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Yavapai orogeny

February 25, 2023

The Yavapai orogeny was an orogenic (mountain-building) event in what is now the Southwestern United States that occurred between 1710 and 1680 million years ago (Mya),[1] in the Statherian Period of the Paleoproterozoic. Recorded in the rocks of New Mexico and Arizona, it is interpreted as the collision of the 1800-1700 Mya age[1] Yavapai island arc terrane with the proto-North American continent. This was the first in a series of orogenies within a long-lived convergent boundary along southern Laurentia that ended with the ca. 1200–1000 Mya Grenville orogeny during the final assembly of the supercontinent Rodinia, which ended an 800-million-year episode of convergent boundary tectonism.[2][3][4][5][6]

Precambrian provinces of western North America, showing the Yavapai Province (in dark grey)

Description

Age and isotope data show that southern North America is composed of a series of northeast-trending provinces representing island arc terranes accreted onto the 1800 Mya core of Laurentia.[7] These are the Yavapai province (1800–1700 Mya), the Mazatzal province (1700–1650 Mya), the Granite-Rhyolite province (1500–1300 Mya), and the Llano-Grenville province (1300–1000 Mya). Each is interpreted as juvenile crust of an island arc, together with smaller amounts of reworked older crust, that accreted to Laurentia in an orogenic pulse accompanied by pluton emplacement. The plutons sutured new and existing orogens together and helped convert the juvenile terranes to mature crust. The orogen pulses are identified as the Yavapai orogeny at 1710–1680 Mya, the Mazatzal orogeny at 1650–1600 Ga, the Picuris orogeny at 1450–1300 Mya,[8] and the Grenville orogeny at 1.30–0.95 Mya.[6]

Some of the orogens were accompanied by slab rollback. This created short-lived extensional basins at 1700 and 1650 Mya that accumulated sand and high-silica volcanic debris to form Paleoproterozoic quartzite-rhyolite successions. Subsequent convergent tectonics closed the basins and thrust imbricated the successions. That is, faulted blocks of rock were stacked atop each other like shingles on a roof.[6]

The northeast-trending provinces are truncated by Neoproterozoic passive margins that indicate the orogenic system once extended much further. This is part of the basis for the AUSWUS reconstruction of Rodinia, which places Australia adjacent to the southwestern US from 1800 to 1000 Mya. Other supporting evidence includes correspondence of 1450 and 1000 Ga paleomagnetic poles between Australia and Laurentia.[2] The northeastern extension of the orogenic belt would then correspond to the Gothian orogeny[9] in Baltica and the southwestern extension to the Albany-Fraser orogeny.[10] However, the placement of Australia has been disputed on the basis of paleomagnetic data.[11] The SWEAT reconstruction places East Antarctica on the southwest extension of the Yavapai Province.[12]

The Yavapai Province was named for the Yavapai Supergroup in central Arizona.[13] It extends from Arizona to Colorado south of the Cheyenne belt, then northeastward to the mid-continent region. The southern boundary is somewhat poorly defined,[13][14][15] possibly because it corresponds to a shallow relic subduction zone, but runs roughly along the Jemez Lineament.[4] Individual island arc terranes accreted to Laurentia during the Yavapai Orogeny include the Elves Chasm block in the Grand Canyon, Green Mountain, Dubois-Cochetopa, Irving Formation, Moppin-Gold Hill, and Ash Creek-Payson.[6] The latter includes the Payson Ophiolite. Quartzite-rhyolite successions associated with extensional basins include the Vadito Group and Hondo Group in New Mexico and the Mazatzal Group in Arizona, deposited during the transition from the Yavapai to the Mazatzal orogens at 1700 Mya. The extensional basin in which the Mazatzal Group was deposited lasted about 30 Ma, from the Payson Ophiolite at 1730 Mya to the Mazatzal Peak Quartzite sometime after 1700 Mya.[16]

A number of regional orogenies fall within the time span of the Yavapai orogeny and are regarded as parts of the overall orogenic system. These include the Ivanpah orogeny (1710–1680 Mya) in the New York Mountains area; the Central Plains orogeny[17] in the mid-continent; the Medicine Bow orogeny at 1708–1750 Mya that produced the Cheyenne belt, the Colorado province or Colorado orogeny at 1780–1700 Mya.[6]

See also

References

  1. ^ a b Mako, Calvin A.; Williams, Michael L.; Karlstrom, Karl E.; Doe, Michael F.; Powicki, David; Holland, Mark E.; Gehrels, George; Pecha, Mark (December 2015). "Polyphase Proterozoic deformation in the Four Peaks area, central Arizona, and relevance for the Mazatzal orogeny". Geosphere. 11 (6): 1975–1995. Bibcode:2015Geosp..11.1975M. doi:10.1130/GES01196.1.
  2. ^ a b Karlstrom, Karl E; Åhäll, Karl-Inge; Harlan, Stephen S; Williams, Michael L; McLelland, James; Geissman, John W (1 October 2001). "Long-lived (1.8–1.0 Ga) convergent orogen in southern Laurentia, its extensions to Australia and Baltica, and implications for refining Rodinia". Precambrian Research. 111 (1): 5–30. Bibcode:2001PreR..111....5K. doi:10.1016/S0301-9268(01)00154-1. ISSN 0301-9268. Retrieved 19 April 2020.
  3. ^ Karlstrom, Karl E. (1989). Early recumbent folding during Proterozoic orogeny in central Arizona. Geological Society of America. p. 156. ISBN 9780813722351.
  4. ^ a b Magnani, M.B.; Miller, K.C.; Levander, A.; Karlstrom, K. (2004). "The Yavapai-Mazatzal boundary: A long-lived tectonic element in the lithosphere of southwestern North America". Geological Society of America Bulletin. 116 (9): 1137. Bibcode:2004GSAB..116.1137M. doi:10.1130/B25414.1. Retrieved 19 April 2020.
  5. ^ Jones, James V., III; Daniel, Christopher G.; Frei, Dirk; Thrane, Kristine (2011). "Revised regional correlations and tectonic implications of Paleoproterozoic and Mesoproterozoic metasedimentary rocks in northern New Mexico, USA: New findings from detrital zircon studies of the Hondo Group, Vadito Group, and Marqueñas Formation". Geosphere. 7 (4): 974–991. doi:10.1130/GES00614.1.
  6. ^ a b c d e Whitmeyer, Steven; Karlstrom, Karl E. (2007). "Tectonic model for the Proterozoic growth of North America". Geosphere. 3 (4): 220. doi:10.1130/GES00055.1.
  7. ^ Condie, Kent C. (1982). "Plate-tectonics model for Proterozoic continental accretion in the southwestern United States". Geology. 10 (1): 37. Bibcode:1982Geo....10...37C. doi:10.1130/0091-7613(1982)10<37:PMFPCA>2.0.CO;2.
  8. ^ Daniel, C. G.; Pfeifer, L. S.; Jones, J. V.; McFarlane, C. M. (23 July 2013). "Detrital zircon evidence for non-Laurentian provenance, Mesoproterozoic (ca. 1490-1450 Ma) deposition and orogenesis in a reconstructed orogenic belt, northern New Mexico, USA: Defining the Picuris orogeny". Geological Society of America Bulletin. 125 (9–10): 1423–1441. Bibcode:2013GSAB..125.1423D. doi:10.1130/B30804.1. Retrieved 19 April 2020.
  9. ^ Graversen, Ole; Pedersen, Svend (1999). "Timing of Gothian structural evolution in SE Norway: A Rb-Sr whole-rock age study" (PDF). Norsk Geologisk Tidsskrift. 79 (47–56): 47–56. doi:10.1080/002919699433906. Retrieved 15 September 2015.
  10. ^ Kirkland, C.J. and co-authors (2011). "On the edge: U–Pb, Lu–Hf, and Sm–Nd data suggests reworking of the Yilgarn craton margin during formation of the Albany-Fraser Orogen". Precambrian Research. p. 223.
  11. ^ Pisarevsky, S.A. and co-authors (2003). "Late Mesoproterozoic (ca 1.2 Ga) palaeomagnetism of the Albany–Fraser orogen: no pre-Rodinia Australia–Laurentia connection". Geophysical Journal International. p. F6.
  12. ^ Goodge, J. W.; Vervoort, J. D.; Fanning, C. M.; Brecke, D. M.; Farmer, G. L.; Williams, I. S.; Myrow, P. M.; DePaolo, D. J. (11 July 2008). "A Positive Test of East Antarctica-Laurentia Juxtaposition Within the Rodinia Supercontinent". Science. 321 (5886): 235–240. Bibcode:2008Sci...321..235G. doi:10.1126/science.1159189. PMID 18621666. S2CID 11799613. Retrieved 19 April 2020.
  13. ^ a b KARLSTROM, KARL E.; BOWRING, SAMUEL A.; CONWAY, CLAY M. (1987). "Tectonic significance of an Early Proterozoic two-province boundary in central Arizona". Geological Society of America Bulletin. 99 (4): 529. Bibcode:1987GSAB...99..529K. doi:10.1130/0016-7606(1987)99<529:TSOAEP>2.0.CO;2.
  14. ^ Grambling, Tyler A.; Holland, Mark; Karlstom, Karl E.; Gehrels, George E.; Pecha, Mark (2015). "REVISED LOCATION FOR THE YAVAPAI-MAZATZAL CRUSTAL PROVINCE BOUNDARY IN NEW MEXICO: HF ISOTOPIC DATA FROM PROTEROZOIC ROCKS OF THE NACIMIENTO MOUNTAINS" (PDF). New Mexico Geological Society Field Conference Series. 66: 175–184. Retrieved 19 April 2020.
  15. ^ Daniel, Christopher G.; Karlstrom, Karl E.; Williams, Michael L.; Pedrick, Jane N. (1995). "The reconstruction of a middle Proterozoic orogenic belt in north-central New Mexico, U.S.A." (PDF). New Mexico Geological Society Field Conference Series. 46: 193. Retrieved 19 April 2020.
  16. ^ Cox, Rónadh; Martin, Mark W.; Comstock, Jana C.; Dickerson, Laura S.; Ekstrom, Ingrid L.; Sammons, James H. (December 2002). "Sedimentology, stratigraphy, and geochronology of the Proterozoic Mazatzal Group, central Arizona". Geological Society of America Bulletin. 114 (12): 1535–1549. Bibcode:2002GSAB..114.1535C. doi:10.1130/0016-7606(2002)114<1535:SSAGOT>2.0.CO;2. Retrieved 19 April 2020.
  17. ^ Sims, P. K.; Petermar, Z. E. (1986). "Early Proterozoic Central Plains orogen: A major buried structure in the north-central United States". Geology. 14 (6): 488. Bibcode:1986Geo....14..488S. doi:10.1130/0091-7613(1986)14<488:EPCPOA>2.0.CO;2.

February 25, 2023
yavapai, orogeny, orogenic, mountain, building, event, what, southwestern, united, states, that, occurred, between, 1710, 1680, million, years, statherian, period, paleoproterozoic, recorded, rocks, mexico, arizona, interpreted, collision, 1800, 1700, yavapai,. The Yavapai orogeny was an orogenic mountain building event in what is now the Southwestern United States that occurred between 1710 and 1680 million years ago Mya 1 in the Statherian Period of the Paleoproterozoic Recorded in the rocks of New Mexico and Arizona it is interpreted as the collision of the 1800 1700 Mya age 1 Yavapai island arc terrane with the proto North American continent This was the first in a series of orogenies within a long lived convergent boundary along southern Laurentia that ended with the ca 1200 1000 Mya Grenville orogeny during the final assembly of the supercontinent Rodinia which ended an 800 million year episode of convergent boundary tectonism 2 3 4 5 6 Precambrian provinces of western North America showing the Yavapai Province in dark grey Description EditAge and isotope data show that southern North America is composed of a series of northeast trending provinces representing island arc terranes accreted onto the 1800 Mya core of Laurentia 7 These are the Yavapai province 1800 1700 Mya the Mazatzal province 1700 1650 Mya the Granite Rhyolite province 1500 1300 Mya and the Llano Grenville province 1300 1000 Mya Each is interpreted as juvenile crust of an island arc together with smaller amounts of reworked older crust that accreted to Laurentia in an orogenic pulse accompanied by pluton emplacement The plutons sutured new and existing orogens together and helped convert the juvenile terranes to mature crust The orogen pulses are identified as the Yavapai orogeny at 1710 1680 Mya the Mazatzal orogeny at 1650 1600 Ga the Picuris orogeny at 1450 1300 Mya 8 and the Grenville orogeny at 1 30 0 95 Mya 6 Some of the orogens were accompanied by slab rollback This created short lived extensional basins at 1700 and 1650 Mya that accumulated sand and high silica volcanic debris to form Paleoproterozoic quartzite rhyolite successions Subsequent convergent tectonics closed the basins and thrust imbricated the successions That is faulted blocks of rock were stacked atop each other like shingles on a roof 6 The northeast trending provinces are truncated by Neoproterozoic passive margins that indicate the orogenic system once extended much further This is part of the basis for the AUSWUS reconstruction of Rodinia which places Australia adjacent to the southwestern US from 1800 to 1000 Mya Other supporting evidence includes correspondence of 1450 and 1000 Ga paleomagnetic poles between Australia and Laurentia 2 The northeastern extension of the orogenic belt would then correspond to the Gothian orogeny 9 in Baltica and the southwestern extension to the Albany Fraser orogeny 10 However the placement of Australia has been disputed on the basis of paleomagnetic data 11 The SWEAT reconstruction places East Antarctica on the southwest extension of the Yavapai Province 12 The Yavapai Province was named for the Yavapai Supergroup in central Arizona 13 It extends from Arizona to Colorado south of the Cheyenne belt then northeastward to the mid continent region The southern boundary is somewhat poorly defined 13 14 15 possibly because it corresponds to a shallow relic subduction zone but runs roughly along the Jemez Lineament 4 Individual island arc terranes accreted to Laurentia during the Yavapai Orogeny include the Elves Chasm block in the Grand Canyon Green Mountain Dubois Cochetopa Irving Formation Moppin Gold Hill and Ash Creek Payson 6 The latter includes the Payson Ophiolite Quartzite rhyolite successions associated with extensional basins include the Vadito Group and Hondo Group in New Mexico and the Mazatzal Group in Arizona deposited during the transition from the Yavapai to the Mazatzal orogens at 1700 Mya The extensional basin in which the Mazatzal Group was deposited lasted about 30 Ma from the Payson Ophiolite at 1730 Mya to the Mazatzal Peak Quartzite sometime after 1700 Mya 16 A number of regional orogenies fall within the time span of the Yavapai orogeny and are regarded as parts of the overall orogenic system These include the Ivanpah orogeny 1710 1680 Mya in the New York Mountains area the Central Plains orogeny 17 in the mid continent the Medicine Bow orogeny at 1708 1750 Mya that produced the Cheyenne belt the Colorado province or Colorado orogeny at 1780 1700 Mya 6 See also EditList of orogenies Geology of Arizona Geology of New MexicoReferences Edit a b Mako Calvin A Williams Michael L Karlstrom Karl E Doe Michael F Powicki David Holland Mark E Gehrels George Pecha Mark December 2015 Polyphase Proterozoic deformation in the Four Peaks area central Arizona and relevance for the Mazatzal orogeny Geosphere 11 6 1975 1995 Bibcode 2015Geosp 11 1975M doi 10 1130 GES01196 1 a b Karlstrom Karl E Ahall Karl Inge Harlan Stephen S Williams Michael L McLelland James Geissman John W 1 October 2001 Long lived 1 8 1 0 Ga convergent orogen in southern Laurentia its extensions to Australia and Baltica and implications for refining Rodinia Precambrian Research 111 1 5 30 Bibcode 2001PreR 111 5K doi 10 1016 S0301 9268 01 00154 1 ISSN 0301 9268 Retrieved 19 April 2020 Karlstrom Karl E 1989 Early recumbent folding during Proterozoic orogeny in central Arizona Geological Society of America p 156 ISBN 9780813722351 a b Magnani M B Miller K C Levander A Karlstrom K 2004 The Yavapai Mazatzal boundary A long lived tectonic element in the lithosphere of southwestern North America Geological Society of America Bulletin 116 9 1137 Bibcode 2004GSAB 116 1137M doi 10 1130 B25414 1 Retrieved 19 April 2020 Jones James V III Daniel Christopher G Frei Dirk Thrane Kristine 2011 Revised regional correlations and tectonic implications of Paleoproterozoic and Mesoproterozoic metasedimentary rocks in northern New Mexico USA New findings from detrital zircon studies of the Hondo Group Vadito Group and Marquenas Formation Geosphere 7 4 974 991 doi 10 1130 GES00614 1 a b c d e Whitmeyer Steven Karlstrom Karl E 2007 Tectonic model for the Proterozoic growth of North America Geosphere 3 4 220 doi 10 1130 GES00055 1 Condie Kent C 1982 Plate tectonics model for Proterozoic continental accretion in the southwestern United States Geology 10 1 37 Bibcode 1982Geo 10 37C doi 10 1130 0091 7613 1982 10 lt 37 PMFPCA gt 2 0 CO 2 Daniel C G Pfeifer L S Jones J V McFarlane C M 23 July 2013 Detrital zircon evidence for non Laurentian provenance Mesoproterozoic ca 1490 1450 Ma deposition and orogenesis in a reconstructed orogenic belt northern New Mexico USA Defining the Picuris orogeny Geological Society of America Bulletin 125 9 10 1423 1441 Bibcode 2013GSAB 125 1423D doi 10 1130 B30804 1 Retrieved 19 April 2020 Graversen Ole Pedersen Svend 1999 Timing of Gothian structural evolution in SE Norway A Rb Sr whole rock age study PDF Norsk Geologisk Tidsskrift 79 47 56 47 56 doi 10 1080 002919699433906 Retrieved 15 September 2015 Kirkland C J and co authors 2011 On the edge U Pb Lu Hf and Sm Nd data suggests reworking of the Yilgarn craton margin during formation of the Albany Fraser Orogen Precambrian Research p 223 Pisarevsky S A and co authors 2003 Late Mesoproterozoic ca 1 2 Ga palaeomagnetism of the Albany Fraser orogen no pre Rodinia Australia Laurentia connection Geophysical Journal International p F6 Goodge J W Vervoort J D Fanning C M Brecke D M Farmer G L Williams I S Myrow P M DePaolo D J 11 July 2008 A Positive Test of East Antarctica Laurentia Juxtaposition Within the Rodinia Supercontinent Science 321 5886 235 240 Bibcode 2008Sci 321 235G doi 10 1126 science 1159189 PMID 18621666 S2CID 11799613 Retrieved 19 April 2020 a b KARLSTROM KARL E BOWRING SAMUEL A CONWAY CLAY M 1987 Tectonic significance of an Early Proterozoic two province boundary in central Arizona Geological Society of America Bulletin 99 4 529 Bibcode 1987GSAB 99 529K doi 10 1130 0016 7606 1987 99 lt 529 TSOAEP gt 2 0 CO 2 Grambling Tyler A Holland Mark Karlstom Karl E Gehrels George E Pecha Mark 2015 REVISED LOCATION FOR THE YAVAPAI MAZATZAL CRUSTAL PROVINCE BOUNDARY IN NEW MEXICO HF ISOTOPIC DATA FROM PROTEROZOIC ROCKS OF THE NACIMIENTO MOUNTAINS PDF New Mexico Geological Society Field Conference Series 66 175 184 Retrieved 19 April 2020 Daniel Christopher G Karlstrom Karl E Williams Michael L Pedrick Jane N 1995 The reconstruction of a middle Proterozoic orogenic belt in north central New Mexico U S A PDF New Mexico Geological Society Field Conference Series 46 193 Retrieved 19 April 2020 Cox Ronadh Martin Mark W Comstock Jana C Dickerson Laura S Ekstrom Ingrid L Sammons James H December 2002 Sedimentology stratigraphy and geochronology of the Proterozoic Mazatzal Group central Arizona Geological Society of America Bulletin 114 12 1535 1549 Bibcode 2002GSAB 114 1535C doi 10 1130 0016 7606 2002 114 lt 1535 SSAGOT gt 2 0 CO 2 Retrieved 19 April 2020 Sims P K Petermar Z E 1986 Early Proterozoic Central Plains orogen A major buried structure in the north central United States Geology 14 6 488 Bibcode 1986Geo 14 488S doi 10 1130 0091 7613 1986 14 lt 488 EPCPOA gt 2 0 CO 2 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