Eocene sedimentary facies in volcanogenic succession on King George Island, South Shetland Islands : a record of pre-ice sheet terrestrial environments in West Antarctica

Mozer, A.

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Eocene sedimentary facies in volcanogenic succession on King George Island, South Shetland Islands : a record of pre-ice sheet terrestrial environments in West Antarctica

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Mozer A.

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Mozer_A_Eocene_Geol. Quart._Vol.57_No 3_2013.pdf

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Abstrakty

About 34 Ma ago there was a radical change of climate that led to the formation of Antarctic ice sheet. King George Island, located in the South Shetland Islands volcanic arc (northern Antarctic Peninsula region), is one of a few places in West Antarctica which shows a geological record of sedimentary environments preceding development of the ice sheet. The Eocene sedimentary facies occur in the dominantly volcanogenic succession of King George Island. They have been recognized in the Arctowski Cove and Point Thomas formations (Ezcurra Inlet Group) and in the Mount Wawel Formation (Point Hennequin Group) in Admiralty Bay, and in the Mazurek Point Formation (Chopin Ridge Group) and Lions Cove Formation (Polonia Glacier group) in King George Bay. They record a cooling trend in terrestrial environments that began at termination of the Early/Middle Eocene Climatic Optimum, and was followed by a significant deterioration of climate during Late Eocene and earliest Oligocene, directly preceding glacial conditions in the northern Antarctic Peninsula region. The ongoing research confirms the existence of three preglacial climatic stages (PGS-1 – PGS-3) during Eocene – earliest Oligocene, from humid, warm to moderate climate (PGS-1), through cool and dry climate (PGS-2), up to cold and humid conditions (PGS-3). Studies were carried out on usually fine-grained volcanoclastic sediments, containing Podocarpaceae–Araucaria–Nothofagus plant fossils assembly. Beds of reworked pyroclastic material alternate with lava flows or volcanic agglomerates, as well as ex situ blocks of Eocene volcanogenic sediments on a moraine. Calculated geochemical indices of weathering (CIA, PIA and CIW) confirm moderate to high chemical weathering under warm and humid climate conditions at the beginning and deterioration of conditions in the end of Eocene.

Słowa kluczowe

Antarctica King George Island Eocene preglacial environments plant fossils

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Geological Quarterly

Rocznik

2013

Tom

Vol. 57, No. 3

Strony

385--394

Opis fizyczny

Bibliogr. 49 poz., rys.

Twórcy

autor

Mozer A.

amozer@twarda.pan.pl

Institute of Geological Sciences, Polish Academy of Sciences, Twarda 51/55, 00-818 Warszawa, Poland

Bibliografia

1. Askin R.A. (1992) Late Cretaceous-early Tertiary Antarctic outcrop evidence for past vegetation and climates. Antarctic Research Series, 56: 61-73.
2. Askin R.A. (2000) Spores and polien from the McMurdo Sound erratics, Antarctica. Antarctic Research Series, 76: 161-181.
3. Askin R.A., Spicer R.A. (1995) The Late Cretaceous and Cenozoic history of vegetation and climate at northern and southern high latitudes: a comparison. In: Efiects of Past Global Change on Life, Panel on Effects on Past Global Change on Life, edited by the Board on Earth Sciences and Resources, Commission on Geosciences, Environment, and Resources, National Research Council, National Academy Press, Washington: 156-173.
4. Birkenmajer K. (1980) Tertiary volcanic-sedimentary succession at Admiralty Bay, King George Island (South Shetiand Isiands, Antarctica). Studia Geologica Polonica, 64: 8-65.
5. Birkenmajer K. (2001) Mesozoic and Cenozoic stratigraphic units in parts of the South Shetland Islands and Northern Antarctic Peninsula (as used by the Polish Antarctic Programmes). Studia Geologica Polonica, 118: 5-188.
6. Birkenmajer K. (2003) Admiralty Bay, King George Isi and (South Shetland Islands, West Antarctica): a geological monograph. Studia Geologica Polonica, 120: 5-73.
7. Birkenmajer K., Zastawniak E. (1986) Plant remains of the Dufayel Island Group (Early Tertiary?), King George Island, South Shetland Islands (West Antarctica). Acta Palaeobotanica, 26 (1-2): 33-54.
8. Birkenmajer K., Zastawniak E. (1989a) Late Creiaceous-Early Tertiary floras of King George Island, West Antarctica: their stratigraphic distribution and palaeoclimatic significance. Geological Society Special Publications, 47: 227-240.
9. Birkenmajer K., Zastawniak E. (1989b) Late Creiaceous-Early Neogene vegetation history of the Antarctic Peninsula sector, Gondwana break-up and Tertiary Glaciations. Bulletin of the Polish Academy of Sciences, Earth Sciences, 37 (1-2): 63-88.
10. Cunha M.B., Dutra T.L., Cardoso N. (2008) Uma Dicinsoniaceae fértil no Eoceno da Ilha King George, Peninsula Antarctica. Journal of Geosciences, 1 (4): 1-13.
11. Dingle R.V., Lavelle M. (1998) Late Cretaceous-Cenozoic climatic variations ofthe northern Antarctic Peninsula: new geochemical evidence and review. Palaeogeography, Palaeoclimatology, Palaeoecology, 141: 215-232.
12. Dingle R.V., Marensi S.A., Lavelle M. (1998) High latitude Eocene climate deterioration: evidence from the northern Antarctic Peninsula. Journal of South American Earth Sciences, 11 (6): 571-579.
13. Doktor M., Gaździcki A., Jerzmańska A., Porębski S.J., Zastawniak E. (1996) A plant-and-fish assemblage from the Eocene La Meseta Formation of Seymour Island (Antarctic Peninsula) and its environmental implications. Palaeontologia Polonica, 55: 127-146.
14. Duan W., Cao L. (1998) Late Palaeogene palynoflora from Point Hennequin of the Admiralty Bay, King George Island, Antarctica with reference to its stratigraphical significance. Chinese Journal of Polar Science, 9 (2): 125-132.
15. Dutra T.L. (2001) Paleoflora da ilha 25 de Mayo (King George Island), Peninsula Antarctica: contribuięao a paleogeografia, paleoclima e para a evoluęao de Nothofagus. Asociación Paleontológica Argentina, Publicación Especial, 8: 29-37.
16. Dutra T.L. (2004) Paleofloras de Antártica e sua relaçno com os eventos tectonicos e paleoclimáticos nas altas latitudes do sul. Revista Brasileira de Geociencias, 34 (3): 401-410.
17. Elliot D.H. (1988) Tectonic setting and evolution of the James Ross Basin, northern Antarctic Peninsula. GSA Memoir, 169: 541-555.
18. Fedo C.M., Nesbitt H.W., Young G.M. (1995) Unravelling the effects of potassium metasomatism in sedimentary rocks and paleosols, with implications for paleoweathering conditions and provenance. Geology, 23: 921-924.
19. Fontes D., Dutra T.L. (2010) Paleogene imbricate-leaved podocarps from King George Island (Antarctica): assessing the geological context and botanical affinities. Revista Brasileira de Paleontologia, 13 (3): 189-204.
20. Francis J.E., Poole I. (2002) Cretaceous and early Tertiary climates of Antarctica: evidence from fossil wood. Palaeogeography, Palaeoclimatology, Palaeoecology, 182: 47-64.
21. Francis J.E., Ashworth A., Cantrill D.J., Crame J.J., Howe J., Stephens R., Tosolini A.M., Thorn V. (2008) 100 million years of Antarctic climate evolution: evidence from fossil plants. In: Antarctica: a Keystone in Changi ng World (eds. A.K. Cooper, P.J. Barrett, H. Stagg, B. Storey, E. Stump, W. Wise and the 10th ISAES): 19-27. The National Academies Press.
22. Francis J.E., Marenssi S., Levy R., Hambrey M., Thorn V.T., Mohr B., Brinkhuis H., Warnaar J., Zachos J., Bohaty S., Deconto R. (2009) From Greenhouse to Icehouse - the Eocene/Oligocene in Antarctica. In: Antarctic Climate Evolution (eds. F. Florindo and M. Seigert). Elsevier, 8: 309-368.
23. Harnois L. (1988) The CIW index - a new chemical index of weathering. Sedimentary Geology, 55: 319-322.
24. Hunt R.J., Poole I. (2003) Palaeogene West Antarctic climate and vegetation history in light of new data from King George Island. GSA Special Paper, 369: 395-412.
25. Kellner A.W.A., Dutra T.L., Carvalho M.A., Ramos R.R.C., Grillo O.N., Silva H.P., Riff D., Romano P.S. (2007) First record of fossils leaves from the Keller Peninsula, King George Island, Antarctica. In: Paleontologia: Cenários de Vida, vol. 1 (eds. I.S. Carvalho, R.C.T. Cassab, C. Schwanke, M.A. Carvalho, A.C.S. Fernandes, M.A.C. Rodriguez, M.S.S. Carvalho, M. Arai and M.E.Q. Oliveira): 627-635. Interciencia
26. Kennett J.P., Baker P.F. (1990) Latest Cretaceous to Cenozoic climate and oceanographic developments in the Weddell Sea, Antarctica: an ocean-drilling perspective. Proceedings of the Ocean Drilling Program, Scientific Results, 113: 937-960.
27. Li H.M. (1992) Early Tertiary palaeoclimate of King George Is i and, Antarctica-evidence from the Fossil Hill flora. Recent Progress in Antarctic Earth Sciences (eds. Y. Yoshida et al.), Tokyo, Terra Scientific Publishing Company (Terrapus): 371-375.
28. Lucas R.C., Lacey S.W. (1981) A permineralized wood flora of probable Early Tertiary age from King George Island, South Shetland Islands. British Antarctic Survey Bulletin, 53:147-151.
29. Mozer A. (2010) Authigenic pyrite framboids in sedimentary facies of the Mount Wawel Formation (Eocene), King George Island, West Antarctica. Polish Polar Research, 31 (3): 255-272.
30. Mozer A. (2012) Pre-glacial sedimentary facies of the Point Thomas Formation (Eocene) at Cytadela, Admiralty Bay, King George Island, West Antarctica. Polish Polar Research, 33 (1): 41-62.
31. Nawrocki J., Pańczyk M., Williams I.S. (2011) Isotopic ages of selected magmatic rocks from King George Island (West Antarctica) controlled by magnetostratigraphy. Geological Quarterly, 55 (4): 301-322.
32. Nesbitt H.W., Young G.M. (1982) Early Proterozoic climates and plate motions inferred from major element chemistry of lutites. Nature, 299: 715-717.
33. Pankhurst R.J., Smellie J.L. (1983) K-Ar geochronology of the South Shetland Islands, Lesser Antarctica: apparent lateral migration of Jurassic to Quaternary island arc volcanism. Earth and Planetary Science Letters, 66: 214-222.
34. Panti C., Pujana R.R., Zamaloa M.C., Romero E.J. (2012) Arau- cariaceae macrofossil record from South America and Antarctica. Alcheringa, 36 (1): 1-22.
35. Poole I., Hunt R.J., Cantrill D.J. (2001) A fossil wood flora from King George Island: ecological implications for an Antarctic Eocene vegetation. Annals of Botany, 88: 33-54.
36. Poole I., Mennega A.M.W., Cantrill D.J. (2003) Valdivian ecosystems in the Late Cretaceous and Early Tertiary of Antarctica: further evidence from myrtaceous and eucryphiaceous fossil wood. Revue of Palaeobotany and Palynology, 124: 9-27.
37. Sijp W.P., England M.H., Toggweiler J.R. (2009) Effect on ocean gateway changes under greenhouse warmth. American Meteorological Society, 22: 6639-6652.
38. Smellie J.L., Pankhurst R.J., Thomson M.R.A., Davies R.E.S. (1984) The geology of the South Shetland Islands. VI.: Stratigraphy, geochemistry and evolution. British Antarctic Survey Scientific Reports, 87.
39. Strømsøe J.R., Paasche 0. (2011) Weathering patterns in high-latitude regoliths. Journal of Geophysical Research, 116.
40. Stuchlik L. (1981) Tertiary poll en spectra from the Ezcurra Inlet Group of Admiralty Bay, King George Island (South Shetland Islands, Antarctica). Studia Geologica Polonica, 72: 109-108.
41. Topographic Map (Satellite Image Map, 2001). Scale 1:100 000. King George Island, South Shetland Islands. Publisher: Institut fur Geographie, Universitat Freiburg, Germany and Laboratório de Pesquisas Antárticas e Glaciológicas. Univeridade Federal do Rio Grande do Sul, Brasil. Freiburg, November 2001.
42. Troedson A.L., Smellie J.L. (2002) The Polonez Cove Formation of King George Island, Antarctica: stratigraphy, facies and implications for mid-Cenozoic cryosphere development. Sedimentology, 49: 277-301.
43. Zachos J.C., Shackleton N.J., Revenaugh J.S., Palike H., Flower B.P. (2001) Climate response to orbital forcing across the Oligocene-Miocene boundary. Science, 292: 274-278.
44. Zachos J.C., Wara M.W., Bohaty S., Delaney M.L., Rose-Petrizzo M.R., Brill A., Bralower T.J., Premoli-Silva I. (2003) A transient rise in tropical sea surface temperature during the Paleocene- Eocene Thermal Maximum. Science, 302: 1551-1554.
45. Zachos J.C., Dickens G.R., Zeebe R.E. (2008) An early Cenozoic perspective on greenhouse warming and carbon-cycle dynamics. Nature, 451: 279-283.
46. Zastawniak E. (1981) Tertiary leaf flora from the Point Hennequin Group of King George Island (South Shetland Islands, Antarctica). Preliminary report. Studia Geologica Polonica, 72: 97-108.
47. Zastawniak E. (1990) Late Crełaceous leaf flora from King George Island, West Antarctica. In: Palaeofloristic and Palaeoclimatic changes in the Cretaceous and Tertiary (eds. E. Knobloch and Z. Kvaček). Proceedings of the Symposium Prague, 1989, 81-85.
48. Zastawniak E.(1998) Plant vegetation in the Late Cretaceous and Tertiary of West Antarctica (in Polish with English summary). Kosmos 47 (4): 409-416.
49. Zastawniak E., Wrona R., Gaździcki A., Birkenmajer K. (1985) Plant remains from the top part of the Point Hennequin Group (Upper Oligocene), King George Island (South Shetland Islands, Antarctica). Studia Geologica Polonica, 81: 143-164.

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