Social insect symbionts: evolution in homeostatic fortresses

David P. Hughes; Naomi E. Pierce; Jacobus J. Boomsma

doi:10.1016/j.tree.2008.07.011

Social insect symbionts: evolution in homeostatic fortresses

David P. Hughes, Naomi E. Pierce, Jacobus J. Boomsma

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128 Scopus citations

Abstract

The massive environmentally buffered nests of some social insects can contain millions of individuals and a wide variety of parasites, commensals and mutualists. We suggest that the ways in which these homeostatic fortress environments affect the evolution of social insect symbionts are relevant for epidemiology, evolutionary biology and macroecology. We contend that specialized parasites will tend to become less virulent and mutualists less cooperative, compared to those associated with solitary or small-colony hosts. These processes are expected to contribute to the very high symbiont diversity observed in these nests. We hypothesize that biodiversity gradients in these hotspots might be less affected by abiotic latitudinal clines than gradients in neighboring 'control' habitats. We suggest several research lines to test these ideas.

Original language	English (US)
Pages (from-to)	672-677
Number of pages	6
Journal	Trends in Ecology and Evolution
Volume	23
Issue number	12
DOIs	https://doi.org/10.1016/j.tree.2008.07.011
State	Published - Dec 2008

All Science Journal Classification (ASJC) codes

Ecology, Evolution, Behavior and Systematics

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10.1016/j.tree.2008.07.011

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title = "Social insect symbionts: evolution in homeostatic fortresses",

abstract = "The massive environmentally buffered nests of some social insects can contain millions of individuals and a wide variety of parasites, commensals and mutualists. We suggest that the ways in which these homeostatic fortress environments affect the evolution of social insect symbionts are relevant for epidemiology, evolutionary biology and macroecology. We contend that specialized parasites will tend to become less virulent and mutualists less cooperative, compared to those associated with solitary or small-colony hosts. These processes are expected to contribute to the very high symbiont diversity observed in these nests. We hypothesize that biodiversity gradients in these hotspots might be less affected by abiotic latitudinal clines than gradients in neighboring 'control' habitats. We suggest several research lines to test these ideas.",

author = "Hughes, {David P.} and Pierce, {Naomi E.} and Boomsma, {Jacobus J.}",

note = "Funding Information: This essay has benefited from discussion with and comments from several colleagues including Troy Day, Dieter Ebert, Corrie Moreau, Pekka Pamilo, Carsten Rahbek, Andrew Read, Jake Russell, Doug Schemske, Steve Stearns, Lotta Sundstrom and Stu West. We are very grateful to three anonymous reviewers for insightful comments. D.P.H. is supported by an EU FP6 Marie Curie Individual Intra-European Fellowship (MEIF-CT-2006–041613) and a WWF-Novozymes Biodiversity grant. D.P.H. and J.J.B. are further supported by a Danish National Research Foundation grant to J.J.B.; N.E.P. is supported by NSF grant DEB-0447242 and a grant from the Tides Foundation.",

year = "2008",

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doi = "10.1016/j.tree.2008.07.011",

language = "English (US)",

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journal = "Trends in Ecology and Evolution",

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AU - Pierce, Naomi E.

AU - Boomsma, Jacobus J.

N1 - Funding Information: This essay has benefited from discussion with and comments from several colleagues including Troy Day, Dieter Ebert, Corrie Moreau, Pekka Pamilo, Carsten Rahbek, Andrew Read, Jake Russell, Doug Schemske, Steve Stearns, Lotta Sundstrom and Stu West. We are very grateful to three anonymous reviewers for insightful comments. D.P.H. is supported by an EU FP6 Marie Curie Individual Intra-European Fellowship (MEIF-CT-2006–041613) and a WWF-Novozymes Biodiversity grant. D.P.H. and J.J.B. are further supported by a Danish National Research Foundation grant to J.J.B.; N.E.P. is supported by NSF grant DEB-0447242 and a grant from the Tides Foundation.

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N2 - The massive environmentally buffered nests of some social insects can contain millions of individuals and a wide variety of parasites, commensals and mutualists. We suggest that the ways in which these homeostatic fortress environments affect the evolution of social insect symbionts are relevant for epidemiology, evolutionary biology and macroecology. We contend that specialized parasites will tend to become less virulent and mutualists less cooperative, compared to those associated with solitary or small-colony hosts. These processes are expected to contribute to the very high symbiont diversity observed in these nests. We hypothesize that biodiversity gradients in these hotspots might be less affected by abiotic latitudinal clines than gradients in neighboring 'control' habitats. We suggest several research lines to test these ideas.

AB - The massive environmentally buffered nests of some social insects can contain millions of individuals and a wide variety of parasites, commensals and mutualists. We suggest that the ways in which these homeostatic fortress environments affect the evolution of social insect symbionts are relevant for epidemiology, evolutionary biology and macroecology. We contend that specialized parasites will tend to become less virulent and mutualists less cooperative, compared to those associated with solitary or small-colony hosts. These processes are expected to contribute to the very high symbiont diversity observed in these nests. We hypothesize that biodiversity gradients in these hotspots might be less affected by abiotic latitudinal clines than gradients in neighboring 'control' habitats. We suggest several research lines to test these ideas.

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JO - Trends in Ecology and Evolution

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Social insect symbionts: evolution in homeostatic fortresses

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