SEARCH

SEARCH BY CITATION

References

  • Alfreider, A., J. Pernthaler, R. Amann, B. Sattler, F. O. Glöckner, A. Wille, and R. Psenner (1996), Community analysis of the bacterial assemblages in the winter cover and pelagic layers of a high mountain lake by in situ hybridization, Appl. Environ. Microbiol., 62, 21382144.
  • Battin, T. J., A. Wille, B. Sattler, and R. Psenner (2001), Phylogenetic and functional heterogeneity of sediment biofilms along environmental gradients in a glacial stream, Appl. Environ. Microbiol., 67, 799807.
  • Chin, T. J. (1981), Hydrology and climate in the Ross Sea area, J. R. Soc. N. Z., 11, 373386.
  • Christian, J. R., and D. M. Karl (1995), Bacterial ecto-enzymes in marine waters: Activity ratios and temperature responses in three oceanographic provinces, Limnol. Oceanogr., 40, 10421049.
  • Christner, B. C., B. H. Kvitko, and J. N. Reeve (2003), Molecular identification of Bacteria and Eukarya inhabiting an Antarctic cryoconite hole, Extremophiles, 7, 177183.
  • Christner, B. C., G. Royston-Bishop, C. M. Foreman, B. R. Arnold, M. Tranter, K. A. Welch, W. B. Lyons, A. I. Tsapin, and J. C. Priscu (2006), Limnological conditions in subglacial Lake Vostok, Antarctica, Limnol. Oceanogr., 51, 24852501.
  • Costerton, J. W. (1995), Overview of microbial biofilms, J. Ind. Microbiol., 15, 137140.
  • Dodd, C. E. R., R. L. Sharman, S. F. Bloomfield, I. R. Booth, and G. S. A. B. Stewart (1997), Inimical processes: Bacterial self-destruction and sub-lethal injury, Trends Food Sci. Technol., 8, 238241.
  • Doran, P. T., et al. (2002), Antarctic climate cooling and terrestrial ecosystem response, Nature, 415, 517520.
  • Dore, J. E., and J. C. Priscu (2001), Phytoplankton phosphorus deficiency and alkaline phosphatase activity in the McMurdo Dry Valley lakes, Antarctica, Limnol. Oceanogr., 46, 13311346.
  • Foreman, C. M., P. Franchini, and R. L. Sinsabugh (1998), The trophic dynamics of riverine bacterioplankton: Relationships among substrate availability, ecto-enzyme kinetics, and growth, Limnol. Oceanogr., 43, 13441352.
  • Fortner, S. K., M. Tranter, A. Fountain, W. B. Lyons, and K. A. Welch (2005), The geochemistry of supraglacial streams of Canada Glacier, Taylor Valley (Antarctica) and their evolution into proglacial waters, Aquat. Geochem., 11, 391412.
  • Fountain, A. G., G. L. Dana, K. J. Lewis, B. H. Vaughn, and D. M. McKnight (1998), Glaciers of the McMurdo Dry Valleys, southern Victoria Land, Antarctica, in Ecosystem Dynamics in a Polar Desert, the McMurdo Dry Valleys, Antarctica, edited by J. C. Priscu, pp. 6576, Antarct. Res. Ser., vol. 72, AGU, Washington, D. C.,
  • Fountain, A. G., et al. (1999), Physical controls on the Taylor Valley ecosystems, Antarctica, Bioscience, 49, 961971.
  • Fountain, A. G., M. Tranter, and T. H. Nylen (2004), Cryoconite holes of dry valley glaciers, Taylor Valley, Antarctica, J. Glaciol., 50, 3545.
  • Freckman, D. W., and R. A. Virginia (1998), Soil biodiversity and community structure in the McMurdo Dry Valleys, Antarctica, in Ecosystem Dynamics in a Polar Desert, the McMurdo Dry Valleys, Antarctica, edited by J. C. Priscu, pp. 323335, Antarct. Res. Ser., vol. 72, AGU, Washington, D. C.,
  • Fritsen, C. H., A. Grue, and J. C. Priscu (2000), Distribution of organic carbon and nitrogen in surface soils in the McMurdo Dry Valleys, Antarctica, Polar Biol., 23, 121128.
  • Garland, J. L. (1996), Analytical approaches to the characterization of samples of microbial communities using patterns of potential carbon source utilization, Soil Biol. Biochem., 28, 213221.
  • Glöckner, F. O., R. Amann, A. Alfreider, J. Pernthaler, R. Psenner, K. Trebesius, and K. H. Schleifer (1996), An in situ hybridization protocol for detection and identification of planktonic bacteria, Syst. Appl. Microbiol., 19, 403406.
  • Gordon, D. A., J. C. Priscu, and S. Giovannoni (2000), Origin and phylogeny of microbes living in permanent Antarctic lake ice, Microbial Ecol., 39, 197202.
  • Hobbie, J. E., and C. C. Crawford (1969), Bacterial uptake of organic substrates: New method of study and application to eutrophication, Verh. Int. Limnol., 17, 725730.
  • Jeffrey, S. W., and G. F. Humphrey (1975), New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants, algae, and natural phytoplankton, Biochem. Physiol. Pflanzen, 167, 191194.
  • Kirchman, D. L., R. G. Keil, and P. A. Wheeler (1990), Carbon limitation of ammonium uptake by heterotrophic bacteria in the sub-arctic Pacific, Limnol. Oceanogr., 35, 12581266.
  • Lancaster, N. (2002), Flux of eolian sediment in the McMurdo Dry Valleys, Antarctica: A preliminary assessment, Arct. Antarct. Alpine Res., 34, 318323.
  • Löferer-Krößbacher, M., J. Klima, and R. Psenner (1998), Determination of bacterial cell dry mass by transmission and densitometric image analysis, Appl. Environ. Microbiol., 64, 688694.
  • Lyons, W. B., K. A. Welch, A. G. Fountain, G. Dana, B. H. Vaughn, and D. M. McKnight (2003), Surface glaciochemistry of Taylor Valley, southern Victoria Land, Antarctica, and its relationship to stream chemistry, Hydrol. Processes, 17, 115130.
  • McCarthy, M. D., J. I. Hedges, and R. Benner (1998), Major bacterial contribution to marine dissolved organic nitrogen, Science, 281, 231234.
  • McIntyre, N. F. (1984), Cryoconite hole thermodynamics, Can. J. Earth Sci., 21, 152156.
  • Mikucki, J. A., C. M. Foreman, J. C. Priscu, W. B. Lyons, B. Sattler, and K. Welch (2004), Geomicrobiology of Blood Falls: A saline, iron-rich sub-glacial feature of Taylor Glacier, Antarctica, Aquat. Geochem., 10, 199220.
  • Mindl, B., A. Anesio, K. Meirer, A. Hodson, J. Laybourn-Parry, R. Sommaruga, and B. Sattler (2007), Factors influencing bacterial dynamics along a transect from supraglacial runoff to proglacial lakes of a high Arctic glacier, FEMS Microbiol. Ecol., 59, 307317.
  • Moorhead, D. L., and J. C. Priscu (1998), The McMurdo Dry Valleys ecosystem: Organization, controls and linkages, in Ecosystem Dynamics in a Polar Desert, the McMurdo Dry Valleys, Antarctica, edited by J. C. Priscu, pp. 351363, Antarct. Res. Ser., vol. 72, AGU, Washington, D. C.,
  • Moorhead, D. L., P. T. Doran, W. B. Lyons, D. M. McKnight, J. C. Priscu, R. A. Virginia, and D. H. Wall (1999), Ecological legacies: Impacts on ecosystem structure of the McMurdo Dry Valleys, Bioscience, 49, 10091020.
  • Mueller, D. R., W. F. Vincent, W. H. Pollard, and C. H. Fritsen (2001), Glacial cryoconite ecosystems: A bipolar comparison of algal communities and habitats, Nova Hedwigia, 123, 171195.
  • Nordenskjöld, A. E. (1875), Cryoconite found 1870, July 19th-25th, on the inland ice, east of Auleitsivik Fjord, Disco Bay, Greenland, Geol. Mag., Decade 2, 2, 157162.
  • Paerl, H. W., and J. C. Priscu (1998), Microbial phototrophic, heterotrophic and diazotrophic activities associated with aggregates in the permanent ice cover of Lake Bonney, Antarctica, Microbial Ecol., 36, 221230.
  • Paul, E. A., and F. E. Clark (1989), Soil Microbiology and Biochemistry, Elsevier, New York.
  • Perkins, D. (2002), Mineralogy, pp. 102109, Prentice Hall, Upper Saddle River, N. J.,
  • Porazinska, D. L., A. G. Fountain, T. H. Nylen, M. Tranter, R. A. Virginia, and D. H. Wall (2004), The biodiversity and biogeochemistry of cryoconite holes from McMurdo Dry Valley glaciers, Antarctic, Arct. Antarct. Alpine Res., 36, 8491.
  • Porter, K. G., and Y. S. Feig (1980), The use of DAPI for identifying and counting aquatic microflora, Limnol. Oceanogr., 25, 943948.
  • Posch, T., J. Pernthaler, A. Alfreider, and R. Psenner (1997), Cell-specific respiratoric activity of aquatic bacteria studied with the tetrazolium reduction method, cyto-clear slides, and image analysis, Appl. Environ. Microbiol., 63, 867873.
  • Priscu, J. C. (1995), Phytoplankton nutrient deficiency in lakes of the McMurdo Dry Valleys, Antarctica, Freshwater Biol., 34, 215227.
  • Priscu, J. C. (Ed.) (1998), Ecosystem Dynamics in a Polar Desert, the McMurdo Dry Valleys, Antarctica, Antarct. Res. Ser., vol. 72, AGU, Washington, D. C.,
  • Priscu, J., C. C. H. Fritsen, E. E. Adams, S. J. Giovannoni, H. W. Paerl, C. P. McKay, P. T. Doran, D. A. Gordon, B. D. Lanoil, and J. L. Pinckney (1998), Perennial Antarctic lake ice: An oasis for life in a polar desert, Science, 280, 20952098.
  • Priscu, J. C., et al. (1999), Geomicrobiology of subglacial ice above Lake Vostok, Antarctica, Science, 286, 21412144.
  • Psenner, R., and B. Sattler (1998), Microbial communities: Life at the freezing point, Science, 280, 20732074.
  • Psenner, R., B. Sattler, A. Wille, C. H. Fritsen, J. C. Priscu, M. Felip, and J. Catalan (1999), Lake ice microbial communities in alpine and antarctic lakes, in Cold Adapted Organisms, Ecology, Physiology, Enzymology, and Molecular Biology, edited by R. Margesin, and F. Schinner, pp. 1731, Springer, New York.
  • Redfield, A. C. (1958), The biological control of chemical factors in the environment, Am. Sci., 46, 205222.
  • Reichenbach, H. (1989), Bergey's Manual of Systematic Bacteriology, vol. 3, edited by J. T. Staley et al., pp. 20152021, Lippincott Williams & Wilkins, Baltimore, Md.,
  • Sinsabaugh, R. L., and C. M. Foreman (2001), Activity profiles of bacterioplankton in a eutrophic river, Freshwater Biol., 46, 12391249.
  • Sinsabaugh, R. L., S. Findlay, P. Franchini, and D. Fisher (1997), Enzymatic analysis of riverine bacterioplankton production, Limnol. Oceanogr., 42, 2938.
  • Smith, D. (1964), Antarctic geology, Proceedings of the 1st International Symposium on Antarctic Geology, Cape Town, edited by R. J. Adie, 758 pp., Elsevier, New York.
  • Takacs, C. T., and J. C. Priscu (1998), Bacterioplankton dynamics in the McMurdo Dry Valley lakes: Production and biomass loss over four seasons, Microbial Ecol., 36, 239250.
  • Takacs, C. D., J. C. Priscu, and D. M. McKnight (2001), Bacterial dissolved organic carbon demand in McMurdo Dry Valley Lakes, Antarctica, Limnol. Oceanogr., 46, 11891194.
  • Takeuchi, N., S. Kohshima, T. Shiraiwa, and K. Kubota (2001), Characteristics of cryoconite (surface dust on glaciers) and surface albedo of a Patagonian glacier, Tyndall Glacier, southern Patagonia ice field, Bull. Glaciol. Res., 18, 6569.
  • Tranter, M., A. G. Fountain, C. H. Fritsen, W. B. Lyons, J. C. Priscu, P. Statham, and K. Welch (2004), Extreme hydrochemical conditions in natural microcosms entombed within Antarctic ice, Hydrol. Processes, 18, 379387.
  • Veblen, D. R. (Ed.) (1981), Amphiboles and other Hydrous Pyriboles–Mineralogy, Rev. Mineral., vol. 9A, 372 pp., Mineral. Soc. Am., Chantilly, Va.,
  • Welch, K. A., W. B. Lyons, E. Graham, K. Neumann, K. M. Thomas, and D. Mikesell (1996), Determination of major element chemistry from Antarctica by ion chromatography, J. Chromatogr. A, 739, 257263.
  • Wharton, R. A., W. C. Vinyard, B. C. Parker, G. M. Simmons, and K. G. Seaburg (1981), Algae in cryoconite holes on Canada Glacier in southern Victoria land, Antarctica, Phycologia, 20, 208211.
  • Wharton, R. A.Jr., C. P. McKay, G. M. Simmons, and B. C. Parker (1985), Cryoconite holes on glaciers, Bioscience, 35, 499503.