New Zealand Journal of Geology and Geophysics abstracts
SHRIMP U-Pb geochronology of Cretaceous magmatism in northwest
Nelson-Westland, South Island, New Zealand
R. J. MUIR1*
T. R. IRELAND2+
S. D. WEAVER1
J. D. BRADSHAW1
T. E. WAIGHT1[[daggerdbl]]
R. JONGENS1
G. N. EBY3
1Department of Geological Sciences
University of Canterbury
Private Bag 4800
Christchurch, New Zealand
2Research School of Earth Sciences
The Australian National University
GPO Box 4
Canberra, ACT 0200, Australia
3Department of Earth Sciences
University of Massachusetts
Lowell, Massachusetts 01854, U.S.A.
Present addresses:
*Isotope Geosciences Unit, Scottish Universities Research and
Reactor Centre, East Kilbride, Glasgow, G75 0QF, U.K. and Department of Geology
and Applied Geology, University of Glasgow, Lilybank Gardens, Glasgow, G12 8QQ,
U.K.
+Department of Geological and Environmental Sciences, Stanford
University, CA 94305-2215, U.S.A.
[[daggerdbl]]Department of Geology, La Trobe University, Bundoora,
Victoria 3083, Australia.
Abstract Ion microprobe U-Pb zircon ages have been obtained
from four samples of Cretaceous granitoid and two samples of volcanogenic
sediment from the northwest Nelson-Westland region of the South Island of New
Zealand. Crow Granite, which intrudes lower Paleozoic metasedimentary rocks in
the Buller Terrane on the eastern side of the Karamea Batholith, has given a
crystallisation age of 137 +/- 3 Ma (2[[sigma]]). This age is typical of
the Jurassic-Early Cretaceous plutonic rocks that dominate the Median Tectonic
Zone, and raises the possibility that the Western Province and the Median
Tectonic Zone were linked some 20 m.y. earlier than previously proposed.
The "Gouland granodiorite", which forms a large pluton at the northeastern
margin of the Karamea Batholith, has a crystallisation age of 119 +/- 2 Ma
(2[[sigma]]). This age is similar to the Separation Point Batholith
(118 Ma), and the distinctive chemistry of the batholith (high Na, Al, Sr,
and low Y) is also displayed by the Gouland granodiorite. The "Big Deep
granite", which intrudes Devonian granites of the Karamea Batholith in the
Upper Buller Gorge, has a crystallisation age of 110 +/- 3 Ma
(2[[sigma]]), similar to the age of Buckland Granite (Rahu Suite) in the
Paparoa Batholith. Berlins Porphyry in the Lower Buller Gorge also has a
mid-Cretaceous age of 111 +/- 2 Ma (2[[sigma]]). Two samples of Stitts
Tuff from the Lower Buller Gorge have given crystallisation ages of 101 +/-
2 Ma (2[[sigma]]) and 102 +/- 3 Ma (2[[sigma]]). These ages constrain
the timing of initiation of fault-bounded sedimentary basins on the West Coast,
related to a major period of crustal extension before the opening of the Tasman
Sea Basin.
Keywords Cretaceous; granite; geochronology; U-Pb isotopes;
zircon; New Zealand
New Zealand Journal of Geology and Geophysics, 1997, Vol. 40: 453-463
0028-8306/97/4004-0453 $7.00/0 (c) The Royal Society of New Zealand
1997
PDF file of entire paper: medium quality (1026K); (scanned from paper original: notes about this process)
This year's abstracts |
Journal home page |
All abstracts |
Publishing home page
