Moppin Complex

Moppin Complex
Moppin Complex
Stratigraphic range: Statherian Pha. Proterozoic Archean Had'n
	Moppin Complex at the Iron Mountain reference section
Type	Complex
Underlies	Vadito Group
Lithology
Primary	Metavolcanic rock
Other	Metasedimentary rock
Location
Coordinates	36°43′26″N106°14′17″W / 36.724°N 106.238°W
Region	Tusas Mountains, New Mexico
Country	United States
Type section
Named for	Moppin Ranch
Named by	F. Barker
Year defined	1958
	Moppin Complex (the United States) Moppin Complex (New Mexico)

Last updated January 29, 2023

The Moppin Complex is a Precambrian geologic complex found in the Tusas Mountains of northern New Mexico. It has not been directly dated, but is thought to be Statherian based on a minimum age of 1.755 Gya from radiometric dating of magmatic intrusions.

Description

The Moppin Complex consists mostly of chlorite schist (greenschist) and amphibolite,^[1] but with lesser amounts of many other rock types, including metaconglomerate, phyllite, gneiss,^[1] and muscovite schist.^[2] Feldspathic schist^[3] and banded iron formation ^[3]^[2] are also present. The banded iron is of the Algoma variety, formed by local volcanism rather than in the Great Oxidation Event.^[4] Pillow lavas can be discerned at some locations^[3] and the overall composition of the chlorite schist is that of altered basalt.^[5] Major element and oxygen isotope ratios suggest the protolith was tholeiite.^[6] Exposures of amphibolite along Cow Creek ( 36°38′31″N106°06′32″W / 36.642°N 106.109°W / 36.642; -106.109 ) are almost entirely very fine-grained hornblende and oligoclase.^[7]

The complex crops out in the Tusas Mountains along a belt from American Creek ( 36°37′48″N106°04′19″W / 36.630°N 106.072°W / 36.630; -106.072 ) to Jawbone Mountain ( 36°44′35″N106°14′38″W / 36.743°N 106.244°W / 36.743; -106.244 ). Its base is nowhere exposed, but it is at least a few thousand meters (several thousand feet) thick.^[8] Based on gravity measurements, the dense rock of the complex may extend in the subsurface well to the north and east into the San Juan basin.^[9]

The Moppin Complex is intruded by plutonic rocks, including the Maquinita Granodiorite, the trondjhemite of Rio Brazos,^[3] dikes and sills of the Burned Mountain Formation,^[10] the Tusas Mountain Orthogneiss, and the Tres Piedras Orthogneiss.^[10]^[11] The Maquinita Granodiorite has a uranium-lead radiometric age of 1.755 Gya, which constrains the minimum age of the Moppin Complex.^[3] This makes the Moppin Complex one of the oldest known rock units in New Mexico.^[2] It likely correlates with the Pecos Complex of the Santa Fe Mountains and the Gold Hill Complex of the Taos Mountains ^[8]

The complex is overlain by the Vadito Group. The lower part of the Vadito Group contains amphibolite bodies that may be transitional with the Moppin Complex.^[12]

The unit is interpreted as a portion of an island arc accreted to the southern margin of Laurentia as part of the Yavapai Province between 1.8 and 1.755 Gya. The unit was intruded by the Tres Piedras Orthogneiss between 1.700 and 1.693 Gya as part of the transition from the Yavapai orogeny to the Mazatzal orogeny, and further deformed between 1.45 and 1.35 Gya.^[13]^[14]

Economic geology

Gold has been mined in the Moppin Complex and comes from volcanogenic massive-sulfide deposits. Banded iron formation may amount to 100 million tons of low-grade iron ore, but this is not presently economically recoverable.^[15]

History of investigation

The rock beds making up the Moppin Complex were originally named the Hopewell Series in by Evan Just in 1937 during an investigation of pegmatites in the Tusas Mountains.^[16] However, this name was already in use, and the unit was renamed the Moppin metavolcanic series by Fred Barker in 1958.^[10] With the recognition that the lithology was more diverse, including metasedimentary as well as metavolcanic rock, the unit was renamed as the Moppin Complex by Bauer and Williams in their sweeping revision of the stratigraphy of northern New Mexico Proterozoic rock units in 1989. They also designated three reference sections.^[8]

Moppin Complex at Placer Creek.
Greenschist of the Moppin Complex. This is the predominant rock type in the complex.
Feldspathic schist of the Moppin Complex on Hopewell Ridge.

Notes

1 2 Barker 1958, p. 10.
1 2 3 McLemore 2011, p. 380.
1 2 3 4 5 Bauer & Williams 1989, p. 47.
↑ Fulp & Woodward 1981.
↑ Barker 1958, p. 16.
↑ Barker & Friedman 1974.
↑ Barker 1958, p. 17.
1 2 3 Bauer & Williams 1989, p. 46.
↑ Drenth et al. 2019.
1 2 3 Barker 1958, p. 14.
↑ Davis, Williams & Karlstrom 2011, p. 180.
↑ Bauer & Williams 1989, p. 48.
↑ Davis, Williams & Karlstrom 2011.
↑ Damiel, Andronicos & Aronoff 2016.
↑ McLemore 2011, p. 384.
↑ Just 1937, p. 21.

Related Research Articles

The Vishnu Basement Rocks is the name recommended for all Early Proterozoic crystalline rocks exposed in the Grand Canyon region. They form the crystalline basement rocks that underlie the Bass Limestone of the Unkar Group of the Grand Canyon Supergroup and the Tapeats Sandstone of the Tonto Group. These basement rocks have also been called either the Vishnu Complex or Vishnu Metamorphic Complex. These Early Proterozoic crystalline rocks consist of metamorphic rocks that are collectively known as the Granite Gorge Metamorphic Suite; sections of the Vishnu Basement Rocks contain Early Paleoproterozoic granite, granitic pegmatite, aplite, and granodiorite that have intruded these metamorphic rocks, and also, intrusive Early Paleoproterozoic ultramafic rocks.

The Manzano Group is a group of geologic formations in central New Mexico. These have radiometric ages of 1601 to 1662 million years (Ma), corresponding to the late Statherian period of the Paleoproterozoic.

The geology of New Mexico includes bedrock exposures of four physiographic provinces, with ages ranging from almost 1800 million years (Ma) to nearly the present day. Here the Great Plains, southern Rocky Mountains, Colorado Plateau, and Basin and Range Provinces meet, giving the state great geologic diversity.

The Maquinita Granodiorite is a Precambrian pluton that crops out in the northern Tusas Mountains of New Mexico. It has a radiometric age of 1.755 billion years, corresponding to the Statherian period.

The Vadito Group is a group of geologic formations that crops out in most of the Precambrian-cored uplifts of northern New Mexico. Detrital zircon geochronology and radiometric dating give a consistent age of 1700 Mya for the group, corresponding to the Statherian period.

The Big Rock Formation is a formation that crops out in the Tusas Mountains of northern New Mexico. Detrital zircon geochronology gives a maximum age for the formation of 1665 Mya, corresponding to the Statherian period.

The Burned Mountain Formation is a geologic formation that crops out in the Tusas Mountains of northern New Mexico. It has a U-Pb radiometric age of 1700 Mya, corresponding to the Statherian period.

The Glenwoody Formation is a geological formation that is exposed in the cliffs southeast of the Rio Grande Gorge near the town of Pilar and in a few other locations in the Picuris Mountains. Its minimum age from detrital zircon geochronology is 1.693 Mya, corresponding to the Statherian period.

The Hondo Group is a group of geologic formations that crops out in most of the Precambrian-cored uplifts of northern New Mexico. Detrital zircon geochronology gives a maximum age for the lower Hondo Group of 1765 to 1704 million years (Mya), corresponding to the Statherian period.

The Ortega Formation is a geologic formation that crops out in most of the mountain ranges of northern New Mexico. Detrital zircon geochronology establishes a maximum age for the formation of 1690-1670 million years (Mya), in the Statherian period of the Precambrian.

The Rinconada Formation is a geologic formation that crops out in the Picuris Mountains of northern New Mexico. Detrital zircon geochronology establishes a maximum age for the Rinconada Formation of about 1723 Mya, placing it in the Statherian period of the Precambrian.

The Marquenas Formation is a geological formation that crops out in the Picuris Mountains of northern New Mexico. Detrital zircon geochronology gives it a maximum age of 1435 million years, corresponding to the Calymmian period.

The Tres Piedras Orthogneiss is a pluton in northern New Mexico. It has a U-Pb radiometric age of 1693 Mya, placing it in the Statherian period.

The San Miguel gneiss is a Paleoproterozoic pluton in the Nacimiento Mountains of New Mexico. It has a radiometric age of 1.695 billion years, corresponding to the Statherian period.

The Joaquin quartz monzonite is a Mesoproterozoic pluton in northern New Mexico. Radiometric dating gives it an age of 1460 million years, corresponding to the Calymmian period.

The Ritito Conglomerate is a geologic formation in northern New Mexico dating to the Oligocene epoch.

The Sevilleta Metarhyolite is a geologic formation in central New Mexico. It has a radiometric age of 1665 ± 16 Ma, corresponding to the Statherian period.

The Abajo Formation is a geologic formation in the Los Pinos Mountains of central New Mexico. It was deposited about 1660 million years (Ma) ago, corresponding to the Statherian period.

The Tijeras Greenstone is a geologic formation in central New Mexico. It has a radiometric age of 1660 million years (Ma), corresponding to the Statherian period.

The Irving Formation is a Precambrian geologic formation found in the San Juan Mountains of southwest Colorado, US. It is thought to be Statherian in age

References

Barker, Fred (1958). "Precambrian and Tertiary geology of Las Tablas quadrangle, New Mexico" (PDF). New Mexico Bureau of Mines and Mineral Resources Bulletin. 45.
Barker, Fred; Friedman, Irving (1974). "PRECAMBRIAN METAVOLCANIC ROCKS OF THE TUSAS MOUNTAINS, NEW MEXICO: MAJOR ELEMENTS AND OXYGEN ISOTOPES". New Mexico Geological Society Field Conference Series (25): 115–117. CiteSeerX 10.1.1.505.5407 .
Bauer, Paul W.; Williams, Michael L. (August 1989). "Stratigraphic nomenclature ol proterozoic rocks, northern New Mexico-revisions, redefinitions, and formalization" (PDF). New Mexico Geology. 11 (3). Retrieved 15 April 2020.
Damiel, Christopher G.; Andronicos, Christopher L.; Aronoff, Ruth F. (2016). "Regional Al2SiO5 triple-point metamorphic rocks of northern New Mexico; A field trip to honor the career contributions od Lincoln Hollister to petrology and tectonics". The Geological Society of America Field Guide Series. 44: 201–229. ISBN 9780813700441.
Davis, Peter; Williams, Mike; Karlstrom, Karl (2011). "Structural evolution and timing of deformation along the Proterozoic Spring Creek shear zone of the northern Tusas Mountains, New Mexico" (PDF). New Mexico Geological Society Field Conference Series. 62: 177–190.
Drenth, Benjamin J.; Grauch, V.J.S.; Turner, Kenzie J.; Rodriguez, Brian D.; Thompson, Ren A.; Bauer, Paul W. (1 December 2019). "A shallow rift basin segmented in space and time: The southern San Luis Basin, Rio Grande rift, northern New Mexico, U.S.A." Rocky Mountain Geology. 54 (2): 97–131. doi: 10.24872/rmgjournal.54.2.97 . S2CID 201307110.
Fulp, Michael S.; Woodward, Lee A. (August 1981). "Precambrian metallic mineralization in New Mexico" (PDF). New Mexico Geology. 3 (3). Retrieved 8 May 2020.
Just, Evan (1937). "Geology and Economic Features of the Pegmatites of Taos and Rio Arriba Counties, New Mexico" (PDF). New Mexico School of Mines Bulletin (13).
McLemore, Virginia T. (2011). "Geology and mineral resources in the Hopewell and Bromide No. 2 districts, northern Tusas Mountains, Rio Arriba County, New Mexico" (PDF). New Mexico Geological Society Field Conference Series. 62: 379–388.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[FOOTNOTEBarker195810-1] 1 2 Barker 1958, p. 10.

[FOOTNOTEMcLemore2011380-2] 1 2 3 McLemore 2011, p. 380.

[FOOTNOTEBauerWilliams198947-3] 1 2 3 4 5 Bauer & Williams 1989, p. 47.

[FOOTNOTEFulpWoodward1981-4] Fulp & Woodward 1981.

[FOOTNOTEBarker195816-5] Barker 1958, p. 16.

[FOOTNOTEBarkerFriedman1974-6] Barker & Friedman 1974.

[FOOTNOTEBarker195817-7] Barker 1958, p. 17.

[FOOTNOTEBauerWilliams198946-8] 1 2 3 Bauer & Williams 1989, p. 46.

[FOOTNOTEDrenthGrauchTurnerRodriguez2019-9] Drenth et al. 2019.

[FOOTNOTEBarker195814-10] 1 2 3 Barker 1958, p. 14.

[FOOTNOTEDavisWilliamsKarlstrom2011180-11] Davis, Williams & Karlstrom 2011, p. 180.

[FOOTNOTEBauerWilliams198948-12] Bauer & Williams 1989, p. 48.

[FOOTNOTEDavisWilliamsKarlstrom2011-13] Davis, Williams & Karlstrom 2011.

[FOOTNOTEDamielAndronicosAronoff2016-14] Damiel, Andronicos & Aronoff 2016.

[FOOTNOTEMcLemore2011384-15] McLemore 2011, p. 384.

[FOOTNOTEJust193721-16] Just 1937, p. 21.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

[15]

[16]

Moppin Complex
Stratigraphic range: Statherian Pha. Proterozoic Archean Had'n
Moppin Complex at the Iron Mountain reference section
Type	Complex
Underlies	Vadito Group
Lithology
Primary	Metavolcanic rock
Other	Metasedimentary rock
Location
Coordinates	36°43′26″N106°14′17″W / 36.724°N 106.238°W / 36.724; -106.238
Region	Tusas Mountains, New Mexico
Country	United States
Type section
Named for	Moppin Ranch
Named by	F. Barker
Year defined	1958
Moppin Complex (the United States) Show map of the United States Moppin Complex (New Mexico) Show map of New Mexico