Abstract
The dilution effect can occur by a range of mechanisms and results in reduced parasite prevalence in host taxa. In invaded ecosystems, the dilution effect can benefit native species if non-native species, acting as resistant or less competent hosts, reduce rates of parasitic infections in native species. In field experiments, we assessed whether manipulating biomass of the non-native snail, Potamopyrgus antipodarum, caused a dilution effect by reducing trematode infections in three taxa of native snails. In contrast to many studies showing resistant or less competent non-native hosts can “dilute” or reduce infection rates, we found no evidence for a dilution effect reducing infection rates of any of the native snails. We suggest that a dilution effect may not have occurred because most trematode taxa are highly host specific, and thus the trematode transmission stages did not recognize the invasive snail as a possible host. In this case, community composition appears to be important in influencing the dilution effect.
Highlights
Interactions between parasites and non-native and native hosts can have diverse outcomes
In 2014 and 2015, we found no trematode infections in the 427 Potamopyrgus that we examined (Table 1), suggesting that these non-native snails may be resistant or less competent hosts to the native trematodes occurring in Polecat Creek
We found no evidence for a dilution effect; the presence or level of biomass of the non-native Potamopyrgus did not reduce overall infection status in either of the native snails
Summary
Interactions between parasites and non-native and native hosts can have diverse outcomes. Non-native species can bring novel parasites to native hosts [1,2,3], serve as reservoirs for native parasites [1, 2], or reduce infection rates in a native species by acting as resistant, less competent, or decoy hosts (hereafter: less competent hosts) [1, 2, 4, 5]. The latter results in a “dilution effect.”.
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