Habitat‐specific variation in life‐history traits, clonal population structure and parasitism in a freshwater snail ( Potamopyrgus antipodarum )

High risk of infection by parasites may select for early reproduction in natural host populations. In a previous study of a freshwater snail ( Potamopyrgus antipodarum ) we found (1) that different clones of the snail are associated with different depth‐structured vegetation zones and (2) that snails in shallow water, where the age‐specific risk of infection is highest, mature at a smaller size than snails in deeper habitats. This result suggests that there has been selection for early reproduction in these snails, and that different clonal genotypes have different life‐history strategies. Alternatively, the observed life‐history variation in the snails might be due to ecological factors that are independent of parasites, but correlated with depth. In the present study, we decoupled parasitism and depth by examining life histories and clonal population structure in a second lake (Lake Tennyson) where the mean prevalence of trematode parasites was low and unrelated to depth. Consistent with the previous results, clones were structured according to vegetation zones in Lake Tennyson. However, we found no relationship between depth and life‐history traits, which is inconsistent with the idea that depth‐associated factors other than parasites affect snail life histories. Taken together, these results suggest that life‐history variation is more likely to result from a depth‐specific risk of infection than from depth per se , and that partitioning of habitat zones by different groups of clones may be a general phenomenon in P. antipodarum populations.