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Geology of North America

October 22, 2023

Further information: North America

The geology of North America is a subject of regional geology and covers the North American continent, the third-largest in the world. Geologic units and processes are investigated on a large scale to reach a synthesized picture of the geological development of the continent.

USGS Geologic Map of North America (High resolution, click to zoom)
Relief map showing the varying age of bedrock underlying North America. (Click to zoom) See legend below
This is the legend for the North American geological map above.
Geologic map of North America

The divisions of regional geology are drawn in different ways, but are usually outlined by a common geologic history, geographic vicinity or political boundaries. The regional geology of North America usually encompasses the geographic regions of Alaska, Canada, Greenland, the continental United States, Mexico, Central America, and the Caribbean.[1] The parts of the North American Plate that are not occupied by North American countries are usually not discussed as part of the regional geology. The regions that are not geographically North American but reside on the North American Plate include parts of Siberia (see the Geology of Russia),[2] and Iceland, and Bermuda. A discussion of North American geology can also include other continental plates including the Cocos and Juan de Fuca plates being subducted beneath western North America. A portion of the Pacific Plate underlies Baja California and part of California west of the San Andreas Fault.

North American Craton Edit

Main article: Laurentia

The stable core of the continent is the North American Craton. Much of it was also the core of an earlier supercontinent, Laurentia.[3] The part of the craton where the basement rock is exposed is called the Canadian Shield. Surrounding this is a stable platform where the basement is covered by sediment; and surrounding that are a series of orogenic zones.

Canadian Shield Edit

Main article: Canadian Shield
 
On a map showing only metamorphic rocks, the Canadian Shield forms a circular pattern north of the Great Lakes around Hudson Bay.

The Canadian Shield is a large area of Archean through Proterozoic igneous and metamorphic rocks in eastern Canada and north central and northeastern United States.

The earliest part of the shield is metamorphosed Archean rocks, originally volcanic in origin. Numerous terranes were accreted onto this Archean core during the Proterozoic to form the Canadian Shield.[4] The southern Archean province is the Superior Craton, it is formed by the combination of a greenstone-granite and a gneiss terrane.[5] The margins of the Canadian Shield have been covered by sedimentary rocks, such as in Michigan where a series of sediments has filled in the Michigan Basin.[4] The exposed sections are often where glaciers have removed this overlying regolith to reveal the underlying glacially scarred crystalline rock.[6]

Stable platform Edit

Main article: Laurentia
 
The North American craton

The stable platform is an area in which the North American Craton forms a basement and is covered by sediment. This area now forms much of the Interior Plains and the slope of the Appalachians below the mountains proper.[7] This area has been covered by a shallow inland sea, which became the site of deposition for most of the overlying sedimentary rock.[citation needed] The sea receded as the continent rose becoming covered by stream, lake, and wind deposits.[8] Orogenies in the surrounding provinces have had little effect on the craton, making it an epeirogenic region,[9] and, as such, the stable platform is mostly a crystalline basement, covered by sedimentary rocks, interrupted only by occasional domes, such as the Cincinnati Arch, Wisconsin Dome, and Ozark Dome.[7]

Midcontinent rift system Edit

One billion years ago, the Midcontinent Rift System began to extend along a 2,000 kilometres (1,200 mi) path,[10] across both the Canadian Shield and the Stable Platform. The rift failed, then crustal movement reversed. A range formed then eroded, forming basins on either side of a horst. These rocks have been buried beneath sediment in many areas, but are exposed in some areas, especially around Lake Superior.[11]

Grenville Orogen Edit

The Grenville Orogen developed during the Proterozoic along eastern and southern margin of the North American Craton.[12][13] The largest outcrop of Grenville age rocks is an approximately 400 kilometres (250 mi) wide band southeast of the Grenville Front which stretches from the central Labrador coast southwest across southern Quebec and southeastern Ontario to Georgian Bay on Lake Huron. The southeastern boundary of this area is approximately the St. Lawrence River. Rocks of the Grenville outcrop in the Adirondack Mountains of northern New York and throughout the Appalachians.[13] The Llano Uplift of central Texas and the Franklin and Hueco Mountains of west Texas have been correlated with the Grenville as have occurrences in Mexico.[13]

Appalachian Orogen Edit

Main article: Geology of the Appalachians
 
Map of Appalachian geological provinces

The fold and thrust belt of the Appalachians is continuously exposed for 2,000 kilometres (1,200 mi) from Pennsylvania to Alabama.[7] In the south, it extends under the coastal plain, but is covered by Mesozoic sediments.[14] North of this fold and thrust belt, the Acadian Orogen of the middle Devonian is an area where deformation has exposed granite plutons.[15] The center of the range is a pair of provinces running north and south parallel to each other, the eastern Blue Ridge Province and the western Valley and Ridge provinces. These are surrounded by the Appalachian Plateau on the west, and the Piedmont Province to the east.[16] Faulting extends throughout the region and is caused by numerous spatially and temporally varied sources.[17]

Inliers of Late Mesoproterozoic age are present on the west of the core of the Appalachians, and these inliers are associated with the Grenville orogeny.[18] During the Proterozoic terranes were accreted onto the province.[19] During the Taconic orogeny 445 to 435 million years ago, accretion continued, an island arc collided with the North American continent, and mountains were raised. These mountains slowly eroded and deposited sediment into the Catskill delta, stretching from New York to Pennsylvania.[20]

Piedmont Edit

Main article: Geology of the Piedmont

The eastern portion of the orogen is made up of the Piedmont plateau, a 150 to 300 metres (490 to 980 ft) elevation area composed of Paleozoic marine and volcanic sediments deformed into crystalline metamorphic rocks and intruded by granite domes.[21]

During the Proterozoic a series of terranes were accreted onto the North American craton, forming the Piedmont of the central Appalachians.[22] Following the Grenville orogeny, mountains eroded, and the sediments from this erosion were deposited below the mountains.[23] The bedrock of the plateau formed about 470 million years ago during the Taconic orogeny, when a volcanic island arc collided with the ancestral North American Continent.[24]

Passive Margin Edit

As the Atlantic Ocean opened the Atlantic Coast turned from an active margin into a passive one. Terranes were no longer accreted onto the margin; instead, sediment eroded off the Appalachians began to be deposited on the coast, forming a coastal plain and continental shelf.[23] During the Jurassic and Triassic, marine and other sediment was deposited to form the Atlantic coastline.[25] The sediment has formed a clastic wedge making up most of the coastal plain and continental shelf.[23]

The passive margin of the Gulf of Mexico is a series of sedimentary deposits from upland areas surrounding the margin. The environment of deposition for these sediments has changed, varying spatially and temporally. When the ocean level was high shallow marine deposits occurred; when they were low fluvial and deltaic deposits form the majority of mass.[26] From the Triassic until the early Jurassic, faulting localized as extension faulting and wrench faulting. As the basement subsided, sediment accumulated, during the Mesozoic and Cenozoic, forming the modern wedge, containing salt basins.[27]

The passive margin in eastern Mexico is made up of a series of basins. These basins are mostly igneous or metamorphic rocks covered by sediments,[28] except in the Burgos Basin, where Cenozoic volcanism has occurred.[29] Much of the sediment is from erosion of the thrust belts west of the margin.[30]

The Yucatan Platform is a Cretaceous to Oligocene carbonate platform. Uplift started in the Oligocene and lasted till the Pleistocene. Today the platform is exposed and under the influence of karstification.[31]

North American Cordillera Edit

 
On a map showing only volcanic rocks, the west coast of North America shows a striking continuous north–south structure, the American Cordillera.

The North American Cordillera extends up and down the coast of North America and roughly from the Great Plains westward to the Pacific Ocean, narrowing somewhat from north to south. It includes the Cascades, Sierra Nevada, and Basin and Range province; the Rocky Mountains are sometimes excluded from the cordillera proper, in spite of their tectonic history. The geology of Alaska is typical of that of the cordillera.

A rupture in Rodinia 750 million years ago formed a passive margin in the eastern Pacific Northwest. The breakup of Pangea 200 million years ago began the westward movement of the North American plate, creating an active margin on the western continent. As the continent drifted West, accretion of various terranes onto the west coast occurred.[32] As these accretions occurred, crustal shortening accompanied them during the Sevier orogeny and during the Mesozoic into the early Cenozoic, and was accompanied by faulting.[33] During the Cenozoic, crustal extension began accompanied by magmatism that came to characterize much of the area.[34]

Rocky Mountains Edit

Main article: Geology of the Rocky Mountains

The Rocky Mountains were formed by a series of events, the last of which is the Laramide Orogeny.[35] One of the outstanding features of the Rocky Mountains is the distance of the range from a subducting plate; this has led to the theory that the Laramide Orogeny took place when the Farallon plate subducted at a low angle, causing uplift far from the margin under which the plate subducted.[36]

The lithology of the Rocky Mountains in western Canada includes a thin-skinned fold and thrust belt involving Neoproterozoic through Mississippian series of carbonates, shales, argillites and sandstones.[37]

The Colorado Plateau is a stable region dating back at least 600 million years. As a relative lowland, it had been a site of deposition for sediments eroded from surrounding mountain regions.[38] Then, during the Laramide Orogeny, the entire plateau was uplifted until about six million years ago. Erosion during and following the uplift removed sediment from the plateau. This load removal resulted in isostatic uplift and a second passive rise for the plateau.[39]

Intermontane Province Edit

Main article: Geology of the Basin and Range Province
 
Cedar Breaks National Monument, Utah.

Between the Rocky Mountains and the coast ranges is an area dominated by extensional forces. The extension of this region has occurred both regionally and locally in events beginning in the Jurassic; however, most extension was localized until the mid Miocene. These local events occurred in the Jurassic, late Cretaceous, and one spanning from the Eocene until the Oligocene. Regional extension occurred during the middle of the Miocene from around 20 million years ago until 10 million years ago.[40]

The Basin and Range Province is a series of linear block fault mountains with adjacent sediment-filled downfaulted valleys, having been caused by crustal extension around 17 million years ago. The valley floors are made up of thick sediment deposits which have eroded off the mountains and filled the valleys, so that the region is a regular series of ridges spaced out by flat sediment valleys.[41]

Coast Edit

Main article: Geology of the Pacific Coast Ranges

On the West coast of North America, the coast ranges and the coastal plain form the margin, which is partially bounded by the San Andreas Fault, a transform boundary of the Pacific Plate. Most of the land is made of terranes that have been accreted onto the margin. In the north, the insular belt is an accreted terrane, forming the margin. This belt extends from the Wrangellia Terrane in Alaska to the Chilliwack group of Canada.[32]

The timing of the accretion of the insular belt is uncertain, although the closure did not occur until at least 115 million years ago.[32] Other Mesozoic terranes that accreted onto the continent include the Klamath Mountains, the Sierra Nevada, and the Guerrero super-terrane of western Mexico.[42] 80 to 90 million years ago the subducting Farallon plate split and formed the Kula Plate to the North.[32] Many of the major batholiths date from the late Cretaceous.[42] As the Laramide Orogeny ended around 48 million years ago, the accretion of the Siletzia terrane began in the Pacific Northwest. This began the volcanic activity in the Cascadia subduction zone, forming the modern Cascade Range, and lasted into the Miocene. As extension in the Basin and Range Province slowed by a change in North American Plate movement circa 7 to 8 Million years ago, rifting began on the Gulf of California.[43]

Southern Cordillera Edit

The Sierra Madre mountain ranges of Mexico are separated by the Mexican Plateau, and transected by the Trans-Mexican Volcanic Belt. The Southern extent of the American Cordillera makes up Western Mexico and northern Central America.[44] This includes the Sierra Madre Occidental, the Sierra Madre del Sur, and the Trans-Mexican Volcanic Belt.

The Cordillera ends in the south in a belt of miogeoclines, including the Sierra Madre Oriental fold and thrust belt, the Mesa Central, and parts of the Sierra Madre del Sur. This belt also extends into Guatemala and Honduras in Central America.[44]

See also Edit

References Edit

  1. ^ Dengo, Gabriel; Case, James E., eds. (1990). The Caribbean Region. Decade of North American Geology, Volume H (2nd ed.). Boulder: Geological Society of America. ISBN 9780813752129.
  2. ^ Khain, Victor E. (1985). Geology of the USSR. Berlin: Gebr. Borntraeger. ISBN 978-3-443-11017-8.
  3. ^ Stanley, Steven M. (2005). Earth system history (2nd ed.). New York: Freeman. pp. 290–292. ISBN 9780716739074.
  4. ^ a b "The Precambrian Era". Michigan State University. Retrieved 10 Mar 2013.
  5. ^ (PDF). USA-USSR-Canada Joint Seminar. Minnesota Geological Survey. 21–23 August 1990. Archived from the original (PDF) on 2013-12-03. Retrieved 10 Mar 2013.
  6. ^ Larson, Phillip (2008). (PDF) (Ph.D.). University of Minnesota. Archived from the original (PDF) on 2013-12-03.
  7. ^ a b c Hamblin, W. Kenneth; Christiansen, Eric (2009). "23". Earth's Dynamic Systems (Web Edition 1.0 ed.). Retrieved 1 Mar 2013.
  8. ^ Trimble, Donald (1980). . Geological Survey Bulletin 1493. Archived from the original on 2013-03-20. Retrieved 11 Mar 2013.
  9. ^ DiPietro, Joseph (2012). Landscape Evolution in the United States. Elsevier. ISBN 9780123978066. Retrieved 15 Mar 2013.
  10. ^ Bornhorst; Woodruff; Nicholson. "Stratigraphy, Structure, and Ore Deposits of the Southern Limb of the Midcontinent Rift System". Retrieved 14 April 2013.
  11. ^ Anderson, Raymond (1997). . Iowa Department of Natural Resources. Archived from the original on 1999-04-17. Retrieved 5 Mar 2013.
  12. ^ "The Grenville".
  13. ^ a b c Tollo, Richard P., et al., Proterozoic Tectonic Evolution of the Grenville Orogen in North America, Geological Society of America, 2004 ISBN 0813711975
  14. ^ Thomas, William (1973). "Southwestern Appalachian Structural System Beneath the Gulf Coastal Plain" (PDF). American Journal of Science. 273: 372–390. Retrieved 5 Mar 2013.
  15. ^ Dewey; Kidd (November 1974), "Continental Collisions in the Appalachian-Caledonian Orogenic Belt" (PDF), Geology, 2 (11): 543–546, doi:10.1130/0091-7613(1974)2<543:ccitao>2.0.co;2, retrieved 5 Mar 2013
  16. ^ Robert D. Leighty (August 31, 2001), "5.1.2 Valley and Ridge Physiographic Province", Automated IFSAR Terrain Analysis System (Final Report), US Army Aviation and Missile Command, archived from the original on June 26, 2013, retrieved May 9, 2013
  17. ^ Hatcher, Robert; Odom; Engelder, Terry; Dunn; Wise; Geiser; Schamel, Steven; Kish (February 1988). "Characterization of Appalachian Faults" (PDF). Geology. 16 (2): 178–181. doi:10.1130/0091-7613(1988)016<0178:coaf>2.3.co;2. Retrieved 14 April 2013.
  18. ^ Tollo, Richard; Corriveau, Louise; McLelland, James; Bartolomew, Mervin (2004), Proterozoic tectonic evolution of the Grenville orogen in North America, ISBN 9780813711973, retrieved 8 Mar 2013
  19. ^ Levin, Vadim; Park, Jeffrey; Brandon, Mark; Menke, William (2000). "Thinning of the upper mantle during late Paleozoic Appalachian orogenesis". Geology. 28 (3): 239–242. doi:10.1130/0091-7613(2000)28<239:totumd>2.0.co;2. Retrieved 8 Mar 2013.
  20. ^ Tagg, John P. . Archived from the original on 19 September 2014. Retrieved 5 May 2013.
  21. ^ Aber, James (2001). . Archived from the original on 18 May 2013. Retrieved 5 Mar 2013.
  22. ^ Drake, Avery; Brezinski, David; Wintsch, Robert; Kunk, Michael; Aleinkoff, John; Naeser (2006). (PDF). Geological Society of America. Archived from the original (PDF) on 2013-02-18. Retrieved 10 Mar 2013.
  23. ^ a b c Stoffer, Phil; Messina, Paula (1996). "The Atlantic Coastal Plain". Retrieved 10 Mar 2013.
  24. ^ Geology of the Southern Appalachian Mountains (Map). USGS. Retrieved 5 Mar 2013.
  25. ^ Hanner, Charlie; Davis, Susan; Brewer, James (2006). (PDF). USDA Resources Conservation Service. Archived from the original (PDF) on 2012-10-21. Retrieved 10 Mar 2013.
  26. ^ Grubb, Hayes; Carillo, J. Joel. (1988). "Chapter 26: Region 23, Gulf of Mexico Coastal Plain". In Back, William; Rosenshein, Joseph; Seaber, Paul (eds.). The Geology of North America. The Geological Society of America. pp. 219–228. Retrieved 28 Feb 2013.
  27. ^ Mancini, Ernest; Obid, Jamal; Badali, Marcello; Liu, Kaiyu; Parcell, William (December 2008). . AAPG Bulletin. 92 (12): 1655–1686. doi:10.1306/08130808046. Archived from the original on 21 April 2014. Retrieved 28 Feb 2013.
  28. ^ . 2012. Archived from the original on 4 March 2016. Retrieved 27 Jan 2013.
  29. ^ Cruz, Guillermo (1993). Geological evolution of the Burgos Basin, northeastern Mexico (Thesis). hdl:1911/16657.
  30. ^ Hickman, Robert; Cuervo, Arturo; Valdivieso, Victor; Caraveo, Carlos; Rivera, Sergio; Espinoza, Miguel; Cuevas, Marie; Ghosh, Santosh; Kroener, Robert; Marrullier, Carl (Oct 2002). "Geology and Exploration Potential of the Veracruz Basin". Houston Geological Society Bulletin. 45 (2): 15, 17.
  31. ^ "A Condensed Geological Chronicle of the Yucatan Platform". Retrieved 17 January 2013.
  32. ^ a b c d Townsend, Catherine; Figge, John (2002). "Northwest Origins". The Burke Museum.
  33. ^ Bendick, Rebecca; Baldwin, Julia (2009). (PDF). Tectonophysics. 477 (1–2): 93–101. doi:10.1016/j.tecto.2009.03.017. Archived from the original (PDF) on 26 November 2013. Retrieved 19 April 2013.
  34. ^ Liu, Mian (2001). (PDF). Tectonophysics. 342 (3–4): 407–433. doi:10.1016/s0040-1951(01)00173-1. Archived from the original (PDF) on 3 March 2016. Retrieved 19 April 2013.
  35. ^ English, Joseph; Johnston, Stephen; Wang, Kelin. (PDF). Archived from the original (PDF) on 2013-12-03. Retrieved 2013-03-01. {{cite journal}}: Cite journal requires |journal= (help)
  36. ^ Bunge, Hans-Peter; Grand, Stephen (18 May 2000). "Mesozoic plate-motion history below the Pacific Ocean from seismic images of the subducted Farallon slab". Nature. 405 (6784): 337–340. doi:10.1038/35012586. PMID 10830960. S2CID 4405770.
  37. ^ McMechan, Margot; Macey, Elizabeth. (PDF). GeoConvention 2012:Vision. Archived from the original (PDF) on 6 June 2014. Retrieved 15 May 2013.
  38. ^ Foos, Annabelle. "Geology of the Colorado Plateau" (PDF). Retrieved 5 March 2013.
  39. ^ Hanson, Erik (2009). "The Grand Canyon". Canyons. Infobase Publishing. ISBN 978-0816064359.
  40. ^ Gans, Phillip; Miller, Elizabeth (1993). "Extension of the Basin and Range Province". Retrieved 15 Mar 2013.
  41. ^ . US Department of the Interior. 13 Jan 2004. Archived from the original on 25 January 2009. Retrieved 15 Mar 2013.
  42. ^ a b Dickinson, William (2004). (PDF). Annual Review of Earth and Planetary Sciences. 32 (1): 13–45. doi:10.1146/annurev.earth.32.101802.120257. Archived from the original (PDF) on 4 January 2014. Retrieved 9 April 2013.
  43. ^ Humphreys, Eugene (2009). "Relation of flat subduction to magmatism and deformation in the Western United States". GSA. {{cite journal}}: Cite journal requires |journal= (help)
  44. ^ a b King, Philip (1969). The Tectonics of North America (PDF). USGS Professional Paper 628. p. 49.

Further reading Edit

  • Bally, Albert W. (1989). Allison R. Palmer (ed.). The geology of North America: An Overview. Boulder, Colo.: Geological Society of America. p. 629. ISBN 978-0813752075.
  • Clark, Thomas H.; Colin W. Stearn (1968). Geological Evolution of North America (2nd ed.). Ronald Press. ISBN 978-0826020154.
  • King, Philip B. (1977). The evolution of North America (Revised ed.). Princeton, N.J.: Princeton University Press. ISBN 978-0691023595.
  • McPhee, John A. (1998). Annals of the Former World (first ed.). New York, New York: Farrar, Straus, and Giroux. ISBN 0-374-10520-0.
  • Petersen, Morris S.; J. Keith Rigby; Lehi F. Hintze (1980). Historical geology of North America (2d. ed.). Dubuque, Iowa: W. C. Brown Co. ISBN 978-0697050625.

October 22, 2023
geology, north, america, further, information, north, america, geology, north, america, subject, regional, geology, covers, north, american, continent, third, largest, world, geologic, units, processes, investigated, large, scale, reach, synthesized, picture, . Further information North America The geology of North America is a subject of regional geology and covers the North American continent the third largest in the world Geologic units and processes are investigated on a large scale to reach a synthesized picture of the geological development of the continent USGS Geologic Map of North America High resolution click to zoom Relief map showing the varying age of bedrock underlying North America Click to zoom See legend belowThis is the legend for the North American geological map above Geologic map of North AmericaThe divisions of regional geology are drawn in different ways but are usually outlined by a common geologic history geographic vicinity or political boundaries The regional geology of North America usually encompasses the geographic regions of Alaska Canada Greenland the continental United States Mexico Central America and the Caribbean 1 The parts of the North American Plate that are not occupied by North American countries are usually not discussed as part of the regional geology The regions that are not geographically North American but reside on the North American Plate include parts of Siberia see the Geology of Russia 2 and Iceland and Bermuda A discussion of North American geology can also include other continental plates including the Cocos and Juan de Fuca plates being subducted beneath western North America A portion of the Pacific Plate underlies Baja California and part of California west of the San Andreas Fault Contents 1 North American Craton 1 1 Canadian Shield 1 2 Stable platform 1 3 Midcontinent rift system 1 4 Grenville Orogen 1 5 Appalachian Orogen 1 5 1 Piedmont 2 Passive Margin 3 North American Cordillera 3 1 Rocky Mountains 3 2 Intermontane Province 3 3 Coast 3 4 Southern Cordillera 4 See also 5 References 6 Further readingNorth American Craton EditMain article Laurentia The stable core of the continent is the North American Craton Much of it was also the core of an earlier supercontinent Laurentia 3 The part of the craton where the basement rock is exposed is called the Canadian Shield Surrounding this is a stable platform where the basement is covered by sediment and surrounding that are a series of orogenic zones Canadian Shield Edit Main article Canadian Shield nbsp On a map showing only metamorphic rocks the Canadian Shield forms a circular pattern north of the Great Lakes around Hudson Bay The Canadian Shield is a large area of Archean through Proterozoic igneous and metamorphic rocks in eastern Canada and north central and northeastern United States The earliest part of the shield is metamorphosed Archean rocks originally volcanic in origin Numerous terranes were accreted onto this Archean core during the Proterozoic to form the Canadian Shield 4 The southern Archean province is the Superior Craton it is formed by the combination of a greenstone granite and a gneiss terrane 5 The margins of the Canadian Shield have been covered by sedimentary rocks such as in Michigan where a series of sediments has filled in the Michigan Basin 4 The exposed sections are often where glaciers have removed this overlying regolith to reveal the underlying glacially scarred crystalline rock 6 Stable platform Edit Main article Laurentia nbsp The North American cratonThe stable platform is an area in which the North American Craton forms a basement and is covered by sediment This area now forms much of the Interior Plains and the slope of the Appalachians below the mountains proper 7 This area has been covered by a shallow inland sea which became the site of deposition for most of the overlying sedimentary rock citation needed The sea receded as the continent rose becoming covered by stream lake and wind deposits 8 Orogenies in the surrounding provinces have had little effect on the craton making it an epeirogenic region 9 and as such the stable platform is mostly a crystalline basement covered by sedimentary rocks interrupted only by occasional domes such as the Cincinnati Arch Wisconsin Dome and Ozark Dome 7 Midcontinent rift system Edit One billion years ago the Midcontinent Rift System began to extend along a 2 000 kilometres 1 200 mi path 10 across both the Canadian Shield and the Stable Platform The rift failed then crustal movement reversed A range formed then eroded forming basins on either side of a horst These rocks have been buried beneath sediment in many areas but are exposed in some areas especially around Lake Superior 11 Grenville Orogen Edit The Grenville Orogen developed during the Proterozoic along eastern and southern margin of the North American Craton 12 13 The largest outcrop of Grenville age rocks is an approximately 400 kilometres 250 mi wide band southeast of the Grenville Front which stretches from the central Labrador coast southwest across southern Quebec and southeastern Ontario to Georgian Bay on Lake Huron The southeastern boundary of this area is approximately the St Lawrence River Rocks of the Grenville outcrop in the Adirondack Mountains of northern New York and throughout the Appalachians 13 The Llano Uplift of central Texas and the Franklin and Hueco Mountains of west Texas have been correlated with the Grenville as have occurrences in Mexico 13 Appalachian Orogen Edit Main article Geology of the Appalachians nbsp Map of Appalachian geological provincesThe fold and thrust belt of the Appalachians is continuously exposed for 2 000 kilometres 1 200 mi from Pennsylvania to Alabama 7 In the south it extends under the coastal plain but is covered by Mesozoic sediments 14 North of this fold and thrust belt the Acadian Orogen of the middle Devonian is an area where deformation has exposed granite plutons 15 The center of the range is a pair of provinces running north and south parallel to each other the eastern Blue Ridge Province and the western Valley and Ridge provinces These are surrounded by the Appalachian Plateau on the west and the Piedmont Province to the east 16 Faulting extends throughout the region and is caused by numerous spatially and temporally varied sources 17 Inliers of Late Mesoproterozoic age are present on the west of the core of the Appalachians and these inliers are associated with the Grenville orogeny 18 During the Proterozoic terranes were accreted onto the province 19 During the Taconic orogeny 445 to 435 million years ago accretion continued an island arc collided with the North American continent and mountains were raised These mountains slowly eroded and deposited sediment into the Catskill delta stretching from New York to Pennsylvania 20 Piedmont Edit Main article Geology of the Piedmont The eastern portion of the orogen is made up of the Piedmont plateau a 150 to 300 metres 490 to 980 ft elevation area composed of Paleozoic marine and volcanic sediments deformed into crystalline metamorphic rocks and intruded by granite domes 21 During the Proterozoic a series of terranes were accreted onto the North American craton forming the Piedmont of the central Appalachians 22 Following the Grenville orogeny mountains eroded and the sediments from this erosion were deposited below the mountains 23 The bedrock of the plateau formed about 470 million years ago during the Taconic orogeny when a volcanic island arc collided with the ancestral North American Continent 24 Passive Margin EditAs the Atlantic Ocean opened the Atlantic Coast turned from an active margin into a passive one Terranes were no longer accreted onto the margin instead sediment eroded off the Appalachians began to be deposited on the coast forming a coastal plain and continental shelf 23 During the Jurassic and Triassic marine and other sediment was deposited to form the Atlantic coastline 25 The sediment has formed a clastic wedge making up most of the coastal plain and continental shelf 23 The passive margin of the Gulf of Mexico is a series of sedimentary deposits from upland areas surrounding the margin The environment of deposition for these sediments has changed varying spatially and temporally When the ocean level was high shallow marine deposits occurred when they were low fluvial and deltaic deposits form the majority of mass 26 From the Triassic until the early Jurassic faulting localized as extension faulting and wrench faulting As the basement subsided sediment accumulated during the Mesozoic and Cenozoic forming the modern wedge containing salt basins 27 The passive margin in eastern Mexico is made up of a series of basins These basins are mostly igneous or metamorphic rocks covered by sediments 28 except in the Burgos Basin where Cenozoic volcanism has occurred 29 Much of the sediment is from erosion of the thrust belts west of the margin 30 The Yucatan Platform is a Cretaceous to Oligocene carbonate platform Uplift started in the Oligocene and lasted till the Pleistocene Today the platform is exposed and under the influence of karstification 31 North American Cordillera Edit nbsp On a map showing only volcanic rocks the west coast of North America shows a striking continuous north south structure the American Cordillera The North American Cordillera extends up and down the coast of North America and roughly from the Great Plains westward to the Pacific Ocean narrowing somewhat from north to south It includes the Cascades Sierra Nevada and Basin and Range province the Rocky Mountains are sometimes excluded from the cordillera proper in spite of their tectonic history The geology of Alaska is typical of that of the cordillera A rupture in Rodinia 750 million years ago formed a passive margin in the eastern Pacific Northwest The breakup of Pangea 200 million years ago began the westward movement of the North American plate creating an active margin on the western continent As the continent drifted West accretion of various terranes onto the west coast occurred 32 As these accretions occurred crustal shortening accompanied them during the Sevier orogeny and during the Mesozoic into the early Cenozoic and was accompanied by faulting 33 During the Cenozoic crustal extension began accompanied by magmatism that came to characterize much of the area 34 Rocky Mountains Edit Main article Geology of the Rocky Mountains The Rocky Mountains were formed by a series of events the last of which is the Laramide Orogeny 35 One of the outstanding features of the Rocky Mountains is the distance of the range from a subducting plate this has led to the theory that the Laramide Orogeny took place when the Farallon plate subducted at a low angle causing uplift far from the margin under which the plate subducted 36 The lithology of the Rocky Mountains in western Canada includes a thin skinned fold and thrust belt involving Neoproterozoic through Mississippian series of carbonates shales argillites and sandstones 37 The Colorado Plateau is a stable region dating back at least 600 million years As a relative lowland it had been a site of deposition for sediments eroded from surrounding mountain regions 38 Then during the Laramide Orogeny the entire plateau was uplifted until about six million years ago Erosion during and following the uplift removed sediment from the plateau This load removal resulted in isostatic uplift and a second passive rise for the plateau 39 Intermontane Province Edit Main article Geology of the Basin and Range Province nbsp Cedar Breaks National Monument Utah Between the Rocky Mountains and the coast ranges is an area dominated by extensional forces The extension of this region has occurred both regionally and locally in events beginning in the Jurassic however most extension was localized until the mid Miocene These local events occurred in the Jurassic late Cretaceous and one spanning from the Eocene until the Oligocene Regional extension occurred during the middle of the Miocene from around 20 million years ago until 10 million years ago 40 The Basin and Range Province is a series of linear block fault mountains with adjacent sediment filled downfaulted valleys having been caused by crustal extension around 17 million years ago The valley floors are made up of thick sediment deposits which have eroded off the mountains and filled the valleys so that the region is a regular series of ridges spaced out by flat sediment valleys 41 Coast Edit Main article Geology of the Pacific Coast Ranges On the West coast of North America the coast ranges and the coastal plain form the margin which is partially bounded by the San Andreas Fault a transform boundary of the Pacific Plate Most of the land is made of terranes that have been accreted onto the margin In the north the insular belt is an accreted terrane forming the margin This belt extends from the Wrangellia Terrane in Alaska to the Chilliwack group of Canada 32 The timing of the accretion of the insular belt is uncertain although the closure did not occur until at least 115 million years ago 32 Other Mesozoic terranes that accreted onto the continent include the Klamath Mountains the Sierra Nevada and the Guerrero super terrane of western Mexico 42 80 to 90 million years ago the subducting Farallon plate split and formed the Kula Plate to the North 32 Many of the major batholiths date from the late Cretaceous 42 As the Laramide Orogeny ended around 48 million years ago the accretion of the Siletzia terrane began in the Pacific Northwest This began the volcanic activity in the Cascadia subduction zone forming the modern Cascade Range and lasted into the Miocene As extension in the Basin and Range Province slowed by a change in North American Plate movement circa 7 to 8 Million years ago rifting began on the Gulf of California 43 Southern Cordillera Edit The Sierra Madre mountain ranges of Mexico are separated by the Mexican Plateau and transected by the Trans Mexican Volcanic Belt The Southern extent of the American Cordillera makes up Western Mexico and northern Central America 44 This includes the Sierra Madre Occidental the Sierra Madre del Sur and the Trans Mexican Volcanic Belt The Cordillera ends in the south in a belt of miogeoclines including the Sierra Madre Oriental fold and thrust belt the Mesa Central and parts of the Sierra Madre del Sur This belt also extends into Guatemala and Honduras in Central America 44 See also EditGeology of North America Geology of Canada Geology of the Caribbean Geology of Jamaica Geology of Puerto Rico Geology of Central America Geology of Belize Geology of Greenland Geology of the Lucayan Archipelago Geology of Mexico Geology of the United States Geography of North America List of mountain peaks of North AmericaReferences Edit Dengo Gabriel Case James E eds 1990 The Caribbean Region Decade of North American Geology Volume H 2nd ed Boulder Geological Society of America ISBN 9780813752129 Khain Victor E 1985 Geology of the USSR Berlin Gebr Borntraeger ISBN 978 3 443 11017 8 Stanley Steven M 2005 Earth system history 2nd ed New York Freeman pp 290 292 ISBN 9780716739074 a b The Precambrian Era Michigan State University Retrieved 10 Mar 2013 Precambrian Geology of the Southern Canadian Shield and the Eastern Baltic Shield PDF USA USSR Canada Joint Seminar Minnesota Geological Survey 21 23 August 1990 Archived from the original PDF on 2013 12 03 Retrieved 10 Mar 2013 Larson Phillip 2008 Quantification of Glacial Sediment Erosion Entrainment and Transport Processes and Their Implications for the Dynamic History of the Laurentide Ice Sheet PDF Ph D University of Minnesota Archived from the original PDF on 2013 12 03 a b c Hamblin W Kenneth Christiansen Eric 2009 23 Earth s Dynamic Systems Web Edition 1 0 ed Retrieved 1 Mar 2013 Trimble Donald 1980 The Geologic Story of the Great Plains Geological Survey Bulletin 1493 Archived from the original on 2013 03 20 Retrieved 11 Mar 2013 DiPietro Joseph 2012 Landscape Evolution in the United States Elsevier ISBN 9780123978066 Retrieved 15 Mar 2013 Bornhorst Woodruff Nicholson Stratigraphy Structure and Ore Deposits of the Southern Limb of the Midcontinent Rift System Retrieved 14 April 2013 Anderson Raymond 1997 The Midcontinent Rift Iowa s Almost Ocean Iowa Department of Natural Resources Archived from the original on 1999 04 17 Retrieved 5 Mar 2013 The Grenville a b c Tollo Richard P et al Proterozoic Tectonic Evolution of the Grenville Orogen in North America Geological Society of America 2004 ISBN 0813711975 Thomas William 1973 Southwestern Appalachian Structural System Beneath the Gulf Coastal Plain PDF American Journal of Science 273 372 390 Retrieved 5 Mar 2013 Dewey Kidd November 1974 Continental Collisions in the Appalachian Caledonian Orogenic Belt PDF Geology 2 11 543 546 doi 10 1130 0091 7613 1974 2 lt 543 ccitao gt 2 0 co 2 retrieved 5 Mar 2013 Robert D Leighty August 31 2001 5 1 2 Valley and Ridge Physiographic Province Automated IFSAR Terrain Analysis System Final Report US Army Aviation and Missile Command archived from the original on June 26 2013 retrieved May 9 2013 Hatcher Robert Odom Engelder Terry Dunn Wise Geiser Schamel Steven Kish February 1988 Characterization of Appalachian Faults PDF Geology 16 2 178 181 doi 10 1130 0091 7613 1988 016 lt 0178 coaf gt 2 3 co 2 Retrieved 14 April 2013 Tollo Richard Corriveau Louise McLelland James Bartolomew Mervin 2004 Proterozoic tectonic evolution of the Grenville orogen in North America ISBN 9780813711973 retrieved 8 Mar 2013 Levin Vadim Park Jeffrey Brandon Mark Menke William 2000 Thinning of the upper mantle during late Paleozoic Appalachian orogenesis Geology 28 3 239 242 doi 10 1130 0091 7613 2000 28 lt 239 totumd gt 2 0 co 2 Retrieved 8 Mar 2013 Tagg John P Building the Appalachian Mountains Archived from the original on 19 September 2014 Retrieved 5 May 2013 Aber James 2001 Appalachian Mountains Archived from the original on 18 May 2013 Retrieved 5 Mar 2013 Drake Avery Brezinski David Wintsch Robert Kunk Michael Aleinkoff John Naeser 2006 Central Appalachian Piedmont and Blue Ridge tectonic transect Potomac River corridor PDF Geological Society of America Archived from the original PDF on 2013 02 18 Retrieved 10 Mar 2013 a b c Stoffer Phil Messina Paula 1996 The Atlantic Coastal Plain Retrieved 10 Mar 2013 Geology of the Southern Appalachian Mountains Map USGS Retrieved 5 Mar 2013 Hanner Charlie Davis Susan Brewer James 2006 Central Appalachian Piedmont and Blue Ridge tectonic transect Potomac River corridor PDF USDA Resources Conservation Service Archived from the original PDF on 2012 10 21 Retrieved 10 Mar 2013 Grubb Hayes Carillo J Joel 1988 Chapter 26 Region 23 Gulf of Mexico Coastal Plain In Back William Rosenshein Joseph Seaber Paul eds The Geology of North America The Geological Society of America pp 219 228 Retrieved 28 Feb 2013 Mancini Ernest Obid Jamal Badali Marcello Liu Kaiyu Parcell William December 2008 Sequence stratigraphic analysis of Jurassic and Cretaceous strata and petroleum exploration in the central and eastern Gulf coastal plain United States AAPG Bulletin 92 12 1655 1686 doi 10 1306 08130808046 Archived from the original on 21 April 2014 Retrieved 28 Feb 2013 Humapa 2012 Archived from the original on 4 March 2016 Retrieved 27 Jan 2013 Cruz Guillermo 1993 Geological evolution of the Burgos Basin northeastern Mexico Thesis hdl 1911 16657 Hickman Robert Cuervo Arturo Valdivieso Victor Caraveo Carlos Rivera Sergio Espinoza Miguel Cuevas Marie Ghosh Santosh Kroener Robert Marrullier Carl Oct 2002 Geology and Exploration Potential of the Veracruz Basin Houston Geological Society Bulletin 45 2 15 17 A Condensed Geological Chronicle of the Yucatan Platform Retrieved 17 January 2013 a b c d Townsend Catherine Figge John 2002 Northwest Origins The Burke Museum Bendick Rebecca Baldwin Julia 2009 Dynamic models for metamorphic core complex formation and scaling PDF Tectonophysics 477 1 2 93 101 doi 10 1016 j tecto 2009 03 017 Archived from the original PDF on 26 November 2013 Retrieved 19 April 2013 Liu Mian 2001 Cenozoic extension and magmatism in the North American Cordillera PDF Tectonophysics 342 3 4 407 433 doi 10 1016 s0040 1951 01 00173 1 Archived from the original PDF on 3 March 2016 Retrieved 19 April 2013 English Joseph Johnston Stephen Wang Kelin Thermal modelling of the Laramide orogeny PDF Archived from the original PDF on 2013 12 03 Retrieved 2013 03 01 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Bunge Hans Peter Grand Stephen 18 May 2000 Mesozoic plate motion history below the Pacific Ocean from seismic images of the subducted Farallon slab Nature 405 6784 337 340 doi 10 1038 35012586 PMID 10830960 S2CID 4405770 McMechan Margot Macey Elizabeth Geology of the Rocky Mountains west of Calgary Alberta in the Kananaskis west half map area PDF GeoConvention 2012 Vision Archived from the original PDF on 6 June 2014 Retrieved 15 May 2013 Foos Annabelle Geology of the Colorado Plateau PDF Retrieved 5 March 2013 Hanson Erik 2009 The Grand Canyon Canyons Infobase Publishing ISBN 978 0816064359 Gans Phillip Miller Elizabeth 1993 Extension of the Basin and Range Province Retrieved 15 Mar 2013 Geologic Provinces of the United States Basin and Range Province US Department of the Interior 13 Jan 2004 Archived from the original on 25 January 2009 Retrieved 15 Mar 2013 a b Dickinson William 2004 Evolution of the North American Cordillera PDF Annual Review of Earth and Planetary Sciences 32 1 13 45 doi 10 1146 annurev earth 32 101802 120257 Archived from the original PDF on 4 January 2014 Retrieved 9 April 2013 Humphreys Eugene 2009 Relation of flat subduction to magmatism and deformation in the Western United States GSA a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help a b King Philip 1969 The Tectonics of North America PDF USGS Professional Paper 628 p 49 Further reading EditBally Albert W 1989 Allison R Palmer ed The geology of North America An Overview Boulder Colo Geological Society of America p 629 ISBN 978 0813752075 Clark Thomas H Colin W Stearn 1968 Geological Evolution of North America 2nd ed Ronald Press ISBN 978 0826020154 King Philip B 1977 The evolution of North America Revised ed Princeton N J Princeton University Press ISBN 978 0691023595 McPhee John A 1998 Annals of the Former World first ed New York New York Farrar Straus and Giroux ISBN 0 374 10520 0 Petersen Morris S J Keith Rigby Lehi F Hintze 1980 Historical geology of North America 2d ed Dubuque Iowa W C Brown Co ISBN 978 0697050625 Portals nbsp Geology nbsp North America nbsp Caribbean nbsp Belize nbsp Canada nbsp Costa Rica nbsp Cuba nbsp El Salvador nbsp Guatemala nbsp Jamaica nbsp Mexico nbsp Nicaragua nbsp Panama nbsp Puerto Rico nbsp Trinidad and Tobago nbsp United States Retrieved from https en wikipedia org w index php title Geology of North America amp oldid 1167446022, wikipedia, wiki, book, books, library,

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