The significance of karst unconformities on overlying resource shales: Lessons learned from the Devonian Woodford Formation applied to the Permian Wolfcamp Shale

We have summarized the threefold significance of karst unconformity boundary: (1) The development of a sequence stratigraphic model for the Devonian Woodford Shale Formation is transferable to the Upper Wolfcamp in the Permian Basin, (2) demonstration of the more general application of that model beyond the Woodford to other resource shales, and (3) illustration of a modification of common sequence stratigraphy models specifically to unconventional resource shales. During early transgression, marine encroachment into the paleolows created anoxic, hypersaline marine “pockets” conducive to the preservation of organic matter. The result is deposition of thick, laterally discontinuous, organic-rich strata stratigraphically at or near the unconformity surface. This pattern of deposition and distribution of the organic-rich shale has been well-documented in the Devonian Woodford Shale and is applicable to other resource shales, in this case to the Permian Upper Wolfcamp Formation in the Central Basin Platform of the Permian Basin. The stratigraphy of the distribution of the Upper Wolfcamp on top of the Upper/Middle Wolfcamp Unconformity is similar to that of the Woodford, suggesting a similar origin and distribution. The resulting stratigraphy in both cases resembles that of the classical Exxon sea slug model except that rather than a single organic-rich deposit defining the condensed section and maximum flooding surface, a second organic-rich deposit occurs stratigraphically lower, at or near the unconformity surface. This theoretical summary can support the discovery of potential drillable target zones in the Woodford Shale and the Wolfcamp Shale.

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The Frasnian-Famennian boundary sections at Hony and Sinsin (Ardenne, Belgium): new interpretation based on quantitative analysis of palynomorphs, sequence stratigraphy and climatic interpretation

Geologica Belgica ◽

10.20341/gb.2014.033 ◽

2001 ◽

Vol 3 (3-4) ◽

pp. 271-283 ◽

Cited By ~ 1

Author(s):

Maurice STREEL ◽

Michel VANGUESTAINE ◽

Andrés PARDO-TRUJILLO ◽

Eric THOMALLA

Keyword(s):

Quantitative Analysis ◽

Sequence Stratigraphy ◽

Frequency Distribution ◽

Marine Environment ◽

Sequence Stratigraphic ◽

Stratigraphic Model ◽

New Interpretation ◽

Maximum Flooding Surface ◽

The Relationship ◽

Bathymetric Changes

In the light of recent geochemical and sedimentological investigations, the Frasnian-Famennian Boundary sections at Hony and Sinsin (eastern and central Ardenne, Belgium) are re-evaluated in terms of quantitative analysis of spiny acritarchs and miospores. It is concluded that the shaly interval separating the limestone beds dated Frasnian and Famennian by conodonts corresponds to a transgressive - regressive marine sequence. This interpretation is supported, for the Hony section, by a quantitative analysis of two spiny acritarch groups (Gorgonisphaeridium gr. and Micrhystridium gr.) based on the relationship between their abundance and the depth of the marine environment. It is also corroborated by the frequency distribution of a Prasinophyceae (Maranhites stockmansii) indicative for a maximum flooding surface. A sequence stratigraphic model and the possible causes of the bathymetric changes right at the Frasnian-Famennian Boundary are briefly discussed. It is suggested that these changes are related to a short glacial phase during a "warm mode" period.

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A sequence-stratigraphic framework for the Upper Devonian Woodford Shale, Permian Basin, west Texas

AAPG Bulletin ◽

10.1306/05221312077 ◽

2014 ◽

Vol 98 (1) ◽

pp. 23-47 ◽

Cited By ~ 19

Author(s):

Nikki T. Hemmesch ◽

Nicholas B. Harris ◽

Cheryl A. Mnich ◽

David Selby

Keyword(s):

Upper Devonian ◽

Permian Basin ◽

Woodford Shale ◽

Sequence Stratigraphic ◽

West Texas ◽

Stratigraphic Framework

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Upper Quaternary strata of the upper continental slope, Northeast Gulf of Mexico; sequence stratigraphic model for a terrigenous shelf edge

Journal of Sedimentary Research ◽

10.2110/jsr.68.579 ◽

1998 ◽

Vol 68 (4) ◽

pp. 579-595 ◽

Cited By ~ 8

Author(s):

R. D. Winn ◽

H. H. Roberts ◽

B. Kohl ◽

R. H. Fillon ◽

J. A. Crux ◽

...

Keyword(s):

Gulf Of Mexico ◽

Continental Slope ◽

Shelf Edge ◽

Sequence Stratigraphic ◽

Stratigraphic Model

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A revised lithostratigraphy for the Palaeogene – lower Neogene of the Danish North Sea

Geological Survey of Denmark and Greenland Bulletin ◽

10.34194/geusb.v7.4825 ◽

2005 ◽

Vol 7 ◽

pp. 21-24

Author(s):

Poul Schiøler ◽

Jan Andsbjerg ◽

Ole R. Clausen ◽

Gregers Dam ◽

Karen Dybkjær ◽

...

Keyword(s):

North Sea ◽

Energy Agency ◽

Sequence Stratigraphic ◽

Oil Companies ◽

The North ◽

Reference Sections ◽

Stratigraphic Model ◽

Lithostratigraphic Units ◽

The North Sea ◽

Stratigraphic Nomenclature

Intense drilling activity following the discovery of the Siri Field in 1995 has resulted in an improved understanding of the siliciclastic Palaeogene succession in the Danish North Sea sector (Fig. 1). Many of the new wells were drilled in the search for oil reservoirs in sand bodies of Paleocene–Eocene age. The existing lithostratigraphy was based on data from a generation of wells that were drilled with deeper stratigraphic targets, with little or no interest in the overlying Palaeogene sediments, and thus did not adequately consider the significance of the Palaeogene sandstone units in the Danish sector. In order to improve the understanding of the distribution, morphology and age of the Palaeogene sediments, in particular the economically important sandstone bodies, a detailed study of this succession in the Danish North Sea has recently been undertaken. An important aim of the project was to update the lithostratigraphic framework on the basis of the new data.The project was carried out at the Geological Survey of Denmark and Greenland (GEUS) with participants from the University of Aarhus, DONG E&P and Statoil Norway, and was supported by the Danish Energy Agency. Most scientific results cannot be released until September 2006, but a revised lithostratigraphic scheme may be published prior to that date. Formal definition of new units and revision of the lithostratigraphy are in preparation. All of the widespread Palaeogene mudstone units in the North Sea have previously been formally established in Norwegian or British wells, and no reference sections exist in the Danish sector. As the lithology of a stratigraphic unit may vary slightly from one area to another, Danish reference wells have been identified during the present project, and the lithological descriptions of the formations have been expanded to include the appearance of the units in the Danish sector. Many of the sandstone bodies recently discovered in the Danish sector have a limited spatial distribution and were sourced from other areas than their contemporaneous counterparts in the Norwegian and British sectors. These sandstone bodies are therefore defined as new lithostratigraphic units in the Danish sector, and are assigned Danish type and reference sections. There is a high degree of lithological similarity between the Palaeogene–Neogene mudstone succession from Danish offshore boreholes and that from onshore exposures and boreholes, and some of the mudstone units indeed seem identical. However, in order to acknowledge the traditional distinction between offshore and onshore stratigraphic nomenclature, the two sets of nomenclature are kept separate herein. In recent years oil companies operating in the North Sea have developed various in-house lithostratigraphic charts for the Paleocene–Eocene sand and mudstone successions in the Danish and Norwegian sectors. A number of informal lithostratigraphic units have been adopted and widely used. In the present project, these units have been formally defined and described, maintaining their original names whenever feasible, with the aim of providing an unequivocal nomenclature for the Palaeogene – lower Neogene succession in the Danish sector. It has not been the intention to establish a sequence stratigraphic model for this succession in the North Sea; the reader is referred to the comprehensive works of Michelsen (1993), Neal et al. (1994), Mudge & Bujak (1994, 1996a, b), Michelsen et al. (1995, 1998), Danielsen et al. (1997) and Rasmussen (2004).

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Sequence Stratigraphy of Well DX, Gongola Sub-Basin, Upper Benue Trough, Nigeria

Journal of Applied Sciences and Environmental Management ◽

10.4314/jasem.v23i10.14 ◽

2019 ◽

Vol 23 (10) ◽

pp. 1855-1860

Author(s):

F.O. Amiewalan ◽

E.O. Bamigboye

Keyword(s):

Gamma Ray ◽

Third Order ◽

Depositional Sequence ◽

Benue Trough ◽

Sequence Stratigraphic ◽

Surface System ◽

Sequence Boundaries ◽

System Tracts ◽

Maximum Flooding Surface ◽

Gamma Ray Log

: Biostratigraphic study of Well DX has yielded Cretaceous miospores and dinoflagellates cysts which heightened the recognition of sequence boundaries (SB), Maximum Flooding Surfaces (MFS) and associated Systems Tracts. Five maximum flooding surfaces between 95.6 Ma and 89.0 Ma, four sequence boundaries between 96.4 Ma and 93.0 Ma and threedepositional sequences were identified with varying average thicknesses of sediments interpreted from the gamma ray log and biostratigraphic data. The threedepositional sequences interpreted are -depositional sequence I (96.4 Ma - 95.4 Ma) (8240 ft. - 8120 ft.), depositional sequence II (95.4 Ma - 94.0 Ma) (8120 ft. - 7850 ft.) and depositionalsequence III (94.0 Ma - 93.0 Ma) (7850 ft. - 7550 ft.). All the depositional sequences fall within the third order cycle. The age of the well was attempted based on the presence of some selected marker fossils - Ephedripites spp., Classopollis spp., Spiniferites spp., Cyclonephelium distinctum, Cyclonephelium vannophorum, Subtilisphaera spp., Eucomiidites spp., Triorites africaensis, Odontochitina costata and Droseridites senonicus recovered from the studied intervals and was dated Albian - Santonian. The Sequence stratigraphic interpretations are useful in further deepening the knowledge of thesubsurface geology of the studiedwell in Gongola Sub Basin, Upper Benue Trough of Nigeria.Keywords: Sequence Boundary, Maximum Flooding Surface, System tracts, Depositional sequence

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Depositional and sequence stratigraphic model, 1Y1 reservoir, Oso Field, Nigeria

56th EAEG Meeting ◽

10.3997/2214-4609.201410122 ◽

1994 ◽

Author(s):

J. W. Snedden ◽

L. B. Thompson ◽

F. M. Wright ◽

A. O. Fadase ◽

A. A. O. Onkonkwo ◽

...

Keyword(s):

Sequence Stratigraphic ◽

Stratigraphic Model

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How Organic Carbon Content and Thermal Maturity Affect Acoustic Properties (and Ultimately Seismic Response) in a Shale Gas/Oil Formation: Woodford Shale, Permian Basin

Proceedings of the 7th Unconventional Resources Technology Conference ◽

10.15530/urtec-2019-630 ◽

2019 ◽

Author(s):

Nicholas B. Harris ◽

Al Moghadam ◽

Tian Dong

Keyword(s):

Organic Carbon ◽

Seismic Response ◽

Shale Gas ◽

Acoustic Properties ◽

Organic Carbon Content ◽

Thermal Maturity ◽

Gas Oil ◽

Permian Basin ◽

Woodford Shale ◽

Oil Formation

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Sequence stratigraphy of the late Carboniferous Clifton Formation, New Brunswick

Canadian Journal of Earth Sciences ◽

10.1139/cjes-2019-0223 ◽

2020 ◽

Vol 57 (11) ◽

pp. 1289-1304

Author(s):

Brandon M. Keough ◽

Olivia A. King ◽

Matthew R. Stimson ◽

Page C. Quinton ◽

Michael C. Rygel

Keyword(s):

New Brunswick ◽

Sediment Supply ◽

Sequence Stratigraphic ◽

Marine Strata ◽

Stratigraphic Framework ◽

Carbonaceous Shales ◽

Study Interval ◽

Maritimes Basin ◽

Sequence Boundaries ◽

Maximum Flooding Surface

The Maritimes Basin of Atlantic Canada contains a rich record of Pennsylvanian cyclothems. Previous studies have focused on rapidly subsiding depocenters in the central part of the basin where Carboniferous successions feature cyclic alternations between terrestrial and marginal marine strata. In contrast, the Pennsylvanian Clifton Formation was deposited on the relatively stable New Brunswick platform and contains almost entirely terrestrial strata. Although early studies of the Clifton Formation noted a cyclic architecture, particularly within Member B, this unit has remained understudied. We provide a sedimentological and sequence stratigraphic framework for the lower 85 m of Member B and interpret our results relative to a broader regional framework. Near the base of the study interval, the highstand systems tract is composed of red floodplain mudrocks; overlying sequence boundaries are composed of calcretes and (or) channels. The transgressive systems tract and maximum flooding surface are represented by coals and aquatic bivalve-bearing mudrocks. Moving upward through the section, the architecture of the highstand systems tract remains largely unchanged while sequence-bounding paleosols become less well developed, the transgressive systems tract becomes thinner and eventually not preserved, and the maximum flooding surface is only occasionally preserved, possibly represented by carbonaceous shales. These changes in cyclic architecture may be attributed to changes in the magnitude of glacioeustatic fluctuations, climate, and (or) the accommodation/sediment supply ratio. The results of this study show that the Clifton Formation represents the terrestrial/proximal endmember for cyclicity in the Maritimes Basin and provide new insight into paleotopography as a possible control on cyclothem architecture.

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