Tectonic dynamics and niche availability play intertwined roles in determining patterns of diversification. Such drivers explain the current distribution of many clades, whereas events such as the rise of angiosperms can have more specific impacts, such as on the diversification rates of herbivores. The Tortricidae, a diverse group of phytophagous moths, are ideal for testing the effects of these determinants on the diversification of herbivorous clades. To estimate ancestral areas and diversification patterns in Tortricidae, a complete tribal‐level dated tree was inferred using molecular markers (one mitochondrial and five nuclear) and calibrated using fossil constraints. We found that Tortricidae diverged from their sister group c. 120 Myr ago (Ma) and diversified c. 97 Ma, a timeframe synchronous with the rise of angiosperms in the Early–mid Cretaceous. Ancestral areas analysis, based on updated Wallace's biogeographical regions, supports the hypothesis of a Gondwanan origin of Tortricidae in the South American plate. We also detected an increase in speciation rate that coincided with the peak of angiosperm diversification in the Cretaceous. This in turn probably was further heightened by continental colonization of the Palaeotropics when angiosperms became dominant by the end of the Late Cretaceous.
Olethreutine moths often have fruit-boring larvae and this economically important group includes many horticultural pests such as codling moths, Oriental fruit moths and macadamia nut borers. This volume is the first reference to describe the 90 olethreutine genera present in Australia.
It provides generic definitions, a key to genera, generic descriptions, and illustrations of adults, heads, venation, genitalia of both sexes and other diagnostic structures of all genera. Summaries of biology and distribution and a checklist for all named Australian species are given for each genus. Importantly, it includes a comprehensive reorganisation of olethreutine classification, based on generic revisions, with a worldwide impact.
The volume contains copious illustrations (two species per genus where possible) to convey generic concepts, and to allow identification of this economically important group. Nearly all olethreutine genera present in Australia extend into Asia and beyond, so the book will be relevant to horticultural pests throughout Asia, and crucial to an understanding of olethreutine evolution worldwide.
The diverse Australian olethreutine fauna is particularly rich in enarmoniine and grapholitine genera, several new to science and adding significantly to the concepts of these two tribes. Given the wealth of biological information, the book will be important for ecological work on phytophagous insects well beyond Australia.
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