Verfügbarkeit: Bacterial biogeochemistry

Bacterial biogeochemistry: the ecophysiology of mineral cycling

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Bibliographische Detailangaben
Hauptverfasser:	Fenchel, Tom (VerfasserIn), King, Gary M. (VerfasserIn), Blackburn, T. Henry 1933- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2006
Ausgabe:	2. ed., Transferred to digital printing
Schlagworte:	Geomikrobiologie Bodenbakterien Biochemie Biogeochemie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	1. Aufl. u.d.T.: Fenchel, Tom M.: Bacteria and mineral cycling
Beschreibung:	VIII, 307 S. Ill., graph. Darst.
ISBN:	0121034550

Internformat

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Datensatz im Suchindex

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adam_text	Contents Preface ix Introduction 1 1 General considerations 4 1.1 Bacterial metabolism 6 1.1.1 Dissimilatory metabolism 9 1.1.2 Assimilatory metabolism 19 1.2 Bioenergetics of microbial metabolism 21 1.2.1 Energetic yields of metabolic processes 22 1.2.2 Energetics, Yatp and growth yield 24 1.2.3 Bioenergetics and the structure of bacterial communities 25 1.3 Transport mechanisms and structure of microbial communities 29 1.3.1 Uptake and excretion of solutes from bacterial cells 32 1.3.2 Diffusion-controlled communities 36 1.3.3 Advection and turbulence 39 References 40 2 Mineral cycles 43 2.1 Hydrolysis of organic polymers 43 2.1.1 Substrates 43 2.1.2 Hydrolytic enzymes 50 2.2 Comparison of element cycles 53 2.2.1 The dominance of carbon 54 2.2.2 Oxidation/reduction reactions 57 2.2.3 Mobility and availability 59 References 59 3 The water column 62 3.1 Prokaryotic primary producers 63 3.2 Water-column bacteria and mineralisation 64 3.2.1 Characteristics of the bacterial biota 64 3.2.2 Organic matter: composition, origin and turnover 67 vi Contents 3.2.3 Suspended particles, their microbial biota and coupling between plankton and sediments 73 3.2.4 Bacteria and cycling of N and Ρ 76 References 78 4 Biogeochemical cycling in soils 85 4.1 Soil water as a master variable 88 4.1.1 Physical and chemical principles 88 4.1.2 Water stress physiology 91 4.1.3 Interactions among soil water content, water potential and biogeochemistry 93 4.2 Responses to plant organic matter 103 4.3 Responses of soil biogeochemistry to disturbance and change 109 References 111 5 Aquatic sediments 117 5.1 Comparison of freshwater and marine sediments 117 5.2 The carbon cycle 122 5.2.1 Heterotrophy 122 5.2.2 Autotrophy/ heterotrophy 127 5.3 The nitrogen cycle 128 5.3.1 Hydrolysis and ammonium production 128 5.3.2 Nitrification 130 5.3.3 Denitrification 134 5.3.4 Inorganic nitrogen incorporation 137 5.3.5 Nitrogen fixation 138 5.4 The phosphorus cycle 138 5.5 Manganese and iron 138 References 139 6 Microbial mats and stratified water columns 142 6.1 Mats based on colourless sulphur bacteria 144 6.2 Cyanobacterial mats 148 6.2.1 Structure of cyanobacterial mats 149 6.2.2 Mineral cycling in cyanobacterial mats 150 Contents vii 6.3 Other types of mats 156 6.4 Stratified water columns 158 References 162 7 Symbiotic systems 166 7.1 Symbiotic polymer degradation 167 7.1.1 Symbiotic digestion in mammals 170 7.1.2 Symbiotic fermentation in other animals 174 7.2 Symbiotic nitrogen fixation 175 7.2.1 Symbiotic N2 fixation in legumes 176 7.2.2 Actinorhizal N2-fixing symbionts 178 7.2.3 Symbiosis with cyanobacteria 178 7.3 Autotrophic bacteria as symbionts 179 7.3.1 Phototrophic symbionts 179 7.3.2 Hydrogen scavengers in anaerobic protists 180 7.3.3 Symbiotic oxidisers of reduced sulphur compounds . and methane 181 References 183 8 Biogeochemistry and extreme environments 188 8.1 General overview and summary of hypersaline systems 189 8.2 Subsurface environments 193 8.3 Microbial diversity and high-temperature environments 195 References 198 9 Microbial biogeochemicai cycling and the atmosphere 203 9.1 The atmosphere as an elemental reservoir 203 9.2 Atmospheric structure and evolution 206 9.2.1 Atmospheric structure 206 9.2.2 Atmospheric evolution 208 9.3 Synopsis of trace gas biogeochemistry and linkages to climate change 213 9.3.1 Oxygen-organic таКег-СОг 214 9.3.2 Oxygen-organic matter-methane 215 viii Contents 9.3.3 N2 -ammonia-nitrous oxide 217 9.3.4 Hydrogen sulphide (H2S)-sulphate-dimethyl sulphide (DMS) 219 9.3.5 Other gases 223 9.4 Trace gas dynamics and climate change: an analysis of methane production and consumption 225 9.5 Summary and conclusions 233 References 235 10 Origins and evolution of biogeochemicai cycles 245 10.1 Biogeochemicai cycles and thermodynamics 245 10.2 Prebiotic Earth and mineral cycles 250 10.3 Theoretical perspectives on the origins of life 255 10.3.1 The Oparin-Haldane theory 258 10.3.2 Clays and Ufe 261 10.3.3 Pyrite and the origins of life 264 10.3.4 The thioester world 268 10.4 Evolution of biogeochemicai cycles 271 References 276 Appendix 1 284 Thermodynamics and calculation of energy yields of metabolic processes 284 References 292 Index 293
adam_txt	Contents Preface ix Introduction 1 1 General considerations 4 1.1 Bacterial metabolism 6 1.1.1 Dissimilatory metabolism 9 1.1.2 Assimilatory metabolism 19 1.2 Bioenergetics of microbial metabolism 21 1.2.1 Energetic yields of metabolic processes 22 1.2.2 Energetics, Yatp and growth yield 24 1.2.3 Bioenergetics and the structure of bacterial communities 25 1.3 Transport mechanisms and structure of microbial communities 29 1.3.1 Uptake and excretion of solutes from bacterial cells 32 1.3.2 Diffusion-controlled communities 36 1.3.3 Advection and turbulence 39 References 40 2 Mineral cycles 43 2.1 Hydrolysis of organic polymers 43 2.1.1 Substrates 43 2.1.2 Hydrolytic enzymes 50 2.2 Comparison of element cycles 53 2.2.1 The dominance of carbon 54 2.2.2 Oxidation/reduction reactions 57 2.2.3 Mobility and availability 59 References 59 3 The water column 62 3.1 Prokaryotic primary producers 63 3.2 Water-column bacteria and mineralisation 64 3.2.1 Characteristics of the bacterial biota 64 3.2.2 Organic matter: composition, origin and turnover 67 vi Contents 3.2.3 Suspended particles, their microbial biota and coupling between plankton and sediments 73 3.2.4 Bacteria and cycling of N and Ρ 76 References 78 4 Biogeochemical cycling in soils 85 4.1 Soil water as a master variable 88 4.1.1 Physical and chemical principles 88 4.1.2 Water stress physiology 91 4.1.3 Interactions among soil water content, water potential and biogeochemistry 93 4.2 Responses to plant organic matter 103 4.3 Responses of soil biogeochemistry to disturbance and change 109 References 111 5 Aquatic sediments 117 5.1 Comparison of freshwater and marine sediments 117 5.2 The carbon cycle 122 5.2.1 Heterotrophy 122 5.2.2 Autotrophy/ heterotrophy 127 5.3 The nitrogen cycle 128 5.3.1 Hydrolysis and ammonium production 128 5.3.2 Nitrification 130 5.3.3 Denitrification 134 5.3.4 Inorganic nitrogen incorporation 137 5.3.5 Nitrogen fixation 138 5.4 The phosphorus cycle 138 5.5 Manganese and iron 138 References 139 6 Microbial mats and stratified water columns 142 6.1 Mats based on colourless sulphur bacteria 144 6.2 Cyanobacterial mats 148 6.2.1 Structure of cyanobacterial mats 149 6.2.2 Mineral cycling in cyanobacterial mats 150 Contents vii 6.3 Other types of mats 156 6.4 Stratified water columns 158 References 162 7 Symbiotic systems 166 7.1 Symbiotic polymer degradation 167 7.1.1 Symbiotic digestion in mammals 170 7.1.2 Symbiotic fermentation in other animals 174 7.2 Symbiotic nitrogen fixation 175 7.2.1 Symbiotic N2 fixation in legumes 176 7.2.2 Actinorhizal N2-fixing symbionts 178 7.2.3 Symbiosis with cyanobacteria 178 7.3 Autotrophic bacteria as symbionts 179 7.3.1 Phototrophic symbionts 179 7.3.2 Hydrogen scavengers in anaerobic protists 180 7.3.3 Symbiotic oxidisers of reduced sulphur compounds . and methane 181 References 183 8 Biogeochemistry and extreme environments 188 8.1 General overview and summary of hypersaline systems 189 8.2 Subsurface environments 193 8.3 Microbial diversity and high-temperature environments 195 References 198 9 Microbial biogeochemicai cycling and the atmosphere 203 9.1 The atmosphere as an elemental reservoir 203 9.2 Atmospheric structure and evolution 206 9.2.1 Atmospheric structure 206 9.2.2 Atmospheric evolution 208 9.3 Synopsis of trace gas biogeochemistry and linkages to climate change 213 9.3.1 Oxygen-organic таКег-СОг 214 9.3.2 Oxygen-organic matter-methane 215 viii Contents 9.3.3 N2 -ammonia-nitrous oxide 217 9.3.4 Hydrogen sulphide (H2S)-sulphate-dimethyl sulphide (DMS) 219 9.3.5 Other gases 223 9.4 Trace gas dynamics and climate change: an analysis of methane production and consumption 225 9.5 Summary and conclusions 233 References 235 10 Origins and evolution of biogeochemicai cycles 245 10.1 Biogeochemicai cycles and thermodynamics 245 10.2 Prebiotic Earth and mineral cycles 250 10.3 Theoretical perspectives on the origins of life 255 10.3.1 The Oparin-Haldane theory 258 10.3.2 Clays and Ufe 261 10.3.3 Pyrite and the origins of life 264 10.3.4 The "thioester world" 268 10.4 Evolution of biogeochemicai cycles 271 References 276 Appendix 1 284 Thermodynamics and calculation of energy yields of metabolic processes 284 References 292 Index 293
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title	Bacterial biogeochemistry the ecophysiology of mineral cycling
title_auth	Bacterial biogeochemistry the ecophysiology of mineral cycling
title_exact_search	Bacterial biogeochemistry the ecophysiology of mineral cycling
title_exact_search_txtP	Bacterial biogeochemistry the ecophysiology of mineral cycling
title_full	Bacterial biogeochemistry the ecophysiology of mineral cycling T. Fenchel, G. M. King and T. H. Blackburn
title_fullStr	Bacterial biogeochemistry the ecophysiology of mineral cycling T. Fenchel, G. M. King and T. H. Blackburn
title_full_unstemmed	Bacterial biogeochemistry the ecophysiology of mineral cycling T. Fenchel, G. M. King and T. H. Blackburn
title_short	Bacterial biogeochemistry
title_sort	bacterial biogeochemistry the ecophysiology of mineral cycling
title_sub	the ecophysiology of mineral cycling
topic	Geomikrobiologie (DE-588)4156734-1 gnd Bodenbakterien (DE-588)4146126-5 gnd Biochemie (DE-588)4006777-4 gnd Biogeochemie (DE-588)4125243-3 gnd
topic_facet	Geomikrobiologie Bodenbakterien Biochemie Biogeochemie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016092411&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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