A mechanism to explain rift-basin subsidence and stratigraphic patterns through fault-array evolution

doi:10.1130/0091-7613(1998)026<0595:AMTERB>2.3.CO;2

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A mechanism to explain rift-basin subsidence and stratigraphic patterns through fault-array evolution

Sanjeev Gupta¹, Patience A. Cowie¹, Nancye H. Dawers¹ and John R. Underhill¹

¹ Department of Geology and Geophysics, University of Edinburgh, West Mains Road, Edinburgh EH9 3JW, United Kingdom

Rift-basin stratigraphy commonly records an early stage of slowsubsidence followed by an abrupt increase in subsidence rate.The physical basis for this transition is not well understood,although an increase in extension rate is commonly implied.Here, a numerical fault-growth model is used to investigatethe influence of segment linkage on fault-displacement-ratepatterns along an evolving normal fault array. The linkage processwe describe is controlled by a stress feedback mechanism, whichleads to enhanced growth of optimally positioned faults. Modelresults indicate that, even with constant extension rates, slowdisplacement rates prevail during an initial phase of distributedextension, followed by an increase in displacement rates asstrain becomes localized on linked fault arrays. This is dueto the dynamics of fault interactions rather than mechanicalweakening. Comparison of model simulations with rift-basin subsidenceand stratigraphic patterns in the Gulf of Suez and North Seasuggests that the occurrence and timing of rapid basin deepeningcan be explained by the mechanics of fault-zone evolution, withoutinvoking a change in regional extension rates.

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