Sex ratio and virulence in two species of lizard malaria parasites

Evolutionary theory predicts that both the virulence and the sex ratio of a parasite can depend upon its population structure, and be positively corre lated. With only one or a low number of strains within a host, a low sex ra tio and a relatively low virulence are predicted. With high numbers of stra ins within a host, a more even sex ratio and a high parasite virulence are predicted. We examined gametocyte sex ratio and a possible correlate of vir ulence, parasite density (parasitaemia), in natural populations of two spec ies causing lizard malaria, Plasmodium 'tropiduri' and P. balli. The mean s ex ratios of both species were female-biased, consistent with estimate self ing rates of 0.36 and 0.48 respectively. In P. 'tropiduri', as we predicted , a positive correlation was also observed between our measure of virulence , parasitaemia and the gametocyte sex ratio. Furthermore, the gametocyte se x ratio was positively correlated with gametocyte density (gametocytaemia). This is consistent with facultative sex allocation in response to variable population structure if gametocytaemia is an indicator of the number of cl ones within a host. These relationships were not observed in I! balli.