Convergence in Multispecies Interactions

Leonora S. Bittleston; Naomi E. Pierce; Aaron M. Ellison; Anne Pringle

doi:10.1016/j.tree.2016.01.006

Convergence in Multispecies Interactions

Leonora S. Bittleston, Naomi E. Pierce, Aaron M. Ellison, Anne Pringle

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

35 Scopus citations

Abstract

The concepts of convergent evolution and community convergence highlight how selective pressures can shape unrelated organisms or communities in similar ways. We propose a related concept, convergent interactions, to describe the independent evolution of multispecies interactions with similar physiological or ecological functions. A focus on convergent interactions clarifies how natural selection repeatedly favors particular kinds of associations among species. Characterizing convergent interactions in a comparative context is likely to facilitate prediction of the ecological roles of organisms (including microbes) in multispecies interactions and selective pressures acting in poorly understood or newly discovered multispecies systems. We illustrate the concept of convergent interactions with examples: vertebrates and their gut bacteria; ectomycorrhizae; insect–fungal–bacterial interactions; pitcher-plant food webs; and ants and ant–plants.

Original language	American English
Journal	Trends in Ecology & Evolution
Volume	31
Issue number	4
DOIs	https://doi.org/10.1016/j.tree.2016.01.006
State	Published - Apr 2016
Externally published	Yes

Keywords

community ecology
convergent evolution
microbe
mutualism
symbiosis

EGS Disciplines

Ecology and Evolutionary Biology

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10.1016/j.tree.2016.01.006License: Unspecified

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title = "Convergence in Multispecies Interactions",

abstract = " The concepts of convergent evolution and community convergence highlight how selective pressures can shape unrelated organisms or communities in similar ways. We propose a related concept, convergent interactions, to describe the independent evolution of multispecies interactions with similar physiological or ecological functions. A focus on convergent interactions clarifies how natural selection repeatedly favors particular kinds of associations among species. Characterizing convergent interactions in a comparative context is likely to facilitate prediction of the ecological roles of organisms (including microbes) in multispecies interactions and selective pressures acting in poorly understood or newly discovered multispecies systems. We illustrate the concept of convergent interactions with examples: vertebrates and their gut bacteria; ectomycorrhizae; insect–fungal–bacterial interactions; pitcher-plant food webs; and ants and ant–plants.",

keywords = "community ecology, convergent evolution, microbe, mutualism, symbiosis",

author = "Bittleston, {Leonora S.} and Pierce, {Naomi E.} and Ellison, {Aaron M.} and Anne Pringle",

year = "2016",

month = apr,

doi = "10.1016/j.tree.2016.01.006",

language = "American English",

volume = "31",

number = "4",

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TY - JOUR

T1 - Convergence in Multispecies Interactions

AU - Bittleston, Leonora S.

AU - Pierce, Naomi E.

AU - Ellison, Aaron M.

AU - Pringle, Anne

PY - 2016/4

Y1 - 2016/4

N2 - The concepts of convergent evolution and community convergence highlight how selective pressures can shape unrelated organisms or communities in similar ways. We propose a related concept, convergent interactions, to describe the independent evolution of multispecies interactions with similar physiological or ecological functions. A focus on convergent interactions clarifies how natural selection repeatedly favors particular kinds of associations among species. Characterizing convergent interactions in a comparative context is likely to facilitate prediction of the ecological roles of organisms (including microbes) in multispecies interactions and selective pressures acting in poorly understood or newly discovered multispecies systems. We illustrate the concept of convergent interactions with examples: vertebrates and their gut bacteria; ectomycorrhizae; insect–fungal–bacterial interactions; pitcher-plant food webs; and ants and ant–plants.

AB - The concepts of convergent evolution and community convergence highlight how selective pressures can shape unrelated organisms or communities in similar ways. We propose a related concept, convergent interactions, to describe the independent evolution of multispecies interactions with similar physiological or ecological functions. A focus on convergent interactions clarifies how natural selection repeatedly favors particular kinds of associations among species. Characterizing convergent interactions in a comparative context is likely to facilitate prediction of the ecological roles of organisms (including microbes) in multispecies interactions and selective pressures acting in poorly understood or newly discovered multispecies systems. We illustrate the concept of convergent interactions with examples: vertebrates and their gut bacteria; ectomycorrhizae; insect–fungal–bacterial interactions; pitcher-plant food webs; and ants and ant–plants.

KW - community ecology

KW - convergent evolution

KW - microbe

KW - mutualism

KW - symbiosis

UR - https://doi.org/10.1016/j.tree.2016.01.006

U2 - 10.1016/j.tree.2016.01.006

DO - 10.1016/j.tree.2016.01.006

M3 - Article

C2 - 26858111

VL - 31

JO - Trends in Ecology & Evolution

JF - Trends in Ecology & Evolution

IS - 4

ER -

Convergence in Multispecies Interactions

Abstract

Keywords

EGS Disciplines

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