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Popotosa Formation
Stratigraphic range: Neogene
26.4–7  Ma
Popotosa Formation at one of its reference sections, Canoncito de las Cabras, New Mexico
Type Formation
Unit of Santa Fe Group
Underlies Sierra Ladrones Formation
Overlies South Canyon Tuff
Thickness1,447 m (4,747 ft)
Lithology
Primary Volcaniclastics
Other Tuff
Location
Coordinates 34°18′00″N 107°02′38″W / 34.30000°N 107.04386°W / 34.30000; -107.04386
Region New Mexico
Country United States
Type section
Named forCanada Popotosa
Named byC.S. Denny
Year defined1940
Popotosa Formation is located in the United States
Popotosa Formation
Popotosa Formation (the United States)
Popotosa Formation is located in New Mexico
Popotosa Formation
Popotosa Formation (New Mexico)

The Popotosa Formation is a geologic formation in New Mexico. It preserves fossils dating back to the Neogene period. These include the Socorro flora, notable for its fine preservation of plant reproductive structures.

Description

The Popotosa Formation is a thick (up to 1,447 meters (4,747 feet)) sequence of volcaniclastic beds with a few interspersed ash beds. It is exposed along the Rio Grande rift in the Socorro area. Radiometric dating of interbedded flows gives it an age of 26.4 to 7 million yeawrs ( Ma), corresponding to the late Oligocene to Miocene. [1] It lies on tuff outflow sheets of the Mogollon-Datil volcanic field, primarily the South Canyon Tuff, and is overlain by the Sierra Ladrones Formation. [2]

The formation is interpreted as deposition of fanglomerates (mostly derived from the Mogollon-Datil volcanic field to the southwest) and playa sediments in a closed basin in the early stages of rifting along the Rio Grande rift. It is thus typical of the lower Santa Fe Group. [1] The formation was severely deformed in the late Miocene or early Pliocene and some beds dip as much as 60 degrees. Faults displace the formation hundreds to thousands of meters. [3]

Deformation in the middle Miocene caused the area to subside at a rate that exceeded the sediment supply, forming a topographically closed basin in which the Popotosa Formation was deposited. Increasing tilt rates created a series of regional unconformities. When tectonic activity finally slowed in the latest Miocene and early Pliocene, sedimentation exceeded accommodation. The basin began to fill, spilled over, and became an open basin as it was integrated into the ancestral Rio Grande river system. Sediments deposited after integration became the Sierra Ladrones Formation. [4]

Fossils

The Popotosa Formation is the original locality for the Socorro flora, estimated to be 20 to 15 million years old. The Socorro flora is notable for its impressions of juniper foliage, angiosperm leaflets, and floral parts. It is of particular interest for its fine preservation, including of reproductive structures. The flora is dominated by Calliandra leaflets but also contains Juniperus [2]

The formation has yielded a fossil of the pig-like oreodont Merychyus major major from an arroyo near San Antonito. [5]

Economic geology

The formation contains lithium-rich smectite clay beds with up to 1250 parts per million of lithium. However, the beds discovered as of 1979 are not extensive enough for economic exploitation. [3]

History of investigation

The unit was first described by C.S. Denny in 1940, who named it for exposures near Canada Popotosa. [6] It was assigned to the lower Santa Fe Group by M.N. Machette in 1978. [7]

See also

Footnotes

References

  • Asher-Bolinder, Sigrid (1988). "Stratigraphy of reference sections in the Popotosa Formation, Socorro County, New Mexico" (PDF). U.S. Geological Survey Bulletin. 1800. doi: 10.3133/b1800. Retrieved 10 June 2020.
  • Brenner-Tourtelot, Elizabeth F.; Machette, Michael N. (1979). "Open-File Report" (PDF). USGS Open File Report. 79–839. doi: 10.3133/ofr79839. Retrieved 31 August 2020.
  • Cather, S.M.; Chamberlin, R.M.; Chapin, C.E.; McIntosh, W.C. (1994). "Stratigraphic consequences of episodic extension in the Lemitar Mountains, central Rio Grande rift". In Keller, G. Randy; Cather, Steven M. (eds.). Basins of the Rio Grande Rift: Structure, Stratigraphy, and Tectonic Setting. ISBN  9780813722917. Retrieved 30 August 2020.
  • Denny, Charles S. (January 1940). "Tertiary Geology of the San Acacia Area New Mexico". The Journal of Geology. 48 (1): 73–106. Bibcode: 1940JG.....48...73D. doi: 10.1086/624862. S2CID  129616219.
  • Machette, M.N. (1978). "Geologic map of the San Acacia quadrangle, Socorro County, New Mexico". U.S. Geological Survey Geologic Quadrangle Map. GQ-1415. Retrieved 10 June 2020.
  • Meyer, Herbert W. (1983). "Fossil plants from the early Neogene Socorro flora, central New Mexico". New Mexico Geological Society Guidebook. 34. Retrieved 31 August 2020.
  • Morgan, Gary S.; Lander, E. Bruce; Cikoski, Colin; Chamberlin, Richard M.; Love, David W.; Peters, Lisa (November 2009). "The oreodont Merychyus major major (Mammalia: Artiodactyla: Oreodontidae) from the Miocene Popotosa Formation, Bosque del Apache National Wildlife Refuge, Socorro County, central New Mexico" (PDF). New Mexico Geology. 31 (4): 91–103. doi: 10.58799/nmg-v31n4.91. S2CID  130426420. Archived from the original (PDF) on 2020-02-27. Retrieved 31 August 2020.