Jump to content

Graneros Shale

From Wikipedia, the free encyclopedia

This is the current revision of this page, as edited by Citation bot (talk | contribs) at 07:20, 5 November 2024 (Altered template type. Add: chapter, title, bibcode, page. | Use this bot. Report bugs. | Suggested by Headbomb | #UCB_toolbar). The present address (URL) is a permanent link to this version.

(diff) ← Previous revision | Latest revision (diff) | Newer revision → (diff)
Graneros Shale
Stratigraphic range: Cenomanian
Graneros Shale at outlet of El Vado Reservoir, New Mexico, USA
TypeFormation
Unit ofColorado Group (Great Plains)
Benton Group (Colorado, South Dakota)
Mancos Group (Colorado, New Mexico)
Sub-unitsSee text
UnderliesGreenhorn Formation
OverliesDakota Formation
Thickness114–1,000 feet (35–305 m)
Lithology
PrimaryShale
OtherSandstone, limestone
Location
Coordinates38°16′35″N 104°42′44″W / 38.2763°N 104.7121°W / 38.2763; -104.7121
RegionColorado, Iowa, Kansas, Minnesota, Montana, New Mexico, Nebraska, North Dakota, South Dakota, Wyoming
Country United States
Type section
Named forGraneros Creek, Walsenburg quadrangle, Pueblo Colorado
Named byG.K. Gilbert (from R.C. Hills)
Year defined1896
Graneros Shale is located in the United States
Graneros Shale
Graneros Shale (the United States)
Graneros Shale is located in Colorado
Graneros Shale
Graneros Shale (Colorado)

The Graneros Shale is a geologic formation in the United States identified in the Great Plains as well as New Mexico that dates to the Cenomanian Age of the Cretaceous Period.[1] It is defined as the finely sandy argillaceous or clayey near-shore/marginal-marine shale that lies above the older, non-marine Dakota sand and mud, but below the younger, chalky open-marine shale of the Greenhorn. This definition was made in Colorado by G. K. Gilbert and has been adopted in other states that use Gilbert's division of the Benton's shales into Carlile, Greenhorn, and Graneros. These states include Kansas, Texas, Oklahoma, Nebraska, and New Mexico as well as corners of Minnesota and Iowa.[2][3] North Dakota, South Dakota, Wyoming, and Montana have somewhat different usages — in particular, north and west of the Black Hills, the same rock and fossil layer is named Belle Fourche Shale.[4][5]

Naming and Rank

[edit]

F.B. Meek and F.V. Hayden originated the scientific names for the series of Cretaceous rocks in the central Great Plains of the North American Continent. They gave the name "Benton" to the great shale deposits between the sandstone bluffs at Dakota City, Nebraska, and the chalk bluffs at the junction of the Niobrara and Missouri rivers. At that time, the early 1860s, Meek and Hayden's "lower Cretaceous" series of the upper Missouri River, Dakota-Benton-Niobrara, was already widely observed from Canada to New Mexico over the Great Plains up to the foothills of the Rocky Mountains.[6]

In southcentral Colorado, southeast of Pueblo, this series expresses topographical patterns that inspired subdivision of the Benton shales. Wind and rivers rapidly erode the shales, producing bluffs: massive blocks of Niobrara Chalk cap high slopes of non-chalky Benton shale leading down a flatter plain that stretches miles to another bluff of chalky shale with many thin limestones. Particularly, in places where rivers have cut deeply through this lower chalky shale, and furthermore have cut into the bases of the bluffs, 100 feet (30 m) banks of non-chalky shale can be found. In 1896, G.K. Gilbert named this lower argillaceous shale Graneros (from R.C. Hills) for the exposures in Graneros Creek, a tributary of the Arkansas River near Pueblo.[4][1] Thus, the Graneros records the opening transgression of the Greenhorn Marine Cycle of the Western Interior Seaway,[7] and is therefore the complement of the similar Blue Hills Shale of the Carlile Formation that records the regression of the same Greenhorn Sea.

By 1938, the Graneros had been mapped into eastern Wyoming, southeastern Montana, South Dakota, Nebraska, Kansas, and northeastern New Mexico.[8] The same Benton topography is also found in the Smoky Hills of Northcentral Kansas, and the same Graneros Formation is found in the river banks there. In Iowa and Nebraska, the Graneros grades into middle-Cenomanian rock of the Woodbury Member the Dakota Formation.[9] As discussed in the Description section, the Graneros exceptionally demonstrates Walther's Law of Facies. As the Greenhorn Cycle of the Western Interior Seaway advanced eastward, formation of the Graneros also shifted eastward, but also upward in elevation and time, to such an extent that the top of the Graneros at Pueblo is older than the lowest Graneros in Iowa.

North of Kansas, the application of the name has been somewhat different. In 1904, describing the geology of the Black Hills of South Dakota, N.H. Darton[10] applied the name Graneros Group to descending members; marine Belle Fourche Shale and Mowry Shale, terrestrial Newcastle Sandstone (a tongue of Dakota Formation from the southeast of South Dakota), and marine Skull Creek Shale.[4] This group definition was a wide departure from the preceding applications of the early-Cenomanian Graneros name by applying it to late-Albian units. Robert M. Grace (1952) explains the basis for this association; previous studies associated these units by their fossil species rather than their lithological sequence. The late-Albian Skull Creek Shale in the Black Hills is seen with "microfauna identical to" that of the Newcastle,[11] which, in sequence, traces to the Dakota type in the east. By the 1960s, Darton's definition was recognized as problematic, but many geologists continued to use this classification. It is understood that the listed formations are widely known individually, most with little relationship to the original Graneros Formation definition; and, the same or equivalent units are classified in Wyoming and Colorado as Dakota Group.[4][5] As a result, newer reports include the Belle Fourche (Graneros equivalent), Mowry, Newcastle, and Skull Creek within the Dakota Group of this region.

Description

[edit]

The Graneros Shale is primarily dark gray sandy and silty shale with minor sandstone and limestone lenses, with visible crystalline minerals (pyrite, marcasite, selenite, calcite). It also features septarians and other concretions. It rests on the Dakota Group and is in turn overlain by the Greenhorn Limestone.[12][13] The thickness varies from 114–1,000 feet (35–305 m).[1][14]

Because the Graneros Shale is nearly monolithologic, only one member and one bed have ever been named.[4]

  • Thatcher Limestone Member: Rather than calcite precipitates, the limestones of the Graneros (similar to the limestones of the Lincoln "Marble" just above the formation) are sorted skeletal remains of marine animals. These skeletal limestones indicate repeated disturbances of the bottom that washed away the silt, leaving mostly Inoceramidae shell fragments. Ostrea beloiti beds are particular index fossils for the formation. The middle limestones of the formation are sufficiently developed in southcentral Colorado and northcentral New Mexico to be named Thatcher Limestone Member.[15][4] Ammonites from the Thatcher Limestone Member are indicative of Cenomanian age.[1]
  • X-bentonite: While the formation has several thin bentonite beds, one unique bed is sufficiently thick, widespread, and widely used as a marker bed to be informally named "X",[16] the commonly applied quotation marks indicating the lack of formal classification of the bed. A feature of bentonite beds is that they mark specific instants in geological time; that is, all locations where a particular bentonite bed is found are therefore known to record the same date in Earth history. The X-bentonite is radiometrically dated to 96 or 95 million years ago and it identifiable throughout the Western Interior Seaway marine sediments. At the Graneros type location, which was generally the deepest part of the Western Interior Seaway, the X-bentonite is actually in the lowest beds of the overlying Greenhorn Formation. However, progressing eastward from Pueblo, the X-bentonite is found within the top of the Graneros, then lower into the unit, and by Iowa, the X-bentonite is found at the bottom of the Graneros. This pattern is evidence that the Graneros was deposited in different locations in time and space; as the sea levels of the Greenhorn Cycle rose, the Graneros environment moved eastward in space and upwards in geologic time. The same is observed West of Pueblo; the base of the Graneros equivalent in the Mancos Shale rise to meet the X-bentinite in Utah and Arizona. In other words, before the X-bentonite ashfall, the Graneros shoreline environment is advancing east and west, leaving the central seaway; and by the time of the X-bentonite ashfall, was in the process of advancing into the regions of modern Iowa and Utah, respectively.[17][18][19]

As discussed in the previous Naming and Rank section, the Graneros name was applied in South Dakota to a group of other units; however, this has no relation to the description of the Graneros Shale formation.[4]

Hydrocarbon exploration

[edit]

The Graneros/Belle Fouche Shale is an important hydrocarbon source rock in the High Plains production basins.[7]

Fossils

[edit]

The upper part of the formation contains abundant oyster fossils[1] and the ammonoids Tarrantoceras sellardsi Adkins, Desmoceras, Anthoceras, and Borissiakoceras. The mollusks Inoceramus rutherfordi Warren, Ostrea beloiti Logan, and Turrilites acutus americanus are also present. Fossils become more scarce in Wyoming.[20]

See also

[edit]

References

[edit]
  1. ^ a b c d e Cobban, W.A.; Scott, G.R. (1972). "Stratigraphy and ammonite fauna of the Graneros Shale and Greenhorn Limestone near Pueblo, Colorado". U.S. Geological Survey Professional Paper. Professional Paper. 645: 9. Bibcode:1972usgs.rept....9C. doi:10.3133/pp645. Retrieved 3 September 2020.
  2. ^ "Geologic Unit: Graneros". National Geologic Database. Geolex — Significant Publications. United States Geological Survey. Retrieved 2021-03-12.
  3. ^ Siliciclastic and calcareous sedimentary rocks of early Late Cretaceous age in the Western Interior of the United States have been assigned to, in ascending order, the Graneros Shale, Greenhorn Formation, Carlile Shale, Niobrara Formation, and their lateral equivalents (including members of the Frontier Formation and overlying formations). Merewether, E. Allen; Cobban, William A.; Obradovich, John D. (2007). "Regional disconformities in Turonian and Coniacian (Upper Cretaceous) strata in Colorado, Wyoming, and adjoining states - Biochronological evidence". Rocky Mountain Geology. 42 (2): 95–122. Bibcode:2007RMGeo..42...95M. doi:10.2113/gsrocky.42.2.95.
  4. ^ a b c d e f g Donald E. Hattin (1975). Stratigraphy and Depositional Environment of Greenhorn Limestone (Upper Cretaceous) of Kansas, Kansas Geological Survey, Bulletin 176. University of Kansas Publications, State Geological Survey of Kansas. p. Stratigraphy. The Graneros Shale was named by Gilbert (1896, p. 564) for 200 to 210 feet of argillaceous or clayey shale lying between the top of the Dakota and the base of the overlying Greenhorn Limestone." "[In northwestern Nebraska and around the Black Hills] the thicknesses are for the combined Mowry and Belle Fourche shales but, as noted above, only the Belle Fourche is lithologically equivalent to the Graneros.
  5. ^ a b Donald E. Hattin (1965). "Stratigraphy of the Graneros Shale (Upper Cretaceous) in Central Kansas". Kansas Geological Survey Bulletin (178). Kansas Geological Survey: Stratigraphy / Graneros Shale / Name and Definition. Retrieved September 6, 2021. The lithologic equivalent of the Graneros in the Black Hills and surrounding areas is the Belle Fourche Shale. Considerable similarity exists between these two formations, and, if the name Graneros is to be perpetuated in the Black Hills region, it would be best used to replace the name Belle Fourche over which the former has priority.
  6. ^ Meek, F.B. and Hayden, F.V. (1862). "Descriptions of new Lower Silurian, (Primordial), Jurassic, Cretaceous, and Tertiary fossils, collected in Nebraska, by the exploring expedition under the command of Capt. Wm F. Reynolds, U.S. Top. Engineers, with some remarks on the rocks from which they were obtained". Academy of Natural Sciences of Philadelphia Proceedings. 13: 417–424.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  7. ^ a b Kauffman, E.G. (1985). "Depositional History of the Graneros Shale (Cenomanian), Rock Canyon Anticline". In Pratt, L.M.; Kauffman, E.G.; Zelt, F.B. (eds.). Fine-Grained Deposits and Biofacies of the Cretaceous Western Interior Seaway. pp. 90–99. doi:10.2110/sepmfg.04.090. ISBN 0918985560. The Graneros Shale represents the first episode of offshore marine sedimentation in the central part of the Western Interior Seaway during early transgression of the Greenhorn Marine Cycle. It is also a major source rock for Cretaceous reservoirs of the region.
  8. ^ Wilmarth, M.G. (1938). "Lexicon of geologic names of the United States (including Alaska)". U.S. Geological Survey Bulletin. 896 (1–2). Retrieved 13 March 2021.
  9. ^ Greg A. Ludvigson, Brian J. Witzke (2010). "New Insights on the Sequence Stratigraphic Architecture of the Dakota Formation in Kansas–Nebraska–Iowa from a Decade of Sponsored Research Activity". Current Research in Earth Sciences: Palynostratigraphy and Correlation of the Dakota Formation in the Type Area, Iowa, Nebraska, and Kansas. Retrieved March 16, 2021.
  10. ^ Darton, N.H. 1904. Comparison of the stratigraphy of the Black Hills, Bighorn Mountains, and Rocky Mountain Front Range. Geological Society of America Bulletin, v. 15, p. 379-448.
  11. ^ Robert M. Grace (January 1, 1952). "Stratigraphy of the Newcastle Formation, Black Hills Region, Wyoming and South Dakota Paperback" (PDF). The Geological Survey of Wyoming (Bulletin No. 44). University of Wyoming, Laramie.
  12. ^ Gilbert, G.K. (1896). "The underground water of the Arkansas Valley in eastern Colorado". U.S. Geological Survey Annual Report. 17 (2): 551–601. Retrieved 28 March 2021.
  13. ^ Ziegler, Kate E.; Ramos, Frank C.; Zimmerer, Matthew J. (2019). "Geology of Northeastern New Mexico, union and Colfax Counties, New Mexico: A Geologic Summary" (PDF). New Mexico Geological Society Field Conference Series. 70 (4): 47–54. Retrieved 1 September 2020.
  14. ^ Collier, A.J. (1922). "The Osage oil field, Weston County, Wyoming". U.S. Geological Survey Bulletin. 736-D: 71–110.
  15. ^ "Geologic Unit: Thatcher". National Geologic Database. Geolex — Significant Publications. United States Geological Survey. Retrieved 2021-03-12.
  16. ^ "Geologic Unit: X". National Geologic Database. Geolex — Significant Publications. United States Geological Survey. Retrieved 2021-11-18.
  17. ^ Bamburak, J.D., Hamilton, M. and Heaman, L.M. (2016). "Geochronology of Late Cretaceous bentonite beds in southwestern Manitoba: 2016 update" (PDF). Report of Activities, Manitoba Growth, Enterprise and Trade, Manitoba Geological Survey: 168–175. Retrieved September 12, 2021. ... from the X-bentonite bed within the Belle Fourche Member of the Ashville Formation ...{{cite journal}}: CS1 maint: multiple names: authors list (link)
  18. ^ Greg A. Ludvigson, Brian J. Witzke (2010). "New Insights on the Sequence Stratigraphic Architecture of the Dakota Formation in Kansas–Nebraska–Iowa from a Decade of Sponsored Research Activity". Current Research in Earth Sciences: Palynostratigraphy and Correlation of the Dakota Formation in the Type Area, Iowa, Nebraska, and Kansas. Retrieved September 12, 2021. [Figure 6 (X-bentonite disappears out the bottom of the Graneros in eastern Nebraska)]
  19. ^ Stephen C. Hook, William A. Cobban (2009). "The type section of the Upper Cretaceous Tokay Tongue of the Mancos Shale (new name), Carthage coal field, Socorro County, New Mexico" (PDF). New Mexico Geology. 37 (2). New Mexico Bureau of Geology & Mineral Resources: 27–46. Retrieved November 18, 2021.
  20. ^ Cobban, W.A. (1988). "Tarrantoceras Stephenson and related ammonoid genera from Cenomanian (Upper Cretaceous) rocks in Texas and the Western Interior of the United States". U.S. Geological Survey Professional Paper. Professional Paper. 1473: 13. Bibcode:1988usgs.rept...13C. doi:10.3133/pp1473. Retrieved 13 March 2021.