Sulphate-reducing bacteria: environmental and engineered systems
The sulphate-reducing bacteria (SRB) are a large group of anaerobic organisms that play an important role in many biogeochemical processes. Not only are they of early origins in the development of the biosphere, but their mechanisms of energy metabolism shed light on the limits of life processes in...
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| Zusammenfassung: | The sulphate-reducing bacteria (SRB) are a large group of anaerobic organisms that play an important role in many biogeochemical processes. Not only are they of early origins in the development of the biosphere, but their mechanisms of energy metabolism shed light on the limits of life processes in the absence of oxygen. They are widely distributed in nature, and are regular components of engineered systems including, for example, petroleum reservoirs and oil production facilities. SRB are currently subject to extensive genomic studies, which are yielding fresh understanding of their basic biochemical mechanisms, and aiding in the development of novel techniques for the analyses of their environmental roles. This volume provides a timely update on these important microorganisms, from basic science to applications, and will therefore serve as a valuable resource for researchers and graduate students in the fields of microbial ecology, microbial physiology, bioengineering, biogeochemistry and related areas of environmental science |
| Beschreibung: | Title from publisher's bibliographic system (viewed on 05 Oct 2015) |
| Beschreibung: | 1 online resource (xviii, 533 pages) |
| ISBN: | 9780511541490 |
| DOI: | 10.1017/CBO9780511541490 |
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| 505 | 8 | |a Preface; 1. Energy metabolism and phylogenetic diversity of sulphate-reducing bacteria Rudolf K. Thauer, Erko Stackebrandt and W. Allan Hamilton; 2. Molecular strategies for studies of natural populations of sulphate-reducing microorganisms David A. Stahl, Alexander Loy and Michael Wagner; 3. Functional genomics of sulphate-reducing prokaryotes Ralf Rabus and Axel Strittmatter; 4. Evaluation of stress response in sulphate-reducing bacteria through genome analysis J.D. Wall, H.C. Bill Yen, and E.C. Drury; 5. Response of sulphate-reducing bacteria to oxygen Henrik Sass and Heribert Cypionka; 6. Biochemical, proteomic and genetic characterization of oxygen survival mechanisms in sulphate-reducing bacteria of the genus Desulfovibrio Alain Dolla, Donald M. Kurtz, Jr., Miguel Teixeira and Gerrit Voordouw; 7. Biochemical, genetic and genomic characterization of anaerobic electron transport pathways in sulphate-reducing delta-proteobacteria Ines A.C. Pereira, Shelley A. | |
| 505 | 8 | |a Haveman and Gerrit Voordouw; 8. Dissimilatory nitrate and nitrite ammonification by sulphate-reducing eubacteria Jose J.G. Moura, Pablo Gonzalez, Isabel Moura and Guy Fauque; 9. Anaerobic degradation of hydrocarbons with sulphate as electron acceptor Friedrich Widdel, Florin Musat, Katrin Knittel and Alexander Galushko; 10. Sulphate-reducing bacteria from oil field environments and deep-sea hydrothermal vents Bernard Ollivier, Jean-Luc Cayol and Guy Fauque; 11. The sub-seafloor biosphere and sulphate-reducing prokaryotes: their presence and significance R. John Parkes and Henrik Sass; 12. Eco-physiology of sulphate-reducing bacteria in environmental biofilms Satoshi Okabe; 13. Bioprocess engineering of sulphate reduction for environmental technology Piet N.L. Lens, Marcus Vallero and Giovanni Esposito; 14. Bioremediation of metals and metalloids by precipitation and cellular binding Simon L. Hockin and Geoffrey M. Gadd; 15. | |
| 505 | 8 | |a Enzymatic and genomic studies on the reduction of mercury and selected metallic oxy-anions by sulphate-reducing bacteria Mireille Bruschi, Larry L. Barton, Florence Goulhen, and Richard M. Plunkett; 16. Sulphate-reducing bacteria and their role in corrosion of ferrous materials Iwona B. Beech and Jan A. Sunner; 17. Anaerobic metabolism of nitroaromatic compounds and bioremediation of explosive by sulphate-reducing bacteria Raj Boopathy; 18. Sulphate-reducing bacteria and the human large intestine George T. Macfarlane, John H. Cummings and Sandra Macfarlan | |
| 520 | |a The sulphate-reducing bacteria (SRB) are a large group of anaerobic organisms that play an important role in many biogeochemical processes. Not only are they of early origins in the development of the biosphere, but their mechanisms of energy metabolism shed light on the limits of life processes in the absence of oxygen. They are widely distributed in nature, and are regular components of engineered systems including, for example, petroleum reservoirs and oil production facilities. SRB are currently subject to extensive genomic studies, which are yielding fresh understanding of their basic biochemical mechanisms, and aiding in the development of novel techniques for the analyses of their environmental roles. This volume provides a timely update on these important microorganisms, from basic science to applications, and will therefore serve as a valuable resource for researchers and graduate students in the fields of microbial ecology, microbial physiology, bioengineering, biogeochemistry and related areas of environmental science | ||
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| contents | Preface; 1. Energy metabolism and phylogenetic diversity of sulphate-reducing bacteria Rudolf K. Thauer, Erko Stackebrandt and W. Allan Hamilton; 2. Molecular strategies for studies of natural populations of sulphate-reducing microorganisms David A. Stahl, Alexander Loy and Michael Wagner; 3. Functional genomics of sulphate-reducing prokaryotes Ralf Rabus and Axel Strittmatter; 4. Evaluation of stress response in sulphate-reducing bacteria through genome analysis J.D. Wall, H.C. Bill Yen, and E.C. Drury; 5. Response of sulphate-reducing bacteria to oxygen Henrik Sass and Heribert Cypionka; 6. Biochemical, proteomic and genetic characterization of oxygen survival mechanisms in sulphate-reducing bacteria of the genus Desulfovibrio Alain Dolla, Donald M. Kurtz, Jr., Miguel Teixeira and Gerrit Voordouw; 7. Biochemical, genetic and genomic characterization of anaerobic electron transport pathways in sulphate-reducing delta-proteobacteria Ines A.C. Pereira, Shelley A. Haveman and Gerrit Voordouw; 8. Dissimilatory nitrate and nitrite ammonification by sulphate-reducing eubacteria Jose J.G. Moura, Pablo Gonzalez, Isabel Moura and Guy Fauque; 9. Anaerobic degradation of hydrocarbons with sulphate as electron acceptor Friedrich Widdel, Florin Musat, Katrin Knittel and Alexander Galushko; 10. Sulphate-reducing bacteria from oil field environments and deep-sea hydrothermal vents Bernard Ollivier, Jean-Luc Cayol and Guy Fauque; 11. The sub-seafloor biosphere and sulphate-reducing prokaryotes: their presence and significance R. John Parkes and Henrik Sass; 12. Eco-physiology of sulphate-reducing bacteria in environmental biofilms Satoshi Okabe; 13. Bioprocess engineering of sulphate reduction for environmental technology Piet N.L. Lens, Marcus Vallero and Giovanni Esposito; 14. Bioremediation of metals and metalloids by precipitation and cellular binding Simon L. Hockin and Geoffrey M. Gadd; 15. Enzymatic and genomic studies on the reduction of mercury and selected metallic oxy-anions by sulphate-reducing bacteria Mireille Bruschi, Larry L. Barton, Florence Goulhen, and Richard M. Plunkett; 16. Sulphate-reducing bacteria and their role in corrosion of ferrous materials Iwona B. Beech and Jan A. Sunner; 17. Anaerobic metabolism of nitroaromatic compounds and bioremediation of explosive by sulphate-reducing bacteria Raj Boopathy; 18. Sulphate-reducing bacteria and the human large intestine George T. Macfarlane, John H. Cummings and Sandra Macfarlan |
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| spelling | Sulphate-reducing bacteria environmental and engineered systems edited by Larry L. Barton and W. Allan Hamilton Cambridge Cambridge University Press 2007 1 online resource (xviii, 533 pages) txt rdacontent c rdamedia cr rdacarrier Title from publisher's bibliographic system (viewed on 05 Oct 2015) Preface; 1. Energy metabolism and phylogenetic diversity of sulphate-reducing bacteria Rudolf K. Thauer, Erko Stackebrandt and W. Allan Hamilton; 2. Molecular strategies for studies of natural populations of sulphate-reducing microorganisms David A. Stahl, Alexander Loy and Michael Wagner; 3. Functional genomics of sulphate-reducing prokaryotes Ralf Rabus and Axel Strittmatter; 4. Evaluation of stress response in sulphate-reducing bacteria through genome analysis J.D. Wall, H.C. Bill Yen, and E.C. Drury; 5. Response of sulphate-reducing bacteria to oxygen Henrik Sass and Heribert Cypionka; 6. Biochemical, proteomic and genetic characterization of oxygen survival mechanisms in sulphate-reducing bacteria of the genus Desulfovibrio Alain Dolla, Donald M. Kurtz, Jr., Miguel Teixeira and Gerrit Voordouw; 7. Biochemical, genetic and genomic characterization of anaerobic electron transport pathways in sulphate-reducing delta-proteobacteria Ines A.C. Pereira, Shelley A. Haveman and Gerrit Voordouw; 8. Dissimilatory nitrate and nitrite ammonification by sulphate-reducing eubacteria Jose J.G. Moura, Pablo Gonzalez, Isabel Moura and Guy Fauque; 9. Anaerobic degradation of hydrocarbons with sulphate as electron acceptor Friedrich Widdel, Florin Musat, Katrin Knittel and Alexander Galushko; 10. Sulphate-reducing bacteria from oil field environments and deep-sea hydrothermal vents Bernard Ollivier, Jean-Luc Cayol and Guy Fauque; 11. The sub-seafloor biosphere and sulphate-reducing prokaryotes: their presence and significance R. John Parkes and Henrik Sass; 12. Eco-physiology of sulphate-reducing bacteria in environmental biofilms Satoshi Okabe; 13. Bioprocess engineering of sulphate reduction for environmental technology Piet N.L. Lens, Marcus Vallero and Giovanni Esposito; 14. Bioremediation of metals and metalloids by precipitation and cellular binding Simon L. Hockin and Geoffrey M. Gadd; 15. Enzymatic and genomic studies on the reduction of mercury and selected metallic oxy-anions by sulphate-reducing bacteria Mireille Bruschi, Larry L. Barton, Florence Goulhen, and Richard M. Plunkett; 16. Sulphate-reducing bacteria and their role in corrosion of ferrous materials Iwona B. Beech and Jan A. Sunner; 17. Anaerobic metabolism of nitroaromatic compounds and bioremediation of explosive by sulphate-reducing bacteria Raj Boopathy; 18. Sulphate-reducing bacteria and the human large intestine George T. Macfarlane, John H. Cummings and Sandra Macfarlan The sulphate-reducing bacteria (SRB) are a large group of anaerobic organisms that play an important role in many biogeochemical processes. Not only are they of early origins in the development of the biosphere, but their mechanisms of energy metabolism shed light on the limits of life processes in the absence of oxygen. They are widely distributed in nature, and are regular components of engineered systems including, for example, petroleum reservoirs and oil production facilities. SRB are currently subject to extensive genomic studies, which are yielding fresh understanding of their basic biochemical mechanisms, and aiding in the development of novel techniques for the analyses of their environmental roles. This volume provides a timely update on these important microorganisms, from basic science to applications, and will therefore serve as a valuable resource for researchers and graduate students in the fields of microbial ecology, microbial physiology, bioengineering, biogeochemistry and related areas of environmental science Sulfate-reducing bacteria Sulfatreduzierer (DE-588)4195481-6 gnd rswk-swf Sulfatreduzierer (DE-588)4195481-6 s 1\p DE-604 Barton, Larry 1940- (DE-588)1016678177 edt Hamilton, W. Allan 1936- edt Erscheint auch als Druckausgabe 978-0-521-12399-0 Erscheint auch als Druckausgabe 978-0-521-85485-6 https://doi.org/10.1017/CBO9780511541490 Verlag URL des Erstveröffentlichers Volltext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Sulphate-reducing bacteria environmental and engineered systems Preface; 1. Energy metabolism and phylogenetic diversity of sulphate-reducing bacteria Rudolf K. Thauer, Erko Stackebrandt and W. Allan Hamilton; 2. Molecular strategies for studies of natural populations of sulphate-reducing microorganisms David A. Stahl, Alexander Loy and Michael Wagner; 3. Functional genomics of sulphate-reducing prokaryotes Ralf Rabus and Axel Strittmatter; 4. Evaluation of stress response in sulphate-reducing bacteria through genome analysis J.D. Wall, H.C. Bill Yen, and E.C. Drury; 5. Response of sulphate-reducing bacteria to oxygen Henrik Sass and Heribert Cypionka; 6. Biochemical, proteomic and genetic characterization of oxygen survival mechanisms in sulphate-reducing bacteria of the genus Desulfovibrio Alain Dolla, Donald M. Kurtz, Jr., Miguel Teixeira and Gerrit Voordouw; 7. Biochemical, genetic and genomic characterization of anaerobic electron transport pathways in sulphate-reducing delta-proteobacteria Ines A.C. Pereira, Shelley A. Haveman and Gerrit Voordouw; 8. Dissimilatory nitrate and nitrite ammonification by sulphate-reducing eubacteria Jose J.G. Moura, Pablo Gonzalez, Isabel Moura and Guy Fauque; 9. Anaerobic degradation of hydrocarbons with sulphate as electron acceptor Friedrich Widdel, Florin Musat, Katrin Knittel and Alexander Galushko; 10. Sulphate-reducing bacteria from oil field environments and deep-sea hydrothermal vents Bernard Ollivier, Jean-Luc Cayol and Guy Fauque; 11. The sub-seafloor biosphere and sulphate-reducing prokaryotes: their presence and significance R. John Parkes and Henrik Sass; 12. Eco-physiology of sulphate-reducing bacteria in environmental biofilms Satoshi Okabe; 13. Bioprocess engineering of sulphate reduction for environmental technology Piet N.L. Lens, Marcus Vallero and Giovanni Esposito; 14. Bioremediation of metals and metalloids by precipitation and cellular binding Simon L. Hockin and Geoffrey M. Gadd; 15. Enzymatic and genomic studies on the reduction of mercury and selected metallic oxy-anions by sulphate-reducing bacteria Mireille Bruschi, Larry L. Barton, Florence Goulhen, and Richard M. Plunkett; 16. Sulphate-reducing bacteria and their role in corrosion of ferrous materials Iwona B. Beech and Jan A. Sunner; 17. Anaerobic metabolism of nitroaromatic compounds and bioremediation of explosive by sulphate-reducing bacteria Raj Boopathy; 18. Sulphate-reducing bacteria and the human large intestine George T. Macfarlane, John H. Cummings and Sandra Macfarlan Sulfate-reducing bacteria Sulfatreduzierer (DE-588)4195481-6 gnd |
| subject_GND | (DE-588)4195481-6 |
| title | Sulphate-reducing bacteria environmental and engineered systems |
| title_auth | Sulphate-reducing bacteria environmental and engineered systems |
| title_exact_search | Sulphate-reducing bacteria environmental and engineered systems |
| title_full | Sulphate-reducing bacteria environmental and engineered systems edited by Larry L. Barton and W. Allan Hamilton |
| title_fullStr | Sulphate-reducing bacteria environmental and engineered systems edited by Larry L. Barton and W. Allan Hamilton |
| title_full_unstemmed | Sulphate-reducing bacteria environmental and engineered systems edited by Larry L. Barton and W. Allan Hamilton |
| title_short | Sulphate-reducing bacteria |
| title_sort | sulphate reducing bacteria environmental and engineered systems |
| title_sub | environmental and engineered systems |
| topic | Sulfate-reducing bacteria Sulfatreduzierer (DE-588)4195481-6 gnd |
| topic_facet | Sulfate-reducing bacteria Sulfatreduzierer |
| url | https://doi.org/10.1017/CBO9780511541490 |
| work_keys_str_mv | AT bartonlarry sulphatereducingbacteriaenvironmentalandengineeredsystems AT hamiltonwallan sulphatereducingbacteriaenvironmentalandengineeredsystems |