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Abstract
Recent attempts to explain the evolutionary prevalence of same-sex
sexual behavior (SSB) have focused on the role of indiscriminate mating.
However, in many cases, SSB may be more complex than simple mistaken
identity, instead involving mutual interactions and successful pairing
between partners who can detect each other’s sex. Behavioral plasticity
is essential for the expression of SSB in such circumstances. To test
behavioral plasticity’s role in the evolution of SSB, we used termites
to study how females and males modify their behavior in same-sex versus
heterosexual pairs. Male termites follow females in paired “tandems”
before mating, and movement patterns are sexually dimorphic. Previous
studies observed that adaptive same-sex tandems also occur in both
sexes. Here we found that stable same-sex tandems are achieved by
behavioral plasticity when one partner adopts the other sex’s movements,
resulting in behavioral dimorphism. Simulations based on empirically
obtained parameters indicated that this socially cued plasticity
contributes to pair maintenance, because dimorphic movements improve
reunion success upon accidental separation. A systematic literature
survey and phylogenetic comparative analysis suggest that the ancestors
of modern termites lack consistent sex roles during pairing, indicating
that plasticity is inherited from the ancestor. Socioenvironmental
induction of ancestral behavioral potential may be of widespread
importance to the expression of SSB. Our findings challenge recent
arguments for a prominent role of indiscriminate mating behavior in the
evolutionary origin and maintenance of SSB across diverse taxa.
Original language | English |
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Article number | e2212401119 |
Number of pages | 10 |
Journal | Proceedings of the National Academy of Sciences |
Volume | 119 |
Issue number | 46 |
Early online date | 8 Nov 2022 |
DOIs | |
Publication status | Published - 15 Nov 2022 |
Keywords
- Behavioral plasticity
- Collective behavior
- Leadership
- Same-sex sexual behavior
- Tandem runs
Fingerprint
Dive into the research topics of 'Ancestral sex-role plasticity facilitates the evolution of same-sex sexual behavior'. Together they form a unique fingerprint.Projects
- 1 Finished
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Nathan Bailey: How repeatable is adaptvie evolution? Testing what promotes rapid adaptation in a replicated natural system
Bailey, N. W. (PI)
3/12/19 → 2/12/22
Project: Standard
Datasets
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Data and Source codes: Ancestral sex-role plasticity facilitates the evolution of same-sex sexual behavior
Mizumoto, N. (Creator), Bourguignon, T. (Creator) & Bailey, N. W. (Creator), Zenodo, 2022
Dataset