Geological Dates and Molecular Rates: Rapid Divergence of Rivers and Their Biotas

doi:10.1080/10635150701313855

Systematic Biology 2007 56(2):271-282; doi:10.1080/10635150701313855

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Geological Dates and Molecular Rates: Rapid Divergence of Rivers and Their Biotas

Jonathan M. Waters¹, Diane L. Rowe¹, Smita Apte¹, Tania M. King¹, Graham P. Wallis¹, Leigh Anderson¹, Richard J. Norris², Dave Craw² and Christopher P. Burridge¹

¹ Department of Zoology, University of Otago PO Box 56, Dunedin, New Zealand E-mail: jonathan.waters{at}stonebow.otago.ac.nz (J.W.)
² Department of Geology, University of Otago PO Box 56, Dunedin, New Zealand

Edited by Jack Sullivan: Associate Editor

Abstract

We highlight a novel molecular clock calibration system basedon geologically dated river reversal and river capture events.Changes in drainage pattern may effect vicariant isolation offreshwater taxa, and thus provide a predictive framework forassociated phylogeographic study. As a case in point, New Zealand'sPelorus and Kaituna rivers became geologically isolated fromthe larger Wairau River system 70 to 130 kyr BP. We conductedmitochondrial DNA phylogeographic analyses of two unrelatedfreshwater-limited fish taxa native to these river systems (Gobiomorphusbreviceps, n = 63; Galaxias divergens, n = 95). Phylogeneticanalysis of combined control region and cytochrome b sequencesyielded reciprocally monophyletic clades of Pelorus-Kaitunaand Wairau haplotypes for each species. Calibrated rates ofmolecular change based on this freshwater vicariant event aresubstantially faster than traditionally accepted rates for fishesbut consistent with other recent inferences based on geologicallyyoung calibration points. A survey of freshwater phylogeographicliterature reveals numerous examples in which the ages of recentevolutionary events may have been substantially overestimatedthrough the use of "accepted" calibrations. We recommend that—whereverpossible—biologists should start to reassess the conclusionsof such studies by using more appropriate molecular calibrationsderived from recent geological events.

Keywords: Biogeography; calibrations; coalescent; fish; freshwater; geomorphology; geology; molecular clock; mutation rate; palaeogeography; Pleistocene; purifying selection; refugia; time dependency; vicariance

Received August 21, 2006; Revised October 15, 2006; Accepted November 22, 2006
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