Abstract
In numerous primates living in mixed-sex groups, females display probabilistic cues of fertility to simultaneously concentrate paternity to dominant males while diluting it amongst others as a means to reduce the risk of infanticide and to increase male care for offspring. A few species, however, lack these cues and potentially conceal fertility from males; yet, to date, little is known about mating patterns and their underlying proximate mechanisms in such species. Here, we investigated mating activity and sexual consortships relative to female reproductive state in wild Assamese macaques (Macaca assamensis), a species where females lack prominent anogenital swellings and copulation calls. During two mating seasons (2837 contact hours) we recorded sexual and social behaviors, sexual consortships, and collected 1178 fecal samples (n = 15 females) which were analyzed for progestogen concentrations to assess female reproductive state and to determine the timing of ovulation and conception. Although mostly conceiving in their first ovarian cycle, females were sexually receptive throughout the entire 4-month mating season, and within-cycle mating frequencies were not increased during fertile phases. Dominant males did not monopolize fertile matings, and consortships by high-ranking males lasted for long periods, which were not exclusively linked to female fertile phases. Furthermore, females copulated promiscuously but not randomly, i.e. for almost every female, matings were concentrated to a certain male, irrespective of male rank. Collectively, we demonstrate that fertility is undisclosed to males. The extreme extended female sexuality facilitated by concealed fertility may allow females to create differentiated mating relationships within a promiscuous mating system. Our study provides important new insight into the plasticity of female sexuality in non-human primates.
Highlights
Sexual selection theory states that due to the asymmetry in parental investment, males should increase their number of offspring by mating with many females whereas females should mate more selectively in order to increase their reproductive success [1,2]
Female receptivity relative to reproductive state females mostly conceived in their first ovarian cycle, they mated throughout the entire 4-month mating season (Figure 1)
In a Generalized Linear Mixed Model (GLMM) we found that female mating activity varied throughout the mating season, with daily copulation frequencies being significantly higher during fertile stages than during pregnancy (p, n = 682 observations), but no significant difference was found between non-fertile (n, n = 749 observations) and fertile phases (n vs. fert: z = 20.70, p = 0.48; p vs. fert: z = 23.33, p,0.001; 13 females; Figure 2A)
Summary
Sexual selection theory states that due to the asymmetry in parental investment, males should increase their number of offspring by mating with many females whereas females should mate more selectively in order to increase their reproductive success [1,2]. Contrary to these predictions, female promiscuity is widespread among vertebrates and invertebrates [3,4,5,6,7]. If paternity estimates are high for certain males, polyandrous mating may secure or increase male care from these males for future infants including protection from infanticide [25,28,30,31,32]
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