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The AAPG/Datapages Combined Publications Database

Houston Geological Society Bulletin

Abstract


Houston Geological Society Bulletin, Volume 44, No. 6, February 2002. Pages 21-21.

Abstract: Integrated Analysis of the Upper Jurassic Bossier Deltaic Complex, East Texas

By

K. M. Stevens1, J. B. Wagner2, T. D. Sheffield1, L. L. Brooks1, P. Zippi3, M. A. Dablain1, B. Brown1, and R. Offenberger1
1Pioneer Natural Resources, Irving, TX
2Nexen Petroleum, Dallas, TX
3Biostratigraphy.com, Richardson, TX

The sandstones encased within the Bossier Shale member of the Cotton Valley Sandstone in East Texas are subdivided into three genetically related stratigraphic cycles. The lower deltaic cycle is a seaward-stepping unit that becomes reworked as a result of delta switching with the upper cycles characterized primarily as aggradational to progradational units. Facies range from delta-fed gravity-flow to delta-front to distributary-channel deposits.

Previous interpretations have ranged from submarine-fan to braided river, with individual cycles interpreted to be bounded by regionally extensive marine flooding surfaces. However detailed sedimentologic, petrologic, and biostratigraphic analyses of well logs and cores indicate that the stacking pattern of the Bossier deltaic complex is controlled by autocyclic lobe-switching as a result of varying sediment supply (overall increase) associated with the large Cotton Valley fluvial system. In particular, detailed biostratigraphic analysis (i.e. palynology, micropaleontology, etc.) suggests that bounding shale intervals and "flooding surfaces" exhibit a high terrigenous/marginal marine signature. True marine flooding events are associated only with the source-rock shales in the underlying Lower Bossier shale interval. Additionally, the abundance of distributary channels associated with all cycles suggests the entire Bossier sandstone section is a river-dominated system subordinately influenced by marine processes.

Rock physics and seismic modeling of the Bossier sands have demonstrated a seismic response strongly dominated by large acoustic impedance contrasts associated with porous sandstones, low porosity siltstones and over-pressured shales. Depositional and sedimentological characteristics of the Bossier sands strongly resemble characteristics of a modern-day fluvially dominated deltaic system (i.e. Mississippi River) undergoing processes of delta-switching and abandonment.

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