Abstract
Abstract An analysis of Bouguer and isostatic gravity anomalies from the convergent plate boundary, central South Island, New Zealand, is developed using constraints from seismic refraction data, plate tectonics, and an elastic flexure model. Between 50 and 80 km of late Tertiary plate convergence is assumed so that relatively dense, subducted mantle is included in the gravity model. An elastic plate with a free edge and an effective elastic thickness (Te) that varies laterally between 10 and 30 km is used to simulate the deflection of the Pacific plate beneath the central South Island. Loading on the plate is in the form of topography of the Southern Alps and the excess mass of subducted Pacific mantle. For a weak plate with Te = 10 km, only 50 km of subducted plate, and hence convergence, is required to explain the Bouguer gravity anomalies. For a stronger plate model, where Te varies between 15 and 35 km, c. 80 km of convergence is required. The latter model is preferred as it is more consistent with a...
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