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Evolution and biogeography of New Zealand's longjaw galaxiids (Osmeriformes: Galaxiidae): the genetic effects of glaciation and mountain building


Jonathan Waters, Department of Zoology, University of Otago, PO Box 56, Dunedin, New Zealand. E-mail:


1. The biological impact of glaciation in Southern Hemisphere freshwaters is poorly understood. Several large rivers of eastern South Island, New Zealand, represent a mosaic of glaciated and non-glaciated regions, and are thus well-suited for studies of post-glacial recolonization.

2. We conducted mtDNA analyses of South Island's endemic non-migratory longjaw galaxiids Galaxias prognathus and G. cobitinis (Osmeriformes: Galaxiidae) to test hypotheses of post-glacial recolonization, and to assess the vicariant effects of Pleistocene mountain building.

3. We analysed the phylogeography of longjaw cytochrome b sequences from 38 sites in central South Island (n = 83). On the basis of our sampling it seems that G. prognathus and G. cobitinis have a parapatric distribution in the Waitaki River system, their disjunction broadly coinciding with three large post-glacial lakes. Waitaki clades of both species are deeply divergent relative to conspecific taxa in drainages to the north and south.

4. Tests for recent population growth – predicted under post-glacial expansion of G. prognathus– do not refute recent recolonization of streams above glaciated lakes in the Waitaki River drainage. The apparent absence of potential ‘source’ populations from non-glaciated regions suggests a post-glacial population decline for G. prognathus below the Waitaki lakes.

5. Molecular clock calibrations based on several freshwater vicariant events elsewhere in New Zealand supported the geologically-derived hypothesis of Waitaki–Canterbury drainage isolation approximately 300 ka.