L'action du potentiel redox du milieu sur la production d'hydrogène sulfuré par les bactéries sulfatoréductricesVAJNSHTEJN, M. B; GOGOTOVA, G. I.Mikrobiologija (Moskva). 1987, Vol 56, Num 1, pp 31-35Article

Sulfate-reduction in the anaerobic digestion of animal wasteUEKI, A; MATSUDA, K; OHTSUKI, C et al.Journal of General and Applied Microbiology. 1986, Vol 32, Num 2, pp 111-123, issn 0022-1260Article

Utilisation de dioxyde de carbone par les bactéries sulfatoréductricesFIRSOV, N. N; SURKOVA, I. G; TROTSENKO, YU. A et al.Mikrobiologija (Moskva). 1988, Vol 57, Num 2, pp 192-197Article

Redox studies of the tetraheme cytochrome c₃ isolated from the propionate-oxidizing, sulfate-reducing bacterium Desulfobulbus elongatusSAMAIN, E; ALBAGNAC, G; LEGALL, J et al.FEBS letters. 1986, Vol 204, Num 2, pp 247-250, issn 0014-5793Article

Reclassification de Desulfovibrio thermophilus (Rozanova, Khudyakova, 1974)ROZANOVA, E. P; PIVOVAROVA, T. A.Mikrobiologija (Moskva). 1988, Vol 57, Num 1, pp 102-106Article

Desulfatomaculum kuznetsovii sp. nov. une nouvelle bactérie sporagère, thermophile, méthylotrophe, sulfatoréductriceNAZINA, T. N; IVANOVA, A. E; KANCHAVELI, L. P et al.Mikrobiologija (Moskva). 1988, Vol 57, Num 5, pp 823-827Article

Isolation of a sulfate-reducing bacterium growing with methanolNANNINGA, H. J; GOTTSCHAL, J. C.FEMS microbiology letters. 1986, Vol 38, Num 2, pp 125-130, issn 0378-1097Article

An unusual strain of Desulfovibrio sp. from an Antarctic lakeREES, G. N; JANSSEN, P. H; HARFOOT, C. G et al.FEMS microbiology letters. 1986, Vol 37, Num 3, pp 363-366, issn 0378-1097Article

Biofilm dynamics and kinetics during high-rate sulfate reduction under anaerobic conditionsNIELSEN, P. H.Applied and environmental microbiology (Print). 1987, Vol 53, Num 1, pp 27-32, issn 0099-2240Article

Hydrogenase activity in aged, nonviable Desulfovibrio vulgaris cultures and its significance in anaerobic biocorrosionCHATELUS, C; CARRIER, P; SAIGNES, P et al.Applied and environmental microbiology (Print). 1987, Vol 53, Num 7, pp 1708-1710, issn 0099-2240Article

Corroding iron as a hydrogen source for sulphate reduction in growing cultures of sulphate-reducind bacteriaCORD-RUWISCH, R; WIDDEL, F.Applied microbiology and biotechnology. 1986, Vol 25, Num 2, pp 169-174, issn 0175-7598Article

Interspecies hydrogen transfer in co-cultures of methanol-utilizing acidogens and sulfate-reducing or methanogenic bacteriaHEIJTHUIJSEN, J. H. F. G; HANSEN, T. A.FEMS microbiology letters. 1986, Vol 38, Num 1, pp 57-64, issn 0378-1097Article

Nickel utilization by microorganismsHAUSINGER, R. P.Microbiological reviews. 1987, Vol 51, Num 1, pp 22-42, issn 0146-0749Article

Properties of Desulfovibrio carbinolicus sp. nov. and other sulfate-reducing bacteria isolated from an anaerobic-purification plantNANNINGA, H. J; GOTTSCHAL, J. C.Applied and environmental microbiology (Print). 1987, Vol 53, Num 4, pp 802-809, issn 0099-2240Article

Sulfate Reduction at pH 4.0 for Treatment of Process and WastewatersBIJMANS, Martijn F. M; DE VRIES, Erik; YANG, Chun-Hui et al.Biotechnology progress. 2010, Vol 26, Num 4, pp 1029-1037, issn 8756-7938, 9 p.Article

5'-Methylbenzimidazolyl-cobamides are the corrinoids from some sulfate-reducing and sulfur-metabolizing bacteriaKRÄUTLER, B; KOHLER, H.-P. E; STUPPERICH, E et al.European journal of biochemistry (Print). 1988, Vol 176, Num 2, pp 461-469, issn 0014-2956Article

Acetate Production from Oil under Sulfate-Reducing Conditions in Bioreactors Injected with Sulfate and NitrateCALLBECK, Cameron M; AGRAWAL, Akhil; VOORDOUW, Gerrit et al.Applied and environmental microbiology (Print). 2013, Vol 79, Num 16, pp 5059-5068, issn 0099-2240, 10 p.Article

A convenient method for detecting sulphate-reducing bacteriaSHARMA, V. K; HOBSON, P. N.Letters in applied microbiology. 1987, Vol 5, Num 1, pp 9-10, issn 0266-8254Article

Growth yields of Desulfotomaculum orientis with hydrogen in chemostat cultureCYPIONKA, H; PFENNIG, N.Archives of microbiology. 1986, Vol 143, Num 4, pp 396-399, issn 0302-8933Article

Methane production from formate by syntrophic association of Methanobacterium bryantii and Desulfovibrio vulgaris JJGUYOT, J.-P; BRAUMAN, A.Applied and environmental microbiology (Print). 1986, Vol 52, Num 6, pp 1436-1437, issn 0099-2240Article

End products of anaerobic chitin degradation by salt marsh bacteria as substrates for dissimilatory sulfate reduction and methanogenesisBOYER, J. N.Applied and environmental microbiology (Print). 1986, Vol 52, Num 6, pp 1415-1418, issn 0099-2240Article

Distribution pattern of sulphate reducing and thiosulphate oxidizing bacterial populations in fish ponds of differing forming managementsJANA, B. B; PATEL, G. N.Hydrobiologia (The Hague). 1985, Vol 127, Num 2, pp 171-185, issn 0018-8158Article

Interactions between methanogenic and sulfate-reducing bacteria in sedimentsWARD, D. M; WINFREY, M. R.Advances in aquatic microbiology. 1985, Vol 3, pp 141-179, issn 0140-2625Article

Distribution and regulation of nitrate and nitrite reduction by Desulfovibrio and Desulfotomaculum speciesMITCHELL, G. J; GWYNFRYN JONES, J; COLE, J. A et al.Archives of microbiology. 1986, Vol 144, Num 1, pp 35-40, issn 0302-8933Article

Modified radiorespirometric assay for determining the sulfate reduction activity of biofilms on metal surfacesMAXWELL, S; HAMILTON, W. A.Journal of microbiological methods. 1986, Vol 5, Num 2, pp 83-91, issn 0167-7012Article