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The AAPG/Datapages Combined Publications Database
AAPG Bulletin, V.
A sequence-stratigraphic framework for the Upper Devonian Woodford Shale, Permian Basin, west Texas
Nikki T. Hemmesch,1 Nicholas B. Harris,2 Cheryl A. Mnich,3 David Selby4
2Department of Geology and Geological Engineering, Colorado School of Mines, Golden, Colorado; present address: Department of Earth and Atmospheric Sciences, University of Alberta, Edmonton, Canada T6G 2E3; [email protected]
3ConocoPhillips, Rubislaw House, Anderson Drive, Aberdeen AB15 6FZ, Scotland, United Kingdom; [email protected]
4Department of Earth Sciences, Sciences Labs, Durham University, DH1 3LE, United Kingdom; [email protected]
Criteria for recognizing stratigraphic sequences are well established on continental margins but more challenging to apply in basinal settings. We report an investigation of the Upper Devonian Woodford Shale, Permian Basin, west Texas based on a set of four long cores, identifying sea level cycles and stratigraphic sequences in an organic-rich shale.
The Woodford Shale is dominated by organic-rich mudstone, sharply overlain by a bioturbated organic-poor mudstone that is consistent with a second-order eustatic sea level fall. Interbedded with the organic-rich mudstone are carbonate beds, chert beds, and radiolarian laminae, all interpreted as sediment gravity-flow deposits. Bundles of interbedded mudstone and carbonate beds alternate with intervals of organic-rich mudstone and thin radiolaria-rich laminae, defining a 5–10 m (16–33 ft)-thick third-order cyclicity. The former are interpreted to represent highstand systems tracts, whereas the latter are interpreted as representing falling stage, lowstand, and transgressive systems tracts. Carbonate beds predominate in the lower Woodford section, associated with highstand shedding at a second-order scale; chert beds predominate in the upper Woodford section, responding to the second-order lowstand.
Additional variability is introduced by geographic position. Wells nearest the western margin of the basin have the greatest concentration of carbonate beds caused by proximity to a carbonate platform. A well near the southern margin has the greatest concentration of chert beds, resulting from shedding of biogenic silica from a southern source. A well in the basin center has little chert and carbonate; here, third-order sea level cycles were primarily reflected in the stratigraphic distribution of radiolarian-rich laminae.
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