James T. Cronin, Louisiana State University
To date, we lack field experiments that assess the importance of apparent competition to
metacommunity structure. Here, I conducted a series of field experiments to test whether
apparent competition, mediated by shared egg parasitoids (Anagrus spp.), occurs between two
planthopper species (Delphacodes scolochloa and Prokelisia crocea) of the North American
Great Plains. The two planthoppers feed on different plant species within prairie potholes and,
thus, do not interact directly. At the scale of individual potholes, a five-fold increase in
Delphacodes density (relative to control potholes) resulted in a steady decline in Prokelisia
density over two generations. Concurrently, Prokelisia eggs in these potholes suffered twice the
level of parasitism as Prokelisia eggs in control potholes. In contrast, a six-fold increase in
Prokelisia density had no effect on Delphacodes density or parasitism in those potholes. The
superiority of Delphacodes over Prokelisia likely can be attributed to two main factors, a larger
source population size and the presence of a phenological refuge from parasitism for
Delphacodes. In another experiment, in which small populations of Prokelisia were established
either in close proximity to Delphacodes or in isolation, I found that the likelihood of Prokelisia
persistence was 36% lower in the former than the latter populations. This difference was
attributable to very high rates of parasitism of Prokelisia when adjacent to Delphacodes. These
two experiments provide strong evidence that the two planthopper species engage in apparent
competition and that the shared parasitoids can play a significant role in limiting membership in
local communities.