New Zealand Journal of Geology and Geophysics abstracts
Isotopic character of Cambro-Ordovician plutonism, southern Victoria Land,
Antarctica
SIMON C. COX
Institute of Geological & Nuclear Sciences
Private Bag 1930
Dunedin, New Zealand
email: s.cox@gns.cri.nz
DAVID L. PARKINSON
Department of Geological Sciences
U.C. Santa Barbara
CA 93106, USA
email: kgp@silcom.com
ANDREW H. ALLIBONE
School of Earth Science
James Cook University
Townsville, Q4811, Australia
email: andrew.allibone@jcu.edu.au
ALAN F. COOPER
Department of Geology
University of Otago
P.O. Box 56
Dunedin, New Zealand
email: alan.cooper@stonebow.otago.ac.nz
Abstract Previous mapping of granitoid rocks in the Dry
Valleys area of southern Victoria Land, Antarctica, identified the
calc-alkaline (DV1a), adakitic (DV1b), and monzonitic (DV2) suites. A fourth
older suite comprising alkaline gabbro, syenite, and A-type granite occurs in
the Mt Dromedary area c. 80 km to the south. U-Pb zircon dating of Bonney
Pluton, the largest calc-alkaline DV1a intrusion, indicates emplacement of this
regional-scale body at 505 +/- 2 Ma. Pb-loss and inherited zircon were common
to Bonney Pluton analyses of this study. U-Pb dating of monazite from Valhalla
Pluton, a principal DV1b suite adakitic intrusion, indicates emplacement at 488
+/- 2 Ma. The Bonney Pluton age constrains the peak of calc-alkaline plutonism
at 505 Ma and the Valhalla Pluton age records the major pulse of adakitic
plutonism that is inferred to mark the final stages of subduction c. 490 Ma
along this section of the East Antarctic margin.
Nd and Sr isotope data for the calc-alkaline DV1a suite and adakitic DV1b
suite define distinct ranges for each suite, supporting their subdivision on
the basis of field relationships, petrography, and whole-rock geochemistry.
Calc-alkaline DV1a suite granite magmas have εNd(T) = -4.2 to -6.1 and
Sri = 0.7071-0.7079, whereas the adakitic DV1b suite rocks have a wider range
of εNd(T) = -1.9 to -7.2 and Sri = 0.7065-0.7097. The isotopic data
suggest a significant mantle component and subordinate crustal component in the
source region of both suites. Time-dependent variations in the isotopic ratios
of DV1a and DV1b suites imply a progressive increase in the proportion of more
radiogenic material in the source region of the granitoid rocks, either mantle-
or crust-derived material. Larger adakitic DV1b plutons are more "evolved" than
equivalent, smaller plutons of the same DV1b suite. Vanda Dikes and monzonitic
DV2 suite intrusions are characterised by particularly low Sri = 0.7044-0.7067
and near-constant εNd(T) = -4.8 to -5.3, which indicate a petrogenesis
for these younger intrusions distinct from the older DV1a and DV1b suites.
Gabbroic rocks from Mt Dromedary have εNd(T) values as low as -8.0 and
Sri ratios as high as 0.7108, despite their mafic composition, confirming they
are unrelated to granitoids in the Dry Valleys area.
A granulite xenolith in the McMurdo Volcanics with calc-alkaline DV1a-type
chemistry yielded a concordant U-Pb zircon age of 490 +/- 5 Ma. The age
suggests that some of the lower crust in southern Victoria Land was emplaced
during the Ross Orogeny rather than forming entirely during earlier Precambrian
event(s).
Isotopic ratios of metasediments and granitoids in the Dry Valleys correlate
most closely with rocks that comprise the Beardmore "Microcontinent" in the
Central Transantarctic Mountains, rather than the Nimrod Group and crosscutting
intrusions of the Miller Range. The DV1a suite granitoids in the Dry Valleys
are petrographically and geochemically similar to calc-alkaline granitoids in
northern Victoria Land, but have less-evolved isotopic compositions that imply
a lower proportion of crustal material in the source of the southern Victoria
Land granitoid rocks. The isotopic data imply complex variations in the
chemistry and genesis of granitoid rocks parallel to, as well as perpendicular
to, the trend of the Ross Orogen.
Keywords granitoids; suites; plutons; Bonney; Valhalla; Ross
Orogeny; isotopes; dating; Antarctica; southern Victoria Land; Dry Valleys
New Zealand Journal of Geology & Geophysics, 2000, Vol. 43:
501-520
0028-8306/00/4304-0501 $7.00/0 (c) The Royal Society of New Zealand
2000
PDF file of entire paper: medium quality (5229K); (scanned from paper original: notes about this process)
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