Abstract
Summary The exploitation of shared resources by diverse organisms underpins the structure of ecological communities. Hemiparasitic plants and the insect herbivores feeding on them both rely, directly and indirectly, on the resources supplied by the parasite's host plant. Therefore, the identity and number of host plant species providing these resources is likely to be critical for parasite and herbivore performance. We tested the effect of single and multiple host species on the biomass of the generalist parasitic plant Rhinanthus minor and the abundance of its aphid (Aphis gossypii) herbivores. Parasite biomass was proportional to the number of haustorial connections to host roots and was determined by host species identity rather than host functional group. Host species identity was also an important influence on aphid population size, and parasites attached to Lotus corniculatus experienced a considerable reduction in aphid herbivory. The effects on the parasite attaching to multiple hosts depended on the combination of species present. However, host mixtures generally benefitted aphids by diluting the negative effects of particular host species. Our findings suggest that the specificity of host attachment alters the impact of this keystone parasitic plant on its own herbivores and, potentially, on the wider plant and herbivore community.
Highlights
IntroductionOften in high abundance, in many ecosystems where they affect their hosts, but indirectly impact on many other organisms
Parasitic plants are present, often in high abundance, in many ecosystems where they affect their hosts, but indirectly impact on many other organisms
Parasite biomass was proportional to the number of haustorial connections to host roots and was determined by host species identity rather than host functional group
Summary
Often in high abundance, in many ecosystems where they affect their hosts, but indirectly impact on many other organisms They have been shown to have major effects on the structure and function of ecological communities (Press & Phoenix 2005), including changing plant community diversity and structure (Joshi, Matthies & Schmid 2000; Ameloot, Verheyen & Hermy 2005), influencing nutrient cycling (Quested, Press & Callaghan 2003; Fisher et al 2013), altering soil microbial communities (Bardgett et al 2006) and affecting the performance of invertebrate herbivores (Marvier 1996; Ewald, John & Hartley 2011). The severity of the impact of R. minor on its hosts, and its consequent community level effects, depends, at least in part, on host species identity and the ability of the host to tolerate or resist infection (Gibson & Watkinson 1991; Cameron, Coats & Seel 2006; Rowntree, Cameron & Preziosi 2011)
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