Brain evolution triggers increased diversification of electric fishes

Bruce A. Carlson; Saad M. Hasan; Michael Hollmann; Derek B. Miller; Luke J. Harmon; Matthew E. Arnegard

doi:10.1126/science.1201524

Brain evolution triggers increased diversification of electric fishes

Bruce A. Carlson, Saad M. Hasan, Michael Hollmann, Derek B. Miller, Luke J. Harmon, Matthew E. Arnegard

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

86 Scopus citations

Abstract

Communication can contribute to the evolution of biodiversity by promoting speciation and reinforcing reproductive isolation between existing species. The evolution of species-specific signals depends on the ability of individuals to detect signal variation, which in turn relies on the capability of the brain to process signal information. Here, we show that evolutionary change in a region of the brain devoted to the analysis of communication signals in mormyrid electric fishes improved detection of subtle signal variation and resulted in enhanced rates of signal evolution and species diversification. These results show that neural innovations can drive the diversification of signals and promote speciation.

Original language	English
Pages (from-to)	583-586
Number of pages	4
Journal	Science
Volume	332
Issue number	6029
DOIs	https://doi.org/10.1126/science.1201524
State	Published - Apr 29 2011

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AU - Hasan, Saad M.

AU - Hollmann, Michael

AU - Miller, Derek B.

AU - Harmon, Luke J.

AU - Arnegard, Matthew E.

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AB - Communication can contribute to the evolution of biodiversity by promoting speciation and reinforcing reproductive isolation between existing species. The evolution of species-specific signals depends on the ability of individuals to detect signal variation, which in turn relies on the capability of the brain to process signal information. Here, we show that evolutionary change in a region of the brain devoted to the analysis of communication signals in mormyrid electric fishes improved detection of subtle signal variation and resulted in enhanced rates of signal evolution and species diversification. These results show that neural innovations can drive the diversification of signals and promote speciation.

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Brain evolution triggers increased diversification of electric fishes

Abstract

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