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AAPG Bulletin, V.
Sequence stratigraphy of experimental strata under known conditions of differential subsidence and variable base level
1St. Anthony Falls Laboratory and Department of Geology and Geophysics, University of Minnesota, Minneapolis, Minnesota; present address: Integrated Reservoir Performance Prediction, ExxonMobil Upstream Research Company, P.O. Box 2189, Houston, Texas 77252-2189; firstname.lastname@example.org
2St. Anthony Falls Laboratory and Department of Geology and Geophysics, University of Minnesota, Minneapolis, Minnesota
3ExxonMobil Exploration Company, Houston, Texas
4ExxonMobil Exploration Company, Houston, Texas
5ExxonMobil Upstream Research Company, Houston, Texas; present address: School of Oceanography, University of Washington, Seattle, Washington
Sequence stratigraphy has been applied from reservoir to continental scales, providing a scale-independent model for predicting the spatial arrangement of depositional elements. We examine experimental strata deposited in the Experimental EarthScape facility at St. Anthony Falls Laboratory, focusing on stratigraphic surfaces defined by discordant contact geometries, surfaces analogous to those delineated in the original work on seismic sequence stratigraphy. In this controlled setting, we directly evaluate critical sequence-stratigraphic issues, such as stratigraphic horizon development and time significance, as well as the internal geometry and migration of the bounded strata against the known boundary conditions and depositional history.
Four key stratigraphic disconformities defined by marine downlap, marine onlap, fluvial erosion, and fluvial onlap are mapped and vary greatly in their relative degree of time transgression. Marine onlap and downlap contacts closely parallel topographic surfaces (time surfaces) and, prior to burial, approximate the instantaneous offshore topography. These stratal-bounding surfaces are also robust stratigraphic signals of relative base-level fall and rise, respectively. Marine onlap surfaces are of special interest. They tend to be the best preserved discordance, where widespread, allogenic-based onlap surfaces subdivide otherwise amalgamated depositional cycles amidst cryptic stacks of marine foresets; however, local, autogenic-based marine onlap discordances are present throughout the fill. A critical distinguishing feature of allogenic onlap is the greater lateral persistence of the discordance. Surfaces defined by subaerial erosional truncation and fluvial onlap do not have geomorphic equivalence because channel processes continually modify the surface as the stratigraphic horizons are forming. Hence, they are strongly time transgressive. Last, the stacking arrangement of the preserved bounded strata is found to be a good time-averaged representation of the mass-balance history.
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