New Zealand Journal of Geology and Geophysics abstracts

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The geology of the Torlesse Complex along the Wellington area coast, North Island, New Zealand

NEIL H. SUNESON

Oklahoma Geological Survey
Sarkeys Energy Center, Room N-131
The University of Oklahoma
100 East Boyd Street
Norman, Oklahoma 73019, U.S.A.

Abstract The Wellington coast between Paekakariki and Pencarrow Head is underlain mostly by Late Triassic Torlesse Terrane strata (Rakaia Subterrane). The principal rock types are fine-medium-grained greywacke and argillite that have been metamorphosed to prehnite-pumpellyite facies. These strata were deposited by turbidity currents and mass-flow processes. Diamictites containing greywacke, chert, basalt, and limestone clasts in an argillite matrix are rare and originated as subaqueous debris flows. Lithofacies relationships and sedimentary structures suggest that the sediments were deposited on a series of overlapping fans in a base-of-slope slope-apron environment.
Melange zones, consisting of isolated blocks or lenses of greywacke in a sheared argillite matrix, are subparallel to bedding within the turbidites. Individual structures vary from compressional to extensional and brittle to ductile; stratal disruption resulted from bedding-parallel extension. The melange zones represent decollements and, at least locally, are at the tops of coherent sedimentary sequences.
Most of the strata strike NNE, dip steeply, and face west. Shear planes subparallel to bedding are pervasive. Megascopic and some larger folds plunge gently to moderately parallel to the regional strike of bedding; some map-scale folds plunge steeply oblique to bedding. West of Wellington, the strata are folded into steeply plunging, map-scale upright and inverted anticlines and synclines.
The structural history of the Wellington area Torlesse is based on cleavage-fold relationships and similarity of fold styles, and is consistent with deformation in an accretionary prism over a west-dipping subduction zone: (1) formation of melange beneath the toe of an accretionary prism; (2) underplating to the base of the accretionary prism and tectonic thickening; (3) subhorizontal asymmetric folding and cleavage development; (4) imbrication, stacking, and coaxial rotation of strata to subvertical; and (5) folding due to layer-parallel oblique-slip. Subsequent events less clearly related to deformation within the accretionary-prism area are Early Cretaceous shearing and mineralisation, and Cenozoic right-slip folding and faulting.

Keywords Torlesse; Rakaia; Triassic; Wellington; argillite; greywacke; turbidite; olistostrome; lithofacies; folds; shear planes; cleavage; decollement; submarine fan; accretionary prism

Received 2 December 1992; published 14 September 1993
New Zealand Journal of Geology & Geophysics, 1991, Vol. 36: 369—384
0028Ð8306/06/3603—0369 ©The Royal Society of New Zealand 1991

PDF file of entire paper: medium quality (3618K); (scanned from paper original: notes about this process). Digitisation of this article from the printed journal was kindly facilitated by the Geological Society of New Zealand

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