Potential for climate effects on the size-structure of host--parasitoid indirect interaction networks.

Autor: Henri, Dominic C., Seager, David, Weller, Tiffany, van Veen, F. J. Frank
Předmět:
Zdroj: Philosophical Transactions of the Royal Society B: Biological Sciences; 11/5/2012, Vol. 367 Issue 1605, p3018-3024, 7p
Abstrakt: Communities of insect herbivores are thought to be structured mainly by indirect processes mediated by shared natural enemies, such as apparent competition. In host-parasitoid interaction networks, overlap in natural enemy communities between any pair of host species depends on the realized niches of parasitoids, which ultimately depend on the foraging decisions of individuals. Optimal foraging theory predicts that egg-limited parasitoid females should reject small hosts in favour of future opportunities to oviposit in larger hosts, while time-limited parasitoids are expected to optimize oviposition rate regardless of host size. The degree to which parasitoids are time- or egg-limited depends in part on weather conditions, as this determines the proportion of an individual's lifespan that is available to foraging. Using a 10-year time series of monthly quantitative host--parasitoid webs, we present evidence for host-size-based electivity and sex allocation in the common secondary parasitoid Asaphes vulgaris. We argue that this electivity leads to body-size-dependent asymmetry in apparent competition among hosts and we discuss how changing weather patterns, as a result of climate change, may impact foraging behaviour and thereby the size-structure and dynamics of host-parasitoid indirect interaction networks. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index