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Geomicrobiology Journal Volume 24, 2007 - Issue 2
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Original Articles

Stimulation of Sulfate-Reducing Activity at Salt-Saturation in the Salterns of Ribandar, Goa, India

S. Kerkar Department of Biotechnology, Goa University, Goa, 403 206, India
&
P. A. Loka Bharathi National Institute of Oceanography, Dona Paula, Goa, 403 404, India
Pages 101-110 | Received 26 Sep 2006, Accepted 19 Jan 2007, Published online: 11 Apr 2007

REFERENCES

  • Albrechtsen , H J and Winding , A . 1992 . Microbial biomass and activity in sub-surface sediments from Vejen, Denmark . Microb Ecol , 23 : 303 – 317 .
  • Allen , S E , Grimshaw , H M , Parkinson , J A , Quarmby , C and Roberts , J D . 1976 . Chemical analysis in Methods in plant ecology , Edited by: Chapman , S B . 411 – 466 . Oxford : Blackwell Scientific Publications . Chapter 13
  • Brandt , K KB , Patel , K C and Ingvorsen , K . 1999 . Desulfocella halophila gen nov, sp nov, a halophilic fatty acid-oxidizing sulfate reducing bacterium isolated from sediments of the Great Salt Lake . Int J Syst Bacteriol , 49 : 193 – 200 .
  • Carpenter , J H . 1965 . The Chesapeake bay institute technique for the Winkler dissolved oxygen method . Limnol Oceanogr , 10 : 141 – 143 .
  • Carver , R E , ed. 1971 . Procedures in Sedimentary Petrology , 653 New York : Wiley-Interscience .
  • Caumette , P , Matheron , R , Raymond , N and Relexans , J C . 1994 . Microbial mats in the hypersaline ponds of Mediterranean salterns (Salins-de-Giraud, France) . FEMS Microbiol Ecol , 13 : 273 – 286 .
  • Clesceri , L S , Greenberg , A E and Eaton , A D . 1998 . Standard Methods for the Examination of Waste and Wastewater. , 20th edition , Virginia : CRC press . American Public Health Association. Handbook of water and waste water treatment plant operations
  • 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 : 39 – 45 .
  • Day , P R . 1965 . “ Particle fractionation and particle-size analysis ” . In Methods of Soil Analysis, Part 1 , Edited by: Black , C A . 545 – 567 . Madison, WI : American Society of Agronomy, Inc. .
  • Hatchikian , E C . 1972 . Mechanism d'oxido-reduction chez les bacteries sulfato-reductrices , Thesis Marseilles
  • J–⊘rgensen , B B . 1977 . Bacterial sulfate reduction within reduced microniches of oxidized marine sediments . Mar Biol , 41 : 7 – 17 .
  • J–⊘rgensen , B B . 1982 . Mineralization of organic matter in the sea bed. The role of sulfate reduction . Nature , 296 : 643 – 645 .
  • J–⊘rgensen , B B , Bang , M and Blackburn , T H . 1990 . Anaerobic mineralisation in marine sediments from the Baltic Sea-North Sea transition . Mar Ecol Prog Ser , 59 : 39 – 54 .
  • J–⊘rgensen , B B and Bak , F . 1991 . Pathways and microbiology of thiosulfate transformations and sulfate reduction in a marine sediment (Kattegat, Denmark) . Appl Environ Microbiol , 57 ( 3 ) : 847 – 856 .
  • Kamat , N . 1977 . Santa Cruz: The ecological mysteries of a Goan village http://www.geocities.com//Athens/Forum/1503/5-Cruz.html
  • Kerkar , S . 2004 . Studies on Bacteria of the Dissimilatory Reductive Processes of the Sulfur Cycle from the Saltpans of Goa , Ph.D. in Marine Sciences Goa, , India : Goa University .
  • King , G M . 2001 . “ Radiotracer Assay (35S) of sulfate-reduction rates in marine and freshwater sediments ” . In Methods in Microbiology , Edited by: Paul , J . vol. 30 , New York : Academic Press . chapter 24
  • Klug , M , Boston , P , Francois , R , Gyure , R , Javor , B , Tribble , G and Vairavamurty , A . 1985 . “ Sulfur reduction in marine and evaporate environment ” . In The Global Sulphur Cycle NASA Technical Memorandum Edited by: Sagen , D . 128 – 157 . Washington, DC 87570
  • Le Gall , J and Postgate , J R . 1973 . “ The physiology of sulfate reducing bacteria ” . In Advances in Microbial Physiology , Edited by: Toyent , D W . vol 10 , 81 – 133 . New York : Academic Press .
  • Li , J-H , Takii , S , Kotakemori , R and Hayashi , H . 1996 . Sulfate reduction in profundal sediments in Lake Kizaki, Japan . Hydrobiologica , 333 : 201 – 208 .
  • Li , J-H , Purdy , K J , Takii , S and Hayashi , H . 1999 . Seasonal changes in ribosomal RNA of sulfate-reducing bacteria and sulfate reducing activity in a freshwater lake sediment . FEMS Microb Ecol , 28 : 31 – 39 .
  • Loka Bharati , P A , Nair , S and Chandramohan , D . 1997 . Anaerobic sulphide oxidation in marine Thiobacillus-like organisms . J Mar Biotech , 5 : 172 – 175 .
  • Nedwell , D B . 1984 . The input and mineralization of organic carbon in anaerobic aquatic sediments . Adv Microbial Ecol , 7 : 93 – 131 .
  • Ollivier , B , Caumette , P , Garcia , J L and Mah , R A . 1994 . Anaerobic bacteria from hypersaline environments . Microbiol Rev , 58 ( 1 ) : 27 – 38 .
  • Oren , A . 1998 . Anaerobic degradation of organic compounds at high salt concentrations . Ant Van Leeuwen , 54 : 267 – 277 .
  • Pachmayr , F . 1960 . Vorkommen and Bestimmung von Schwefelvenbindungen in Mineral wasser , Thesis University of Munich .
  • Postgate , J R . 1984 . The Sulphate Reducing Bacteria, , 2nd ed. , Cambridge : Cambridge University Press .
  • Rabus , R , Hansen , T and Widdel , F . 2000 . “ Dissimilatory sulfate-and sulfur-reducing prokaryotes ” . In Ecophysiology & Biochemistry , Edited by: Dworkin , M , Falkow , S and Rosenberg , E . vol. 2 , New York : Springer .
  • Smart , R M and Barko , J W . 1978 . Influence of sediment salinity and nutrients on the physiological ecology of selected salt marsh plants . Estuarine Coastal Mar Sci , 7 : 487 – 495 .
  • Schlegel , H G and Truper , H G . 1964 . Sulfur metabolism in Thiorhodaceae . I Quantitative measurements on growing cells of Chromatium okenii. Antoine van Leeuwenhoek J Microbial Serol , 302 : 225 – 238 .
  • Takii , S and Fukui , M . 1991 . Relative importance of methanogenesis, sulfate reduction and denitrification in sediments of the lower Tama river . Bull Jap Soc Micro Ecol , 6 : 1 – 8 .
  • Teske , A , Ramsing , N B , Habicht , K , Fukui , M , Kuver , J , J–⊘rgensen , B B and Cohen , Y . 1998 . Sulfate-reducing bacteria and their activities in Cyanobacterial mats of Solar Lake (Sinai, Egypt) . Appl Environ Microbiol , 64 ( 8 ) : 2943 – 2951 .
  • Volkov , I I , Dyrssen , D and Rozanov , A G . 1998 . Water alkalinity and anaerobic mineralization of organic matter in the Sea . Geokhimiya , 36 : 69 – 78 .
  • Widdel , F . 1988 . “ Microbiology and ecology of sulfate and sulfur-reducing bacteria ” . In Biology of Anaerobic Micro-organisms , Edited by: Zehnder , A JB . 469 – 585 . New York : John Wiley and Sons .

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