Environmental Engineering Reference
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[19]
Chambers L.A., Trudinger P.A., Smith J.W. and Burns M.S. Fractionation of sulfur
isotopes by continuous cultures of Desulfovibrio desulfuricans . Can J Microbiol 1975;
21:1602-07.
[20]
Chambers L.A., Trudinger P.A., Smith J.W. and Burns M.S. A possible boundary condition
in bacterial sulfur isotope fractionation. Geochim Cosmochim Ac 1976; 46:721-28.
[21]
Cypionka H., Smock M.E. and Bottcher M.E. A combined pathway of sulfur compound
disproportionation in Desulfovibrio desulfuricans . FEMS Microbiol Lett 1998; 166:181-
86.
[22]
Danilchenko P.T. and Chigirin N.I. About origin of hydrogen sulfide in the Black Sea. Tr.
Sevastopol'skoi biol. St. Akad. Nauk SSSR 1926; (10):141-52. (In Russian)
[23]
Detmers J., Br uchert V., Habicht K.S. and Kuever J. Diversity of sulfur isotope fraction-
ations by sulfate reducing prokaryotes. Appl Environ Microbiol 2001; 67:888-94.
[24]
Deuser W.G. Isotopic evidence for diminishing supply of available carbon during diatom
bloom in the Black Sea. Nature 1970a; 225:1069-71.
[25]
Deuser W.G. Carbon-13 in Black Sea waters and implications for the origin of hydrogen
sulphide. Science 1970b; 168(3937):1575-77.
[26]
Dimitrov L. Contribution to atmospheric methane by natural seepages on the Bulgarian
continental shelf. Continental Shelf Res 2002; 22:2429-42.
[27]
Egorov V.N. Methane distribution in the water column and bottom sediments of the NE
part of the Black Sea. NATO ARW Past and present water column anoxia,4-8.Oct.
2003, Crimea, 34-36.
[28]
Egorov V.N., Polikarpov G.G., Gulin S.B., Artemov Yu.G., Stakosov M.A. and Kostova
S.K. Modern concept about forming-casting and ecological role of methane gas seeps from
bottom of the Black Sea. Morskoy ecologicheskii zhurnal 2004; 3:5-26. (In Russian).
[29]
Gal'chenko V.F., Lein A.Yu. and Ivanov M.V. (a). Methane content in the bottom sedi-
ments and water column of the Black Sea. Microbiol 2004; 73(2):258-70.
[30]
Gal'chenko V.F., Lein A.Yu. and Ivanov M.V. (b). Rates of microbial production and
oxidation of methane in the bottom sediments and water column of the Black Sea.
Microbiol 2004, 73(2):271-83.
[31]
Galimov E.M., Kodina L.A., Zhiltsova L.I. and Vlasova L.N. Organic carbon geochem-
istry in the northwestern Black Sea - Danube river system. Geochemistry International
1999; 7:675-85.
[32]
Galimov E.M., Kodina L.A., Zhiltsova L.I., Tokarev V.G., Vlasova L.N., Bogacheva M.P.,
Korobeinik G.S. and Vaisman T.I. Organic carbon geochemistry in the northwestern Black
Sea - Danube river system. Estuar Coast and Shelf Sci 2002; 64(3):631-41.
[33]
Ginsburg G.D. and Soloviev V.A. Submarine Gas Hydrates. Statoil, Norway, 1998.
[34]
Gulin M.B. Study of bacterial processes of sulphate reduction and chemosyntesis in waters
of the Black Sea. Ph.D. thesis, Institute of the Biology of the Southern Seas, Sevastopol,
1991; 20. (In Russian)
[35]
Freeman K.H. “Isotope biogeochemistry of marine organic carbon.“ In Stable isotope
geochemistry. Valley J.W. and Cole D.R. eds., Rev mineral geochem 2001; 43:579-606.
[36]
Fry D., Jannash H.-W., Molinaux S.I., Wirsen S.O., Muramoto J.A. and King S. Stable
isotope studies of the carbon, sulphur and nitrogen cycles in the Black Sea and Cariaco
Trench. Deep Sea Res 1991; 38:1003-19.
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