New Zealand Journal of Geology & Geophysics abstracts
Geological and biological evidence for drainage reorientation
during uplift of alluvial basins, central Otago, New Zealand
D. Craw
Geology Department
University of Otago
PO Box 56
Dunedin 9054, New Zealand
dave.craw@stonebow.otago.ac.nz
C. Burridge
J. Waters
Zoology Department
University of Otago
PO Box 56
Dunedin 9054, New Zealand
Abstract Three contiguous sedimentary
basins at the foot of
the Hawkdun Range, central Otago, show evidence for Pleistocene river
capture events. The basins formed near the intersection of NNW-trending
and northeast-trending active structures, along the NNW-striking
Hawkdun Fault zone. The basins are synclinal and have developed between
northeast-trending antiformal ridges. Continuing uplift of two adjacent
basins in the late Pleistocene has caused lowering of stream gradients,
which encouraged diversion of one river in each basin to the northwest,
to lower altitude in the adjacent basin. These reoriented rivers have
now cut gorges through growing antiformal ridges, and new low-relief
drainage divides have formed in the basins. These river capture events
are notable because they involve basin uplift, not mountain range
uplift. We suggest that diversion of one of these rivers, the Ida Burn,
into the adjacent basin facilitated interchange of galaxiid fish across
the Taieri-Clutha catchment divide. Spontaneous mutations of
mitochondrial DNA (mtDNA) have accumulated in populations of G.
anomalus that are now separated by a new drainage divide to the
east of the Ida Burn. There has been 1.1% divergence of mtDNA in fish
on either side of this new divide, and an empirical calibration of
divergence rates implies that the divide developed c. 60 thousand
years (kyr) ago. In contrast, flathead galaxiid species (G.
depressiceps and relatives) exhibit 3.5% mtDNA divergence between
the Clutha and Taieri catchments, implying separation of these species
for c. 500 kyr. Growth and impingement of mountain ranges of the
Rough Ridge antiformal complex during the middle Pleistocene may have
contributed to isolation of these flathead galaxiid species.
Populations of the fish species Galaxias paucispondylus occur
in the Hawkdun Basin (Clutha catchment), to the northwest of the other
two basins, but not elsewhere in central Otago. A drainage link may
have existed between the Hawkdun Basin and the Waitaki valley to the
north, where G. paucispondylus is widespread. There is
c. 4.2% divergence in mtDNA of G. paucispondylus between
these catchments, and an empirical calibration of divergence rates
implies that isolation occurred c. 800 kyr ago.
Keywords river capture; geomorphology; tectonics;
genetics; DNA
G07010; Online publication date 25 October 2007; Received 7 May
2007; accepted 15 October 2007
New Zealand Journal of Geology & Geophysics, 2007, Vol. 50:
367–376
0028–8306/07/5004–0367 © The Royal Society of New Zealand 2007
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