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Tytuł artykułu

Udział mikroorganizmów w przebiegu procesów biogeochemicznych w geologicznych środowiskach przypowierzchniowych. Część II - mikroorganizmy beztlenowe

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Treść / Zawartość
Identyfikatory
Warianty tytułu
EN
Participation of microorganisms in biogeochemical processes in geological near-surface environment.
Języki publikacji
PL
Abstrakty
EN
Microorganisms play key roles in the biosphere, particularly in the areas of element biotransformations and biogeochemical cycling, mineral transformations, decomposition, bioweathering, and soil and sediment formation. Direct and indirect physical, chemical and biochemical mechanisms are involved in mineral biotransformation by microbes. The role of anaerobic microorganisms and influence of their activity products on geological environmental condition in the weathering zone of lithosphere is discussed. The most important anaerobic microorganisms are sulphate-reducing bacteria (SRB) and methanogenic Archaea. These groups of microorganisms play significant role in biodegradation of organic matter and participate in formation of different kind of mineral phases e.g. carbonates and metal sulphides.
Rocznik
Strony
1098--1102
Opis fizyczny
Bibliogr. 38 poz., tab., wykr.
Twórcy
autor
  • Uniwersytet Warszawski, Wydział Geologii, Instytut Geochemii, Mineralogii i Petrologii, Zakład Mineralogii, ul. Żwirki i Wigury 93, 02-089 Warszawa, d.wolicka@uw.edu.pl
Bibliografia
  • BRAISSANT O., DECHO A.W., DUPRAZ C., GLUNK C., PRZEKOP K.M. & VISSCHER P.T., 2007 - Exopolymeric substances of sulfate reducing bacteria: Interactions with calcium at alkaline pH and implication for formation of carbonate minerals. Geobiology, 5: 401-411.
  • COLLERAN E., FINNEGAN S. & LENS P. 1995 - Anaerobic treatment of sulphate-containing waste streams. Antonie van Leeuwenhśk, 67: 29-46.
  • DUPRAZ C. & VISSCHER P. 2005 - Microbial lithification in marine stromatolites and hypersaline mats. Trends in Microbiol., 13: 429-438.
  • EHLERS C., GRABBE R., VEIT K. & SCHMITZ R.A. 2002 - Characterization of GlnK1 from Methanosarcina mazei Strain Gö1: Complementation of an Escherichia coli glnK Mutant Strain by GlnK1. Journ. of Bacteriol., 4: 1028-1040.
  • ELIAS D.A., KRUMHOLZ L.R., TANNER R.S. & SUFLITA J.M. 1999 - Estimation of methanogen biomass by quantitation of cśnzyme M. Appl. Environ. Microbiol., 12: 5541-5545.
  • FAUQUE G., LEGALL J. & BARTON L.L. 1991 - Sulfate-reducing and sulfur reducing bacteria. Variations in autotrophic life. Eds Shively J.M.I Barton L.L. Academic Press Ltd.
  • GOULD W.D., FRANCIS M., BLOWES D.W. & KROUSE H.R. 1997 - Biomineralization: Microbiological formation of sulfide minerals. Biological-Mineralogical Interactions, 25: 169-186.
  • HAO O.J., CHEN J.M., HUANG L. & BUGLASS R.L. 1996 - Sulfate- reducing bacteria. Critical Reviews in Environmental Science and Technology, 26: 155-187.
  • JEANTHON C., L'HARIDON S., REYSENBACH A.L., CORRE E., VERNET M., MESSNER P., SLEYTR U.B. & PRIEUR D. 1999 - Methanococcus vulcanicus sp. nov., a novel hyperthermophilic methanogen isolated from East Pacific Rise, and identification of Methanococcus sp. DSM 4213T as Methanococcus fervens sp. nov. International Journal of Systematic Bacteriology, 49: 583-589.
  • JORGENSEN B.B. 1982 - Mineralization of organic matter in the sea bed - the role of sulphate reduction. Nature, 296: 643-645.
  • KALYUZHNYI S., FEDOROVICH V., LENS P., POL L.H. & LETTINGA G. 1998 - Mathematical modelling as a tool to study population dynamics between sulfate reducing and methanogenic bacteria. Biodegradation, 9: 1572-9729.
  • KARNACHUK O.V., KUROCHKINA S.Y. & TUOVINEN O.H. 2002 - Growth of sulfate reducing bacteria with solid-phase electron acceptors. Appl. Microbiol. Biotechnol., 58: 482-486.
  • KURR M., HUBER R., KO$NIG H., JANNASCH H.W., FRICKE H., TRINCONE A., KRISTJANSSON J.K. & STETTER K.O. 1991 - Methanopyrus kandleri, gen. and sp. nov. represents a novel group of hyperthermophilic methanogens, growing at 110 °C. Arch. Microbiol., 156: 239-247.
  • LABRENZ M., DRUCHEL G.K., THOMSEN-EBERT T., GILBERT B., WELCH S.A., KEMMER K.M., LOGAN G.A., SUMMONS R.E., DE STASIO G., BOND P.L., LAI B., KELLY D.S. & BANFIELD J.F. 2000 - Formation of sphalerite (ZnS) deposit in natural biofilms of sulfate- reducing bacteria. Science., 1744-1747.
  • MADIGAN M.,T. & MARTINKO J.M. 2006 - Biology of microorganisms. Pearson Inc.
  • MIKESELL M.D. & BOYD S.A. 1990 - Dechlorination of chloroform by Methanosarcina strains. Appl. Environ. Microbiol., 56: 1198-1201.
  • MOORE T.S., MURRAY R.W., KURTZ A.C. & SCHRAG D.P. 2004 - Anaerobic methane oxidation and the formation of dolomite. Earth and Planetary Science Letters, 229: 141-154.
  • OVERMANN J. & SCHUBERT K. 2002 - Phototrophic consortia: model systems for symbiotic interrelations between prokaryotes. Arch. Microbiol., 177: 201-208.
  • PARKES R. J., GIBSON R., MUELLER-HARVEY, BUCKINGHAM
  • W. J. & HERBERT A. 1989 - Determination of the substrates for sulphate- reducing bacteria within marine and estuarine sediments with different rates of sulphate reduction, Journ. of Gen. Microbiol., 135: 175-187.
  • PECKMANN J., THIEL V., MICHAELIS W., CLARI P., GAILLARD C., MARTIRE L. & REITNER J. 1999 - Cold seep deposits of Beauvoisin (Oxfordian; southeastern France) and Marmorito (Miocene; northern Italy): microbially induced, authigenic carbonates. Int. Journ. Earth Sciences, 88: 60-75.
  • PERRY C.T. & TAYLOR K.G. 2006 - Inhibition of dissolution within shallow water carbonate sediments: impacts of terrigenous sediment input on syn-depositional carbonate diagenesis. Sedimentology, 53: 495-513
  • POSTGATE J.R. 1984 - The sulphate reducing bacteria. Cambridge University Press.
  • REHM H. J. 1988 - Microbial production of glycerol and other polyols. In: Rehm HJ, Reed RH (eds) Biotechnology, 6: 51-69.
  • SOUILLARD N. & SIBOLD L. 1989 - Primary structure, functional organization and expression of nitrogenase structural genes of the thermophilic archaebacterium Methanococcus thermolithotrophicus. Mol. Microbiol., 3: 541-551.
  • WARTHMAN R., VAN LITH Y., VASCONCELOS C., MCKENZIE J.A. & KARPOFF A.M. 2000 - Bacterially induced dolomite precipitation in anoxic culture experiments. Geology, 28: 1091-1094.
  • WOLICKA D. 2006 - Biotransformation of phosphogypsum in cultures of bacteria selected from petroleum [In:] Proceedings of the International Conference Protection and Restoration of the Environmental VIII Chania. s. 217-218.
  • WOLICKA D. 2008 - Biodegradation of BTEX by sulphate reducing bacteria isolated from oil fields, 4th European Bioremediation Conference, Chania. s. 44.
  • WOLICKA D. 2008a - Bioremediacja jako naturalna metoda likwidacji zanieczyszczeń na terenach eksploatacji ropy naftowej, Instytut Nafty i Gazu, Prac. Inst. Nafty i Gazu, 150: 675-680.
  • WOLICKA D. 2009 - Application of sulphate reducing bacteria in bioremediation of soli polluted by petroleum products. IMOG 24th International Meeting on Organic geochemistry, Bremen. s. 191.
  • WOLICKA D. & BORKOWSKI A. 2007 - The geomicrobiological role of sulphate-reducing bacteria in environments contaminated by petroleum products. Geomicrobiol. Journ., 24: 1-9.
  • WOLICKA D. & BORKOWSKI A. 2010 - Biogeochemistry of CaCO3 precipitation under sulphate-reduction conditions [In:] Advances in Stromatolite Geobiology; Series Lecture Notes in Earth Sciences, 131.
  • WOLICKA D., BORKOWSKI A., BORSUK P. & KOWALCZYK P. 2009 - Identification of sulphate reducing bacteria isolated from crude oil. IMOG 24th International Meeting on Organic Geochemistry, Bremen. s. 493.
  • WOLICKA D., BORKOWSKI A. & DOBRZYŃSKI D. 2010 - Interactions between microorganisms, crude oil and formation waters. Geomicrobiol. Journ., 27: 43-52.
  • WOLICKA D., GÓJSKA A. & BORKOWSKI A. 2009 - Rola mikroorganizmów w procesie cementacji skał klastycznych. Konferencja "Ropa i gaz a skały klastyczne Polski", Czarna. s. 61.
  • WOLICKA D. & KOWALSKI W. 2006 - Biotransformation of phosphogypsum in petroleum-refining wastewaters. Polish Journ. Environ. Stud. 15: 355-360.
  • WOLICKA D., SUSZEK A., BORKOWSKI A. & BIELECKA A. 2009 - Application of aerobic microorganisms in bioremediation in situ of soil contaminated by petroleum products. Bioresource Technology, 100: 3221-3227.
  • WRIGHT D.T. 2000 - Benthic microbial communities and dolomite formation in marine and lacustrine environments - a new dolomite model. [In:] Glenn C.R., Lucas J. & Prevot L. (eds.). Marine Authigenesis from Global to microbial SEPM Spec Publ., 66: 7-20.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS6-0025-0006
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