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SIL Proceedings, 1922-2010
Internationale Vereinigung für Theoretische und Angewandte Limnologie: Verhandlungen
Volume 24, 1991 - Issue 4
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XII. Ecology of Aquatic Organisms. 1. Microbes

Bacterial processes in sediments: Comparative studies in the Lake Stechlin area

H.-D. Babenzien
,
P. Casper
&
Ch. Babenzien
Pages 2613-2617 | Published online: 01 Dec 2017

References

  • Babenzien, H.-D. & Babenzien, Ch., 1986: Desulfurikation im Stoffhaushalt der Gewässer. — Limnologica 17: 149–153.
  • Babenzien, H.-D. & Babenzien, Ch., 1990: Bacteriological activities in a naturally acidotrophic lake. — Arch. Hydrobiol. Beih. Ergebn. Limnol. 34: 175–181.
  • Bak, F., 1988: Sulfatreduzierende Bakterien und ihre Aktivität im Litoralsediment der Unteren Güll (Überlinger See). — Thesis, Univ. Konstanz, 123 pp.
  • Boström, B., Andersen, J. M., Fleischer, S. & Jansson, M., 1988: Exchange of phosphorus across the sediment-water interface. — Hydrobiologia 170: 229–244.
  • Cappenberg, Th. E., Hordijk, E. A. & Hagenaars, C. P. M. M., 1984: A comparison of bacterial sulfate reduction and methanogenesis in the anaerobic sediments of a stratified lake-ecosystem. — Arch. Hydrobiol. Ergebn. Limnol. 19: 191–199.
  • Casper, P., 1990: Input and mineralization of organic carbon in lakes. — Arch. Hydrobiol. Ergebn. Limnol 34: 131–135.
  • Casper, S. J. (Ed.), 1985: Lake Stechlin — A temperate oligotrophic lake. — Monogr. Biol. 58: XIV + 550 pp., Dr. W. Junk Publ., Dordrecht-Boston-Lancaster.
  • Heyer, J. & Babenzien, H.-D., 1985: Untersuchungen des Methankreislaufes in einem oligotrophen See (Stechlinsee). — Limnologica 16: 267–276.
  • Hordijk, K. A., Haagenars, C. P. M. M. & Cappenberg, Th. E., 1985: Kinetic studies of bacteria sulfate reduction in freshwater sediments by high-pressure liquid chromatography and microdestillation. — Appl. Environ. Microbiol. 49: 434–440.
  • King, G. M. & Klug, M. J., 1982: Comparative aspects of sulfur mineralization in sediments of a eutrophic lake basin. — Appl. Environ. Microbiol. 43: 1406–1412.
  • Kuivila, K. M., Murray, J. W., Devol, A. H. & Novelli, P. C., 1989: Methane production, sulfate reduction and competition for substrates in the sediments of Lake Washington. — Geochim. Cosmo- chim. Acta 53: 409–416.
  • Lovley, D. R. & Klug, M. J., 1986: Model for distribution of sulfate reduction and methanogenesis in freshwater sediments. — Geochim. Cosmochim. Acta 50: 11–18.
  • Ward, D. M. & Winfrey, M. R., 1985: Interactions between methanogenic and sulfate-reducing bacteria in sediments. — Adv. Aquat. Microbiol. 3: 141–179.
  • Zeikus, J. G., 1983: Metabolic communication between biodegradative populations in nature. — In: Slater, J. H., Whittenburry, R. & Wimpenny, J. W. T. (Eds.): Microbes in their natural environments. 34. SGM Sympos.: 423–462. — Cambridge, Univ. Press.

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