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Karoo-Ferrar

Summary

The Karoo and Ferrar Large Igneous Provinces (LIPs) are two large igneous provinces in Southern Africa and Antarctica respectively, collectively known as the Karoo-Ferrar, Gondwana,[1] or Southeast African LIP,[2] associated with the initial break-up of the Gondwana supercontinent at c. 183 Ma. Its flood basalt mostly covers South Africa and Antarctica but portions extend further into southern Africa and into South America, India, Australia and New Zealand.[3]

Karoo-Ferrar formed just prior to the breakup of Gondwana in the Lower Jurassic epoch, about 183 million years ago; this timing corresponds to the early Toarcian anoxic event and the Pliensbachian-Toarcian extinction.[4] It covered about 3 x 106 km2.[5] The total original volume of the flow, which extends over a distance in excess of 6000 km (4000 km in Antarctica alone), was in excess of 2.5 x 106 km3 (2.5 million cubic kilometres).[6]

The Ferrar LIP is notable for long-distance transport and the Karoo LIP for its large volume and chemical diversity.[1]

The igneous activity of the Karoo LIP began c. 204 Ma at the northern margin of the province. The long-lasting Chon-Aike Province in Patagonia, the Antarctic Peninsula, and Ellsworth Land was activated c. 190 Ma in an unstable tectonic environment in which both extension and subduction occurred. Chon-Aike had a peak between 183 to 173 Ma but produced continued magmatism between 168 to 141 Ma. By 184 to 175 Ma the Karoo magmatism had spread to Namibia, Lesotho, Lebombo, and the Ferrar province in Antarctica. The Karoo LIP ended 145 Ma with peripheral eruptions in Patagonia, the Antarctica Peninsula, northern South Africa, Kerala in India, and southeast Australia. The Karoo Province uplifted southern Africa c. 1.5 km (0.93 mi) and broke East Gondwana (India, Antarctica, and Australia) away from West Gondwana (South America and Africa) beginning in the opening of the Weddell Sea.[7]

In the Cretaceous, some 15 million years after the last Karoo eruption, renewed magmatism was initiated between Mary Byrd Land in Antarctica and New Zealand from where it spread along Gondwana's southern margin, from eastern Australia to the Antarctic Peninsula. Isotopic dating suggests a series of igneous events at 133–131, 124–119, and 113–107 Ma in Australia; 110–99 Ma in Mary Byrd Land; 114-109 and 82 Ma in New Zealand; and 141 and 127 Ma in the Antarctic Peninsula. This phase of magmatism resulted in extension and rift between Australia and Antarctica, Australia and Lord Howe Rise, and Mary Byrd Land and New Zealand.[8]

Ferrar Supergroup edit

According to Robert John Pankhurst, "The Ferrar Supergroup is well known as being representative of a Middle Jurassic (and partly later), Gondwana-wide continental flood basalts event which includes Tasmanian dolerites, the Karoo Supergroup of southern Africa and the Serra Geral basalts of central South America." These continental tholeiites are indicative of a large-scale extensional rift system and associated Middle Jurassic magmatic activity linked to the break-up of Gondwana 25 m.y. later, when East Antarctica separated from Africa, and the Mozambique Basin opened. Included in the supergroup are the Ferrar Dolerite sills and dykes, the Kirkpatrick Basalts, and the volcanogenic Carapace Sandstone and Mawson Formation.[9][10][11][12]

See also edit

References edit

Notes
  1. ^ a b E.g. Elliot et al. 2001
  2. ^ E.g. Gohl, Uenzelmann-Neben & Grobys 2011
  3. ^ Segev 2002, Fig. 5, p. 176
  4. ^ Jourdan et al. 2005, Relation with mass extinction, p. 748
  5. ^ Jourdan et al. 2005, Geological setting, p. 745
  6. ^ Courtillot & Renne 2003, The Karoo and Farrar provinces, p. 124
  7. ^ Segev 2002, The first tectonomagmatic period in southern Gondwana – the Karoo province, pp. 175–176
  8. ^ Segev 2002, The Cretaceous Marie Byrd Land – Eastern Australia province, pp. 176–178
  9. ^ Pankhurst, R.J.; Storey, B.C.; Millar, I.L. (1991). Thomson, M.R.A.; Crame, J.A.; Thomson, J.W. (eds.). Magmatism related to the break-up of Gondwana, in Geological Evolution of Antarctica. Cambridge: Cambridge University Press. pp. 577–578. ISBN 9780521372664.
  10. ^ Tingey, R.J. (1991). Tingey, Robert (ed.). Mesozoic tholeiitic igneous rocks in Antarctica: the Ferrar (Super) Group and related rocks, in The Geology of Antarctica. Oxford: Clarendon Press. pp. 153–174. ISBN 0198544677.
  11. ^ Riley, Teal; Flowerdew, Michael; Pankhurst, Robert; Curtis, Mike; Millar, Ian; Fanning, C. Mark; Whitehouse, Martin (2017). "Early Jurassic magmatism on the Antarctic Peninsula and potential correlation with the Subcordilleran plutonic belt of Patagonia". Journal of the Geological Society. 174 (2): 365–376. Bibcode:2017JGSoc.174..365R. doi:10.1144/jgs2016-053. S2CID 132402764. Retrieved 17 December 2019.
  12. ^ Barrett, P.J. (1991). Tingey, Robert (ed.). The Devonian to Jurassic Beacon Supergroup of the Transantarctic Mountains and correlatives in other parts of Antarctica, in The Geology of Antarctica. Oxford: Clarendon Press. pp. 122–123, 129, 145. ISBN 0198544677.
Sources
  • Courtillot, V. E.; Renne, P. R. (2003). "On the ages of flood basalt events (Sur l'âge des trapps basaltiques)" (PDF). Comptes Rendus Geoscience. 335 (1): 113–140. Bibcode:2003CRGeo.335..113C. CiteSeerX 10.1.1.461.3338. doi:10.1016/S1631-0713(03)00006-3. Retrieved 8 August 2015.
  • Elliot, D. H.; Fleming, T. H.; Foland, I. C. A.; Zhang, X. (2001). Establishing contemporaneity and duration of magmatism in the Jurassic Gondwana Large Igneous Province. Earth System Processes – Global Meeting. Edinburgh. Retrieved 13 January 2018.
  • Gohl, K.; Uenzelmann-Neben, G.; Grobys, N. (2011). "Growth and dispersal of a southeast African large igneous province" (PDF). South African Journal of Geology. 114 (3–4): 379–386. Bibcode:2011SAJG..114..379G. doi:10.2113/gssajg.114.3-4.379. Retrieved 13 January 2018.
  • Jourdan, F.; Féraud, G.; Bertrand, H.; Kampunzu, A. B.; Tshoso, G.; Watkeys, M. K.; Le Gall, B. (2005). "Karoo large igneous province: Brevity, origin, and relation to mass extinction questioned by new 40Ar/39Ar age data" (PDF). Geology. 33 (9): 745–748. Bibcode:2005Geo....33..745J. doi:10.1130/G21632.1. Retrieved 11 January 2018.
  • Segev, A. (2002). "Flood basalts, continental breakup and the dispersal of Gondwana: evidence for periodic migration of upwelling mantle flows (plumes)" (PDF). European Geosciences Union. Stephan Mueller Special Publication Series, 2. 2: 171–191. Bibcode:2002SMSPS...2..171S. doi:10.5194/smsps-2-171-2002. Retrieved 8 August 2015.

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