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Cisuralian

December 02, 2023

The Cisuralian is the first series/epoch of the Permian. The Cisuralian was preceded by the Pennsylvanian and followed by the Guadalupian. The Cisuralian Epoch is named after the western slopes of the Ural Mountains in Russia and Kazakhstan and dates between 298.9 ± 0.15 – 272.3 ± 0.5 Ma.[4]

Cisuralian
298.9 ± 0.15 – 273.01 ± 0.14 Ma
The world at the start of the Cisuralian
Chronology
Etymology
Name formalityFormal
Synonym(s)Early/Lower Permian
Usage information
Celestial bodyEarth
Regional usageGlobal (ICS)
Time scale(s) usedICS Time Scale
Definition
Chronological unitEpoch
Stratigraphic unitSeries
Time span formalityFormal
Lower boundary definitionFAD of the conodont Streptognathodus isolatus within the morphotype Streptognathodus wabaunsensis chronocline
Lower boundary GSSPAidaralash, Ural Mountains, Kazakhstan
50°14′45″N 57°53′29″E / 50.2458°N 57.8914°E / 50.2458; 57.8914
Lower GSSP ratified1996[2]
Upper boundary definitionFAD of the Conodont Jinogondolella nanginkensis
Upper boundary GSSPStratotype Canyon, Guadalupe Mountains, Texas, United States
31°52′36″N 104°52′36″W / 31.8767°N 104.8768°W / 31.8767; -104.8768
Upper GSSP ratified2001[3]

In the regional stratigraphy of southwestern North America, the Cisuralian encompasses two series: the Wolfcampian (Asselian to mid-Artinskian) and Leonardian (mid-Artinskian to Kungurian).[5][6][7]

The series saw the appearance of beetles and flies and was a relatively stable warming period of about 21 million years.

Name and background edit

The Cisuralian is the first series or epoch of the Permian.[8] The Cisuralian was preceded by the last Pennsylvanian epoch (Gzhelian) and is followed by the Permian Guadalupian Epoch.

The name "Cisuralian" was proposed in 1982,[9] and approved by the International Subcommission on Permian Stratigraphy in 1996.[10] The Cisuralian Epoch is named after the western slopes of the Ural Mountains in Russia and Kazakhstan.[11][12][13]

Limestones on the edge of Russian Platform and make up the Ishimbay oil fields. These oil fields were vital to the Soviet Union during WW2 when the Germans controlled the oil fields to the west.[11]

The International Chronostratigraphic Chart (v2018/07)[8] provides a numerical age of 298.9 ± 0.15 – 272.3 ± 0.5 Ma.[14]

The base of the Cisuralian series and the Permian system is defined as the place in the stratigraphic record where fossils of the conodont Streptognathodus isolatus first appear. The global reference profile for the base (the GSSP or golden spike) is located in the valley of the Aidaralash River, near Aqtöbe in the Ural Mountains of Kazakhstan.[15]

Geography edit

Gondwana collided with Laurussia and created the Alleghenian orogeny in present-day North America.[11] In northwestern Europe, the Hercynian orogeny continued.[11] This created the large supercontinent, Pangea, by the middle of the early Permian, which was to have an impact on the climate.[11]

Climate edit

At the start of the Permian, the Late Palaeozoic Ice Age, which began in the Carboniferous, was at its peak. Glaciers receded over the course of the late Cisuralian as the Earth's climate gradually warmed,[16] particularly during the Artinskian Warming Event,[17] drying the continent's interiors.[18][19][20] The pan-tropical belt of Pangaea experienced particularly significant aridification during this epoch.[21][22][23]

Biodiversity edit

The swampy fringes were mostly ferns, seed ferns, and lycophytes. The series saw the appearance of beetles and flies.[11]

The coal swamps from the Carboniferous continued and the herbivores, Diadectes and Edaphosaurus.[12] The dry interior with small insectivores. Caseids and prototherapsid Tetraceratops made their appearance.[12] The marine life was probable more diverse than modern times as the climate warmed.[11] Unusual sharks such as Helicoprion continued in this series.

Early Permian terrestrial faunas were dominated by pelycosaurs, diadectids, and amphibians,[24][25] The pelycosaurs appeared during the Late Carboniferous, and reached their apex in the Cisuralian remaining the dominant land animals for some 40 million years.[12][26] A few continued into the Capitanian. They were succeeded by the therapsids.[12]

  •  

    Dimetrodon, a pelycosaur, was at the top of the food chain in the Cisuralian

  •  

    Helicoprion bessonovi with characteristic 'tooth-whorl' at front of jaw

Subdivisions edit

Global edit

  • Asselian stage (298.9 ± 0.15 – 294.6 ± 0.8 Ma)
  • Sakmarian stage (294.6 ± 0.8 – 290.1 ± 0.7 Ma)
  • Artinskian stage (290.1 ± 0.7 – 283.5 ± 0.7 Ma)
  • Kungurian stage (283.5 ± 0.7 – 272.3 ± 0.5 Ma)

Regional edit

  • New Zealand
    • Telfordian (289 – 278 Ma)
    • Mangapirian (278 – 270.6 Ma)

References edit

  1. ^ "Chart/Time Scale". www.stratigraphy.org. International Commission on Stratigraphy.
  2. ^ Davydov, Vladimir; Glenister, Brian; Spinosa, Claude; Ritter, Scott; Chernykh, V.; Wardlaw, B.; Snyder, W. (March 1998). "Proposal of Aidaralash as Global Stratotype Section and Point (GSSP) for base of the Permian System" (PDF). Episodes. 21: 11–18. doi:10.18814/epiiugs/1998/v21i1/003. Retrieved 7 December 2020.
  3. ^ "GSSP for Roadian Stage". International Commission on Stratigraphy. Retrieved 13 December 2020.
  4. ^ Gradstein, Felix M.; Ogg, James G.; Smith, Alan G. (2004). A Geologic Time Scale 2004. Cambridge University Press. ISBN 9780521786737.
  5. ^ Ross, C. A.; Ross, June R. P. (1995). "Permian Sequence Stratigraphy". The Permian of Northern Pangea. pp. 98–123. doi:10.1007/978-3-642-78593-1_7. ISBN 978-3-642-78595-5.
  6. ^ "Permian: Stratigraphy". UC Museum of Paleontology. University of California Berkeley. Retrieved 17 June 2021.
  7. ^ Henderson, C.M.; Shen, S.Z.; Gradstein, F.M.; Agterberg, F.P. (2020), "The Permian Period", Geologic Time Scale 2020, Elsevier, pp. 875–902, doi:10.1016/b978-0-12-824360-2.00024-3, ISBN 978-0-12-824360-2, retrieved 2023-09-12
  8. ^ a b International Commission on Stratigraphy. "Chart". Retrieved 10 July 2018.
  9. ^ Gradstein, Felix M.; Ogg, James G.; Smith, Alan G. (2004). A geologic time scale 2004. Cambridge University Press. p. 250. ISBN 978-0-521-78673-7.
  10. ^ Ganelin, V.G.; Goman'kov, A.V.; Grunt, T.A.; Durante, M.V. (January 1997). "On the revised stratigraphic scale for the Permian System adopted at the Second Guadalupian Symposium, alpine, Texas, USA, April 1996". Stratigraphy and Geological Correlation. 5 (2): 126–130.
  11. ^ a b c d e f g Ross, June R.P.; Ross, Charles A. (16 October 2018). "Permian Period". Encyclopædia Britannica. Retrieved 18 April 2019.
  12. ^ a b c d e Kazlev, M. Alan (4 May 2002). "The Cisuralian Epoch". palaeos.com. Retrieved 18 April 2019.
  13. ^ Allaby, Michael (2015). A Dictionary of Geology and Earth Sciences (4th ed.). Oxford University Press. doi:10.1093/acref/9780199653065.001.0001. ISBN 9780199653065.
  14. ^ International Commission on Stratigraphy. "GSSPs". Retrieved 10 July 2018.
  15. ^ Davydov, V.I.; Glenister, B.F.; Spinosa, C.; Ritter, S.M.; Chernykh, V.V.; Wardlaw, B.R. and Snyder, W.S.; 1998: Proposal of Aidaralash as Global Stratotype Section and Point (GSSP) for base of the Permian System, Episodes 21(1): pp 11–18.
  16. ^ Scotese, Christopher R.; Song, Haijun; Mills, Benjamin J. W.; van der Meer, Douwe G. (April 2021). . Earth-Science Reviews. 215: 103503. Bibcode:2021ESRv..21503503S. doi:10.1016/j.earscirev.2021.103503. ISSN 0012-8252. S2CID 233579194. Archived from the original on 8 January 2021. Retrieved 18 March 2023.
  17. ^ Marchetti, Lorenzo; Forte, Giuseppa; Kustatscher, Evelyn; DiMichele, William A.; Lucas, Spencer G.; Roghi, Guido; Juncal, Manuel A.; Hartkopf-Fröder, Christoph; Krainer, Karl; Morelli, Corrado; Ronchi, Ausonio (March 2022). "The Artinskian Warming Event: an Euramerican change in climate and the terrestrial biota during the early Permian". Earth-Science Reviews. 226: 103922. Bibcode:2022ESRv..22603922M. doi:10.1016/j.earscirev.2022.103922. S2CID 245892961. Retrieved 30 October 2022.
  18. ^ Michel, Lauren A.; Tabor, Neil J.; Montañez, Isabel P.; Schmitz, Mark D.; Davydov, Vladimir (15 July 2015). "Chronostratigraphy and Paleoclimatology of the Lodève Basin, France: Evidence for a pan-tropical aridification event across the Carboniferous–Permian boundary". Palaeogeography, Palaeoclimatology, Palaeoecology. 430: 118–131. Bibcode:2015PPP...430..118M. doi:10.1016/j.palaeo.2015.03.020.
  19. ^ Palaeos: Life Through Deep Time > The Permian Period 2013-06-29 at the Wayback Machine Accessed 1 April 2013.
  20. ^ Grossman, Ethan L.; Yancey, Thomas E.; Jones, Thomas E.; Bruckschen, Peter; Chuvashov, Boris; Mazzullo, S. J.; Mii, Horng-sheng (24 October 2008). "Glaciation, aridification, and carbon sequestration in the Permo-Carboniferous: The isotopic record from low latitudes". Palaeogeography, Palaeoclimatology, Palaeoecology. 286 (3–4): 222–233. Bibcode:2008PPP...268..222G. doi:10.1016/j.palaeo.2008.03.053. Retrieved 30 October 2022.
  21. ^ Forte, Giuseppa; Kustatscher, Evelyn; Roghi, Guido; Preto, Nereo (15 April 2018). "The Permian (Kungurian, Cisuralian) palaeoenvironment and palaeoclimate of the Tregiovo Basin, Italy: Palaeobotanical, palynological and geochemical investigations". Palaeogeography, Palaeoclimatology, Palaeoecology. 495: 186–204. Bibcode:2018PPP...495..186F. doi:10.1016/j.palaeo.2018.01.012. Retrieved 22 December 2022.
  22. ^ Mujal, Eudald; Fortuny, Josep; Marmi, Josep; Dinarès-Turell, Jaume; Bolet, Arnau; Oms, Oriol (January 2018). "Aridification across the Carboniferous–Permian transition in central equatorial Pangea: The Catalan Pyrenean succession (NE Iberian Peninsula)". Sedimentary Geology. 363: 48–68. Bibcode:2018SedG..363...48M. doi:10.1016/j.sedgeo.2017.11.005. S2CID 133713470. Retrieved 22 December 2022.
  23. ^ Matamales-Andreu, Rafal; Mujal, Eudald; Dinarès-Turell, Jaume; Kustatcher, Evelyn; Roghi, Guido; Oms, Oriol; Galobart, Àngel; Fortuny, Josep (May 2022). "Early–middle Permian ecosystems of equatorial Pangaea: Integrated multi-stratigraphic and palaeontological review of the Permian of Mallorca (Balearic Islands, western Mediterranean)". Earth-Science Reviews. 228: 103948. Bibcode:2022ESRv..22803948M. doi:10.1016/j.earscirev.2022.103948. S2CID 246438404. Retrieved 3 January 2023.
  24. ^ Huttenlocker, A. K., and E. Rega. 2012. The Paleobiology and Bone Microstructure of Pelycosaurian-grade Synapsids. Pp. 90–119 in A. Chinsamy (ed.) Forerunners of Mammals: Radiation, Histology, Biology. Indiana University Press.
  25. ^ "NAPC Abstracts, Sto – Tw". berkeley.edu.
  26. ^ Brocklehurst, Neil; Kammerer, Christian F.; Fröbisch, Jörg (23 June 2013). "The early evolution of synapsids, and the influence of sampling on their fossil record". Paleobiology. 39 (3): 470–490. Bibcode:2013Pbio...39..470B. doi:10.1666/12049. S2CID 83738138. Retrieved 2 April 2023.

December 02, 2023
cisuralian, first, series, epoch, permian, preceded, pennsylvanian, followed, guadalupian, epoch, named, after, western, slopes, ural, mountains, russia, kazakhstan, dates, between, preꞒ, nthe, world, start, chronology, paleozoicmzcpermiantrpennsylvanianguadal. The Cisuralian is the first series epoch of the Permian The Cisuralian was preceded by the Pennsylvanian and followed by the Guadalupian The Cisuralian Epoch is named after the western slopes of the Ural Mountains in Russia and Kazakhstan and dates between 298 9 0 15 272 3 0 5 Ma 4 Cisuralian298 9 0 15 273 01 0 14 Ma PreꞒ Ꞓ O S D C P T J K Pg NThe world at the start of the CisuralianChronology 300 295 290 285 280 275 270 265 260 255 250 PaleozoicMzCPermianTrPennsylvanianCisuralianGuadalupLopinEarly TriassicAsselianSakmarianArtinskianKungurianRoadianWordianCapitanianWuchiapingianChanghsingian Permian Triassic mass extinction event end Capitanian extinction event Olson s ExtinctionSubdivision of the Permian according to the ICS as of 2022 1 Vertical axis scale millions of years ago EtymologyName formalityFormalSynonym s Early Lower PermianUsage informationCelestial bodyEarthRegional usageGlobal ICS Time scale s usedICS Time ScaleDefinitionChronological unitEpochStratigraphic unitSeriesTime span formalityFormalLower boundary definitionFAD of the conodont Streptognathodus isolatus within the morphotype Streptognathodus wabaunsensis chronoclineLower boundary GSSPAidaralash Ural Mountains Kazakhstan50 14 45 N 57 53 29 E 50 2458 N 57 8914 E 50 2458 57 8914Lower GSSP ratified1996 2 Upper boundary definitionFAD of the Conodont Jinogondolella nanginkensisUpper boundary GSSPStratotype Canyon Guadalupe Mountains Texas United States31 52 36 N 104 52 36 W 31 8767 N 104 8768 W 31 8767 104 8768Upper GSSP ratified2001 3 In the regional stratigraphy of southwestern North America the Cisuralian encompasses two series the Wolfcampian Asselian to mid Artinskian and Leonardian mid Artinskian to Kungurian 5 6 7 The series saw the appearance of beetles and flies and was a relatively stable warming period of about 21 million years Contents 1 Name and background 2 Geography 3 Climate 4 Biodiversity 5 Subdivisions 5 1 Global 5 2 Regional 6 ReferencesName and background editThe Cisuralian is the first series or epoch of the Permian 8 The Cisuralian was preceded by the last Pennsylvanian epoch Gzhelian and is followed by the Permian Guadalupian Epoch The name Cisuralian was proposed in 1982 9 and approved by the International Subcommission on Permian Stratigraphy in 1996 10 The Cisuralian Epoch is named after the western slopes of the Ural Mountains in Russia and Kazakhstan 11 12 13 Limestones on the edge of Russian Platform and make up the Ishimbay oil fields These oil fields were vital to the Soviet Union during WW2 when the Germans controlled the oil fields to the west 11 The International Chronostratigraphic Chart v2018 07 8 provides a numerical age of 298 9 0 15 272 3 0 5 Ma 14 The base of the Cisuralian series and the Permian system is defined as the place in the stratigraphic record where fossils of the conodont Streptognathodus isolatus first appear The global reference profile for the base the GSSP or golden spike is located in the valley of the Aidaralash River near Aqtobe in the Ural Mountains of Kazakhstan 15 Geography editGondwana collided with Laurussia and created the Alleghenian orogeny in present day North America 11 In northwestern Europe the Hercynian orogeny continued 11 This created the large supercontinent Pangea by the middle of the early Permian which was to have an impact on the climate 11 Climate editAt the start of the Permian the Late Palaeozoic Ice Age which began in the Carboniferous was at its peak Glaciers receded over the course of the late Cisuralian as the Earth s climate gradually warmed 16 particularly during the Artinskian Warming Event 17 drying the continent s interiors 18 19 20 The pan tropical belt of Pangaea experienced particularly significant aridification during this epoch 21 22 23 Biodiversity editThe swampy fringes were mostly ferns seed ferns and lycophytes The series saw the appearance of beetles and flies 11 The coal swamps from the Carboniferous continued and the herbivores Diadectesand Edaphosaurus 12 The dry interior with small insectivores Caseids and prototherapsidTetraceratops made their appearance 12 The marine life was probable more diverse than modern times as the climate warmed 11 Unusual sharks such as Helicoprion continued in this series Early Permian terrestrial faunas were dominated by pelycosaurs diadectids and amphibians 24 25 The pelycosaurs appeared during the Late Carboniferous and reached their apex in the Cisuralian remaining the dominant land animals for some 40 million years 12 26 A few continued into the Capitanian They were succeeded by the therapsids 12 nbsp Dimetrodon a pelycosaur was at the top of the food chain in the Cisuralian nbsp Helicoprion bessonovi with characteristic tooth whorl at front of jawSubdivisions editGlobal edit Asselian stage 298 9 0 15 294 6 0 8 Ma Sakmarian stage 294 6 0 8 290 1 0 7 Ma Artinskian stage 290 1 0 7 283 5 0 7 Ma Kungurian stage 283 5 0 7 272 3 0 5 Ma Regional edit New Zealand Telfordian 289 278 Ma Mangapirian 278 270 6 Ma References edit Chart Time Scale www stratigraphy org International Commission on Stratigraphy Davydov Vladimir Glenister Brian Spinosa Claude Ritter Scott Chernykh V Wardlaw B Snyder W March 1998 Proposal of Aidaralash as Global Stratotype Section and Point GSSP for base of the Permian System PDF Episodes 21 11 18 doi 10 18814 epiiugs 1998 v21i1 003 Retrieved 7 December 2020 GSSP for Roadian Stage International Commission on Stratigraphy Retrieved 13 December 2020 Gradstein Felix M Ogg James G Smith Alan G 2004 A Geologic Time Scale 2004 Cambridge University Press ISBN 9780521786737 Ross C A Ross June R P 1995 Permian Sequence Stratigraphy The Permian of Northern Pangea pp 98 123 doi 10 1007 978 3 642 78593 1 7 ISBN 978 3 642 78595 5 Permian Stratigraphy UC Museum of Paleontology University of California Berkeley Retrieved 17 June 2021 Henderson C M Shen S Z Gradstein F M Agterberg F P 2020 The Permian Period Geologic Time Scale 2020 Elsevier pp 875 902 doi 10 1016 b978 0 12 824360 2 00024 3 ISBN 978 0 12 824360 2 retrieved 2023 09 12 a b International Commission on Stratigraphy Chart Retrieved 10 July 2018 Gradstein Felix M Ogg James G Smith Alan G 2004 A geologic time scale 2004 Cambridge University Press p 250 ISBN 978 0 521 78673 7 Ganelin V G Goman kov A V Grunt T A Durante M V January 1997 On the revised stratigraphic scale for the Permian System adopted at the Second Guadalupian Symposium alpine Texas USA April 1996 Stratigraphy and Geological Correlation 5 2 126 130 a b c d e f g Ross June R P Ross Charles A 16 October 2018 Permian Period Encyclopaedia Britannica Retrieved 18 April 2019 a b c d e Kazlev M Alan 4 May 2002 The Cisuralian Epoch palaeos com Retrieved 18 April 2019 Allaby Michael 2015 A Dictionary of Geology and Earth Sciences 4th ed Oxford University Press doi 10 1093 acref 9780199653065 001 0001 ISBN 9780199653065 International Commission on Stratigraphy GSSPs Retrieved 10 July 2018 Davydov V I Glenister B F Spinosa C Ritter S M Chernykh V V Wardlaw B R and Snyder W S 1998 Proposal of Aidaralash as Global Stratotype Section and Point GSSP for base of the Permian System Episodes 21 1 pp 11 18 Scotese Christopher R Song Haijun Mills Benjamin J W van der Meer Douwe G April 2021 Phanerozoic paleotemperatures The earth s changing climate during the last 540 million years Earth Science Reviews 215 103503 Bibcode 2021ESRv 21503503S doi 10 1016 j earscirev 2021 103503 ISSN 0012 8252 S2CID 233579194 Archived from the original on 8 January 2021 Retrieved 18 March 2023 Marchetti Lorenzo Forte Giuseppa Kustatscher Evelyn DiMichele William A Lucas Spencer G Roghi Guido Juncal Manuel A Hartkopf Froder Christoph Krainer Karl Morelli Corrado Ronchi Ausonio March 2022 The Artinskian Warming Event an Euramerican change in climate and the terrestrial biota during the early Permian Earth Science Reviews 226 103922 Bibcode 2022ESRv 22603922M doi 10 1016 j earscirev 2022 103922 S2CID 245892961 Retrieved 30 October 2022 Michel Lauren A Tabor Neil J Montanez Isabel P Schmitz Mark D Davydov Vladimir 15 July 2015 Chronostratigraphy and Paleoclimatology of the Lodeve Basin France Evidence for a pan tropical aridification event across the Carboniferous Permian boundary Palaeogeography Palaeoclimatology Palaeoecology 430 118 131 Bibcode 2015PPP 430 118M doi 10 1016 j palaeo 2015 03 020 Palaeos Life Through Deep Time gt The Permian Period Archived 2013 06 29 at the Wayback Machine Accessed 1 April 2013 Grossman Ethan L Yancey Thomas E Jones Thomas E Bruckschen Peter Chuvashov Boris Mazzullo S J Mii Horng sheng 24 October 2008 Glaciation aridification and carbon sequestration in the Permo Carboniferous The isotopic record from low latitudes Palaeogeography Palaeoclimatology Palaeoecology 286 3 4 222 233 Bibcode 2008PPP 268 222G doi 10 1016 j palaeo 2008 03 053 Retrieved 30 October 2022 Forte Giuseppa Kustatscher Evelyn Roghi Guido Preto Nereo 15 April 2018 The Permian Kungurian Cisuralian palaeoenvironment and palaeoclimate of the Tregiovo Basin Italy Palaeobotanical palynological and geochemical investigations Palaeogeography Palaeoclimatology Palaeoecology 495 186 204 Bibcode 2018PPP 495 186F doi 10 1016 j palaeo 2018 01 012 Retrieved 22 December 2022 Mujal Eudald Fortuny Josep Marmi Josep Dinares Turell Jaume Bolet Arnau Oms Oriol January 2018 Aridification across the Carboniferous Permian transition in central equatorial Pangea The Catalan Pyrenean succession NE Iberian Peninsula Sedimentary Geology 363 48 68 Bibcode 2018SedG 363 48M doi 10 1016 j sedgeo 2017 11 005 S2CID 133713470 Retrieved 22 December 2022 Matamales Andreu Rafal Mujal Eudald Dinares Turell Jaume Kustatcher Evelyn Roghi Guido Oms Oriol Galobart Angel Fortuny Josep May 2022 Early middle Permian ecosystems of equatorial Pangaea Integrated multi stratigraphic and palaeontological review of the Permian of Mallorca Balearic Islands western Mediterranean Earth Science Reviews 228 103948 Bibcode 2022ESRv 22803948M doi 10 1016 j earscirev 2022 103948 S2CID 246438404 Retrieved 3 January 2023 Huttenlocker A K and E Rega 2012 The Paleobiology and Bone Microstructure of Pelycosaurian grade Synapsids Pp 90 119 in A Chinsamy ed Forerunners of Mammals Radiation Histology Biology Indiana University Press NAPC Abstracts Sto Tw berkeley edu Brocklehurst Neil Kammerer Christian F Frobisch Jorg 23 June 2013 The early evolution of synapsids and the influence of sampling on their fossil record Paleobiology 39 3 470 490 Bibcode 2013Pbio 39 470B doi 10 1666 12049 S2CID 83738138 Retrieved 2 April 2023 Retrieved from https en wikipedia org w index php title Cisuralian amp oldid 1180553860, wikipedia, wiki, book, books, library,

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