Projects per year
Abstract
A variety of adaptive and nonadaptive hypotheses have been proposed to explain the maintenance of
same-sex sexual behaviour (SSB) in animals. Adaptive hypotheses have gained limited support in insect
systems, and the behavioural mechanisms underlying the expression of SSB are not well understood. A
frequently suggested mechanism is that SSB in insects occurs as a result of mistaken identity. We used
the field cricket, Teleogryllus oceanicus, to evaluate adaptive hypotheses for the existence of male SSB and
then dissect its proximate behavioural origins. We tested whether male SSB mitigates the costs of
intrasexual aggression or facilitates the establishment of social dominance. We found no support for
either of these adaptive hypotheses. However, the social environment males experienced modulated
their expression of SSB. Males with recent experience of females in their social environment were
between three and eight times more likely to engage in SSB in subsequent encounters with males,
compared to males that experienced either another male or no social contact. Our results provide
evidence that male SSB in T. oceanicus arises as a result of mistaken identity driven by weakened sex
discrimination when there is a perception of females available for mating, and they highlight a pivotal
role for behavioural plasticity in the expression of SSB.
same-sex sexual behaviour (SSB) in animals. Adaptive hypotheses have gained limited support in insect
systems, and the behavioural mechanisms underlying the expression of SSB are not well understood. A
frequently suggested mechanism is that SSB in insects occurs as a result of mistaken identity. We used
the field cricket, Teleogryllus oceanicus, to evaluate adaptive hypotheses for the existence of male SSB and
then dissect its proximate behavioural origins. We tested whether male SSB mitigates the costs of
intrasexual aggression or facilitates the establishment of social dominance. We found no support for
either of these adaptive hypotheses. However, the social environment males experienced modulated
their expression of SSB. Males with recent experience of females in their social environment were
between three and eight times more likely to engage in SSB in subsequent encounters with males,
compared to males that experienced either another male or no social contact. Our results provide
evidence that male SSB in T. oceanicus arises as a result of mistaken identity driven by weakened sex
discrimination when there is a perception of females available for mating, and they highlight a pivotal
role for behavioural plasticity in the expression of SSB.
Original language | English |
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Pages (from-to) | 1031-1038 |
Journal | Animal Behaviour |
Volume | 84 |
DOIs | |
Publication status | Published - 2012 |
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Dive into the research topics of 'Same-sex sexual behaviour and mistaken identity in male field crickets, Teleogryllus oceanicus'. Together they form a unique fingerprint.Projects
- 3 Finished
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Genomic Evolution in Real Time: Genomic evolution in real time: causes and consequences of an adaptive mutation in the wild
Bailey, N. W. (PI) & Ritchie, M. G. (CoI)
9/01/12 → 8/01/15
Project: Standard
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Testing genetic models of same-sex: Testing genetic models of same-sex sexual behaviour
Bailey, N. W. (PI) & Ritchie, M. G. (CoI)
1/10/11 → 31/03/13
Project: Standard
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Sexual Selection of Field Crickets: Social Learning and Sexual selection in field crickets
Bailey, N. W. (PI)
1/04/10 → 31/03/13
Project: Fellowship