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Evolution of the Pacific margin of the northern Antarctic Peninsula: an overview

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Abstract

The sector of the northern Antarctic Peninsula between the Tula and Shackleton Fracture Zones provides evidence for the subduction of south-east Pacific oceanic crust under Antarctic continental crust during Late Mesozoic through Miocene times. The pre-subduction depositional history of this sector includes the formation of a marine siliciclastic turbidite wedge (?Permian-Triassic) deposited in a marginal basin setting. It was folded and thrust retroarc before the Middle Jurassic to form the Trinity accretion foldbelt, which extended for several hundred kilometres along the Pacific margin of Gondwanaland. The foldbelt was deeply eroded and levelled under subaerial conditions, then unconformably covered either by Middle-Upper Jurassic alluvial to lacustrine deposits (in the north) or by Early Cretaceous basic lavas (in the south).

The subduction-related magmatism, in the form of acidic effusions and intrusions, began in the northern Antarctic Peninsula during Middle Jurassic times and continued as predominantly basic lavas and agglomerates intruded by basic, intermediate and acidic plutons, and by a succession of dykes, during the Early to Late Cretaceous. Thus the inner magmatic are of the northern Antarctic Peninsula (northern Graham Land-Trinity Peninsula) was formed.

An outward (north-westerly) migration of centres of magmatic activity with time (Cretaceous-Tertiary) towards the subduction trench, coupled with a northeastward shift of these centres along the Arc's length due to the counterclockwise rotation of Antarctica, produced the outer magmatic arc of the South Shetland Islands.

Slight folding of Late Mesozoic and Tertiary magmatic suites occurred at several stages of subduction. Stronger folding and retroarc thrusting appeared locally as a result of the collision of the Aluk Ridge-Antarctic Peninsula during the Mid-Miocene. The latest plate tectonic event was the opening of the Bransfield Rift (Oligocene-Recent) as a spreading back-arc basin, associated with terrestrial and submarine volcanic activity.

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References

  • Arche A, López-Martínez J, Marfil R (1992) Petrofacies and provenance of the oldest rocks in Livingston Island, South Shetland Islands. In: López-Martínez J (ed), Geológia de la Antártida Occidental. III Congr Geol Esp & VIII Congr Latinoamer Geol (Salamanca), Simpos T3: 93–104

  • Ashcroft WA (1972) Crustal structure of the South Shetland Islands and Bransfield Strait. Br Antarct Surv Sci Rep 66: 1–43

    Google Scholar 

  • Baker PE, McReath I, Harvey MR, Roobol MJ, Davies TG (1975) The geology of the South Shetland Islands. V. Volcanic evolution of Deception Island. Br Antarct Surv Sci Rep 78: 1–81

    Google Scholar 

  • Barker PF (1982) The Cenozoic history of the Pacific margin of Antarctic Peninsula: ridge-crest interactions. J Geol Soc London 139: 787–781

    Google Scholar 

  • Birkenmajer K (1982) The Penguin Island volcano, South Shetland Islands (Antarctica): its structure and succession. Stud Geol Polon 74: 155–173

    Google Scholar 

  • Birkenmajer K (1989a) King George Island. In: Dalziel IWD, Birkenmajer K, Mpodozis C, Ramos A, Thomson MRA. Field trip Guidebook T 180 Tectonics of the Scotia Arc. 28th Int Geol Congr, Washington DC: 114–121

  • Birkenmajer K (1989b) A guide to Tertiary geochronology of King George Island, West Antarctica. Pol Polar Res 10: 555–579

    Google Scholar 

  • Birkenmajer K (1992a) Evolution of the Bransfield basin and rift, West Antarctica. In: Yoshida Y, Kaminuma K, Shiraishi K (eds) Recent Progress in Antarctic Earth Science. Terra Science, Tokyo, pp 405–410

    Google Scholar 

  • Birkenmajer K (1992b) Volcanic succession at Deception Island, West Antarctica: a revised lithostratigraphic standard. Stud Geol Polon 101: 27–82

    Google Scholar 

  • Birkenmajer K (1992c) Trinity Peninsula Group (Permo-Triassic?) at Hope Bay, Antarctic Peninsula. Pol Polar Res 13: 35–60

    Google Scholar 

  • Birkenmajer K (1992d) Trinity Peninsula Group (Permo-Triassic?) at Paradise Harbour, Antarctic Peninsula. Stud Geol Polon 101: 7–25

    Google Scholar 

  • Birkenmajer K (1993a) Jurassic terrestrial clastics (Mount Flora Formation) at Hope Bay, Trinity Peninsula (West Antarctica). Bull Pol Acad Sci (Earth Sci) 41: 23–38

    Google Scholar 

  • Birkenmajer K (1993b) Geology of Late Mesozoic magmatic rocks at Hope Bay, Trinity Peninsula (West Antarctica). Bull Pol Acad Sci (Earth Sci) 41: 49–62

    Google Scholar 

  • Birkenmajer K (1993c) Succession of Cretaceous magmatic rocks at Paradise Harbour, Daneo Coast (Antarctic Peninsula). Bull Pol Acad Sci (Earth Sci) 41: 39–48

    Google Scholar 

  • Birkenmajer K, Keller RA (1990) Pleistocene age of the Melville Peak volcano, King George Island, West Antarctica, by K-Ar dating. Bull Pol Acad Sci (Earth Sci) 38: 17–24

    Google Scholar 

  • Birkenmajer K, Delitala MC, Nar\cebski W, Nicoletti M, Petrucciani C (1986a) Geochronology of Tertiary island-arc volcansms and glacigenic deposits, King George Island, South Shetland Islands (West Antarctica). Bull Pol Acad Sci (Earth Sci) 34: 257–273

    Google Scholar 

  • Birkenmajer K, Delitala MC, Ner\cebski W Nicoletti M, Petrucciani C (1986b) Geochronology and migration of Cretaceous through Tertiary plutonic centres, South Shetland Islands (West Antarctica): subduction and hot spot magmatism. Bull Pot Acad Sci (Earth Sci) 34: 243–255

    Google Scholar 

  • Birkenmajer K, Guterch A, Grad M, Janik T, Perchuć E (1990) Lithospheric transect Antarctic Peninsula-South Shetland Islands, West Antarctica. Pol Polar Res 11: 241–258

    Google Scholar 

  • Birkenmajer K, Francalanci L, Peccerillo A (1991) Petrological and geochemical constraints on the genesis of Mesozoic-Cenozoic magmatism of King George Island, South Shetland Islands, Antarctica. Antarct Sci 3: 293–308

    Google Scholar 

  • Dalziel IWD (1972) Large-scale folding in the Scotia Arc. In: Adie RJ (ed) Antarctic Geology and Geophysics. Universitetsforlaget, Oslo, pp 47–55

    Google Scholar 

  • Elliot DH (1967) The geology of Joinville Island. Br Antarct Surv Bull 12: 23–40

    Google Scholar 

  • Elliot DH, Gracanin TM (1983) Conglomeratic (strata of Mesozoic age at Hope Bay, Antarctic Peninsula. In: Oliver RL, James PR, Jago JB (eds) Antarctic Earth Science. Cambridge Univ Press, Cambridge, pp 303–307

    Google Scholar 

  • Farquharson GW (1983) Evolution of Late Mesozoic sedimentary basins in the northern Antarctic Peninsula. In: Oliver RL, James PR, Jago JB (eds) Antarctic Earth Science. Cambridge Univ Press, Cambridge, pp 323–327

    Google Scholar 

  • Farquharson GW (1984) Late Mesozoic non-marine conglomeratic sequences of northern Antarctic Peninsula (the Botany Bay Group). Br Antarct Surv Bull 65: 1–32

    Google Scholar 

  • Fisk MR (1991) Volcanism in the Bransfield Strait, Antarctica. J South Am Earth Sci 3: 91–101

    Google Scholar 

  • Fleming EA, Thomson JW (1979) British Antarctic Territory, Geological Map 1:500000, Ser BAS 500G, Sheet 2, ed 1. British Antarctic Survey, Cambridge

    Google Scholar 

  • Gledhill A, Rex DC, Tanner PWG (1982) Rb-Sr and K-Ar geochronology of rocks from the Antarctic Peninsula between Anvers Island and Marguerite Bay. In: Craddock C (ed) Antarctic Geoscience Univ Wisconsin Press, pp 315–323

  • González-Ferrán O (1991) The Bransfield rift and its active volcanism. In: Thomson MRA, Crame JA, Thomson JW (eds) The Geological Evolution of Antarctica. Cambridge Univ Press, Cambridge, pp 505–509

    Google Scholar 

  • González-Ferrán O, Katsui Y (1970) Estudio integral del volcanismo cenozoico superior de las Islas Shetland del Sur, Antártica. Inst. Antárt Chil Ser Cient 1: 123–174

    Google Scholar 

  • Grikurov GE, Krylov AJa, Poljakov MM (1970) Vozrast gornykh porod v severnoy chasti Antarkticheskogo Poluostrova i na Juzhnykh Shetlandskikh ostrovakh (po dannym kalij-argonovogo metoda). Biull Sov Antarct Eksped 71: 17–24

    Google Scholar 

  • Grunow AM, Dalziel IWD, Harrison TM, Heizler MT (1992) Structural geology and geochronology of subduction complexes along the margin of Gondwanaland: new data from the Antarctic Peninsula and southernmost Andes. Geol Soc Am Bull 104: 1497–1514

    Google Scholar 

  • Guterch A, Grad M, Janik T, Perchuc E (1990). Tectonophysical models of the crust between the Antarctic Peninsula and the South Shetland Trench. In: Thomson MRA, Crame JA, Thomson JW (eds) Geological Evolution of Antarctica. Cambridge Univ Press, Cambridge, pp 499–504

    Google Scholar 

  • Halpern M (1964) Cretaceous sedimentation in the “General Bernardo O'Higgins” area of north-west Antarctic Peninsula. In: Adie RJ (ed) Antarctic Geology. North-Holland, Amsterdam, pp 334–347

  • Hervé F (1992) Estado actual del conocimiento del metamorfismo y plutonismo en la Península Antartica al norte de los 65°S y el archipelago de las Shetland del Sur: revision y problemas. In: López-Martínez J (ed) Geológia de la Antártida Occidental. III Congr Geol Esp & VIII Congr Latinoamer Geol (Salamanca), Simpos T3: 19–31

  • Hervé F, Ugalde I, Lobato J (1991) Geology of Cape Dubouzet, northern Antarctic Peninsula. 6th Int Symp Antarct Earth Sci (Ranzan-Machi, Japan), Abstr Vol: 223–226

  • Hole MJ, Pankhurst RJ, Saunders AD (1982) Geochemical evolution of the Antarctic Peninsula magmatic arc: the importance of mantle—crust interactions during granitoid genesis. In: Craddock C (ed) Antarctic Geoscience. Univ Wisconsin Press, pp 369–374

  • Hyden G, Tanner PWG (1981) Late Palaeozoic-early Mesozoic forearc basin sedimentary rocks at the Pacific margin in Western Antarctica. Geol Rundsch 70: 529–541

    Google Scholar 

  • Keller RA, Fisk MR, White WM, Birkenmajer K (1992) Isotopic and trace element constraints on mixing and melting models of marginal basin volcanism, Bransfield Strait, Antarctica. Earth Planet Sci Lett 111: 287–303

    Google Scholar 

  • Loske W Miller H (1991) Rb-Sr and U-Pb geochronology of basement xenoliths at Cape Dubouzet, Antarctic Peninsula. 6th Int Symp Antarct Earth Sci (Ranzan-MAchi, Japan), Abstr Vol: 374–379 Miller H, Loske W (1992) La historia pre-andina de la Península Antártica. In: López-Martinez J (ed) Geológia de la Antártida Occidental. III Congr Geol Esp & VIII Congr Latinoamer Geol (Salamanca), Simpos T3: 33–42

  • Miller H, Loske W, Kramm U (1987) Zircon provenance and Gondwana reconstruction: U-Pb data on detrital zircons from Trinity Peninsula Formation metasediments. Polarforschung 57: 59–69

    Google Scholar 

  • Odin GS, Odin C (1990) Échelle numérique des temps géologiques. Bur Res Geol Min (Paris) 35

  • Pankhurst RJ (1982) Rb-Sr geochronology of Graham Land, Antarctica. J Geol Soc London 139: 701–712

    Google Scholar 

  • Pankhurst RJ, Smellie JL (1983) K-Ar geochronology of the South Shetland Islands, Lesser Antarctica: apparent lateral migration of Jurassic to Quaternary island are volcanism. Earth Planet Sci Lett 66: 214–222

    Google Scholar 

  • Rex DC (1976) Geochronology in relation to stratigraphy of the Antarctic Peninsula. Br Antarct Surv Bull 43: 49–58

    Google Scholar 

  • Scott KM (1965) Geology of the southern Gerlache Strait region, Antarctica. J Geol 73: 518–527

    Google Scholar 

  • Smellie JL (1981) A complete arc-trench system recognized in Gondwana sequences of the Antarctic Peninsula region. Geol Mag 118: 139–159

    Google Scholar 

  • Smellie JL (1990) Province D: Graham Land and South Shetland Islands. In: LeMasurier WE, Thomson JW (eds) Volcanoes of the Antarctic Plate and Southern Oceans. Am Geophys Union Antarct Res Ser 48: 303–312

  • Smellie JL (1991) Stratigraphy, provenance and tectonic setting of (?)Late Palaeozoic—Triassic sedimentary sequences in northern Graham Land and South Scotia Ridge. In: Thomson MRA, Crame JA, Thomson JW (eds) Geological Evolution of Antarctica. Cambridge Univ Press, Cambridge, pp 411–417

    Google Scholar 

  • Smellie JL, Pankhurst RJ, Thomson MRA, Davies RES (1984) The geology of the South Shetland Islands. VI. Stratigraphy, geochemistry and evolution. Br Antarct Surv Sci Rep 87: 1–85

    Google Scholar 

  • Thomson MRA (1975) New palaeontological and lithological observations on the Legoupil Formation, northwest Antarctic Peninsula. Br Antarct Surv Bull 41–42: 169–185

    Google Scholar 

  • Thomson MRA (1992) Stratigraphy and age of the pre-Cenozoic stratified rocks of the South Shetland Islands: review. In: López-Martínez J (ed) Geológia de la Antárctida Occidental. III Congr Geol Esp & VIII Congr Latinoamer Geol (Salamanca), Simpos T3: 75–92

  • Trouw RAJ, Gamboa LAP (1992) Geotransect Drake Passage-Weddell Sea. In: Yoshida Y, Kaminuma K, Shiraishi K (eds) Recent Progress in Antarctic Earth Science. Terra Science, Tokyo, pp 417–422

    Google Scholar 

  • Trouw RAJ, Ribeiro A, Paciullo FVP (1991) Structural and metamorphic evolution of the Elephant Island group and Smith Island, South Shetland Islands. In: Thomson MRA, Crame JA, Thomson JW (eds) Geological Evolution of Antarctica. Cambridge Univ Press, Cambridge, pp 423–428

    Google Scholar 

  • Weaver SD, Saunders AD, Pankhurst RJ, Tarney J (1979) A geochemical study of the magmatism associated with the initial stage of back-arc spreading: the Quaternary volcanics of Bransfield Strait, from South Shetland Islands. Contrib Mineral Petrol 68: 151–170

    Google Scholar 

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Birkenmajer, K. Evolution of the Pacific margin of the northern Antarctic Peninsula: an overview. Geol Rundsch 83, 309–321 (1994). https://doi.org/10.1007/BF00210547

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