Coevolutionary fine-tuning: evidence for genetic tracking between a specialist wasp parasitoid and its aphid host in a dual metapopulation interaction

Abstract:
In the interaction between two ecologically-associated species, the population

structure of one species may affect the population structure of the other. Here, we

examine the population structures of the aphid Metopeurum fuscoviride, a specialist on

tansy Tanacetum vulgare, and its specialist primary hymenopterous parasitoid

Lysiphlebus hirticornis, both of which are characterized by multivoltine life histories

and a classic metapopulation structure. Samples of the aphid host and the parasitoid

were collected from eight sites in and around Jena, Germany, where both insect

species co-occur, and then were genotyped using suites of polymorphic microsatellite

markers. The host aphid was greatly differentiated in terms of its spatial population

genetic patterning, while the parasitoid was, in comparison, only moderately

differentiated. There was a positive Mantel test correlation between pairwise shared

allele distance (DAS) of the host and parasitoid, i.e. if host subpopulation samples

were more similar between two particular sites, so were the parasitoid subpopulation

samples. We argue that while the differences in the levels of genetic differentiation

are due to the differences in the biology of the species, the correlations between host

and parasitoid are indicative of dependence of the parasitoid population structure on

that of its aphid host. The parasitoid is genetically tracking behind the aphid host, as

can be expected in a classic metapopulation structure where host persistence depends

on a delay between host and parasitoid colonization of the patch. The results may also

have relevance to the Red Queen hypothesis, whereupon in the ‘arms race’ between

parasitoid and its host, the latter ‘attempts’ to evolve away from the former.