Juana Lopez Member

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Juana Lopez Member
Stratigraphic range: Turonian
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Juana Lopez.jpg
Juana Lopez Member near its reference section south of Cuba, New Mexico
Type Member
Unit of Mancos Shale (San Juan basin)
Carlile Formation (Denver and Raton Basins)
Benton Shale (North Park Basin)
Underlies Niobrara Formation
OverliesCodel Sandstone member of the Carlile
Thickness140 feet (43 m)
Lithology
Primary Sandstone with abundant carbonate fossil grains
OtherGravel, Codel fragments
Location
Coordinates 35°29′12″N106°12′04″W / 35.4866°N 106.2010°W / 35.4866; -106.2010
CountryFlag of the United States.svg  United States
Type section
Named forMesita Juana Lopez Grant, six miles northwest of Los Cerrillos, New Mexico
Named byRankin
Year defined1944
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Juana Lopez Member (the United States)
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Juana Lopez Member (New Mexico)

Juana Lopez refers to both the uppermost member of the Carlile Shale formation and to the environment that caused it to form. The Juana Lopez Member is calcareous sandstone dated to the Turonian age of the Upper Cretaceous and is exposed in the southern and western Colorado, northern and central New Mexico, [1] and northeastern Utah. [2] The unit has been described as "the most enigmatic" member of the Carlile Shale. [3]

Contents

Description

The Juana Lopez Member consists of beds of calcarenite separated by intervals of mudstone. Calcarenite is a form of limestone composed mostly of sand-sized carbonate grains. In the Juana Lopez Member, these are mostly fragmented coral, shells (especially inoceramid prisms), shark teeth, bone, and other fragmented fossils. [4] The Juana Lopez Member smells of sulfur when freshly broken. It formed on wide, shallow marine shelf, with strong wave action, but with little sediment coming in from land. It was exposed on the land surface between the retreat of the Greenhorn cycle and the advance of the Niobrara cycle of the Western Interior Seaway. [1]

As originally defined, the unit included only the uppermost calcarenite bed, with a thickness of less than 10 feet (3.0 m). As currently defined, the unit includes the entire sequence of calcarenite beds separated by mudstone intervals, and is up to about 140 feet (43 m) thick. [5]

The unit is one of the most extensive units of the Western Interior Seaway, being present in the Mancos Shale of the San Juan Basin, the Carlile Shale of the Denver Basin and Raton Basin, and the Benton Shale of the North Park Basin. [6] Outcrops have been found as far east as Kansas and as far south as west Texas. [7]

Fossils

Concretion and ammonite cast from the Juana Lopez Member Ammonite cast in Juana Lopez Member.jpg
Concretion and ammonite cast from the Juana Lopez Member

The unit is highly fossiliferous. Fossils identified in the unit are primarily marine molluscs, including Prinocyclus , Inoceramus , [8] Ostrea , [9] Lopha lugubris, Coilopoceras , Hourcquia , and Scaphites . The fossils indicate that the member is upper Turonian in age. [10] Teeth of the shark Ptychodus are also found. [9]

History of investigation

The distinctive beds and fossils of the member were first noted by John Strong Newberry in 1861. [11] The member was first designated in 1944 by C.H. Rankin, Jr., who recognized the member throughout northern New Mexico and western Colorado. Rankin established the correlation between the Mancos Shale and the Colorado Group and was able to identify most of the units of the Colorado Group within the Mancos Shale, and identified the top of the Juana Lopez Member as the top of the Carlile Shale. [8] In 1955, Dan Bozanic revised the definition of the member to include a much larger set of beds, [12] and this revision has been widely accepted. [13]

Related Research Articles

<span class="mw-page-title-main">San Juan Basin</span> Structural basin in the Southwestern United States

The San Juan Basin is a geologic structural basin located near the Four Corners region of the Southwestern United States. The basin covers 7,500 square miles and resides in northwestern New Mexico, southwestern Colorado, and parts of Utah and Arizona. Specifically, the basin occupies space in the San Juan, Rio Arriba, Sandoval, and McKinley counties in New Mexico, and La Plata and Archuleta counties in Colorado. The basin extends roughly 100 miles (160 km) N-S and 90 miles (140 km) E-W.

<span class="mw-page-title-main">Dakota Formation</span> Rock units in midwestern North America

The Dakota is a sedimentary geologic unit name of formation and group rank in Midwestern North America. The Dakota units are generally composed of sandstones, mudstones, clays, and shales deposited in the Mid-Cretaceous opening of the Western Interior Seaway. The usage of the name Dakota for this particular Albian-Cenomanian strata is exceptionally widespread; from British Columbia and Alberta to Montana and Wisconsin to Colorado and Kansas to Utah and Arizona. It is famous for producing massive colorful rock formations in the Rocky Mountains and the Great Plains of the United States, and for preserving both dinosaur footprints and early deciduous tree leaves.

Colorado is a geologic name applied to certain rocks of Cretaceous age in the North America, particularly in the western Great Plains. This name was originally applied to classify a group of specific marine formations of shale and chalk known for their importance in Eastern Colorado. The surface outcrop of this group produces distinctive landforms bordering the Great Plains and it is a significant feature of the subsurface of the Denver Basin and the Western Canadian Sedimentary Basin. These formations record important sequences of the Western Interior Seaway, and as the geology of this seaway was studied, this name came to be used in states beyond Colorado, but was later replaced in several of these states with more localized names.

<span class="mw-page-title-main">Point Lookout Sandstone</span>

The Point Lookout Sandstone is a Cretaceous bedrock formation occurring in New Mexico and Colorado.

<span class="mw-page-title-main">Tres Hermanos Formation</span> Clastic wedge in New Mexico

The Tres Hermanos Formation is a geologic formation in central and west-central New Mexico. It contains fossils characteristic of the Turonian Age of the late Cretaceous.

<span class="mw-page-title-main">Tropic Shale</span>

The Tropic Shale is a Mesozoic geologic formation. Dinosaur remains are among the fossils that have been recovered from the formation, including Nothronychus graffami. The Tropic Shale is a stratigraphic unit of the Kaiparowits Plateau of south central Utah. The Tropic Shale was first named in 1931 after the town of Tropic where the Type section is located. The Tropic Shale outcrops in Kane and Garfield counties, with large sections of exposure found in the Grand Staircase–Escalante National Monument.

<span class="mw-page-title-main">Straight Cliffs Formation</span> Geologic formation in south central Utah, USA

The Straight Cliffs Formation is a stratigraphic unit in the Kaiparowits Plateau of south central Utah. It is Late Cretaceous in age and contains fluvial, paralic, and marginal marine (shoreline) siliciclastic strata. It is well exposed around the margin of the Kaiparowits Plateau in the Grand Staircase – Escalante National Monument in south central Utah. The formation is named after the Straight Cliffs, a long band of cliffs creating the topographic feature Fiftymile Mountain.

<span class="mw-page-title-main">Carlile Shale</span> A geologic formation in the western US

The Carlile Shale is a Turonian age Upper/Late Cretaceous series shale geologic formation in the central-western United States, including in the Great Plains region of Colorado, Kansas, Nebraska, New Mexico, North Dakota, South Dakota, and Wyoming.

<i>Collignoniceras</i> Genus of molluscs (fossil)

Collignociceras is a strongly ribbed and tuberculate, evolute ammonite from the Turonian of the western U.S. and Europe belonging to the ammonitid family Collignoniceratidae. The genus is named after the French paleontologist Maurice Collignon. The type is Collignoniceras woollgari, named by Mantell in 1822 for specimens from Sussex, England.

<span class="mw-page-title-main">Mancos Shale</span> Late Cretaceous geologic formation of the Western United States

The Mancos Shale or Mancos Group is a Late Cretaceous geologic formation of the Western United States.

<span class="mw-page-title-main">Graneros Shale</span> Geological formation

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. 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. 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.

<span class="mw-page-title-main">Greenhorn Limestone</span>

The Greenhorn Limestone or Greenhorn Formation is a geologic formation in the Great Plains Region of the United States, dating to the Cenomanian and Turonian ages of the Late Cretaceous period. The formation gives its name to the Greenhorn cycle of the Western Interior Seaway.

<span class="mw-page-title-main">Benton Shale</span> Geologic formation (shale) in Montana, Wyoming, and other states

The Benton Shale is a geologic formation name historically used in Montana, Wyoming, North Dakota, South Dakota, Colorado, Kansas, and Nebraska. In the "mile high" plains in the center of the continent, the named layers preserve marine fossils from the Late Cretaceous Period. The term Benton Limestone has also been used to refer to the chalky portions of the strata, especially the beds of the strata presently classified as Greenhorn Limestone, particularly the Fencepost limestone.

The Thermopolis Shale is a geologic formation which formed in west-central North America in the Albian age of the Late Cretaceous period. Surface outcroppings occur in central Canada, and the U.S. states of Montana and Wyoming. The rock formation was laid down over about 7 million years by sediment flowing into the Western Interior Seaway. The formation's boundaries and members are not well-defined by geologists, which has led to different definitions of the formation. Some geologists conclude the formation should not have a designation independent of the formations above and below it. A range of invertebrate and small and large vertebrate fossils and coprolites are found in the formation.

<span class="mw-page-title-main">Lewis Shale</span> Geologic formation of the western United States

The Lewis Shale is a geologic formation in the Western United States. It preserves fossils dating back to the Campanian to Maastrichtian stages of the late Cretaceous period.

The Atarque Sandstone is a geologic formation in New Mexico. It preserves fossils dating back to the late Cretaceous period.

<span class="mw-page-title-main">Mesaverde Group</span> Group of geologic formations in the western United States

The Mesaverde Group is a Late Cretaceous stratigraphic group found in areas of Colorado, New Mexico, Utah, and Wyoming, in the Western United States.

The Favel Formation is a stratigraphic unit of Late Cretaceous age. It is present in southern Manitoba and southeastern Saskatchewan, and consists primarily of calcareous shale. It was named for the Favel River near Minitonas, Manitoba, by R.T.D. Wickenden in 1945.

<i>Inoceramus cuvieri</i> Extinct species of bivalve

Inoceramus cuvieri is an extinct species of the extinct genus Inoceramus of Bivalve mollusks that serves as an index fossil of chalky rocks of Turonian age of the Cretaceous Period in Europe and North America.

The Glencairn Formation is a geologic formation found in Colorado and New Mexico. It preserves fossils characteristic of the Albian Age of the Cretaceous Period.

References

  1. 1 2 Lewis, Russell K. (2013), Stratigraphy and depositional environments of the Late Cretaceous (Late Turonian) Codell sandstone and Juana Lopez members of the Carlile shale, southeast Colorado, Mines Theses & Dissertations, retrieved 2018-08-14
  2. Molenaar, C.M.; Cobban, W.A. (1991). "Middle Cretaceous stratigraphy on the south and east sides of the Uinta Basin, northeastern Utah and northwestern Colorado". United States Geological Survey Bulletin. 1787-P. doi: 10.3133/b1787P .
  3. Lewis 2013.
  4. Hook, Stephen C.; Cobban, William A. (August 2013). "The Upper Cretaceous (Turonian) Juana Lopez Beds of the D-Cross Tongue of the Mancos Shale in central New Mexico and their relationship to the Juana Lopez Member of the Mancos Shale in the San Juan Basin" (PDF). New Mexico Geology. 35 (3): 59–81. Retrieved 14 September 2021.
  5. Hook & Cobban 2013, pp. 59–61.
  6. Hook, Stephen C.; Cobban, William A. (1980). "Reinterpretation of type section of Juana Lopez Member of Mancos Shale" (PDF). New Mexico Geology. 2 (2): 17. Retrieved 14 September 2021.
  7. Hook & Cobban 2013, p. 61.
  8. 1 2 Rankin, C.H. Jr. (1944). "Stratigraphy of the Colorado group, Upper Cretaceous, in northern New Mexico". New Mexico Bureau of Mines and Mineral Resources Bulletin. 20. Retrieved 14 September 2021.
  9. 1 2 Ekren, E.B.; Houser, F.N. (1965). "Geology and petrology of the Ute Mountains area, Colorado". United States Geological Survey Professional Paper. Professional Paper. 481. doi: 10.3133/pp481 .
  10. Hook & Cobban 1980, p. 19.
  11. Hook & Cobban 2013, p. 60.
  12. Bozanic, Dan (1955). "A brief discussion on the subsurface Cretaceous rocks of the San Juan Basin". Four Corners Geological Society Guidebook. 1: 89–107.
  13. Hook & Cobban 1980, pp. 19–20.