, 2009 and Price et al., 2012). By influencing the extent to selleck products which mating duration is extended following exposure to rivals males can therefore respond adaptively to the likely level of sperm competition ( Parker et al., 1996 and Parker et al., 1997). Such responses are therefore predicted to be strongly selected. However, it cannot be discounted that the extension of mating duration could be driven by female responses to the type
of male encountered. Our data suggest that the extension of mating duration in this context is indeed under male control, as responses by males to the potential threat of sperm competition were seen in matings with intact and with decapitated females in which female responses to males should be minimised. However, there may be other effects of female decapitation. For example, decapitated females can remain alive for up to 7 days and are reported to respond to physical contact ( Spieth, 1966) although
in our experiments the females did not exhibit rejection behaviours as previously observed ( Spieth, 1966). Females were also immobilised so they could not move away from males. What does seem clear though is that the decapitation treatment minimised the ability of females to exhibit rejection responses towards males and thereby influence the duration of mating through this mechanism. Gefitinib There was an effect, however, of female decapitation on the overall duration of mating. Males took significantly
longer to mate, and mated for a significantly shorter time overall, with decapitated females. This is consistent with previous work showing that male D. melanogaster will court decapitated females ( Cook and Cook, 1975, Grossfield, 1972 and Spieth, 1966), but at a reduced rate ( Cook and Cook, 1975). This is also in line with evidence that in Drosophilapalustris and D. subpalustris the proportion of inseminated decapitated females was half that of intact females ( Grossfield, 1972). However, the findings contrast with a study in D. montana, in which males were observed to mate for longer with decapitated females ( Mazzi et al., 2009). Females could influence courtship and mating duration in complex ways. For example, the manner in which the ovipositor is extruded can determine rejection or acceptance behaviour (Lasbleiz et second al., 2006). Wild type patterns of courtship in males presumably therefore depend upon elements of female behaviour or other inputs that were not present in our immobilised, decapitated females. If females influenced mating duration through their rejection behaviours, then we might expect males to mate for longer with decapitated females in which such rejection is minimised. However, the opposite was found, as matings were shorter overall when with decapitated females. This suggests that there may be some positive feedback from females to prolong mating duration.