Journal
BASIN RESEARCH
Volume 12, Issue 3-4, Pages 367-380Publisher
BLACKWELL SCIENCE LTD
DOI: 10.1046/j.1365-2117.2000.00135.x
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The stratigraphy of rift basins is a direct result of sediment liberation and transport through catchment-fan systems whose dynamics are controlled by both external and internal factors. We investigate the response of catchment-fan systems established across an active normal fault to variations in both tectonic and climatic boundary conditions. Numerical experiments show that the ratio of fan area to catchment area provides a sensitive indicator of tectonic activity. A step decrease in fault slip rate results in a delayed response by the catchment-fan systems; the response time is similar to 50 kyr for a variety of parameter values. Decreased slip rate also gives rise to an abrupt but transient pulse in sediment discharge from the fans due to a drop in the hangingwall subsidence rate. In contrast, variations in climatic activity, using precipitation rate as a proxy, produce extremely rapid responses throughout the catchment-fan system. Thus, high-frequency climatic changes will overprint lower frequency tectonic variations in the stratigraphic record of fan deposits. Finally, we map out possible combinations of fault geometry, fault slip rate and precipitation rate that allow fan progradation and high rates of sediment discharge from the system.
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