Abstract
Parasitism can represent a potent agent of selection, and introduced parasites have the potential to substantially alter their new hosts' ecology and evolution. While significant impacts have been reported for parasites that switch to new host species, the effects of macroparasite introduction into naïve populations of host species with which they have evolved remain poorly understood. Here, we investigate how the estuarine white‐fingered mud crab (Rhithropanopeus harrisii) has adapted to parasitism by an introduced rhizocephalan parasite (Loxothylacus panopaei) that castrates its host. While the host crab is native to much of the East and Gulf Coasts of North America, its parasite is native only to the southern end of this range. Fifty years ago, the parasite invaded the mid‐Atlantic, gradually expanding through previously naïve host populations. Thus, different populations of the same host species have experienced different degrees of historical interaction (and thus potential evolutionary response time) with the parasite: long term, short term, and naïve. In nine estuaries across this range, we examined whether and how parasite prevalence and host susceptibility to parasitism differs depending on the length of the host's history with the parasite. In field surveys, we found that the parasite was significantly more prevalent in its introduced range (i.e., short‐term interaction) than in its native range (long‐term interaction), a result that was also supported by a meta‐analysis of prevalence data covering the 50 years since its introduction. In controlled laboratory experiments, host susceptibility to parasitism was significantly higher in naïve hosts than in hosts from the parasite's native range, suggesting that host resistance to parasitism is under selection. These results suggest that differences in host–parasite historical interaction can alter the consequences of parasite introductions in host populations. As anthropogenically driven range shifts continue, disruptions of host–parasite evolutionary relationships may become an increasingly important driver of ecological and evolutionary change.
Highlights
Biological invasions can be profoundly destabilizing to native eco‐ systems, in part because they disrupt established biotic relationships and alter species interactions
Prevalence was first calculated at the smallest scale for each site × time sample (Table 1; Rothman, 2002), as the number of visibly infected crabs divided by the total number of crabs above the minimum size for vis‐ ible infection (3.9 mm carapace width (CW) for R. harrisii; 5.8 mm CW for E. depressus; see Appendix S1 for further detail)
Host–parasite evolutionary dynamics are increasingly altered by an‐ thropogenic global change and increased vector traffic, as hosts and parasites are introduced beyond their natural boundaries
Summary
Biological invasions can be profoundly destabilizing to native eco‐ systems, in part because they disrupt established biotic relationships and alter species interactions. There has been very little exploration of parasite spillover without host‐switching, where the parasite is transported from its native region to an area harboring naïve populations of the same host species (Woolhouse, Webster, Domingo, Charlesworth, & Levin, 2002). Intraspecific differ‐ ences in susceptibility may exist in any system where the host and parasite distributions do not fully overlap, for example, when a host is more widespread geographically than its parasites Such a scenario can result in a mosaic of host–parasite relationships across a host's range. The introduction and subsequent spread of this parasite in naïve host populations outside of the par‐ asite's native range offer a natural test of the potential effects of interaction history on the host's evolutionary ecology. Our results highlight the importance of host–parasite inter‐ action history in shaping the ecological and evolutionary outcomes of parasite introductions
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