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Algae River: an extensive drainage system in the Bunger Hills, East Antarctica

Published online by Cambridge University Press:  27 October 2009

John A.E. Gibson ,
Damian B. Gore  and
Enn Kaup
John A.E. Gibson
Affiliation:
CSIRO Marine Research, GPO Box 1538, Hobart, Tasmania 7001, Australia
Damian B. Gore
Affiliation:
Department of Physical Geography, Macquarie University, North Ryde, NSW 2109, Australia
Enn Kaup
Affiliation:
Institute of Geology, Tallinn Technical University, Estonia pst 7, 10143 Tallinn, Estonia
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Abstract

An extensive terrestrial drainage system, centred on Algae Lake in southern Bunger Hills, is described. The 25-km-long Algae River is the third longest known in Antarctica after Onyx River (Wright Valley, Victoria Land) and Druzhby River (Vestfold Hills, Queen Elizabeth Land). Algae River receives meltwater from the Antarctic ice sheet, Apfel Glacier, and ephemeral and permanent snow banks in the ice-free area of the Bunger Hills. Water flows through a series of epiglacial lakes before reaching the extensive Algae Lake, which in turn has an outlet to Transkriptsii Gulf, a largely fresh-water, tidal epishelf lake connected to the ocean under the Edisto Ice Tongue and Shackleton Ice Shelf. Total flow from Algae Lake was estimated to be greater than 1 x 107 m3 a-1 from data collected in the 1986/87 summer. Some portions of the drainage system that were flowing during the 1946/47,1985/86, 1986/87, 1994/95, 1995/96, and 1998/99 summers were not flowing during the 1999/2000 summer, indicating the variable nature of discharge in the river and emphasising that parts of the drainage network may become disconnected readily.

Type
Articles
Information
Polar Record , Volume 38 , Issue 205 , April 2002 , pp. 141 - 152
Copyright
Copyright © Cambridge University Press 2002

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References

Adamson, D.A., and Pickard, J.. 1986. Physiography and geomorphology of the Vestfold Hills. In: Pickard, J. (editor). Antarctic oasis: terrestrial environments and history of the Vestfold Hills. Sydney: Academic Press: 99139.Google Scholar
Anonymous. 1984. Onyx Riverturns into torrent. Antarctica (N.Z. Antarctic Society) 10: 108.Google Scholar
Antarktiki, Atlas. 1966. Atlas Antarktiki [Atlas of Antarctica]. Moscow: Glavnoe Upravlenie Geodezii i Kartografii MG SSR.Google Scholar
Avsyuk, G.A., Markov, K.K., and Shumskiy, P.A.. 1956. Geographical observations in an Antarctic ‘oasis’. Moscow: USSR Academy of Sciences.Google Scholar
Bardin, V.I., Piskun, A.A., and Schmiedeberg, N.A.. 1990. Gidrologo-gidrokhimicheskaya kharakeristika glubokovodnykh vodoemov v gorakh Prins-Charles [Hydrological and hydrochemical characteristics of deep water bodies in Prince Charles Mountains]. Antarktika 29: 97112.Google Scholar
Barker, R.J. 1977. A biological reconnaissance of the Bunger Hills (March 1977). Melbourne: Antarctic Division, Department of Science and the Environment (Antarctic Division Technical Memorandum 67).Google Scholar
Bishop, B.C. 1957. Shear moraines in the Thule area, north-west Greenland. Wilmette, IL: US Army, Corps of Engineers (SIPRE Research Report 17).Google Scholar
Bronge, C. 1996. Hydrographic and climatic changes influencing the proglacial Druzhby drainage system, Vestfold Hills, Antarctica. Antarctic Science 8: 379388.CrossRefGoogle Scholar
Bronge, C. 1999. Hydrology of Tierney Creek, Vestfold Hills, Antarctica. Polar Record 35 (193): 139148.CrossRefGoogle Scholar
Byrd, R.E. 1947. Our navy explores Antarctica. National Geographic Magazine 92: 429522.Google Scholar
Chinn, T.J. 1980. Hydrological research report, Dry Valleys, Antarctica, 1970–71. Christchurch: Ministry of Works and Development (Report WS290).Google Scholar
Chinn, T.J. 1983. Hydrology and glaciology, Dry Valleys, Antarctica. Christchurch: Ministry of Works and Development (Report WS531).Google Scholar
Chinn, T.J. 1993. Physical hydrology of the Dry Valley lakes. In: Green, W.J., and Friedmann, E.I. (editors). Physical and biogeochemical processes in Antarctic lakes. Washington DC: American Geophysical (Antarctic Research Series 59): 151.Google Scholar
Chinn, T.J., and Dickson, R.H.J.. 1986. Hydrology and glaciology, Dry Valleys, Antarctica: annual report for 1982–83. Christchurch: Ministry of Works and Development (Report WS1188).Google Scholar
Chinn, T.J.H. 1987. Accelerated ablation at an ice-cliff margin, Wright Lower Glacier, dry valleys region, Antarctica. Arctic and Alpine Research 19: 7180.CrossRefGoogle Scholar
Colbeck, G.C. 1977. Hydrographic project, Davis 1976. Hobart: Antarctic Division (Antarctic Division Technical Memorandum 66).Google Scholar
Doran, P.T., McKay, C.P., Meyer, M.A., Andersen, D.T., Wharton, R.A., and Hastings, J.T.. 1996. Climatology and implications for perennial lake ice occurrence at Bunger Hills Oasis, East Antarctica. Antarctic Science 8: 289296.CrossRefGoogle Scholar
Doran, P.T., Wharton, R.A., Lyons, W.B., Marais, D.J. Des, and Andersen, D.T.. 2000. Sedimentology and geochemistry of a perennially ice-covered epishelf lake in Bunger Hills Oasis, East Antarctica. Antarctic Science 12: 131140.CrossRefGoogle ScholarPubMed
Gal'chenko, V.F. 1994. Sulfate reduction, methane production, and methane oxidation in various water bodies of Bunger Hills oasis of Antarctica. Microbiology 63: 388396.Google Scholar
Gore, D.B. 1992. Ice-damming and fluvial erosion in the Vestfold Hills, East Antarctica. Antarctic Science 4: 227234.CrossRefGoogle Scholar
Gore, D.B., and Pickard, J. 1998. Proglacial hydrology and drainage, southeastern Vestfold Hills, East Antarctica. Proceedings of the Linnean Society of New South Wales 119: 181196.Google Scholar
Gregorczuk, M. 1980. Climate of Bunger Oasis (region of A.B. Dobrowolski Station, Antarctica). Polish Polar Research 1: 205230.Google Scholar
Grigor'ev, N.F. 1960. Naleds in East Antarctica. Information Bulletin of the Soviet Antarctic Expedition 14: 105108.Google Scholar
Howard-Williams, C., Vincent, C.L, Broady, P.A., and Vincent, W.F.. 1986. Antarctic stream ecosystems: variability in environmental properties and algal community structure. Internationale Revue der Gesamte Hydrobiologie 71: 511544.CrossRefGoogle Scholar
Howard-Williams, C., Hawes, I., Schwarz, A.-M., and Hall, J.A. 1997. Sources and sinks of nutrients in a polar desert stream, the Onyx River, Antarctica. In: Lyons, W.B., Howard-Williams, C., and Hawes, I. (editors) Ecosystem processes in Antarctic ice-free landscapes. Rotterdam: Balkema: 155170.Google Scholar
Klokov, V., Kaup, E., Zierath, R., and Haendel, D.. 1990. Lakes of the Bunger Hills (East Antarctica): chemical and ecological properties. Polish Polar Research 11: 147159.Google Scholar
Klokov, V.D., and Verkulich, S.R.. 1994. Osobennosti gidrologicheckogo rezhima vodoemov oazisa Bungera [Features of hydrological regime of water bodies in the Bunger Hills]. Informatsionnyi Byulleten' Rossiiskoi Antarkticheskoi Ekspeditsii 118: 6067.Google Scholar
Lawrence, M.J.F., and Hendy, C.H.. 1985. Water column and sediment characteristics of Lake Fryxell, Taylor Valley, Antarctica. New Zealand Journal of Geology and Geophysics 28: 543552.CrossRefGoogle Scholar
Lyons, W.B., Welch, K.A., Neumann, K., Toxey, J.K., McArthur, R., Williams, C., McKnight, D.M., and Moorhead, D.. 1998. Geochemical linkages among glaciers, streams and lakes within the Taylor Valley, Antarctica. In: Priscu, J.C. (editor). Ecosystems dynamics in a polar desert: the McMurdo Dry Valleys, Antarctica. Washington DC: American Geophysical Union (Antarctic Research Series 72): 7792.Google Scholar
McKnight, D.M., Alger, A., Tate, C.M., Shupe, G., and Spaulding, S.. 1998. Longitudinal patterns in algal abundance and species distribution in meltwater streams in Taylor Valley, southern Victoria Land, Antarctica. In: Priscu, J.C. (editor). Ecosystems dynamics in a polar desert: the McMurdo Dry Valleys, Antarctica. Washington DC: American Geophysical Union (Antarctic Research Series 72): 109127.Google Scholar
Mosley, M.P. 1988. Bedload transport and sediment yield in the Onyx River, Antarctica. Earth Surface Processes and Landforms 13: 5167.CrossRefGoogle Scholar
Niyogi, D.K., Tate, C.M., McKnight, D.M., Duff, J.H., and Alger, A.S.. 1997. Species composition and primary production of algal communities in Dry Valley streams in Antarctica: examination of the functional role of biodiversity. In: Lyons, W.B., Howard-Williams, C., and Hawes, I. (editors) Ecosystem processes in Antarctic ice-free landscapes. Rotterdam: Balkema: 171179.Google Scholar
Olvmo, M. 1992. Glaciofluvial canyons and their relation to the Late Weichselian deglaciation in Fennoscandia. Zeitschrift für Geomorphologie 36: 343363.CrossRefGoogle Scholar
Rains, R.B., Selby, M.J., and Smithe, C.J.R.. 1980. Polar desert sandar, Antarctica. New Zealand Journal of Geology and Geophysics 23: 595604.CrossRefGoogle Scholar
Selby, M.J. 1971. A method of gully erosion, Taylor Dry Valley, Antarctica. New Zealand Journal of Geology and Geophysics 14: 484485.CrossRefGoogle Scholar
Shaw, J., and Healy, T.R.. 1980. Morphology of the Onyx River system, McMurdo Sound region, Antarctica. New Zealand Journal of Geology and Geophysics 23: 223228.CrossRefGoogle Scholar
Spigel, R.H., and Priscu, J.C.. 1998. Physical limnology of the McMurdo Dry Valleys lakes. In: Priscu, J.C. (editor). Ecosystems dynamics in a polar desert: the McMurdo Dry Valleys, Antarctica. Washington DC: American Geophysical Union (Antarctic Research Series 72): 153187.Google Scholar
Streten, N.A. 1986. Climate of the Vestfold Hills. In: Pickard, J. (editor). Antarctic oasis: terrestrial environments and history of the Vestfold Hills. Sydney: Academic Press: 141164.Google Scholar
Tierney, T.J. 1975. An externally draining freshwater system in the Vestfold Hills, Antarctica. Polar Record 17 (111): 684685.CrossRefGoogle Scholar
Vincent, W.F., Howard-Williams, C., and Broady, P.A.. 1993. Microbial communities and processes in Antarctic flowing waters. In: Friedmann, I. (editor). Antarctic microbiology. New York: Wiley-Liss: 543569.Google Scholar
Wand, U., Hermichen, W.-D., Brüggeman, E., Zierath, R., and Klokov, V.D.. 1988. Stable isotope and hydrogeochemical studies of Beaver Lake and Radok Lake, MacRobertson Land, East Antarctica. ZFI Mitteilungen 143: 99111.Google Scholar
Wand, U., Schwarz, G., Brüggemann, E., and Bräuer, K.. 1997. Evidence for physical and chemical stratification in Lake Untersee (central Dronning Maud Land, East Antarctica). Antarctic Science 9: 4345.CrossRefGoogle Scholar
Weertman, J. 1961. Mechanism for the formation of inner moraines found near the edge of cold ice caps and ice sheets. Journal of Glaciology 5: 287303.CrossRefGoogle Scholar
Wisniewski, E. 1983. Bunger Oasis: the largest ice-free area in the Antarctic. Terra 95: 178187.Google Scholar