• 1
    Sørensen, J., Jørgensen B.B. and Revsbech, N.P. (1979) A comparison of oxygen, nitrate, and sulfate respiration in coastal marine sediments. Microb. Ecol. 5, 105–115.
  • 2
    Schink, B. (1989) Mikrobielle Lebensgemeinschaften in Gewässersedimenten. Naturwissensch. 76, 364372.
  • 3
    Kuivila, K.M., Murray J.W. and Devol, A.H. (1989) Methane production, sulfate reduction and competition for substrates in the sediments of Lake Washington. Geochim. Cosmochim. Acta 53, 409416.
  • 4
    Ingvorsen, K., Zeikus, J.G. and Brock, T.D. (1981) Dynamics of bacterial sulfate reduction in a eutrophic lake. Appl. Environ. Microbiol. 42, 10291036.
  • 5
    Jørgensen, B.B. (1977) The sulfur cycle of a coastal marine sediment. Limnol. Oceanogr. 22, 814–832.
  • 6
    Smith, R.L. and Klug, M.J. (1981) Reduction of sulfur compounds in the sediments of a eutrophic lake basin. Appl. Environ. Microbiol. 41, 12301237.
  • 7
    Jørgensen, B.B. (1990) The sulfur cycle of freshwater sediments: role of thiosulfate. Limnol. Oceanogr. 35, 1329–1342.
  • 8
    Cypionka, H., Widdel, F. and Pfennig, N. (1985) Survival of sulfate-reducing bacteria after oxygen stress, and growth in sulfate-free oxygen-sulfide gradients. FEMS Microbiol. Ecol. 31, 3945.
  • 9
    Fukui, M. and Takii, S. (1990) Survival of sulfate-reducing bacteria in oxic surface sediment of a seawater lake. FEMS Microbiol. Ecol. 73, 317322.
  • 10
    Dilling, W. and Cypionka, H. (1990) Aerobic respiration in sulfate-reducing bacteria. FEMS Microbiol. Lett. 71, 123128.
  • 11
    Dannenberg, S., Kroder, M., Dilling, W. and Cypionka, H. (1992) Oxidation of H2, organic compounds and inorganic sulfur compounds coupled to reduction of O2 or nitrate by sulfate-reducing bacteria. Arch. Microbiol. 158, 9399.
  • 12
    Santos, H., Fareleira, P., Xavier, A.V., Chen, L., Liu, M.Y. and Legall, J. (1993) Aerobic metabolism of carbon reserves by the obligate anaerobe Desulfovibrio gigas. Biochem. Biophys. Res. Commun. 195, 551557.
  • 13
    Battersby, N.S., Malcolm, S.J., Brown, C.M. and Stanley, S.O. (1985) Sulphate reduction in oxic and suboxic north east Atlantic sediments. FEMS Microbiol. Ecol. 31, 225228.
  • 14
    Laanbroek, H.J. and Pfennig, N. (1981) Oxidation of short-chain fatty acids by sulfate-reducing bacteria in freshwater and marine sediments. Arch. Microbiol. 128, 330335.
  • 15
    Hardy, J.A. and Hamilton, W.A. (1981) The oxygen tolerance of sulphate-reducing bacteria isolated from North Sea waters. Current Microbiol. 6, 259262.
  • 16
    Jørgensen, B.B. and Bak, F. (1991) Pathways and microbiology of thiosulfate transformations and sulfate reduction in a marine sediment (Kattegatt, Denmark). Appl. Environ. Microbiol. 57, 847–856.
  • 17
    Canfield, D.E. and DesMarais, D.J. (1991) Aerobic sulfate reduction in microbial mats. Science 251, 14711473.
  • 18
    Fründ, C. and Cohen, Y. (1992) Diurnal cycles of sulfate reduction under oxic conditions in cyanobacterial mats. Appl. Environ. Microbiol. 58, 7077.
  • 19
    Visscher, P.T., Prins, R.A. and van Gemerden, H. (1992) Rates of sulfate reduction and thiosulfate consumption in a marine microbial mat. FEMS Microbiol. Ecol. 86, 283294.
  • 20
    Marschall, C., Frenzel, P. and Cypionka, H. (1993) Influence of oxygen on sulfate reduction and growth of sulfate-reducing bacteria. Arch. Microbiol. 159, 168173.
  • 21
    Abdollahi, H. and Wimpenny, J.W.T. (1990) Effects of oxygen on the growth of Desulfovibrio desulfuricans. J. Gen. Microbiol. 136, 10251030.
  • 22
    Ramsing, N.B., Kühl, M. and Jørgensen, B.B. (1993) Distribution of sulfate-reducing bacteria, O2, and H2S in photosynthetic biofilms determined by oligonucleotide probes and microelectrodes. Appl. Environ. Microbiol. 59, 3840–3849.
  • 23
    Teske, A., Wawer, C., Muyzer, G. and Ramsing, N.B. (1996) Distribution of sulfate-reducing bacteria in a stratified fjord (Mariager Fjord, Denmark) as evaluated by most-probable-number counts and denaturing gradient gel electrophoresis of PCR-amplified ribosomal DNA fragments. Appl. Environ. Microbiol. 62, 14051415.
  • 24
    Bak, F. and Pfennig, N. (1991) Sulfate-reducing bacteria in littoral sediment of Lake Constance. FEMS Microbiol. Ecol. 85, 4352.
  • 25
    Widdel, F. (1988) Microbiology and ecology of sulfate-reducing and sulfur-reducing bacteria. In: Biology of Anaerobic Microorganisms. (Zehnder, A.J.B., Ed.), pp. 469–585. John Wiley and Sons Inc., New York.
  • 26
    Babenzien, H.-D., Casper, P. and Babenzien, C. (1991) Bacterial processes in sediments: Comparative studies in the Lake Stechlin area. Verh. Internat. Verein. Limnol. 24, 26132617.
  • 27
    Collins, V.G. (1977) Methods in sediment microbiology. In: Advances in Aquatic Microbiology (Droop, M.R. and Jannasch, H.W., Eds.), pp. 219–273. Academic Press, London, New York, San Francisco.
  • 28
    Bak, F. and N. Pfennig (1991) Microbial sulfate reduction in littoral sediment of Lake Constance. FEMS Microbiol. Ecol. 85, 31–42
  • 29
    Bak, F., Scheff, G. and Jansen, K.H. (1991) A rapid and sensitive ion chromatographic technique for the determination of sulfate and sulfate reduction rates in freshwater lake sediments. FEMS Microbiol. Ecol. 85, 2330.
  • 30
    Revsbech, N.P. and Jørgensen, B.B. (1986) Microelectrodes: their use in microbial ecology. Adv. Microb. Ecol. 9, 293–352.
  • 31
    Rosser, H.R. and Hamilton, W.A. (1983) Simple assay for accurate determination of [35S]sulfate reduction activity. Appl. Environ. Microbiol. 45, 19561959.
  • 32
    Fossing, H. and Jørgensen, B.B. (1989) Measurement of bacterial sulfate reduction in sediments: evaluation of a single-step chromium reduction method. Biogeochemistry 8, 205–222.
  • 33
    Widdel, F. and Bak, F. (1992) Gram-negative mesophilic sulfate-reducing bacteria. In: The Prokaryotes. A handbook on the biology of bacteria: ecophysiology, isolation, identification, applications (Balows, A., Trüper, H.G., Dworkin, M., Harder, W. and Schleifer, K.H., Eds.), pp. 3352–3372. Springer, New York.
  • 34
    Cord-Ruwisch, R. (1985) A quick method for the determination of dissolved and precipitated sulfides in cultures of sulfate-reducing bacteria. J. Microbiol. Methods 4, 3336.
  • 35
    Tabatabai, M.A. (1974) Determination of sulfate in water samples. Sulphur Inst. J. 10, 1113.
  • 36
    Widdel, F. and Pfennig, N. (1984) Dissimilatory sulfate- or sulfur-reducing bacteria. In: Bergey's Manual of Systematic Bacteriology, Vol. 1 (Krieg, N.R. and Holt, J.G., Eds.), pp. 663–679. Williams and Wilkins, Baltimore, London.
  • 37
    Postgate, J.R. (1959) A diagnostic reaction of Desulphovibrio desulphuricans. Nature 183, 481482.
  • 38
    Cypionka, H. (1994) Sulfate transport. Methods Enzymol. 243, 314.
  • 39
    Sass, H., Cypionka, H. and Babenzien, H.-D. (1996) Sulfate-reducing bacteria from the oxic layers of the oligotrophic Lake Stechlin. Arch. Hydrobiol. Spec. Issues Advanc. Limnol. 48, 241246.
  • 40
    Hulton, C.S.J., Higgins, C.F. and Sharp, P.M. (1991) ERIC sequences: a novel family of repetitive elements in the genomes of Echerichia coli, Salmonella typhimirium, and other enterobacteria. Mol. Microbiol. 5, 825834.
  • 41
    Klemps, R., Cypionka, H., Widdel, F. and Pfennig, N. (1985) Growth with hydrogen and further physiological characteristics of Desulfotomaculum species. Arch. Microbiol. 143, 203208.
  • 42
    Risatti, J.B., Capman, W.C. and Stahl, D.A. (1994) Community structure of a microbial mat: The phylogenetic dimension. Proc. Natl. Acad. Sci. USA 91, 1017310177.
  • 43
    Hüttel, M. and Gust, G. (1992) Impact of bioroughness on interfacial solute exchange in permeable sediments. Mar. Ecol. Prog. Ser. 89, 253267.
  • 44
    Bak, F. (1988) Sulfatreduzierende Bakterien und ihre Aktivität im Litoralsediment der Unteren Güll (Überlinger See). PhD Thesis, University of Constance, FRG.
  • 45
    Babenzien, H.-D. (1988) Bakteriologische Parameter und Biomonitoring von Gewässern: Ein Standortvergleich. Limnologica (Berlin) 19, 131145.