Role of sea-level change in deep water deposition along a carbonate shelf margin, Early and Middle Permian, Delaware Basin: implications for reservoir characterization

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The architecture and sedimentary characteristics of deep water deposition can reflect influences of sea-level change on depositional processes on the shelf edge, slope, and basin floor. Outcrops of the northern slope and basin floor of the Delaware Basin in west Texas are progressively exposed due to canyon incision and road cutting. The outcrops in the Delaware Basin were measured to characterize gravity flow deposits in deep water of the basin. Subsurface data from the East Ford and Red Tank fields in the central and northeastern Delaware Basin were used to study reservoir architectures and properties. Depositional models of deep water gravity flows at different stages of sea-level change were constructed on the basis of outcrop and subsurface data. In the falling-stage system tracts, sandy debris with collapses of reef carbonates are deposited on the slope, and high-density turbidites on the slope toe and basin floor. In the low-stand system tracts, deep water fans that consist of mixed sand/mud facies on the basin floor are comprised of high- to low-density turbidites. In the transgression and high-stand system tracts, channel-levee systems and elongate lobes of mud-rich calciturbidite deposits formed as a result of sea level rise and scarcity of sandy sediment supply. For the reservoir architecture, the fan-like debris and high-density turbidites show high net-to-gross ratio of 62 %, which indicates the sandiest reservoirs for hydrocarbon accumulation. Lobe-like deep water fans with net-to-gross ratio of 57 % facilitate the formation of high quality sandy reservoirs. The channel-levee systems with muddy calciturbidites have low net-to-gross ratio of 30 %.

Adams J.E. 1936: Oil pool of open reservoir type. AAPG Bull. 20, 6, 780-796.

Allen P.A. 2008: Time scales of tectonic landscapes and their sediment routing systems. Geol. Soc. London, Spec. Publ. 296, 1, 7-28.

Amerman R. 2009: Deepwater mass-transport deposits: Structure, stratigraphy, and implications for basin evolution. Colorado School of Mines, 1-476.

Asmus J.J. & Grammer G.M. 2013: Characterization of deep-water carbonate turbidites and mass-transport deposits utilizing highresolution electrical borehole image logs: Upper Leonardian (Lower Permian) Upper Bone Spring Limestone, Delaware Basin, Southeast New Mexico and West Texas. Gulf Coast Assoc. Geol. Soc. Trans., 27-66.

Barker C.E. & Halley R.B. 1986: Fluid inclusion, stable isotope, and vitrinite reflectance evidence for the thermal history of the Bone Spring Limestone, southern Guadalupe Mountains, Texas. In: Gautier D.L. (Ed.): Roles of organic matter in sediment diagenesis. SEPM Spec. Publ. 38, 190-203.

Beaubouef R. & Friedmann S. 2000: High resolution seismic/sequence stratigraphic framework for the evolution of Pleistocene intra slope basins, western Gulf of Mexico: depositional models and reservoir analogs. In: Deep-water reservoirs of the world. Gulf Coast Section SEPM 20th Annual Research Conference, SEPM, 40-60.

Beaubouef R., Rossen C., Zelt F., Sullivan M., Mohrig D. & Jennette D. 1999: Deep-water Sandstones, Brushy Canyon Formation, West Texas. AAPG Continuing Education Course Notes Series, 48.

Bourget J., Zaragosi S., Ellouz-Zimmermann S., Ducassou E., Prins M., Garlan T., Lanfumey V., Schneider J.-L., Rouillard P. & Giraudeau J. 2010: Highstand vs. lowstand turbidite system growth in the Makran active margin: Imprints of high-frequency external controls on sediment delivery mechanisms to deep water systems. Mar. Geol. 274, 1, 187-208.

Carvajal C.R. & Steel R.J. 2006: Thick turbidite successions from supply-dominated shelves during sea-level highstand. Geology 34, 8, 665-668.

Castelltort S. & Van Den Driessche J. 2003: How plausible are high-frequency sediment supply-driven cycles in the stratigraphic record? Sed. Geol. 157, 1, 3-13.

Catuneanu O. 2006: Principles of sequence stratigraphy. Elsevier, 1-386.

Catuneanu O., Abreu V., Bhattacharya J., Blum M., Dalrymple R., Eriksson P., Fielding C.R., Fisher W., Galloway W. & Gibling M. 2009: Towards the standardization of sequence stratigraphy. Earth Sci. Rev. 92, 1, 1-33.

Chen S., Steel R.J., Dixon J. & Osman A. 2014: Facies and architecture of a tide-dominated segment of the Late Pliocene Orinoco Delta (Morne L’Enfer Formation) SW Trinidad. Mar. Petrol. Geol. 57, 208-232.

Cohen K., Finney S., Gibbard P. & Fan J. 2013: The ICS international chronostratigraphic chart. Episodes 36, 3, 199-204.

Cook H.E. & Mullins H.T. 1983: Basin margin environment. In: Scholle P.A., Bebout D.G. & Moore C.H. (Eds.): Carbonate depositional environments. AAPG Mem. 33, 539-617.

Covault J.A., Normark W.R., Romans B.W. & Graham S.A. 2007: Highstand fans in the California borderland: The overlooked deep-water depositional systems. Geology 35, 9, 783-786.

Crowley T.J. & Baum S.K. 1991: Estimating carboniferous sealevel fluctuations from Gondwanan ice extent. Geology 19, 10, 975-977.

Dutton S. 1999: Geologic and engineering characterization of turbidite reservoirs, Ford Geraldine unit, Bell Canyon Formation, west Texas. Bureau Econ. Geol., The University of Texas, Austin, 1-88.

Dutton S. & Flanders W. 2001: Deposition and diagenesis of turbidite sandstones in East Ford Field, Bell Canyon Formation, Delaware basin, Texas. AAPG Southwest Section, 2001 Annual Meeting Papers and Abstracts, Dallas, Texas, 10-13.

Dutton S.P., Flanders W.A. & Barton M.D. 2003: Reservoir characterization of a Permian deep-water sandstone, East Ford field, Delaware basin, Texas. AAPG Bull. 87, 4, 609-627.

Dutton S.P., Kim E.M., Broadhead R.F., Raatz W.D., Breton C.L., Ruppel S.C. & Kerans C. 2005: Play analysis and leading-edge oil-reservoir development methods in the Permian basin: Increased recovery through advanced technologies. AAPG Bull. 89, 5, 553-576.

Fischer A.G. & Sarnthein M. 1988: Airborne silts and dune-derived sands in the Permian of the Delaware Basin. J. Sed. Res. 58, 4, 637-643.

Fitchen W.M. 1993: Sequence stratigraphic framework of the upper San Andres Formation and equivalent basinal strata in the Brokeoff Mountains, Otero County, New Mexico. In: Love D.W. (Ed.): Carlsbad Region, New Mexico and West Texas. New Mexico Geol. Soc. Guidebook, 44th Field Conference, 185-193.

Galloway W. & Hobday D. 1996: Terrigenous clastic depositional systems. Springer, Heidelberg, 72-79.

Gardner M. 1992: Sequence stratigraphy of eolian-derived turbidites: Patterns of deep water sedimentation along an arid previous hit carbonate next hit platform, Permian (Guadalupian) Delaware Mountain Group, west Texas. In: Denise H.M. & Brendan C.C. (Eds.): Permian Basin exploration and production strategies: Applications of sequence stratigraphic and reservoir characterization concepts. West Texas Geol. Soc., Publ. 92-91, 7-11.

Gardner M. 1997: Characterization of deep-water siliciclastic reservoirs in the upper Bell Canyon and Cherry Canyon Formations of the northern Delaware Basin, Culberson and Reeves Counties, Texas. In: Major R.P. (Ed.): Oil and gas on Texas State Lands: an assessment of the resource and characterization of type reservoirs. Bureau Econ. Geol., The University of Texas, Report of Investigations 241, 137-146.

Gardner M. & Sonnenfeld M. 1996: Stratigraphic changes in facies architecture of the Permian Brushy Canyon Formation in Guadalupe Mountains National Park, west Texas. In: DeMis W.D. & Cole A.G. (Eds.): The Brushy Canyon play in outcrops and subsurface: concepts and examples. SEPM Permian Basin Section Publ. 96-38, 17-40.

Gardner M.H., Borer J.M., Melick J.J., Mavilla N., Dechesne M. & Wagerle R.N. 2003: Stratigraphic process-response model for submarine channels and related features from studies of Permian Brushy Canyon outcrops, West Texas. Mar. Petrol. Geol. 20, 6, 757-787.

Gawloski T.F. 1986: Nature, distribution, and petroleum potential of Bone Spring carbonate detrital sediments along north shelf of delaware basin, Iea County, New-Mexico. AAPG Bull. 70, 5, 594-594.

Goldhammer R., Dunn P. & Hardie L. 1990: Depositional cycles, composite sea-level changes, cycle stacking patterns, and the hierarchy of stratigraphic forcing: examples from Alpine Triassic platform carbonates. Geol. Soc. Amer. Bull. 102, 5, 535-562.

Gradstein F. & Ogg J. 2004: Geologic time scale 2004 - why, how, and where next! Lethaia 37, 2, 175-181.

Green K., Frailey S. & Asquith G. 1996: Laboratory analysis of the clays within the Brushy Canyon Formation and their reservoir and petrophysical implications: Red Tank Field, Lea County, New Mexico. In: DeMis W.D. & Cole A.G. (Eds.): The Brushy Canyon play in outcrops and subsurface: concepts and examples. SEPM Permian Basin Section Publ. 96-38, 165-171.

Haq B.U. & Schutter S.R. 2008: A chronology of Paleozoic sea-level changes. Science 322, 5898, 64-68.

Harms J.C. 1974: Erosion and deposition along the Mid-Permian intracratonic basin margin, Guadalupe Mountains, Texas. In: Dickinson W.R. (Ed.): Tectonics and sedimentation. SEPM Spec. Publ. 19, 37.

Hawley J.W. 1983: Geomorphic evolution of Socorro area of Rio Grande Valley. Socorro Region II, 1-13.

Hill Jr. G. 1981: Anadarko Basin - a model for regional petroleum accumulations. AAPG Bull. 65, 8, 1499.

Hills J.M. 1984: Sedimentation, tectonism, and hydrocarbon generation in Delaware basin, west Texas and southeastern New Mexico. AAPG Bull. 68, 3, 250-267.

Holbrook J. 2001: Origin, genetic interrelationships, and stratigraphy over the continuum of fluvial channel-form bounding surfaces: an illustration from middle Cretaceous strata, southeastern Colorado. Sed. Geol. 144, 3, 179-222.

Holbrook J., Scott R.W. & Oboh-Ikuenobe F.E. 2006: Base-level buffers and buttresses: a model for upstream versus downstream control on fluvial geometry and architecture within sequences. J. Sed. Res. 76, 1, 162-174.

Hunt D. & Tucker M.E. 1992: Stranded parasequences and the forced regressive wedge systems tract: deposition during baselevel’fall. Sed. Geol. 81, 1, 1-9.

Janson X., Kerans C., Bellian J.A. & Fitchen W. 2007: Three-dimensional geological and synthetic seismic model of Early Permian redeposited basinal carbonate deposits, Victorio Canyon, west Texas. AAPG Bull. 91, 10, 1405-1436.

Justman H. & Broadhead R. 2010: Petroleum source rock data for the Brushy Canyon Formation, Delaware Basin, Southeastern New Mexico. New Mexico Bureau of Geology and Mineral Resources, 1-4.

Kamberis E., Pavlopoulos A., Tsaila-Monopoli S., Sotiropoulos S. & Ioakim C. 2005: Deep-water sedimentation and paleogeography of foreland basins in the NW Peloponnese (Greece). Geol. Carpathica 56, 503-515.

Kerans C. 1995: Use of one- and two-dimensional cycle analysis in establishing high-frequency sequence frameworks. AAPG Short Course, 1-20.

Kerans C. & Kempter K. 2002: Hierarchical stratigraphic analysis of a carbonate platform, Permian of the Guadalupe Mountains. AAPG/Datapages Discovery Series 5. CD.

Kerans C., Zahm C., Hiebert S., Parker A. & Jones N. 2012: Advances in the integrated stratigraphic and structural model of the Guadalupian mixed clastic-carbonate strata, Guadalupe Mountains. 2012 RCRL Annual Meeting Field Trip Guidebook, 1-100.

King P. 1990: The connectivity and conductivity of overlapping sand bodies. In: Buller A.T., Berg E., Hjelmeland O., Kleppe J., Torsæter O. & Aasen J.O. (Eds.): North Sea oil and gas reservoirs. II. Springer, 353-362.

Kolla V. & Perlmutter M. 1993: Timing of turbidite sedimentation on the Mississippi Fan. AAPG Bull. 77, 7, 1129-1141.

Kuenen P.H. 1966: Matrix of turbidites: experimental approach. Sedimentology 7, 4, 267-297.

Loftin T. 1996: Depositional stacking patterns within the Cherry Canyon Formation, Delaware basin, west Texas. In: DeMis W.D. & Cole A.G. (Eds.): The Brushy Canyon play in outcrops and subsurface: concepts and examples. SEPM Permian Basin Section Publ. 96-38, 137-146.

Lowe D.R. 1979: Sediment gravity flows: their classification and some problems of application to natural flows and deposits. SEPM Spec. Publ. 27, 75-82.

Lowe D.R. 1982: Sediment gravity flows. II. Depositional models with special reference to the deposits of high-density turbidity currents. J. Sed. Res. 52, 1, 279-297.

Mack G.H., Leeder M., Perez-Arlucea M. & Bailey B.D. 2003: Early Permian silt-bed fluvial sedimentation in the Orogrande basin of the Ancestral Rocky Mountains, New Mexico, USA. Sed. Geol. 160, 1, 159-178.

Meissner F.F. 1972: Cyclic sedimentation in Middle Permian strata of the Permian basin, west Texas and New Mexico. In: Elam J.C. & Chuber S. (Eds.): Cyclic sedimentation in the Permian basin. West Texas Geol. Soc., 203-232.

Melim L.A. & Scholle P.A. 1995: The forereef facies of the Permian Capitan Formation: The role of sediment supply versus sealevel changes. J. Sed. Res. 65, 1, 107-118.

Montanez I.P., Tabor N.J., Niemeier D., DiMichele W.A., Frank T.D., Fielding C.R., Isbell J.L., Birgenheier L.P. & Rygel M.C. 2007: CO2-forced climate and vegetation instability during Late Paleozoic deglaciation. Science 315, 5808, 87-91.

Montgomery S.L. 1997: Permian bone spring formation: sandstone play in the Delaware basin. Part II. Basin. AAPG Bull. 81, 9, 1423-1434.

Montgomery S.L., Worrall J. & Hamilton D. 1999: Delaware Mountain Group, west Texas and southeastern New Mexico, a case of refound opportunity. Part 1. Brushy Canyon. AAPG Bull. 83, 12, 1901-1926.

Mulder T. & Alexander J. 2001: The physical character of subaqueous sedimentary density flows and their deposits. Sedimentology 48, 2, 269-299.

Nance H.S. 2009: Middle Permian basinal siliciclastic deposition in the Delaware Basin: the Delaware Mountain Group (Guadalupian). Bureau Econ. Geol., The University of Texas at Austin, 1-80.

Nardin T. 1979: Santa Cruz Basin, California Borderland: dominance of slope processes in basin sedimentation. SEPM Spec. Publ. 27, 209-221.

Nicklen B. 2003: Middle Guadalupian (permian) Bentonite Beds, Manzanita Member, Cherry Canyon Formation, West Texas: stratigraphic and tectonomagmatic applications. University of Cincinnati, 1-74.

Osleger D.A. 1998: Sequence architecture and sea-level dynamics of Upper Permian shelfal facies, Guadalupe Mountains, southern New Mexico. J. Sed. Res. 68, 2, 327-346.

Perlmutter M. & Matthews M. 1990: Global cyclostratigraphy - a model. In: Cross T.A. (Ed.): Quantitative dynamic stratigraphy. Prentice Hall, Englewood Cliffs, NJ, 233-260.

Pickering K., Stow D., Watson M. & Hiscott R. 1986: Deep-water facies, processes and models: a review and classification scheme for modern and ancient sediments. Earth Sci. Rev. 23, 2, 75-174.

Posamentier H.W. & Kolla V. 2003: Seismic geomorphology and stratigraphy of depositional elements in deep-water settings. J. Sed. Res. 73, 3, 367-388.

Posamentier H. & Martinsen O. 2011: The character and genesis of submarine mass-transport deposits: insights from outcrop and 3D seismic data. In: Shipp R.C., Weimer P. & Posamentier H.W. (Eds.): Mass-transport deposits in deepwater settings. SEPM Spec. Publ. 96, 7-38.

Posamentier A.S. & Stepelman J. 2001: Teaching secondary mathematics: Techniques and enrichment units. Prentice Hall, 1-495.

Reading H.G. & Richards M. 1994: Turbidite systems in deep-water basin margins classified by grain size and feeder system. AAPG Bull. 78, 5, 792-822.

Richards M., Bowman M. & Reading H. 1998: Submarine-fan systems. I. Characterization and stratigraphic prediction. Mar. Petrol. Geol. 15, 7, 689-717.

Ruppel S.C. 2009: Integrated synthesis of the Permian basin: data and models for recovering existing and undiscovered oil resources from the largest oil-bearing basin in the U.S. Oil & Natural Gas Technology, Bureau Econ. Geol., The University of Texas at Austin, 1-959.

Ruppel S.C., Park Y.J. & Lucia F.J. 2002: Applications of 3-D seismic to exploration and development of carbonate reservoirs: South Cowden Grayburg field, West Texas. In: Hunt T.J. & Lufholm P.H. (Eds.): The Permian Basin: Preserving our past - securing our future. West Texas Geol. Soc., Vol. Publ. 2-111, 71-87.

Saller A.H., Barton J.W. & Barton R.E. 1989: Slope sedimentation associated with a vertically building shelf, Bone Spring Formation, Mescalero Escarpe field, southeastern New Mexico. SEPM Spec. Publ. 44, 275-288.

Saylor B.Z. 2003: Sequence stratigraphy and carbonate-siliciclastic mixing in a terminal Proterozoic foreland basin, Urusis Formation, Nama Group, Namibia. J. Sed. Res. 73, 2, 264-279.

Schumm S. 1993: River response to baselevel change: implications for sequence stratigraphy. J. Geol. 101, 279-294.

Scotese C. & Langford R. 1995: Pangea and the paleogeography of the Permian. In: Scholle P.A., Peryt T.M. & Ulmer-Scholle D.S. (Eds.): The Permian of Northern Pangea. Springer, 3-19.

Scotese C.R. & McKerrow W.S. 1990: Revised world maps and introduction. Geol. Soc. London, Mem. 12, 1, 1-21.

Shanmugam G. 1996: High-density turbidity currents: Are they sandy debris flows? Perspectives. J. Sed. Res. 66, 1, 2-10.

Silver B.A. & Todd R.G. 1969: Permian cyclic strata, northern Midland and Delaware basins, west Texas and southeastern New Mexico. AAPG Bull. 53, 11, 2223-2251.

Sonnenfeld M. 1993: Anatomy of offlap: Upper San Andres Formation (Permian, Guadalupian), Last Chance Canyon, Guadalupe Mountains, New Mexico. In: Carlsbad Region, New Mexico and West Texas. New Mexico Geol. Soc. Guidebook, 44th Field Conference, 195-204.

Soreghan G.S. & Giles K.A. 1999: Amplitudes of late Pennsylvanian glacioeustasy. Geology 27, 3, 255-258.

Sømme T.O., Helland-Hansen W., Martinsen O.J. & Thurmond J.B. 2009: Relationships between morphological and sedimentological parameters in source-to-sink systems: a basis for predicting semi-quantitative characteristics in subsurface systems. Basin Research 21, 4, 361-387.

Steel R.J., Carvajal C., Petter A.L. & Uroza C. 2008: Shelf and shelf-margin growth in scenarios of rising and falling sea level. In: Hampson G.J., Steel R.J., Burgess P.M. & Dalrymple R.W. (Eds.): Recent advances in models of siliciclastic shallow-marine stratigraphy. SEPM Spec. Publ. 90, 47-71.

Stow D.A. & Mayall M. 2000: Deep-water sedimentary systems: new models for the 21st century. Mar. Petrol. Geol. 17, 2, 125-135.

Stow D.A., Howell D.G. & Nelson C.H. 1985: Sedimentary, tectonic, and sea-level controls. In: Bouma A.H., Normark W.R. & Barnes N.E. (Eds.): Submarine fans and related turbidite systems. Springer, 15-22.

Svendsen J.B. & Hartley N.R. 2001: Comparison between outcropspectral gamma ray logging and whole rock geochemistry: implications for quantitative reservoir characterisation in continental sequences. Mar. Petrol. Geol. 18, 6, 657-670.

Tinker S.W. 1998: Shelf-to-basin facies distributions and sequence stratigraphy of a steep-rimmed carbonate margin: Capitan depositional system, McKittrick Canyon, New Mexico and Texas. J. Sed. Res. 68, 6, 1146-1174.

Vrbanac B., Velić J. & Malvić T. 2010: Sedimentation of deep-water turbidites in the SW part of the Pannonian Basin. Geol. Carpathica 61, 1, 55-69.

Wiggins W.D. & Harris P.M. 1985: Burial diagenesis of allochthonous carbonates from a Permian slope setting, southeastern New-Mexico. AAPG Bull. 69, 2, 316-316.

Zelt F.B. & Rossen C. 1995: Geometry and continuity of deep-water sandstones and siltstones, Brushy Canyon Formation (Permian) Delaware Mountains, Texas. In: Pickering K.T., Hiscott R.N., Kenyon N.H., Ricci Lucchi F. & Smith R.D.A. (Eds.): Atlas of Deep Water Environments. Chapman and Hall, London, 167-183.

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