Female fertile phase synchrony, and male mating and reproductive skew, in the crested macaque

High social status is the primary determinant of reproductive success among group-living male mammals. Primates living in multimale–multifemale groups show the greatest variation in the strength of this link, with marked variation in reproductive skew by male dominance among species, dependent on th...

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Bibliographic Details
Published in:Scientific reports 2021-02, Vol.11 (1), p.4251-4251, Article 4251
Main Authors: Higham, James P., Heistermann, Michael, Agil, Muhammad, Perwitasari-Farajallah, Dyah, Widdig, Anja, Engelhardt, Antje
Format: Article
Language:English
Subjects:
631/158/856
631/181/19
631/181/2470
631/601/18
Animal behavior
Animal reproduction
Animals
Breeding success
Estrous Cycle
Female
Females
Fertility
Humanities and Social Sciences
Macaca - physiology
Male
Males
Mating
multidisciplinary
Offspring
Paternity
Phenotypes
Reproduction
Science
Science (multidisciplinary)
Sexual Behavior, Animal
Sexual dimorphism
Sexual selection
Social Dominance
Social interactions
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Summary:High social status is the primary determinant of reproductive success among group-living male mammals. Primates living in multimale–multifemale groups show the greatest variation in the strength of this link, with marked variation in reproductive skew by male dominance among species, dependent on the degree of female fertile phase synchrony, and the number of competing males. Here, we present data on two groups of wild crested macaques ( Macaca nigra ), living in the Tangkoko Reserve, Sulawesi, Indonesia. We investigated male monopolization of fertile females in 31 cycles of 19 females, and genetic paternity of 14 offspring conceived during the study period. We show that female fertile phase synchrony was low, that females had few mating partners in their fertile phase, and that dominant males monopolized a high proportion of consortships and matings, resulting in marked and steep mating and reproductive skew. We conclude that female cycle asynchrony provides the opportunity for strong direct male–male competition in crested macaques, resulting in monopolization of females by dominant males, consistent with their marked sexual dimorphism. Our study provides a test of the underlying factors that determine the relative occurrence and strength of different mechanisms of sexual selection, and the phenotypes that evolve as a result.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-81163-1