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Mary Beth Gray
Associate Professor of Geology
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Ramifications of four dimensional progressive deformation in contractional mountain belts
Mary Beth Gray, Department of Geology, Bucknell University, Lewisburg, PA 17837 Gautam Mitra, Department of Earth and Environmental Sciences, University of Rochester, Rochester NY 14627
Abstract Studies of progressive deformation aim to identify and establish temporal sequences of structural stages, each characterized by a suite of structures which form under specific rock and environmental conditions. Because of the natural spatial variation in rock type and environmental parameters in an orogen, several structural stages may operate concurrently in different parts of an orogenic wedge. At any given instant in time, rocks experiencing different stages of deformation are bounded by deformation fronts. As intrinsic and extrinsic conditions of deformation vary through time, spatial migration of deformation fronts causes rocks to record temporal overprinting of structural stages. In convergent orogens, deformation fronts, as mapped in their finite state, are typically forelandward-dipping due to the regional orogenic wedge geometry and thermal structure. Depending on the competing deformation processes, deformation rate changes on either side of the front may cause deformation fronts to change orientation, relief and surface area with time. Differences in migration rates of different deformation fronts could cause rearrangement of the sequence of structural stages with depth and laterally across the same mountain belt.
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