Simultaneous Quaternary Radiations of Three Damselfly Clades across the Holarctic

If climate change during the Quaternary shaped the macroevolutionary dynamics of a taxon, we expect to see three features in its history: elevated speciation or extinction rates should date to this time, more northerly distributed clades should show greater discontinuities in these rates, and simila...

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Bibliographic Details
Published in:The American naturalist 2005-04, Vol.165 (4), p.E78-E107
Main Authors: Turgeon, Julie, Stoks, Robby, Thum, Ryan A., Brown, Jonathan M., McPeek, Mark A.
Format: Article
Language:English
Subjects:
Adaptation, Biological
Animals
Biological taxonomies
Climate
Datasets
DNA, Mitochondrial - chemistry
Extinct species
Extinction, Biological
E‐Article
Fossils
Freshwater
Genetic Speciation
Haplotypes
Insecta - classification
Insecta - genetics
Mating behavior
Mitochondrial DNA
Phylogenetics
Phylogeny
Polymorphism, Genetic
Population genetics
Speciation
Taxa
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Summary:If climate change during the Quaternary shaped the macroevolutionary dynamics of a taxon, we expect to see three features in its history: elevated speciation or extinction rates should date to this time, more northerly distributed clades should show greater discontinuities in these rates, and similar signatures of those effects should be evident in the phylogenetic and phylodemographic histories of multiple clades. In accordance with the role of glacial cycles, speciation rates increased in the HolarcticEnallagmadamselflies during the Quaternary, with a 4.25× greater increase in a more northerly distributed clade as compared with a more southern clade. Finer‐scale phylogenetic analyses of three radiating clades within the northern clade show similar, complex recent histories over the past 250,000 years to produce 17 Nearctic and four Palearctic extant species. All three are marked by nearly synchronous deep splits that date to approximately 250,000 years ago, resulting in speciation in two. This was soon followed by significant demographic expansions in at least two of the three clades. In two, these expansions seem to have preceded the radiations that have given rise to most of the current biodiversity. Each also produced species at the periphery of the clade’s range. In spite of clear genetic support for reproductive isolation among almost all species, mtDNA signals of past asymmetric hybridization between species in different clades also suggest a role for the evolution of mate choice in generating reproductive isolation as species recolonized the landscape following deglaciation. These analyses suggest that recent climate fluctuations resulted in radiations driven by similar combinations of speciation processes acting in different lineages.
ISSN:0003-0147
1537-5323
DOI:10.1086/428682