Earth System Processes 2 (8–11 August 2005)

Paper No. 3
Presentation Time: 4:30 PM-6:00 PM

MAKING MOUNTAINS AND BASINS ALONG THE NEW ZEALAND PLATE BOUNDARY: IMPORTANCE OF TRANSITIONS AND TRANSIENTS


FURLONG, Kevin P., Geosciences, Penn State Univ, 542 Deike Building, University Park, PA 16802 and KAMP, Peter J.J., Department of Earth Sciences, University of Waikato, Private Bag 3105, Hamilton, 2001, kevin@geodyn.psu.edu

Sitting astride the Pacific-Australia plate boundary, New Zealand exhibits the consequences of transpressional plate motions. Of particular importance are the distinctively different responses to similar plate kinematics along the plate boundary. In the far south of the South Island, transpression is accommodated by localized subduction of Australia beneath Fiordland, which undergoes an abrupt transition into the more translational Alpine Fault system. To the north, transpression is accommodated by the subduction of the Pacific plate along the Hikurangi margin, which is migrating to the south encroaching on the Australian lithosphere. At the transitions between these plate regimes there is substantial tectonism that records the consequences of the changes in plate boundary structure. The development of the New Zealand mountains is not a simple transpressional orogenic event, but rather reflects the superposition and juxtaposition of variable styles of tectonism affecting specific plate boundary components. Here we focus on the transition from Hikurangi subduction to Alpine Fault transpression to analyze the migratory response to these changes in plate interaction. Key features of this transition involve the delamination of the sub-crustal Australia lithosphere to make room for the Pacific slab, subducting beneath the North Island, as it migrates southward. The consequences of this event include a pattern of uplift-downwarp-uplift as the southern edge of the Hikurangi slab drives delamination of a sliver of Australia lithosphere, a series of short lived sedimentary basins that migrate with the slab edge, and mountain building in the north of the South Island that reflects the superposition of Southern Alps orogenesis with crustal deformation associated with the delamination. As a result of these transitions and their migrations, orogenesis along the ~ 1000 km of the New Zealand plate boundary varies substantially over short distances and short time intervals.
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