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1 December 2003 EVOLUTION OF SUBTERRANEAN DIVING BEETLES (COLEOPTERA: DYTISCIDAE: HYDROPORINI, BIDESSINI) IN THE ARID ZONE OF AUSTRALIA
Remko Leys, Chris H. S. Watts, Steve J. B. Cooper, William F. Humphreys
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Abstract

Calcrete aquifers in arid inland Australia have recently been found to contain the world's most diverse assemblage of subterranean diving beetles (Coleoptera: Dytiscidae). In this study we test whether the adaptive shift hypothesis (ASH) or the climatic relict hypothesis (CRH) is the most likely mode of evolution for the Australian subterranean diving beetles by using a phylogeny based on two sequenced fragments of mitochondrial genes (CO1 and 16S-tRNA-ND1) and linearized using a relaxed molecular clock method. Most individual calcrete aquifers contain an assemblage of diving beetle species of distantly related lineages and/or a single pair of sister species that significantly differ in size and morphology. Evolutionary transitions from surface to subterranean life took place in a relatively small time frame between nine and four million years ago. Most of the variation in divergence times of the sympatric sister species is explained by the variation in latitude of the localities, which correlates with the onset of aridity from the north to the south and with an aridity maximum in the Early Pliocene (five mya). We conclude that individual calcrete aquifers were colonized by several distantly related diving beetle lineages. Several lines of evidence from molecular clock analyses support the CRH, indicating that all evolutionary transitions took place during the Late Miocene and Early Pliocene as a result of aridification.

Remko Leys, Chris H. S. Watts, Steve J. B. Cooper, and William F. Humphreys "EVOLUTION OF SUBTERRANEAN DIVING BEETLES (COLEOPTERA: DYTISCIDAE: HYDROPORINI, BIDESSINI) IN THE ARID ZONE OF AUSTRALIA," Evolution 57(12), 2819-2834, (1 December 2003). https://doi.org/10.1554/03-165
Received: 12 March 2003; Accepted: 1 July 2003; Published: 1 December 2003
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KEYWORDS
Adaptive shift
aridification
climate relict
molecular clock
phylogeny
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