Abstract
Glycaspis brimblecombei is an invasive insect pest of Eucalyptus that has spread rapidly around the world since its first report in California in 1998. The pest now occurs on at least four continents where Eucalyptus is grown as a non-native plantation species. To characterize global routes of invasion for this insect, we characterized the sequences of a portion of the Cytochrome Oxidase 1 (COI) gene from 105 individuals from the invasive and native range, including from Australia, Brazil, Chile, La Réunion, Mauritius, South Africa and the United States. In addition, we developed 13 polymorphic microsatellite markers, of which we used 11 to characterize the diversity in the same 105 specimens. Our results suggest that there have been two independent introduction events from Australia, which is assumed to be the origin, to distinct parts of the adventive range. The first introduction was into the United States, from where it appears to have spread to South America and eventually to South Africa. This finding highlights the threat of bridgehead populations to accelerate pest invasions in Eucalyptus, even if those populations are on widespread non-commercial populations of Eucalyptus (as in California). A second introduction appears to have occurred on the islands of Mauritius and La Réunion and provides another example of the establishment of independent lineages of invasive global insect pests. This complex invasion pattern mirrors that found in other Eucalyptus pests.
Highlights
Invasive insects threaten biodiversity and ecosystem function in both natural and highly managed ecosystems such as forestry and agriculture (Hoffmann et al, 2008; Wingfield et al, 2015; Hurley et al, 2016)
The invasion mechanisms and patterns of movement vary among organisms, the increase in accidental insect spread is strongly linked to anthropogenic pathways (Estoup and Guillemaud, 2010; Foucaud et al, 2010; Garnas et al, 2016)
Since the first report of invasive Eucalyptus pests reported outside their native range, the number of invasive insect pest outbreaks has been continuously rising, with a sharp increase in the number of emergences since the 1980’s (Wingfield et al, 2015; Hurley et al, 2016)
Summary
Invasive insects threaten biodiversity and ecosystem function in both natural and highly managed ecosystems such as forestry and agriculture (Hoffmann et al, 2008; Wingfield et al, 2015; Hurley et al, 2016). The invasion mechanisms and patterns of movement vary among organisms, the increase in accidental insect spread is strongly linked to anthropogenic pathways (Estoup and Guillemaud, 2010; Foucaud et al, 2010; Garnas et al, 2016). Understanding these patterns of movement is important for managing existing invasive populations, as well as avoiding future introductions. This number is expected to continue to increase rapidly in future given the consistent pattern over the last 20 years
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