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Behavioral Ecology Advance Access originally published online on February 24, 2008
Behavioral Ecology 2008 19(3):650-656; doi:10.1093/beheco/arn017
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© The Author 2008. Published by Oxford University Press on behalf of the International Society for Behavioral Ecology. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Host shifts favor vibrational signal divergence in Enchenopa binotata treehoppers

Gabriel D. McNett and Reginald B. Cocroft

Division of Biological Sciences, 105 Tucker Hall, University of Missouri–Columbia, Columbia, MO 65211, USA

Address correspondence to G.D. McNett, who is now at the Department of Biology, Westminster College, 501 Westminster Avenue, Fulton, MO, USA. E-mail: gabe.mcnett{at}westminster-mo.edu.


  Abstract

For specialized herbivorous insects, shifts to novel host plants can have dramatic evolutionary consequences. If mating traits diverge, assortative mating can develop between ancestral and novel host populations and facilitate speciation. Mating signals may diverge under a variety of scenarios. Signal differences may be a consequence of divergence in correlated traits, such as body size. If local communication environments differ, mating signals may also diverge through selection for enhanced transmission. We tested these hypotheses using 2 closely related species in the Enchenopa binotata complex of treehoppers. Each member of this complex specializes on a different host plant species. Their communication modality may make signal divergence likely after a host shift: like many plant-dwelling insects, Enchenopa communicate using substrate-borne vibrations for which the plant itself is the transmission channel. Each species' mating signal is a relatively pure tone, and differences between species in signal frequency are critical for mate recognition. Whereas no support was found for a correlated selection hypothesis, we found support for a signal transmission hypothesis: both species use a signal frequency that transmits well in their contrasting communication environments, suggesting that host shifts may favor signal divergence and ultimately behavioral isolation.

Key words: host specialist, phytophagous, sensory drive, signal transmission, speciation.

Received 17 June 2007; revised 10 January 2008; accepted 13 January 2008.


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