Cryptoendolithic microorganisms from Antarctic sandstone of Linnaeus Terrace (Asgard Range): diversity, properties and interactions (original) (raw)
References
Aaronson, S., Dhawale, S.W., Patni, N.J., DeAngelis, B., Frank, O. and Baker, H. (1977) The cell content and secretion of water-soluble vitamins by several freshwater algae. Arch. Microbiol.112, 57–9. Google Scholar
Anderson, D.G. and McKay, L.L. (1983) Simple and rapid method for isolating large plasmid DNA from lactic streptococci. Appl. Environ. Microbiol.46, 549–52. Google Scholar
Atlas, R.M. (1984) Use of microbial diversity measurements to assess environmental stress. In Current Perspectives in Microbial Ecology (M.J. Klug and C.A. Reddy, eds) pp. 540–5.
Atlas, R.M. and Bartha, R. (1987) Evolution and structure of microbial communities. Interactions among microbial populations In Microbial Ecology: Fundamentals and Applications, 2nd edn. Menlo Park, California: Benjamin/Cummings Publ. Comp. Google Scholar
Atlas, R.M., Horowitz, A., Krichevsky, M. and Bej, A.K. (1991) Response of microbial populations to environmental disturbance. Microb. Ecol.22, 249–56. Google Scholar
Badoud, R. and Pratz, G. (1986) Improved high-performance liquid chromatographic analysis of some carboxylic acids in food and beverages as their p-nitrophenyl esters. J. Chromatogr.360, 119–36. Google Scholar
Bird, O.D. (1963) Pantothenic acid and related compounds. In Analytical Microbiology (F. Kavanagh, ed.) New York: Academic Press. Google Scholar
Bold, H.C. (1970) Some aspects of the taxonomy of soil algae. Annu. New York Acad. Sci.175, 601–16. Google Scholar
Bull, A.T. and Slater, J.H. (1982) Microbial interactions and community structure. In Microbial Interactions and Communities (A.T. Bull and J.H. Slater, eds) pp. 13–44. London: Academic Press. Google Scholar
Caccamo, F., Carfagninii, G., Di Corcia, A. and Samperi, R. (1986) Improved high-performance liquid chromatography assays for determining organic acids in wine. J. Chromatogr.362, 47–53. Google Scholar
Campbell, I.B. and Claridge, G.G.C. (1987) Antarctica: Soils, Weathering Processes, and Environment. Amsterdam: Elsevier. Google Scholar
Dommergues, S.J. and Duchauffoir, P.K. (1965) Étude comparative de la dégradation biologique des complexes organo-ferriques dans quelques types des sols. Sci. du Sol1, 43–59. Google Scholar
Donderski, W. and Strzelczyk, E. (1974) Generic composition and nutritional requirements of bacteria isolated from three lakes. Acta Microbiol. Polon. Ser. B. 2, 67. Google Scholar
Fredrickson, A.G. and Stephanopoulos, G. (1981) Microbial competition. Science213, 972–9. Google Scholar
Friedmann, E.I. (1978) Melting snow in the dry valleys is a source of water for endolithic microorganisms. Antarct. J. USA13, 162–3. Google Scholar
Friedmann, E.I. and Kibler, A.P. (1980) Nitrogen economy of endolithic microbial communities in hot and cold deserts. Microb. Ecol.6, 95–108. Google Scholar
Friedmann, E.I. and Ocampo, R. (1976) Endolithic blue-green algae in the dry valleys: primary producers and the Antarctic desert ecosystem. Science193, 1247–9. Google Scholar
Friedmann, E.I., McKay, C.P. and Nienow, J. (1987) The cryptoendolithic microbial environment in Ross Desert of Antarctica: continuous nanoclimate data, 1984–1986. Polar Biol.7, 273–87. Google Scholar
Friedmann, E.I., Hua, M. and Ocampo-Friedmann, R. (1988) Cryptoendolithic lichen and cyanobacterial communities of the Ross Desert, Antarctica. Polarforsch.58, 251–9. Google Scholar
Fuhrman, J.A. and Ferguson, R.L. (1986) Nanomolar concentrations and rapid turnover of dissolved free amino acids in seawater: agreement between chemical and microbiological measurements. Mar. Ecol. Progr. Ser.33, 237–42. Google Scholar
Gallikowski, C. and Hirsch, P. (1988) Preliminary characterisation and identification of 1984/85 continental Antarctic soil microorganisms of Linnaeus Terrace (altitude 1600 m; McMurdo Dry Valleys). Polarforsch.58, 93–101. Google Scholar
Gliesche, G.G., Jendrach, M., Peissl, K., Siebert, J. and Hirsch, P. (1996) Characterization and transformation of plasmid pAA-1 found in an Antarctic cryptoedolithic bacterium. Canad. J. Microbiol.42, 571–76. Google Scholar
Greenfield, L.G. (1988) Forms of nitrogen in Beacon sandstone rocks containing endolithic microbial communities in Southern Victoria Land, Antarctica. Polarforsch.58, 211–8. Google Scholar
Haas, R.H., Breuer, J. and Hammen, M. (1988) High-performance liquid chromatographic measurement of selected blood citric acid cycle intermediates. J. Chromatog.425, 47–57. Google Scholar
Hirsch, P. (1987) Primary microbial colonisation of Beacon sandstone in the Dry Valleys, Ross Desert, Antarctica. Abstr., 8th Internal. Sympos. Environm. Biogeochem., Nancy.
Hirsch, P., Hoffmann, B., Gallikowski, C.C., Mevs, U., Siebert, J. and Sittig, M. (1988) Diversity and identification of heterotrophs from Antarctic rocks of the McMurdo dry valleys (Ross Desert). Polarforsch.58, 261–9. Google Scholar
Hoppe, H.G. (1993) Use of fluorogenic model substrates for extracellular enzyme activity (EEA) measurement of bacteria. In Handbook of Methods in Aquatic Microbial Ecology (P.F. Kemp, B.F. Sherr, E.B. Sherr and J.J. Kohl, eds) pp. 423–31). Boca Raton: Lewis Publishers. Google Scholar
Horowitz, N.H., Cameron, R.E. and Hubbard, J.S. (1972) Microbiology of the dry valleys of Antarctica. Science176, 242–5. Google Scholar
Kavanagh, F. (1963) Analytical Microbiology (F. Kavanagh, ed.). New York: Academic Press. Google Scholar
Kay, W.W. and Cameron, M. (1978) Citrate transport in Salmonella typhimurinum. Arch. Biochem.190, 270–80. Google Scholar
Knapp, D.R. (1979) Handbook of Analytical Derivatisation Reactions. New York: Wiley Interscience. Google Scholar
Kobori, H., Sullivan, C.W. and Shizuya, H. (1984) Bacterial plasmids in Antarctic natural microbial assemblages. Appl. Environ. Microbiol.48, 515–8. Google Scholar
Kölbel-Boelke, J., Tienken, B. and Nehrkorn, A. (1988) Microbial communities in the saturated groundwater environment. 1. Methods of isolation and characterisation of heterotrophic bacteria. Microb. Ecol.16.
Kurata, A. (1981) The production of B group vitamins by epiphytic microorganisms on macrophytes in Lake Biwa. Verh. Internat. Verein. Limnol.21, 596–9. Google Scholar
Lemons, M.L., Toranzo, A.E. and Barja, J.L. (1985) Antibiotic activity of epiphytic bacteria isolated from intertidal seaweeds. Microb. Ecol.11, 149–63. Google Scholar
Lochhead, A.G. and Burton, M.O. (1957) Qualitative studies of soil microorganisms. XIV. Specific vitamin requirements of the predominant bacterial flora. Can. J. Microbiol.3, 35–42. Google Scholar
McKay, C.P. and Friedmann, E.I. (1985) The cryptoendolithic microbial environment in the Antarctic cold desert: Temperature variations in nature. Polar Biol.4, 19–25. Google Scholar
Nealson, K.H. (1977) Autoinduction of bacterial luciferase. Arch. Mikrobiol.112, 73–9. Google Scholar
Neyra, C.A., Döbereiner, J., Lalande, R. and Knowles, R. (1977) Denitrification by N2-fixing Spirillum lipoferum. Can. J. Microbiol.23, 300–5. Google Scholar
Nienow, J.A., McKay, C.P. and Friedmann, E.I. (1988) The cryptoendolithic microbial environment in the Ross Desert of Antarctica: Light in the photosynthetically active region. Microb. Ecol.16, 271–89. Google Scholar
Nikolov, Z. and Reilly, P.J. (1983) Isothermal capillary column gas chromatography of trimethylsilyl disaccharides. J. Chromatogr.254, 157–62. Google Scholar
Ottow, J.C. and Zolg, W. (1974) Improved procedure and colorimetric test for the detection of ortho- and meta-cleavage of protocatechuate by Pseudomonas isolates. Can. J. Microbiol.20, 1059–61. Google Scholar
Palmer, R.J., Siebert, J. and Hirsch, P. (1991) Biomass and organic acids in sandstone of a weathering building: Production by bacterial and fungal isolates. Microb. Ecol.21, 253–66. Google Scholar
Porter, K. and Feig, Y.S. (1980) The use of DAPI for identifying and counting aquatic microflora. Limnol. Oceanogr.25, 943–8. Google Scholar
Richardson, D.H., Hill, D.H. and Smith, D.C. (1968) Lichen physiology. XI. The role of the alga in determining the pattern of carbohydrate movement between lichen symbionts. New Phytol.67, 469–86. Google Scholar
Schweisfurth, R. (1968) Untersuchungen bei manganoxidierenden und reduzierenden Mikroorganismen. Mitt. Internat. Verein. Limnol.14, 179–86. Google Scholar
Schwyn, B. and Neilands, J.B. (1987) Universal chemical assay for the detection and determination of siderophores. Anal. Biochem.160, 47–56. Google Scholar
Siebert, J. and Hirsch, P. (1988) Characterisation of 15 selected coccal bacteria isolated from Antarctic rock and soil samples from the McMurdo Dry Valleys (South Victoria Land). Polar Biol.9, 37–44. Google Scholar
Siebert, J., Palmer, R.J. and Hirsch, P. (1991) Analysis of free amino acids in microbially colonised sandstone by pre-column phenylisothiocyanate derivatisation and high-performance liquid chromatography. Appl. Environ. Microbiol.57, 879–81. Google Scholar
Skeggs, H.R. (1963) Biotin. In Analytical Microbiology (F. Kavanagh, ed.) pp. 421–30. New York: Academic Press. Google Scholar
Smibert, R.M. and Krieg, N.R. (1981) General characterisation. Manual of Methods for General Microbiology (P. Gerhard ed.) pp. 409–33. Washington: America Society for Microbiology. Google Scholar
Staley, J.T. (1968) Prosthecomicrobium and Ancalomicrobium, new prosthecate fresh water bacteria. J. Bacteriol.95, 1922–41. Google Scholar
Tedrow, J.C. and Ugolini, F. C. (1960) Antarctic soils. In Antarctic Soils and Soil-forming Processes (J.C. Tedrow, ed.) Am. Geophys. Union Antarct. Res. Ser.8, 161–77.
van Veldhoven, P.P. and Mannaertz, G.P. (1987) Inorganic and organic phosphate measurements in the nanomolecular range. Analyt. Biochem.161, 45–8. Google Scholar
Vestal, J.R. (1988a) Biomass of the cryptoendolithic microbiota from the Antarctic desert. Appl. Environ. Microbiol.54, 957–9. Google Scholar
Vestal, J.R. (1988b) Carbon metabolism of the cryptoendolithic microbiota from the Antarctic desert. Appl. Environ. Microbiol.54, 960–5. Google Scholar
Vestal, J.R. (1988c) Primary production of the cryptoendolithic microbiota from the Antarctic desert. Polarforsch.58, 193–8. Google Scholar
White, D.C., Davis, W.M., Nickels, J.S., King, J.D. and Bobbie, R.J. (1979) Determination of the sedimentary microbial biomass by extractable phosphate. Oecologia40, 51–62. Google Scholar
Williams, S.T. and Vickers, J.C. (1986) The ecology of antibiotic production. Microb. Ecol.12, 43–52. Google Scholar
Wynn-Williams, D.D. (1986) Microbial colonisation of Antarctic fellfield soils. Perspectives in Microbial Ecology (F. Megusar and M. Gantar, eds) pp. 191–200, Ljubljana: Slovene Society for Microbiology. Google Scholar