Abstract
Because weevils are used as biocontrol agents against thistles, it is important to document and understand host shifts and the evolution of host-specificity in these insects. Furthermore, such host shifts are of fundamental interest to mechanisms of speciation. The mediterranean weevil Larinus cynarae normally parasitizes either one of two thistle genera, Onopordum and Cynara, being locally monophagous. In Sardinia, however, both host genera are used. We used three types of data to help understand this complex host use: (i) weevil attack rates on the two host genera among 53 different populations in Sardinia and nearby Corsica, (ii) host preference in a lab setting, and (iii) genetic (allozyme) differentiation among weevil populations exploiting the same or different hosts. Using a subset of populations from northern Sardinia, we attempted to relate interpopulation differences in host preference to gene flow among populations by comparing pairwise differences in oviposition preference (Qst) and in allozyme frequencies (Fst). Overall, Qst and Fst were positively correlated. Fst was positively correlated with geographic distance among pairs of populations using the same host, but not among different-host population pairs. As mating occurs on the hosts, this result suggests reinforcement. Genetic evidence indicates Cynara as the ancestral host of the weevils from both islands and our current studies suggest repeated attempts to colonize Onopordum, with a successful shift in Corsica and a partial shift in Sardinia. This scenario would explain why in Sardinia the level of attack was higher on Cynara than on Onopordum and why, when given a choice in the laboratory, Sardinian weevils preferred Cynara even when sampled from Onopordum. The lability of host shifts in L. cynarae supports caution in using these or related weevils as biocontrol agents of exotic thistles.
Highlights
Parasitic species frequently show spatial variation in host use (Fox and Morrow 1981; Thompson 1994), even among habitats with similar arrays of potential hosts (e.g. Singer and Parmesan 1993)
The weevil Larinus cynarae and the thistles it parasitizes is an excellent system to study the evolution of specialization
We report on three kinds of empirical data: (i) weevil attack rates on Corsican and Sardinian populations of both plant genera in the field, (ii) host preferences of experienced and naive insects under experimentally controlled conditions, and (iii) genetic differentiation, assessed by enzyme electrophoresis, among weevil populations exploiting the same or different host species
Summary
Parasitic species frequently show spatial variation in host use (Fox and Morrow 1981; Thompson 1994), even among habitats with similar arrays of potential hosts (e.g. Singer and Parmesan 1993). Host shifts in weevils can be associated with performance on that host (Singer et al 1988; Hawthorne and Via 2001) and mate choice behavior can be directly driven by host affiliation (Feder et al 1994; Gotoh and Kubota 1997; Funk 1998; Nosil et al 2002, 2007) The latter can occur when mate-attraction pheromones are host-derived (Landolt and Phillips 1997; Emelianov et al 2001) or when males and females show parallel variation in prealighting host choice (Emelianov et al 2004). Analyzing factors that determine the host range of an insect is facilitated in species where this host range varies among populations In this context, the weevil Larinus cynarae and the thistles it parasitizes is an excellent system to study the evolution of specialization.
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