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Variscan orogeny

February 16, 2024

The Variscan or Hercynian orogeny was a geologic mountain-building event caused by Late Paleozoic continental collision between Euramerica (Laurussia) and Gondwana to form the supercontinent of Pangaea.

Location of the Hercynian-Alleghenian mountain belts in the middle of the Carboniferous period. Present day coastlines are indicated in grey for reference.[1]

Nomenclature edit

The name Variscan, comes from the Medieval Latin name for the district Variscia, the home of a Germanic tribe, the Varisci; Eduard Suess, professor of geology at the University of Vienna, coined the term in 1880. (Variscite, a rare green mineral first discovered in the Vogtland district of Saxony in Germany, which is in the Variscan belt, has the same etymology.)

Hercynian, on the other hand, derives from the Hercynian Forest. Both words were descriptive terms of strike directions observed by geologists in the field, variscan for southwest to northeast, hercynian for northwest to southeast. The variscan direction reflected the direction of ancient fold belts cropping out throughout Germany and adjacent countries and the meaning shifted from direction to the fold belt proper.

One of the pioneers in research on the Variscan fold belt was the German geologist Franz Kossmat, establishing a still valid division of the European Variscides in 1927.[2]

The other direction, Hercynian, for the direction of the Harz Mountains in Germany, saw a similar shift in meaning. Today, Hercynian is often used as a synonym for Variscan but is somewhat less used than the latter.[3] In the United States, it is used only for European orogenies; the contemporaneous and genetically linked mountain-building phases in the Appalachian Mountains have different names.[4][5]

The regional term Variscan underwent a further meaning shift since the 1960s. Geologists generally began to use it to characterize late Paleozoic fold-belts and orogenic phases having an age of approximately 380 to 280 Ma.

Some publications use the term Variscan for fold belts of even younger age,[6] deviating from the meaning as a term for the North American and European orogeny related to the Gondwana-Laurasia collision.

Distribution edit

 
Distribution of orogenies with similar ages to the Variscan orogeny (shaded)

The North American and European Variscan Belt includes the mountains of Portugal and Spain (Galicia, and Pyrenees), southwestern Ireland (i.e. Munster), Cornwall, Devon, Pembrokeshire, the Gower Peninsula and the Vale of Glamorgan. Its effects are present in France from Brittany, below the Paris Basin to the Ardennes, the Massif Central, the Vosges and Corsica.

The Variscan Belt reappears in Sardinia in Italy and in Germany where the Rhine Massif (Ardennes, Eifel, Hunsrück, Taunus and other regions on both sides of Middle Rhine Valley), the Black Forest and Harz Mountains remain as testimony. In southern Iberia it is marked by a classic strike-slip suture zone between very distinct suspect terranes, and clear evidence can be seen of ductile shearing between high-grade metamorphic rocks and lower grade sedimentary rocks in a wide belt north of the Algarve and extending into the northernmost part the autonomous region of Andalusia and southern Extremadura.[7][8]

In the Czech Republic and southwestern Poland the Bohemian Massif is the eastern end of the unmodified Variscan belt of crustal deformation in Europe. Further Variscan developments to the southeast are partly hidden and overprinted by the Alpine orogeny. In the Alps a Variscan core is built by Mercantour, Pelvoux, Belledonne, Montblanc and Aar Massif. Dinaric, Greek and Turkish mountain chains are the southeastern termination of the Variscan proper.[9]

The Variscan was contemporaneous with the Acadian and Alleghenian orogeny in the United States and Canada, responsible for forming the Ouachita and Appalachian Mountains. North American areas with Variscan foldbelts include New England, Nova Scotia and Newfoundland and Labrador. The Moroccan Meseta and the Anti-Atlas in northwestern Africa show close relations to the Appalachian Mountains and used to form the eastern part of the Appalachian orogeny before the opening of the Atlantic Ocean in Jurassic times.[10] 'Variscan' mountains in a broad chronological sense include the Urals, the Pamir, the Tian Shan and other Asian foldbelts.[11][12]

Formation edit

The Variscan orogeny involved a complicated heterogeneous assembly of different microplates and heterochronous collisions, making the exact reconstruction of the plate tectonic processes difficult. Plate convergence that caused the Caledonian orogeny in the Silurian continued to form the Variscan orogeny in the succeeding Devonian and Carboniferous Periods. Both orogenies resulted in the assembly of a super-continent, Pangaea, which was essentially complete by the end of the Carboniferous.

In the Ordovician Period, a land mass, which has been named Gondwana (present day South America, Africa, Antarctica, Arabia, the Indian subcontinent, Zealandia and Australia), straddled the space between the South Pole and the Equator on one side of the globe. Off to the west were three other masses: Laurentia, Siberia and Baltica, located as if on the vertices of a triangle. To the south of them was a large archipelago, the terrane Avalonia, rifted off the north Gondwana margin in early Ordovician.

By the end of the Silurian and in Early Devonian times, Baltica and Laurentia drifted towards each other, closing the Iapetus Ocean between them. They collided in the Caledonian orogeny and formed the Caledonide mountains of North America, Greenland, the British Isles and Norway. Seafloor spreading to the south of Avalonia pushed the latter into north Laurentia and thrust up the northern Appalachian Mountains in the acadian phase of the Caledonian orogeny. Contemporaneously the Tornquist Sea between Avalonia and Baltica was entirely closed. Thus Avalonia formed the southern coast of the new continent Euramerica (Laurussia, the Old Red Sandstone continent in present-day North America, the British Isles, northern Germany, Scandinavia and western Russia).

In late Devonian and in the Carboniferous the archipelago Armorica of southern Europe, which had rifted off Gondwana after Avalonia later in the Ordovician, was pushed into Avalonia, creating a second range, the North American/European Variscan, to the east of the Caledonide/Appalachian. The collision of Gondwana proper with Laurussia followed in the early Carboniferous, when the Variscan belt was already in place and actively developing.

By the end of the Carboniferous, Gondwana had united with Laurussia on its western end through northern South America and northwestern Africa. Siberia was approaching from the northeast, separated from Laurussia only by shallow waters. Collision with Siberia produced the Ural Mountains in the latest Paleozoic and completed the formation of Pangaea. Eastern Laurussia was still divided from Gondwana by the Paleotethys Ocean. In the Triassic Period of the Mesozoic Era, animals could move without oceanic impediment from Siberia over the North Pole to Antarctica over the South Pole. In the Mesozoic Era, rifting and subsequent opening of the Atlantic split Pangaea. As a consequence, the Variscan Belt around the then periphery of Baltica ended up many hundreds of miles from the Appalachians.

Notes edit

  1. ^ Based on Matte 2001 and Ziegler 1990
  2. ^ Kossmat, F. (1927). "Gliederung des varistischen Gebirgsbaus". Abh. Sächs. Geol. L.-A. Leipzig. 1: 1–39.
  3. ^ Google search on December 29, 2007: ca. 44.500 for Variscan orogeny, ca. 15.000 Hercynian orogeny. In German: 1.170 for "variszische Orogenese", 154 for "herzynische Orogenese".
  4. ^ Tectonics of the Devonian. Website of University of California Museum of Paleontology. Accessed on December 29, 2007.
  5. ^ . Historical Geology, University of North Texas.
  6. ^ Lee, K. Y. (1989). . USGS Bulletin 1871. Archived from the original on 2019-09-13. Retrieved 2017-09-17. Table 1, p. 3.{{cite journal}}: CS1 maint: postscript (link)
  7. ^ Martínez Catalán, José R. (2012-07-01). "The Central Iberian arc, an orocline centered in the Iberian Massif and some implications for the Variscan belt". International Journal of Earth Sciences. 101 (5): 1299–1314. Bibcode:2012IJEaS.101.1299M. doi:10.1007/s00531-011-0715-6. ISSN 1437-3262. S2CID 195334509.
  8. ^ Crespo-Blanc, Ana; Orozco, Miguel (1991-10-01). "The boundary between the Ossa-Morena and Southportuguese Zones (Southern Iberian Massif): Major suture in the European Hercynian Chain". Geologische Rundschau. 80 (3): 691–702. Bibcode:1991GeoRu..80..691C. doi:10.1007/BF01803695. ISSN 1432-1149. S2CID 128688878.
  9. ^ Tectonic Map of the western Tethysides 2008-04-23 at the Wayback Machine. Institute of Geology and Paleontology of the University of Lausanne, Switzerland. Accessed on December 29, 2007.
  10. ^ Burkhard, M.; Caritg, S.; Helg, U.; Robert-Charrue, C.; Soulaimani, A. (2006). "Tectonics of the anti-Atlas of Morocco" (PDF). Comptes Rendus Geoscience. 338 (1): 11–24. Bibcode:2006CRGeo.338...11B. doi:10.1016/j.crte.2005.11.012. Retrieved 1 November 2015.
  11. ^ Paleotethys. Paleogeographic reconstructions for the Devonian and Carboniferous 2011-06-08 at the Wayback Machine. Tethyan Plate Tectonic Working Group of the University of Lausanne, Switzerland. Accessed on December 29, 2007.
  12. ^ Paleogeographic configuration Lower Carboniferous. Paleomap Project by C.Scotese. Accessed on December 29, 2007.

Further reading edit

  • Matte, P. (2001). "The Variscan collage and orogeny (480 ±290 Ma) and the tectonic definition of the Armorica microplate: a review". Terra Nova. 13 (2): 122–128. Bibcode:2001TeNov..13..122M. doi:10.1046/j.1365-3121.2001.00327.x. S2CID 129727506.
  • Ziegler, P.A. (1990). Geological Atlas of Western and Central Europe (2 ed.). Shell Internationale Petroleum Maatschappij BV. ISBN 978-90-6644-125-5.
  • von Raumer, J.; Stampfli, G.M.; Borel, G.D.; Bussy, F. (2002). "The organisation of pre-Variscan basement areas at the north-Gondwanan margin" (PDF). International Journal of Earth Sciences. 91 (1): 35–52. Bibcode:2002IJEaS..91...35V. doi:10.1007/s005310100200. S2CID 131617311.
  • von Raumer, J.; Stampfli, G.M.; Bussy, F. (2003). "Gondwana-derived microcontinents - the constituents of the Variscan and Alpine collisional orogens". Tectonophysics. 365 (1–4): 7–22. Bibcode:2003Tectp.365....7V. CiteSeerX 10.1.1.430.1420. doi:10.1016/S0040-1951(03)00015-5.
  • Stampfli, GM; Borel, GD (2004). "The TRANSMED Transects in Space and Time: Constraints on the Paleotectonic Evolution of the Mediterranean Domain". In Cavazza W; Roure F; Spakman W; Stampfli GM; Ziegler P (eds.). The TRANSMED Atlas: the Mediterranean Region from Crust to Mantle. Springer Verlag. ISBN 978-3-540-22181-4.

External links edit

  • Christopher R. Scotese, Paleomap Project:
    • Early Devonian Map
    • Early Carboniferous Map
    • Late Carboniferous Map
    • Triassic Map
  • Ronald Blakey, Colorado Plateau Geosystems Inc: Europe in the Late Carboniferous 2015-09-22 at the Wayback Machine

February 16, 2024
variscan, orogeny, variscan, hercynian, orogeny, geologic, mountain, building, event, caused, late, paleozoic, continental, collision, between, euramerica, laurussia, gondwana, form, supercontinent, pangaea, location, hercynian, alleghenian, mountain, belts, m. The Variscan or Hercynian orogeny was a geologic mountain building event caused by Late Paleozoic continental collision between Euramerica Laurussia and Gondwana to form the supercontinent of Pangaea Location of the Hercynian Alleghenian mountain belts in the middle of the Carboniferous period Present day coastlines are indicated in grey for reference 1 Contents 1 Nomenclature 2 Distribution 3 Formation 4 Notes 5 Further reading 6 External linksNomenclature editThe name Variscan comes from the Medieval Latin name for the district Variscia the home of a Germanic tribe the Varisci Eduard Suess professor of geology at the University of Vienna coined the term in 1880 Variscite a rare green mineral first discovered in the Vogtland district of Saxony in Germany which is in the Variscan belt has the same etymology Hercynian on the other hand derives from the Hercynian Forest Both words were descriptive terms of strike directions observed by geologists in the field variscan for southwest to northeast hercynian for northwest to southeast The variscan direction reflected the direction of ancient fold belts cropping out throughout Germany and adjacent countries and the meaning shifted from direction to the fold belt proper One of the pioneers in research on the Variscan fold belt was the German geologist Franz Kossmat establishing a still valid division of the European Variscides in 1927 2 The other direction Hercynian for the direction of the Harz Mountains in Germany saw a similar shift in meaning Today Hercynian is often used as a synonym for Variscan but is somewhat less used than the latter 3 In the United States it is used only for European orogenies the contemporaneous and genetically linked mountain building phases in the Appalachian Mountains have different names 4 5 The regional term Variscan underwent a further meaning shift since the 1960s Geologists generally began to use it to characterize late Paleozoic fold belts and orogenic phases having an age of approximately 380 to 280 Ma Some publications use the term Variscan for fold belts of even younger age 6 deviating from the meaning as a term for the North American and European orogeny related to the Gondwana Laurasia collision Distribution edit nbsp Distribution of orogenies with similar ages to the Variscan orogeny shaded The North American and European Variscan Belt includes the mountains of Portugal and Spain Galicia and Pyrenees southwestern Ireland i e Munster Cornwall Devon Pembrokeshire the Gower Peninsula and the Vale of Glamorgan Its effects are present in France from Brittany below the Paris Basin to the Ardennes the Massif Central the Vosges and Corsica The Variscan Belt reappears in Sardinia in Italy and in Germany where the Rhine Massif Ardennes Eifel Hunsruck Taunus and other regions on both sides of Middle Rhine Valley the Black Forest and Harz Mountains remain as testimony In southern Iberia it is marked by a classic strike slip suture zone between very distinct suspect terranes and clear evidence can be seen of ductile shearing between high grade metamorphic rocks and lower grade sedimentary rocks in a wide belt north of the Algarve and extending into the northernmost part the autonomous region of Andalusia and southern Extremadura 7 8 In the Czech Republic and southwestern Poland the Bohemian Massif is the eastern end of the unmodified Variscan belt of crustal deformation in Europe Further Variscan developments to the southeast are partly hidden and overprinted by the Alpine orogeny In the Alps a Variscan core is built by Mercantour Pelvoux Belledonne Montblanc and Aar Massif Dinaric Greek and Turkish mountain chains are the southeastern termination of the Variscan proper 9 The Variscan was contemporaneous with the Acadian and Alleghenian orogeny in the United States and Canada responsible for forming the Ouachita and Appalachian Mountains North American areas with Variscan foldbelts include New England Nova Scotia and Newfoundland and Labrador The Moroccan Meseta and the Anti Atlas in northwestern Africa show close relations to the Appalachian Mountains and used to form the eastern part of the Appalachian orogeny before the opening of the Atlantic Ocean in Jurassic times 10 Variscan mountains in a broad chronological sense include the Urals the Pamir the Tian Shan and other Asian foldbelts 11 12 Formation editThe Variscan orogeny involved a complicated heterogeneous assembly of different microplates and heterochronous collisions making the exact reconstruction of the plate tectonic processes difficult Plate convergence that caused the Caledonian orogeny in the Silurian continued to form the Variscan orogeny in the succeeding Devonian and Carboniferous Periods Both orogenies resulted in the assembly of a super continent Pangaea which was essentially complete by the end of the Carboniferous In the Ordovician Period a land mass which has been named Gondwana present day South America Africa Antarctica Arabia the Indian subcontinent Zealandia and Australia straddled the space between the South Pole and the Equator on one side of the globe Off to the west were three other masses Laurentia Siberia and Baltica located as if on the vertices of a triangle To the south of them was a large archipelago the terrane Avalonia rifted off the north Gondwana margin in early Ordovician By the end of the Silurian and in Early Devonian times Baltica and Laurentia drifted towards each other closing the Iapetus Ocean between them They collided in the Caledonian orogeny and formed the Caledonide mountains of North America Greenland the British Isles and Norway Seafloor spreading to the south of Avalonia pushed the latter into north Laurentia and thrust up the northern Appalachian Mountains in the acadian phase of the Caledonian orogeny Contemporaneously the Tornquist Sea between Avalonia and Baltica was entirely closed Thus Avalonia formed the southern coast of the new continent Euramerica Laurussia the Old Red Sandstone continent in present day North America the British Isles northern Germany Scandinavia and western Russia In late Devonian and in the Carboniferous the archipelago Armorica of southern Europe which had rifted off Gondwana after Avalonia later in the Ordovician was pushed into Avalonia creating a second range the North American European Variscan to the east of the Caledonide Appalachian The collision of Gondwana proper with Laurussia followed in the early Carboniferous when the Variscan belt was already in place and actively developing By the end of the Carboniferous Gondwana had united with Laurussia on its western end through northern South America and northwestern Africa Siberia was approaching from the northeast separated from Laurussia only by shallow waters Collision with Siberia produced the Ural Mountains in the latest Paleozoic and completed the formation of Pangaea Eastern Laurussia was still divided from Gondwana by the Paleotethys Ocean In the Triassic Period of the Mesozoic Era animals could move without oceanic impediment from Siberia over the North Pole to Antarctica over the South Pole In the Mesozoic Era rifting and subsequent opening of the Atlantic split Pangaea As a consequence the Variscan Belt around the then periphery of Baltica ended up many hundreds of miles from the Appalachians Notes edit Based on Matte 2001 and Ziegler 1990 Kossmat F 1927 Gliederung des varistischen Gebirgsbaus Abh Sachs Geol L A Leipzig 1 1 39 Google search on December 29 2007 ca 44 500 for Variscan orogeny ca 15 000 Hercynian orogeny In German 1 170 for variszische Orogenese 154 for herzynische Orogenese Tectonics of the Devonian Website of University of California Museum of Paleontology Accessed on December 29 2007 The Hercynian Orogeny Historical Geology University of North Texas Lee K Y 1989 Geology of petroleum and coal deposits in the North China Basin Eastern China USGS Bulletin 1871 Archived from the original on 2019 09 13 Retrieved 2017 09 17 Table 1 p 3 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint postscript link Martinez Catalan Jose R 2012 07 01 The Central Iberian arc an orocline centered in the Iberian Massif and some implications for the Variscan belt International Journal of Earth Sciences 101 5 1299 1314 Bibcode 2012IJEaS 101 1299M doi 10 1007 s00531 011 0715 6 ISSN 1437 3262 S2CID 195334509 Crespo Blanc Ana Orozco Miguel 1991 10 01 The boundary between the Ossa Morena and Southportuguese Zones Southern Iberian Massif Major suture in the European Hercynian Chain Geologische Rundschau 80 3 691 702 Bibcode 1991GeoRu 80 691C doi 10 1007 BF01803695 ISSN 1432 1149 S2CID 128688878 Tectonic Map of the western Tethysides Archived 2008 04 23 at the Wayback Machine Institute of Geology and Paleontology of the University of Lausanne Switzerland Accessed on December 29 2007 Burkhard M Caritg S Helg U Robert Charrue C Soulaimani A 2006 Tectonics of the anti Atlas of Morocco PDF Comptes Rendus Geoscience 338 1 11 24 Bibcode 2006CRGeo 338 11B doi 10 1016 j crte 2005 11 012 Retrieved 1 November 2015 Paleotethys Paleogeographic reconstructions for the Devonian and Carboniferous Archived 2011 06 08 at the Wayback Machine Tethyan Plate Tectonic Working Group of the University of Lausanne Switzerland Accessed on December 29 2007 Paleogeographic configuration Lower Carboniferous Paleomap Project by C Scotese Accessed on December 29 2007 Further reading editMatte P 2001 The Variscan collage and orogeny 480 290 Ma and the tectonic definition of the Armorica microplate a review Terra Nova 13 2 122 128 Bibcode 2001TeNov 13 122M doi 10 1046 j 1365 3121 2001 00327 x S2CID 129727506 Ziegler P A 1990 Geological Atlas of Western and Central Europe 2 ed Shell Internationale Petroleum Maatschappij BV ISBN 978 90 6644 125 5 von Raumer J Stampfli G M Borel G D Bussy F 2002 The organisation of pre Variscan basement areas at the north Gondwanan margin PDF International Journal of Earth Sciences 91 1 35 52 Bibcode 2002IJEaS 91 35V doi 10 1007 s005310100200 S2CID 131617311 von Raumer J Stampfli G M Bussy F 2003 Gondwana derived microcontinents the constituents of the Variscan and Alpine collisional orogens Tectonophysics 365 1 4 7 22 Bibcode 2003Tectp 365 7V CiteSeerX 10 1 1 430 1420 doi 10 1016 S0040 1951 03 00015 5 Stampfli GM Borel GD 2004 The TRANSMED Transects in Space and Time Constraints on the Paleotectonic Evolution of the Mediterranean Domain In Cavazza W Roure F Spakman W Stampfli GM Ziegler P eds The TRANSMED Atlas the Mediterranean Region from Crust to Mantle Springer Verlag ISBN 978 3 540 22181 4 External links editChristopher R Scotese Paleomap Project Early Devonian Map Early Carboniferous Map Late Carboniferous Map Triassic Map Ronald Blakey Colorado Plateau Geosystems Inc Europe in the Late Carboniferous Archived 2015 09 22 at the Wayback Machine Retrieved from https en wikipedia org w index php title Variscan orogeny amp oldid 1189327941, wikipedia, wiki, book, books, 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