Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-28T05:18:23.643Z Has data issue: false hasContentIssue false

Freshwater lakes of Ulu Peninsula, James Ross Island, north-east Antarctic Peninsula: origin, geomorphology and physical and chemical limnology

Published online by Cambridge University Press:  29 October 2012

Linda Nedbalová*
Affiliation:
Department of Ecology, Faculty of Science, Charles University in Prague, Viničná 7, 12844 Prague 2, Czech Republic Institute of Botany AS CR, Dukelská 135, 37982 Třeboň, Czech Republic
Daniel Nývlt
Affiliation:
Czech Geological Survey, Brno branch, Leitnerova 22, 65869 Brno, Czech Republic
Jiří Kopáček
Affiliation:
Institute of Hydrobiology, Biology Centre AS CR, Na Sádkách 7, 37005 České Budějovice, Czech Republic
Miroslav Šobr
Affiliation:
Department of Physical Geography and Geoecology, Faculty of Science, Charles University in Prague, Albertov 6, 12843 Prague 2, Czech Republic
Josef Elster
Affiliation:
Institute of Botany AS CR, Dukelská 135, 37982 Třeboň, Czech Republic Centre for Polar Ecology, Faculty of Science, University of South Bohemia, Branišovská 31, 37005 České Budějovice, Czech Republic

Abstract

This study describes the origin, bedrock geology, geomorphology, hydrological stability and physical and chemical characteristics of a representative set of 29 lakes in the ice-free parts of the Ulu Peninsula, James Ross Island, located close to the northern tip of the Antarctic Peninsula. Based on these features, six different types of lakes were defined: stable shallow lakes on higher-altitude levelled surfaces, shallow coastal lakes, stable lakes in old moraines, small unstable lakes in young moraines, deep cirque lakes and kettle lakes. We observed a significant relationship between lake type and water chemistry. Bedrock, lake age and morphometry together with altitude were the most important factors underlying the observed limnological variability. Our results further suggested possible nitrogen limitation in the lake ecosystems. However, physical factors such as low temperature and light were also likely to be limiting.

Type
Biological Sciences
Copyright
Copyright © Antarctic Science Ltd 2012 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Aristarain, A.J., Delmas, R.J.Briat, M. 1982. Snow chemistry on James Ross Island (Antarctic Peninsula). Journal of Geophysical Research, 87, 1100411012.CrossRefGoogle Scholar
Aristarain, A.J., Pinglot, J.F.Pourchet, M. 1987. Accumulation and temperature measurements on the James Ross Island, Antarctic Peninsula, Antarctica. Journal of Glaciology, 33, 357362.CrossRefGoogle Scholar
Barrett, J.E., Virginia, R.A., Lyons, W.B., McKnight, D.M., Priscu, J.C., Doran, P.T., Fountain, A.G., Wall, D.H.Moorhead, D.L. 2007. Biogeochemical stoichiometry of Antarctic Dry Valley ecosystems. Journal of Geophysical Research, 112, 112.CrossRefGoogle Scholar
Bendschneider, K.Robinson, R.J. 1952. A new spectrophotometric method for the determination of nitrite in sea water. Journal of Marine Research, 11, 8796.Google Scholar
Björck, S., Olsson, S., Ellis-Evans, C., Håkansson, H., Humlum, O.de Lirio, J.M. 1996. Late Holocene palaeoclimatic records from lake sediments on James Ross Island, Antarctica. Palaeogeography, Palaeoclimatology, Palaeoecology, 121, 195220.CrossRefGoogle Scholar
Borcard, D., Legendre, P.Drapeau, P. 1992. Partialling out the spatial component of ecological variation. Ecology, 73, 10451055.CrossRefGoogle Scholar
Borghini, F.Bargagli, R. 2004. Changes of major ion concentrations in melting snow and terrestrial waters from northern Victoria Land, Antarctica. Antarctic Science, 16, 107115.CrossRefGoogle Scholar
Borghini, F., Colacevich, A., Caruso, T.Bargagli, R. 2008. Temporal variations in the water chemistry of northern Victoria Land lakes (Antarctica). Aquatic Science, 70, 134141.CrossRefGoogle Scholar
Carrivick, J.L., Davies, B.J., Glasser, N.F., Nývlt, D.Hambrey, M.J. In press. Late Holocene changes in character and behaviour of land-terminating glaciers on James Ross Island, Antarctica. Journal of Glaciology.Google Scholar
Česák, J.Šobr, M. 2005. Methods of bathymetric mapping of Czech lakes. Geografie, 110, 141151.CrossRefGoogle Scholar
CGS (Czech Geological Survey). 2009. James Ross Island - northern part. Topographic map, 1:25 000. Prague: Czech Geological Survey.Google Scholar
Davies, B.J., Glasser, N.F., Carrivick, J.L., Hambrey, M.J., Smellie, J.L.Nývlt, D. In press. Landscape evolution and ice-sheet behaviour in a semi-arid polar environment: James Ross Island, NE Antarctic Peninsula. Special Publication, Geological Society of London.Google Scholar
Engel, Z., Nývlt, D.Láska, K. 2012. Ice thickness, areal and volumetric changes of Davies Dome and Whisky Glacier in 1979–2006 (James Ross Island, Antarctic Peninsula). Journal of Glaciology, 58, 904914.CrossRefGoogle Scholar
Engstrom, D.R., Fritz, S.C., Almendinger, J.E.Juggins, S. 2000. Chemical and biological trends during lake evolution in recently deglaciated terrain. Nature, 408, 161166.CrossRefGoogle ScholarPubMed
Fukui, K., Sone, T., Strelin, J.A., Torielli, C.A., Mori, J.Fujii, Y. 2008. Dynamics and GPR stratigraphy of a polar rock glacier on James Ross Island, Antarctic Peninsula. Journal of Glaciology, 54, 445451.CrossRefGoogle Scholar
Golterman, H.L.Clymo, R.S. 1969. Methods for chemical analysis of fresh waters. Oxford: Blackwell, 172 pp.Google Scholar
Hawes, I., Safi, I., Sorrel, B., Webster-Brown, J.G., Brown, K.L.Arscott, D. 2011. Summer–winter transitions in Antarctic ponds I: The physical environment. Antarctic Science, 23, 235242.CrossRefGoogle Scholar
Healy, M., Webster-Brown, J.G., Brown, K.L.Lane, V. 2006. Chemistry and stratification of Antarctic meltwater ponds II: Inland ponds in the McMurdo Dry Valleys, Victoria Land. Antarctic Science, 18, 525533.CrossRefGoogle Scholar
Hecky, R.E., Campbell, P.Hendzel, L.L. 1993. The stoichiometry of carbon, nitrogen, and phosphorus in particulate matter of lakes and oceans. Limnology and Oceanography, 38, 709724.CrossRefGoogle Scholar
Hjort, C., Ingólfsson, Ó., Möller, P.Lirio, J.M. 1997. Holocene glacial history and sealevel changes on James Ross Island, Antarctic Peninsula. Journal of Quaternary Science, 12, 259273.3.0.CO;2-6>CrossRefGoogle Scholar
Hutchinson, E.G. 1957. A treatise on limnology. Vol. I. Geography, physics and chemistry. New York: John Wiley & Sons, 1015 pp.Google Scholar
Johnson, J.S., Bentley, M.J., Roberts, S.J., Binnie, S.A.Freeman, S.P.H.T. 2011. Holocene deglacial history of the northeast Antarctic Peninsula - A review and new chronological constraints. Quaternary Science Reviews, 30, 37913802.CrossRefGoogle Scholar
Komárek, J.Elster, J. 2008. Ecological background of cyanobacterial assemblages of the northern part of James Ross Island, Antarctica. Polish Polar Research, 29, 1732.Google Scholar
Kopáček, J.Hejzlar, J. 1993. Semi-micro determination of total phosphorus in fresh waters with perchloric acid digestion. International Journal of Environmental Analytical Chemistry, 53, 173183.CrossRefGoogle Scholar
Kopáček, J., Hejzlar, J.Mosello, R. 2000. Estimation of organic acid anion concentrations and evaluation of charge balance in atmospherically acidified colored waters. Water Research, 34, 35983606.CrossRefGoogle Scholar
Košler, J., Magna, T., Mlčoch, B., Mixa, P., Nývlt, D.Holub, F.V. 2009. Combined Sr, Nd, Pb and Li isotope geochemistry of alkaline lavas from northern James Ross Island (Antarctic Peninsula) and implications for back-arc magma formation. Chemical Geology, 258, 207218.CrossRefGoogle Scholar
Morford, S.L., Houlton, B.Z.Dahlgren, R.A. 2011. Increased forest ecosystem carbon and nitrogen storage from nitrogen rich bedrock. Nature, 477, 7881.CrossRefGoogle ScholarPubMed
Murphy, J.Riley, J.P. 1962. A modified single-solution method for the determination of phosphate in natural waters. Analytica Chimica Acta, 27, 3136.CrossRefGoogle Scholar
Nelson, P.H.H. 1966. The James Ross Island Volcanic Group of north-east Graham Land. British Antarctic Survey Scientific Reports, 54, 62 pp.Google Scholar
Nývlt, D., Košler, J., Mlčoch, B., Mixa, P., Lisá, L., Bubík, M.Hendriks, B.W.H. 2011. The Mendel Formation: evidence for Late Miocene climatic cyclicity at the northern tip of the Antarctic Peninsula. Palaeogeography, Palaeoclimatology, Palaeoecology, 299, 363384.CrossRefGoogle Scholar
Olivero, E.B., Scasso, R.A.Rinaldi, C.A. 1986. Revision of the Marambio Group, James Ross Island, Antarctica. Instituto Antartico Argentino, Contribución, 331, 128.Google Scholar
Priscu, J.C. 1995. Phytoplankton nutrient deficiency in lakes of the McMurdo Dry Valleys, Antarctica. Freshwater Biology, 34, 215227.CrossRefGoogle Scholar
Quayle, W.C., Peck, L.S., Peat, H., Ellis-Evans, J.C.Harrigan, P.R. 2002. Extreme responses to climate change in Antarctic lakes. Science, 295, 645.CrossRefGoogle ScholarPubMed
Redfield, A.C. 1958. The biological control of chemical factors in the environment. American Scientist, 46, 205221.Google Scholar
Roberts, S.J., Hodgson, D.A., Sterken, M., Whitehouse, P.L., Verleyen, E., Vyverman, W., Sabbe, K., Balbo, A., Bentley, M.J.Moreton, S.G. 2011. Geological constraints on glacio-isostatic adjustment models of relative sea level change during deglaciation of Prince Gustav Channel, Antarctic Peninsula. Quaternary Science Reviews, 30, 36033617.CrossRefGoogle Scholar
Sabbe, K., Hodgson, D.A., Verleyen, E., Taton, A., Wilmotte, A., Vanhoutte, K.Vyverman, W. 2004. Salinity, depth and the structure and composition of microbial mats in continental Antarctic lakes. Freshwater Biology, 49, 296319.CrossRefGoogle Scholar
Siegert, M.J., Carter, S., Tabacco, I., Popov, S.Blankenship, D. 2005. A revised inventory of Antarctic subglacial lakes. Antarctic Science, 17, 453460.CrossRefGoogle Scholar
Smellie, J.L., Johnson, J.S., McIntosh, W.C., Esser, R., Gudmundsson, M.T., Hambrey, M.J.van Wyk de Vries, B. 2008. Six million years of glacial history recorded in volcanic lithofacies of the James Ross Island Volcanic Group, Antarctic Peninsula. Palaeogeography, Palaeoclimatology, Palaeoecology, 260, 122148.CrossRefGoogle Scholar
Sone, T., Fukui, K., Strelin, J.A., Torielli, C.A.Mori, J. 2007. Glacier lake outburst flood on James Ross Island, Antarctic Peninsula region. Polish Polar Research, 28, 312.Google Scholar
Sterken, M., Roberts, S.J., Hodgson, D.A., Vyverman, W., Balbo, A.L., Sabbe, K., Moreton, S.G.Verleyen, E. 2012. Holocene glacial and climate history of Prince Gustav Channel, northeastern Antarctic Peninsula. Quaternary Science Reviews, 31, 93111.CrossRefGoogle Scholar
Svojtka, M., Nývlt, D., Murakami, M., Vávrová, J., Filip, J.Mixa, P. 2009. Provenance and post-depositional low-temperature evolution of the James Ross Basin sedimentary rocks (Antarctic Peninsula) based on fission track analysis. Antarctic Science, 21, 593607.CrossRefGoogle Scholar
ter Braak, C.J.F.Šmilauer, P. 2002. CANOCO reference manual and user's guide to Canoco for Windows: software for Canonical Community Ordination (Version 4.5). Ithaca, NY: Microcomputer Power, 500 pp.Google Scholar
Toro, M., Camacho, A., Rochera, C., Roco, E., Banon, M., Fernandez-Valiente, E., Marco, E., Justel, A., Avendano, M.C., Ariosa, Y., Vincent, W.F.Quesada, A. 2007. Limnological characteristics of the freshwater ecosystems of Byers Peninsula, Livingston Island, in Maritime Antarctica. Polar Biology, 30, 635649.CrossRefGoogle Scholar
Vaughan, D.G., Marshall, G.J., Connolley, W.M., Parkinson, C., Mulvaney, R., Hodgson, D.A., King, J.C., Pudsey, C.J.Turner, J. 2003. Recent rapid regional climate warming on the Antarctic Peninsula. Climatic Change, 60, 243274.CrossRefGoogle Scholar
Verleyen, E., Hodgson, D.A., Gibson, J., Imura, S., Kaup, E., Kudoh, S., De Wever, A., Hoshino, T., McMinn, A., Obbels, D., Roberts, D., Roberts, S., Sabbe, K., Souffreau, C., Tavernier, I., van Nieuwenhuyze, W., van Ranst, E., Vindevogel, N.Vyverman, W. 2012. Chemical limnology in coastal East Antarctic lakes: monitoring future climate change in centres of endemism and biodiversity. Antarctic Science, 24, 2333.CrossRefGoogle Scholar
Vincent, W.F.Howard-Williams, C. 1994. Nitrate-rich inland waters of the Ross Ice Shelf region, Antarctica. Antarctic Science, 6, 339346.CrossRefGoogle Scholar
Vincent, W.F.Laybourn-Parry, J. 2008. Polar lakes and rivers. Oxford: Oxford University Press, 327 pp.CrossRefGoogle Scholar
Webster-Brown, J., Gall, M., Gibson, J., Wood, S.Hawes, I. 2010. The biogeochemistry of meltwater habitats in the Darwin Glacier region (80°S), Victoria Land, Antarctica. Antarctic Science, 22, 646661.CrossRefGoogle Scholar
Whitham, A.G., Ineson, J.R.Pirrie, D. 2006. Marine volcaniclastics of the Hidden Lake Formation (Coniacian) of James Ross Island, Antarctica: an enigmatic element in the history of a back-arc basin. In Francis, J.E., Pirrie, D. & Crame, J.A., eds. Cretaceous–Tertiary high latitude palaeoenvironments, James Ross Basin, Antarctica. Geological Society, London, Special Publication, 258, 21–47.Google Scholar
Supplementary material: PDF

NEDBALOVÁ Supplementary Material

Appendix

Download NEDBALOVÁ Supplementary Material(PDF)
PDF 17.4 MB