期刊
ECOLOGY AND EVOLUTION
卷 11, 期 6, 页码 2449-2460出版社
WILEY
DOI: 10.1002/ece3.6896
关键词
Aphelinus certus; Aphis glycines; Aphis nerii; apparent parasitism; apparent predation; biological control; egg sink; evolutionary trap
资金
- APHIWEB [611810]
- University of Minnesota
Parasitoids used as biological control agents can parasitize multiple host species, with the suitability and acceptance of hosts affecting population dynamics. Presence of an unsuitable host can indirectly impact the population of a suitable host by serving as an egg sink for parasitoids. Through experimentation, it was observed that the presence of an unsuitable host led to a significant reduction in parasitoid offspring production on the suitable host.
Parasitoids used as biological control agents often parasitize more than a single host species and these hosts tend to vary in suitability for offspring development. The population dynamics of parasitoids and hosts may be altered by these interactions, with outcomes dependent on the levels of suitability and acceptance of both host species. Parasitism of individuals of an unsuitable host species may indirectly increase populations of a suitable host species if eggs laid into unsuitable hosts do not develop into adult parasitoids. In this case, the unsuitable host is acting as an egg sink for parasitoids and this can reduce parasitism of suitable hosts under conditions of egg limitation. We studied parasitoid-mediated indirect interactions between two aphid hosts, Aphis glycines (the soybean aphid) and A. nerii (the milkweed, or oleander aphid), sharing the parasitoid Aphelinus certus. While both of these aphid species are accepted by A. certus, soybean aphid is a much more suitable host than milkweed aphid is. We observed a drastic reduction of parasitoid offspring production (45%) on the suitable host in the presence of the unsuitable host in microcosm assays. Aphelinus certus females laid eggs into the unsuitable hosts (Aphis nerii) in the presence of the suitable host leading to egg and/or time limitation and reduced fitness. The impact of these interactions on the equilibrium population sizes of the three interacting species was analyzed using a consumer-resource modeling approach. Both the results from the laboratory experiment and the modeling approaches identified apparent predation between soybean aphid and milkweed aphid, in which milkweed aphid acts as a sink for parasitoid eggs leading to an increase in the soybean aphid population. The presence of soybean aphids had the opposite effect on milkweed aphid populations as it supported increases in parasitoid abundance and thus reduced the fitness and abundance of this aphid species.
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