Reed bunting females increase fitness through extra-pair mating with genetically dissimilar males

Suter, Stefan M.; Keiser, Martin; Feignoux, Raoul; Meyer, Dietrich

doi:10.1098/rspb.2007.0799

Cited by 54 publications

(67 citation statements)

References 65 publications

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“…While the adaptive value of particular 'good' genes is likely to be strongly environment-dependent (Zhou et al 2008), high heterozygosity is generally beneficial to individuals and has been associated with increased fitness across a wide range of species, including in wild and nonisolated populations (Brown 1997;Coltman & Slate 2003). Females can effectively increase heterozygosity in offspring by choosing mates that are genetically dissimilar (Suter et al 2007) or highly heterozygous themselves (Hoffman et al 2007). While in the first case the 'best mate' should vary among females and consistent mating biases are not expected, in the second case female preferences could lead to mating skew without erosion of genetic diversity in the population, a potential solution for the 'lek paradox' (Kirkpatrick & Ryan 1991).…”

Section: Introductionmentioning

confidence: 99%

Female mate choice across spatial scales: influence of lek and male attributes on mating success of blue-crowned manakins

et al. 2009

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Lekking males compete for females within and among leks, yet female choice is expected to work differently at each of these spatial scales. We used paternity analyses to examine how lek versus male attributes influence mate choice in the blue-crowned manakin Lepidothrix coronata. We tested the hypotheses that females prefer (i) to mate at larger leks where a larger number of potential mates can be assessed, (ii) to mate with unrelated or highly heterozygous males expected to produce high-quality offspring, (iii) to mate with males that display at higher rates, and that (iv) display honestly reflects male genetic quality. Our results show that (i) males at larger leks are not more likely to sire young, although females nesting close to small leks travel further to reach larger leks, (ii) siring males are not less related to females or more heterozygous than expected, (iii) within a lek, high-display males are more likely to sire young, and (iv) both male heterozygosity and display rate increased with lek size, and as a result display does not reliably reflect male genetic quality across leks. We suggest that female mate choice in this species is probably driven by a Fisherian process rather than adaptive genetic benefits.

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Section: Introductionmentioning

confidence: 99%

Female mate choice across spatial scales: influence of lek and male attributes on mating success of blue-crowned manakins

et al. 2009

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“…A male could indicate his heterozygosity through absolute values of song rate or song diversity. However, in our study the successful extrapair males were not more heterozygous than the unsuccessful but potential extrapair males (Suter et al 2007) and song rate and song diversity were not related to a male's heterozygosity (S.M. Suter, unpublished data).…”

Section: Discussionmentioning

confidence: 84%

“…In the reed bunting population we studied, extrapair fledglings were more heterozygous and survived at a higher rate than within-pair fledglings (Suter et al 2007). The high heterozygosity of the extrapair young (EPY) was based on a low genetic similarity between females and extrapair males (Suter et al 2007). These earlier findings support the genetic compatibility hypothesis and may explain the extrapair mating behaviour of females (Suter et al 2007).…”

Section: Discussionmentioning

confidence: 99%

“…Extrapair mates are mostly neighbouring males (Suter et al 2007). Females may thus be able to estimate the quality of these males throughout the breeding season.…”

Section: Discussionmentioning

confidence: 99%

“…The high heterozygosity of the extrapair young (EPY) was based on a low genetic similarity between females and extrapair males (Suter et al 2007). These earlier findings support the genetic compatibility hypothesis and may explain the extrapair mating behaviour of females (Suter et al 2007). Females may estimate the genetic dissimilarity of a male through song characteristics.…”

Section: Discussionmentioning

confidence: 99%

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A distinct reed bunting dawn song and its relation to extrapair paternity

et al. 2009

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New support for an old hypothesis: density affects extra‐pair paternity

Mayer

Pasinelli

2013

Ecology and Evolution

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Density has been suggested to affect variation in extra-pair paternity (EPP) in avian mating systems, because increasing density promotes encounter rates and thus mating opportunities. However, the significance of density affecting EPP variation in intra- and interspecific comparisons has remained controversial, with more support from intraspecific comparisons. Neither experimental nor empirical studies have consistently provided support for the density hypothesis. Testing the density hypothesis is challenging because density measures may not necessarily reflect extra-pair mating opportunities, mate guarding efforts may covary with density, populations studied may differ in migratory behavior and/or climatic conditions, and variation in density may be insufficient. Accounting for these potentially confounding factors, we tested whether EPP rates within and among subpopulations of the reed bunting (Emberiza schoeniclus) were related to density. Our analyses were based on data from 13 subpopulations studied over 4 years. Overall, 56.4% of totally 181 broods contained at least one extra-pair young (EPY) and 37.1% of totally 669 young were of extra-pair origin. Roughly 90% of the extra-pair fathers were from the adjacent territory or from the territory after the next one. Within subpopulations, the proportion of EPY in broods was positively related to local breeding density. Similarly, among subpopulations, proportion of EPY was positively associated with population density. EPP was absent in subpopulations consisting of single breeding pairs, that is, without extra-pair mating opportunities. Our study confirms that density is an important biological factor, which significantly influences the amount of EPP within and among subpopulations, but also suggests that other mechanisms influence EPP beyond the variation explained by density.

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Reed bunting females increase fitness through extra-pair mating with genetically dissimilar males

Cited by 54 publications

References 65 publications

Female mate choice across spatial scales: influence of lek and male attributes on mating success of blue-crowned manakins

Female mate choice across spatial scales: influence of lek and male attributes on mating success of blue-crowned manakins

A distinct reed bunting dawn song and its relation to extrapair paternity

New support for an old hypothesis: density affects extra‐pair paternity

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