Abstract
AbstractLinaria vulgaris, common or yellow toadflax, and Linaria dalmatica, Dalmatian toadflax (Plantaginaceae), are Eurasian perennial forbs invasive throughout temperate North America. These Linaria species have been the targets of classical biological control programmes in Canada and the USA since the 1960s. The first effective toadflax biological control agent, the stem‐mining weevil Mecinus janthinus (Coleoptera: Curculionidae) was introduced from Europe in the 1990s. This weevil has become established on L. dalmatica and L. vulgaris in both countries, although it has shown greater success in controlling the former toadflax species. Genetic and ecological studies of native range M. janthinus populations revealed that weevils previously identified as a single species in fact include two cryptic species, now recognised as M. janthinus, associated with yellow toadflax, and the recently confirmed species Mecinus janthiniformis, associated with Dalmatian toadflax. The results of a comprehensive study characterising haplotype identities, distributions and frequencies within M. janthinus s.l. native range source populations were compared to those populations currently established in the USA and Canada. The presence of both Mecinus species in North America was confirmed, and revealed with a few exceptions a high and consistent level of host fidelity throughout the adopted and native ranges. Genetic analysis based on mitochondrial cytochrome oxidase subunit II gene (mtCOII) defined the origin and records the subsequent North American establishment, by haplotype, of the European founder populations of M. janthinus (northern Switzerland and southern Germany) and M. janthiniformis (southern Macedonia), and provided population genetic indices for the studied populations. This analysis together with existing North American shipment receipt, release and rearing records elucidates probable redistribution routes and sources of both weevil species from initially released and established adopted range populations.
Highlights
Accurate taxonomic identification of biological control agents and their targets is critical for safe and effective classical biological control of non-native invasive plants
The goal of this study was to trace the origin of weevils released for classical biological control of yellow and Dalmatian toadflax that are established in Canada and the USA to specific native range and host plant associated Mecinus janthinus s.l. source populations
America today originated from 1555 weevils collected on yellow toadflax in the Rhine Valley, Germany; 30 weevils collected from a mixed Dalmatian–yellow toadflax stand in Hungary; and 193 weevils collected from L. dalmatica ssp. macedonica in southern Macedonia
Summary
Accurate taxonomic identification of biological control agents and their targets is critical for safe and effective classical biological control of non-native invasive plants (weeds). Madeira et al, 2006; Toševski et al, 2015; Vigalondo et al, 2015) Such revelations can have major implications for the practice and success of weed biological control programmes, for example in the development of test plant lists for accurate, pre-release host range assessments of candidate biological control agents, or in correctly matching biological control agent species with their appropriate host plant species during agent releases (Gaskin et al, 2011 and references therein). The goal of this study was to trace the origin of weevils released for classical biological control of yellow and Dalmatian toadflax that are established in Canada and the USA to specific native range and host plant associated Mecinus janthinus s.l. source populations
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