Environmental Engineering Reference
In-Depth Information
[72]
Summons R.E. and Powell T.G. Identification of aryl isoprenoids in source rocks and
crude oils: biological markers for the green sulfur bacteria. Geochim Cosmochim Acta
1987; 59:521-33.
[73]
Tuschak C., Glaeser J., Overmann J. Specific detection of green sulfur bacteria by in situ-
hybridization with a fluorescently labeled oligonucleotide probe. Arch Microbiol 1999;
171:265-72.
[74]
van Gemerden H. and Mas. J. “Ecology of purple sulfur bacteria.” In:
Anoxygenic Pho-
tosynthetic Bacteria
, Blankenship RE, Madigan MT, Bauer CE eds., Kluwer Academic
Publishers, 1995.
[75]
Vetriani C., Tran H.V. and Kerkhof L.J. Fingerprinting microbial assemblages from the
oxic/anoxic chemocline of the Black Sea. Appl Environ Microbiol 2003; 69:6481-88.
[76]
Wakeham S.G. Lipid biomarkers for heterotrophic alteration of suspended particulate
organic matter in oxygenated and anoxic water columns of the ocean. Deep-Sea Res
1995; 42:1749-71.
[77]
Wakeham S.G., Sinnighe Damste J.S., Kohnen M.E.L. and DeLeeuw J.W. Organic sulfur
compounds formed during early diagenesis in Black Sea sediments. Geochim Cosmochim
Acta 1995; 59:521-33.
[78]
Wakeham S.G., Lewis C.M., Hopmans E.C., Schouten S., Sinninghe Damste J.S. Archaea
mediate anaerobic oxidation of methane in deep euxinic waters of the Black Sea. Geochim
Cosmochim Acta 2003; 67:1359-74.
[79]
Zenkewitch L.
Biology of the Seas of the U.S.S.R.
London: Allen and Unwin, 1963.
[80]
Zubkov M.V., Sazhin A.F. and Flint M.V. The microplankton organisms at the oxic-anoxic
interface in the pelagial of the Black Sea. FEMS Microbiol Ecol 1992; 101:245-50.