Abstract
There is growing evidence that post-copulatory sexual selection, mediated by sperm competition, influences the evolution of sperm phenotypes. Evidence for pre-copulatory sexual selection effects on sperm traits, on the other hand, is rather scarce. A recent paper on the pied flycatcher, Ficedula hypoleuca, reported phenotypic associations between sperm length and two sexually selected male traits, i.e. plumage colour and arrival date, thus invoking pre-copulatory sexual selection for longer sperm. We were unable to replicate these associations with a larger data set from the same and two additional study populations; sperm length was not significantly related to either male plumage colour or arrival date. Furthermore, there was no significant difference in sperm length between populations despite marked differences in male plumage colour. We also found some evidence against the previously held assumption of longer sperm being qualitatively superior; longer sperm swam at the same speed as shorter sperm, but were less able to maintain speed over time. We argue that both empirical evidence and theoretical considerations suggest that the evolution of sperm morphology is not primarily associated with pre-copulatory sexual selection on male secondary sexual traits in this or other passerine bird species. The relatively large between-male variation in sperm length in this species is probably due to relaxed post-copulatory sexual selection.
Highlights
Sexual selection promotes the evolution of traits that increase an individual’s chance in getting access to mates or enhance the probability of fertilization after mating
There was no significant correlation between plumage colour and sperm length in the total data set
Our results revealed no significant association between sperm length and two sexually selected male traits, i.e. plumage colour and arrival date, in the pied flycatcher
Summary
Sexual selection promotes the evolution of traits that increase an individual’s chance in getting access to mates or enhance the probability of fertilization after mating. The two processes are often distinguished as pre- and post-copulatory sexual selection [1] for internal fertilizers. Post-copulat5ory sexual selection is relevant for the evolution of sperm phenotypes and their performance in sperm competition [3]. Sperm competition might select for longer sperm if sperm size is positively associated with competitive fertilizing ability, for example through increased swimming speed or longevity of longer sperm [5,6]. Explanations based on post-copulatory sexual selection contribute to our understanding of the huge sperm size heterogeneity observed across the animal kingdom
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