Predator coevolution and prey trait variability determine species coexistence
Predation is one of the key ecological mechanisms allowing species coexistence and influencing biological diversity. However, ecological processes are subject to contemporary evolutionary change, and the degree to which predation affects diversity ultimately depends on the interplay between evolutio...
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| Published in | Proceedings of the Royal Society. B, Biological sciences Vol. 286; no. 1902; p. 20190245 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
The Royal Society
15.05.2019
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| Online Access | Get full text |
| ISSN | 0962-8452 1471-2954 1471-2954 |
| DOI | 10.1098/rspb.2019.0245 |
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| Abstract | Predation is one of the key ecological mechanisms allowing species coexistence and influencing biological diversity. However, ecological processes are subject to contemporary evolutionary change, and the degree to which predation affects diversity ultimately depends on the interplay between evolution and ecology. Furthermore, ecological interactions that influence species coexistence can be altered by reciprocal coevolution especially in the case of antagonistic interactions such as predation or parasitism. Here we used an experimental evolution approach to test for the role of initial trait variation in the prey population and coevolutionary history of the predator in the ecological dynamics of a two-species bacterial community predated by a ciliate. We found that initial trait variation both at the bacterial and ciliate level enhanced species coexistence, and that subsequent trait evolutionary trajectories depended on the initial genetic diversity present in the population. Our findings provide further support to the notion that the ecology-centric view of diversity maintenance must be reinvestigated in light of recent findings in the field of eco-evolutionary dynamics. |
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| AbstractList | Predation is one of the key ecological mechanisms allowing species coexistence and influencing biological diversity. However, ecological processes are subject to contemporary evolutionary change, and the degree to which predation affects diversity ultimately depends on the interplay between evolution and ecology. Furthermore, ecological interactions that influence species coexistence can be altered by reciprocal coevolution especially in the case of antagonistic interactions such as predation or parasitism. Here we used an experimental evolution approach to test for the role of initial trait variation in the prey population and coevolutionary history of the predator in the ecological dynamics of a two-species bacterial community predated by a ciliate. We found that initial trait variation both at the bacterial and ciliate level enhanced species coexistence, and that subsequent trait evolutionary trajectories depended on the initial genetic diversity present in the population. Our findings provide further support to the notion that the ecology-centric view of diversity maintenance must be reinvestigated in light of recent findings in the field of eco-evolutionary dynamics.Predation is one of the key ecological mechanisms allowing species coexistence and influencing biological diversity. However, ecological processes are subject to contemporary evolutionary change, and the degree to which predation affects diversity ultimately depends on the interplay between evolution and ecology. Furthermore, ecological interactions that influence species coexistence can be altered by reciprocal coevolution especially in the case of antagonistic interactions such as predation or parasitism. Here we used an experimental evolution approach to test for the role of initial trait variation in the prey population and coevolutionary history of the predator in the ecological dynamics of a two-species bacterial community predated by a ciliate. We found that initial trait variation both at the bacterial and ciliate level enhanced species coexistence, and that subsequent trait evolutionary trajectories depended on the initial genetic diversity present in the population. Our findings provide further support to the notion that the ecology-centric view of diversity maintenance must be reinvestigated in light of recent findings in the field of eco-evolutionary dynamics. Predation is one of the key ecological mechanisms allowing species coexistence and influencing biological diversity. However, ecological processes are subject to contemporary evolutionary change, and the degree to which predation affects diversity ultimately depends on the interplay between evolution and ecology. Furthermore, ecological interactions that influence species coexistence can be altered by reciprocal coevolution especially in the case of antagonistic interactions such as predation or parasitism. Here we used an experimental evolution approach to test for the role of initial trait variation in the prey population and coevolutionary history of the predator in the ecological dynamics of a two-species bacterial community predated by a ciliate. We found that initial trait variation both at the bacterial and ciliate level enhanced species coexistence, and that subsequent trait evolutionary trajectories depended on the initial genetic diversity present in the population. Our findings provide further support to the notion that the ecology-centric view of diversity maintenance must be reinvestigated in light of recent findings in the field of eco-evolutionary dynamics. |
| Author | Cairns, Johannes Scheuerl, Thomas Hiltunen, Teppo Becks, Lutz |
| AuthorAffiliation | 5 Department of Biology, University of Turku , Turku 20014 , Finland 1 Department of Microbiology, University of Helsinki , PO Box 56, Helsinki 00014 , Finland 3 Department of Evolutionary Ecology, Community Dynamics Group, Max Planck Institute for Evolutionary Biology , August Thienemann Strasse 2, 24306 Plön , Germany 2 Organismal and Evolutionary Biology Research Programme, University of Helsinki , PO Box 65, Helsinki 00014 Finland 4 Aquatic Ecology and Evolution, Limnological Institute University Konstanz , Konstanz , Germany |
| AuthorAffiliation_xml | – name: 2 Organismal and Evolutionary Biology Research Programme, University of Helsinki , PO Box 65, Helsinki 00014 Finland – name: 4 Aquatic Ecology and Evolution, Limnological Institute University Konstanz , Konstanz , Germany – name: 5 Department of Biology, University of Turku , Turku 20014 , Finland – name: 1 Department of Microbiology, University of Helsinki , PO Box 56, Helsinki 00014 , Finland – name: 3 Department of Evolutionary Ecology, Community Dynamics Group, Max Planck Institute for Evolutionary Biology , August Thienemann Strasse 2, 24306 Plön , Germany |
| Author_xml | – sequence: 1 givenname: Thomas orcidid: 0000-0001-5216-5630 surname: Scheuerl fullname: Scheuerl, Thomas organization: Department of Microbiology, University of Helsinki, PO Box 56, Helsinki 00014, Finland – sequence: 2 givenname: Johannes orcidid: 0000-0003-1329-2025 surname: Cairns fullname: Cairns, Johannes organization: Department of Microbiology, University of Helsinki, PO Box 56, Helsinki 00014, Finland, Organismal and Evolutionary Biology Research Programme, University of Helsinki, PO Box 65, Helsinki 00014 Finland – sequence: 3 givenname: Lutz orcidid: 0000-0002-3885-5253 surname: Becks fullname: Becks, Lutz organization: Department of Evolutionary Ecology, Community Dynamics Group, Max Planck Institute for Evolutionary Biology, August Thienemann Strasse 2, 24306 Plön, Germany, Aquatic Ecology and Evolution, Limnological Institute University Konstanz, Konstanz, Germany – sequence: 4 givenname: Teppo orcidid: 0000-0001-7206-2399 surname: Hiltunen fullname: Hiltunen, Teppo organization: Department of Microbiology, University of Helsinki, PO Box 56, Helsinki 00014, Finland, Department of Biology, University of Turku, Turku 20014, Finland |
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| Keywords | genetic diversity Tetrahymena thermophila Pseudomonas fluorescens SBW25 predator–prey interaction community dynamics eco-evolutionary dynamics |
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| SubjectTerms | Biological Coevolution Ecology Escherichia coli - physiology Food Chain Life History Traits Models, Biological Pseudomonas fluorescens - physiology Tetrahymena thermophila - physiology |
| Title | Predator coevolution and prey trait variability determine species coexistence |
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