Depositional systems and structural controls of Hackberry sandstone reservoirs in southeast Texas

dc.contributorReed, Roneé S., -93.75, 30.1925, 29.75
dc.coverage.spatialSoutheast Texas
dc.creatorEwing, Thomas E.
dc.creatorReed, Roneé S.
dc.descriptionBureau Publication GC8407 - to purchase a print copy please go to: Gas Research Institute and the U.S. Department of Energy. No. 5080-321-0398 No. DE-AC08-79ET27111
dc.description.abstractDeep-water sandstones of the Oligocene-age Hackberry unit of the Frio Formation contain significant quantities of oil and gas and remain potentially one of the most productive exploration targets in southeast Texas. The Hackberry is a wedge of sandstone and shale containing bathyal fauna that separates upper Frio barrier-bar - strandplain sandstones from lower Frio neritic shale and sand. Major Hackberry sandstones lie atop a channeled unconformity that forms the base of the unit. Sandstones in a typical sand-rich channel at Port Arthur field grade upward from a basal, confined channel-fill sandstone to more widespread, broad, fan-channel deposits, Topmost are proximal to medial fan deposits and overbank turbidite deposits. The sequence suggests that Hackberry sandstones were laid down by an onlapping submarine canyon-fan complex deposited in canyons that eroded headward into the contemporaneous Frio barrier system. Regional maps and seismic interpretations outline a network of sand-filled channels extending from the barrier toward the southeast. The earliest structural activity of the Port Arthur area is lower Oligocene (Vicksburg) faulting associated with continental-slope sedimentation. Small growth faults of late Oligocene (Frio) age displace the Hackberry section less than 500 ft and extend upward into Miocene strata. Isopach and isolith maps indicate that the Orange, Port Neches, and Fannett salt domes were active uplifts during Frio and Anahuac (Lower Miocene) deposition. Near Spindletop dome, however, only a north-south-trending salt-cored ridge is present. The Hackberry channels are in part located in salt-withdrawal basins, but major channel axes extend across the uplifts. Time versus depth plots of water depth and sediment thickness indicate that most of the Hackberry Embayment in Texas could have been formed by normal subsidence during the later Oligocene if the embayment were cut off from its supply of muddy sediment. Thick, sandy, lower Hackberry deposits filled deep canyons eroded into the retreating shelf margin. The Hackberry contains two hydrocarbon plays. The updip play is relatively shallow and oil-rich and lies near the updip limit of deep-water deposition. Some of the fields in this play produce from barrier-bar - strandplain Frio sandstones erroneously correlated with the Hackberry. The downdip play is gas-rich and generally geopressured. The reservoirs lie either within or on the flanks of the major channel systems and are commonly bounded updip by small growth faults, Understanding the component depositional environments represented by the discontinuous and complex lithofacies of these sandstones will improve hydrocarbon exploration and production.
dc.description.departmentBureau of Economic Geology
dc.description.departmentUT Libraries
dc.format.dimensionsiv, 48 p. : ill., maps ; 28 cm.
dc.identifier.citationEwing, T. E., and Reed, R. S., 1984, Depositional Systems and Structural Controls of Hackberry Sandstone Reservoirs in Southeast Texas: The University of Texas at Austin, Bureau of Economic Geology, Geological Circular 84-7, 48 p.
dc.publisherUniversity of Texas at Austin. Bureau of Economic Geology
dc.relation.ispartofVirtual Landscapes of Texas
dc.relation.ispartofGeological Circulars
dc.relation.ispartofseriesGeological Circular (University of Texas at Austin. Bureau of Economic Geology), 84-7
dc.subjectGeology, Structural
dc.titleDepositional systems and structural controls of Hackberry sandstone reservoirs in southeast Texas

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