Alison J. Cotton scite author profile

Communal signaling-wherein males and females collaborate to produce joint visual or acoustic displays-is perhaps the most complex and least understood form of communication in social animals. Although many communal signals appear to mediate competitive interactions within and between coalitions of individuals, previous studies have highlighted a confusing array of social and environmental factors that may explain the evolution of these displays, and we still lack the global synthesis needed to understand why communal signals are distributed so unevenly across large taxonomic and geographic scales. Here, we use Bayesian phylogenetic models to test whether acoustic communal signals (duets and choruses) are explained by a range of life-history and environmental variables across 10328 bird species worldwide. We estimate that duets and choruses occur in 1830 (18%) species in our sample and are thus considerably more widespread than previously thought. We then show that global patterns in duetting and chorusing, including evolutionary transitions between communal signaling and solo signaling, are not explained by latitude, migration, climate, or habitat, and only weakly correlated with cooperative breeding. Instead, they are most strongly associated with year-round territoriality, typically in conjunction with stable social bonds. Our results suggest that the evolution of communal signals is associated with the coordinated defense of ecological resources by stable coalitions of males and females, and that other widely reported associations are largely by-products of this underlying trend.

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Male eyespan size is associated with meiotic drive in wild stalk-eyed flies (Teleopsis dalmanni)

Cotton

Földvári

Cotton

et al. 2014

Heredity

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This study provides the first direct evidence from wild populations of stalk-eyed flies to support the hypothesis that male eyespan is a signal of meiotic drive. Several stalk-eyed fly species are known to exhibit X-linked meiotic drive. A recent quantitative trait locus analysis in Teleopsis dalmanni found a potential link between variation in male eyespan, a sexually selected ornamental trait, and the presence of meiotic drive. This was based on laboratory populations subject to artificial selection for male eyespan. In this study, we examined the association between microsatellite markers and levels of sex ratio bias (meiotic drive) in 12 wild T. dalmanni populations. We collected two data sets: (a) brood sex ratios of wild-caught males mated to standard laboratory females and (b) variation in a range of phenotypic traits associated with reproductive success of wild-caught males and females. In each case, we typed individuals for eight X-linked microsatellite markers, including several that previously were shown to be associated with male eyespan and meiotic drive. We found that one microsatellite marker was very strongly associated with meiotic drive, whereas a second showed a weaker association. We also found that, using both independent data sets, meiotic drive was strongly associated with male eyespan, with smaller eyespan males being associated with more female-biased broods. These results suggest that mate preference for exaggerated male eyespan allows females to avoid mating with males carrying the meiotic drive gene and is thus a potential mechanism for the maintenance and evolution of female mate preference.

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Male mate preference for female eyespan and fecundity in the stalk-eyed fly, Teleopsis dalmanni

Cotton

Small

et al. 2014

Behavioral Ecology

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Training future generations to deliver evidence‐based conservation and ecosystem management

Downey

Amano

Cadotte

et al. 2021

Ecol Sol and Evidence

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IUCN Red List of Threatened Primate Species

Cotton¹,

Clark²,

Boubli³

et al. 2016

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The IUCN Red List of Threatened Species is currently the most comprehensive source of data on the global conservation status of animal, fungi, and plant taxa. The Primate Specialist Group (PSG), part of IUCN’s SSC, is responsible for the assessment of all primates. According to the most recent assessment, 63% of the world’s primates are currently threatened (Critically Endangered, Endangered, or Vulnerable), and the remaining are classified as Near Threatened (5%) or Least Concern (31%). Having recently celebrated 50 years, the IUCN Red List is today one of the most influential and authoritative documents on species conservation and is broadly used by conservation practitioners, policymakers, governments, funding agencies, and NGOs worldwide as a tool for setting their conservation targets and designing their strategies.

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Alison J. Cotton

Territoriality, Social Bonds, and the Evolution of Communal Signaling in Birds

Male eyespan size is associated with meiotic drive in wild stalk-eyed flies (Teleopsis dalmanni)

Male mate preference for female eyespan and fecundity in the stalk-eyed fly, Teleopsis dalmanni

Training future generations to deliver evidence‐based conservation and ecosystem management

IUCN Red List of Threatened Primate Species

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