Rapid evolutionary change in a sexual signal: genetic control of the mutation ‘flatwing’ that renders male field crickets (Teleogryllus oceanicus) mute

Tinghitella, Robin M.

doi:10.1038/sj.hdy.6801069

Cited by 60 publications

(60 citation statements)

References 59 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In fewer than 5 years (approx. 16-20 generations), over 90 per cent of male crickets on Kauai now exhibit a flatwing morphology that renders them mute (Zuk et al 2006;Tinghitella 2008). Lacking the wing structures normally used to produce sound, these males appear to adopt a satellite strategy by intercepting females responding to the few remaining callers (Cade 1980;Zuk et al 2006).…”

Section: Introductionmentioning

confidence: 99%

Acoustic experience shapes female mate choice in field crickets

2008

View full text Add to dashboard Cite

Female choice can drive the evolution of extravagant male traits. In invertebrates, the influence of prior social experience on female choice has only recently been considered. To better understand the evolutionary implications of experience-mediated plasticity in female choice, we investigated the effect of acoustic experience during rearing on female responsiveness to male song in the field cricket Teleogryllus oceanicus. Acoustic experience has unique biological relevance in this species: a morphological mutation has rendered over 90 per cent of males on the Hawaiian island of Kauai silent in fewer than 20 generations, impeding females' abilities to locate potential mates. Females reared in silent conditions mimicking Kauai were less discriminating of male calling song and more responsive to playbacks, compared with females that experienced song during rearing. Our results to our knowledge, are the first demonstration of longterm effects of acoustic experience in an arthropod, and suggest that female T. oceanicus may be able to compensate for the reduced availability of long-range male sexual signals by increasing their responsiveness to the few remaining signallers. Understanding the adaptive significance of experience-mediated plasticity in female choice provides insight into processes that facilitate rapid evolutionary change and shape sexual selection pressure in natural populations.

show abstract

Section: Introductionmentioning

confidence: 99%

Acoustic experience shapes female mate choice in field crickets

2008

View full text Add to dashboard Cite

show abstract

“…Such an alteration could be of modular origin, as it occurred independently of other factors (sex in this case) and affected similar areas of different organs (Schlosser & Wagner, 2004b). Comparison with T. oceanicus is relevant, as an alteration at a single locus results in the suppression of a set of structures involved in song production (Tinghitella, 2008), which possibly constitute a single module. Interestingly the hind wing remigium of specimen IWC OB 128 is not altered: it is devoid of the dark pink coloration typical of females.…”

Section: Discussionmentioning

confidence: 99%

Alteration of sex-related developmental modules: A case of "feminized" male wing morphology in Creobroter gemmatus (Mantodea: Hymenopodidae)

Béthoux¹

2010

Eur. J. Entomol.

View full text Add to dashboard Cite

Abstract.A particular case of the alteration of the organization of a developmental module is presented, viz. mixed gynandromorphism in Creobroter gemmatus, in which a male exhibits the usual fore-and hind wing venation and shape of its sex, but patterns of coloration typical of females. Homologies between corresponding areas of the fore-and hind wings are suggested. "Feminization" is defined as the occurrence of traits typical of the female phenotype in a male, and is suggested as a plausible way in which insect wing morphology may be transformed.

show abstract

“…A few years later, cricket density rebounded, but almost all the males had female-like wings that made them incapable of producing song. Now, silent males compensate for their inability to produce mating calls by showing greater 'satellite' behaviour; they aggregate around the few remaining singing males, which brings them into close proximity of potential mates [39,40]. Recent work also points to parasite-induced selection on other aspects of male mating behaviour, including locomotory behaviours that enhance the encounter rate of silent males with females [41].…”

Section: Feedback: a Unifying Concept For Understanding Host Behavioumentioning

confidence: 99%

Host behaviour–parasite feedback: an essential link between animal behaviour and disease ecology

et al. 2016

View full text Add to dashboard Cite

Animal behaviour and the ecology and evolution of parasites are inextricably linked. For this reason, animal behaviourists and disease ecologists have been interested in the intersection of their respective fields for decades. Despite this interest, most research at the behaviour-disease interface focuses either on how host behaviour affects parasites or how parasites affect behaviour, with little overlap between the two. Yet, the majority of interactions between hosts and parasites are probably reciprocal, such that host behaviour feeds back on parasites and vice versa. Explicitly considering these feedbacks is essential for understanding the complex connections between animal behaviour and parasite ecology and evolution. To illustrate this point, we discuss how host behaviour-parasite feedbacks might operate and explore the consequences of feedback for studies of animal behaviour and parasites. For example, ignoring the feedback of host social structure on parasite dynamics can limit the accuracy of predictions about parasite spread. Likewise, considering feedback in studies of parasites and animal personalities may provide unique insight about the maintenance of variation in personality types. Finally, applying the feedback concept to links between host behaviour and beneficial, rather than pathogenic, microbes may shed new light on transitions between mutualism and parasitism. More generally, accounting for host behaviour-parasite feedbacks can help identify critical gaps in our understanding of how key host behaviours and parasite traits evolve and are maintained.

show abstract

Rapid evolutionary change in a sexual signal: genetic control of the mutation ‘flatwing’ that renders male field crickets (Teleogryllus oceanicus) mute

Cited by 60 publications

References 59 publications

Acoustic experience shapes female mate choice in field crickets

Acoustic experience shapes female mate choice in field crickets

Alteration of sex-related developmental modules: A case of "feminized" male wing morphology in Creobroter gemmatus (Mantodea: Hymenopodidae)

Host behaviour–parasite feedback: an essential link between animal behaviour and disease ecology

Contact Info

Product

Resources

About