularity
Modules
Networks
Original Research
Plankton
Reconfiguration
Reproduction (biology)
Rewiring
Roles
Species
Trophic levels
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Title Rewiring and indirect effects underpin modularity reshuffling in a marine food web under environmental shifts
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