Abstract
BackgroundMany male animals donate nutritive materials during courtship or mating to their female mates. Donation of large-sized gifts, though costly to prepare, can result in increased sperm transfer during mating and delayed remating of the females, resulting in higher paternity. Nuptial gifting sometimes causes severe female-female competition for obtaining gifts (i.e., sex-role reversal in mate competition) and selection on females to increase their mating rate, changing the intensity of sperm competition and the resultant paternity gains. We built a theoretical model to simulate such coevolutionary feedbacks between nuptial gift size (male trait) and propensity for multiple mating (female trait). Donation of nuptial gifts sometimes causes development of female persistence trait for gift acquisition. We also analyzed the causes and consequences of this type of traits, taking double receptacles for nutritious seminal gifts, which are known to occur in an insect group with a “female penis” (Neotrogla spp.), as an illustrative example.ResultsOur individual-based simulations demonstrated that female-female competition for male-derived nutrients always occur when the environment is oligotrophic and mating costs are low for females. However, a positive correlation between donated gift size and the resultant paternity gain was a requisite for the co-occurrence of large gifts and females’ competitive multiple mating for the gifts. When gift donation satisfied female demands and thus resulted in monandry, exaggeration of nuptial gift size also occurred under the assumption that the last male monopolizes paternity. The evolution of double slots for gift acquisition and digestion (female persistence trait) always occurred when males could not satisfy the demands of females for gifts. However, through coevolutionary reduction in male gift size, fixation of this trait in a population drastically reduced the average female fitness.ConclusionSperm usage patterns, which have rarely been examined for animals with nuptial gifts, can be a critical factor for determining the extent of exaggeration in nuptial gifting. Sex-role reversals in mate competition, as a result of donation of nuptial gifts from males to females, can involve the evolution of male-like, persistent traits in females that reduce population productivity, as is the case with persistence traits in males.
Highlights
Many male animals donate nutritive materials during courtship or mating to their female mates
Since sperm storage/use patterns of multiply-mated females are largely unknown for animals with donation of nuptial gifts [1], we examined four different regimes for the relationship between the nuptial gift size and the resultant paternity gain in this study: fair raffle (FR), equal shares (ES), complete last male (LM), and complete first male (FM) (Fig. 2, Table 1)
When females used sperm from each male mate for fertilization of eggs proportionally to the nuptial gift size donated did males evolve a large-sized gift compared with their lifetime resource budget under a wide range of parameter sets
Summary
Many male animals donate nutritive materials during courtship or mating to their female mates. In many cases, males supply and benefit females with nutritious materials such as prey items they have collected or voluminous secretions from male internal/external glands [1, 5]. This phenomenon is widely observed in the animal kingdom, there is continuing debate on its primary function [6,7,8,9,10,11,12,13]. Recent studies suggest that these two hypotheses are not mutually exclusive and are difficult to discriminate, because male-derived nutrients cannot be properly allocated to the offspring of respective donors without a positive correlation between the extent of mating effort by males and their paternity success [1]
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