Geomicrobiology: interactions between microbes and minerals
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Washington, DC
Mineralogical Soc. of America
1997
|
| Schriftenreihe: | Reviews in mineralogy
35 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | 448 S. Ill., graph. Darst. |
| ISBN: | 0939950456 |
Internformat
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| 245 | 1 | 0 | |a Geomicrobiology |b interactions between microbes and minerals |c ed. by Jillian F. Banfield ... |
| 264 | 1 | |a Washington, DC |b Mineralogical Soc. of America |c 1997 | |
| 300 | |a 448 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Reviews in mineralogy |v 35 | |
| 650 | 7 | |a Agentes microbianos |2 larpcal | |
| 650 | 7 | |a Microbiologia |2 larpcal | |
| 650 | 7 | |a Minerais (química inorgânica) |2 larpcal | |
| 650 | 7 | |a Mineralogia |2 larpcal | |
| 650 | 4 | |a Bacteria | |
| 650 | 4 | |a Biomineralization | |
| 650 | 4 | |a Geomicrobiology | |
| 650 | 4 | |a Minerals | |
| 650 | 0 | 7 | |a Geomikrobiologie |0 (DE-588)4156734-1 |2 gnd |9 rswk-swf |
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| 700 | 1 | |a Banfield, Jillian F. |e Sonstige |4 oth | |
| 830 | 0 | |a Reviews in mineralogy |v 35 |w (DE-604)BV000002349 |9 35 | |
| 856 | 4 | 2 | |m Digitalisierung TU Muenchen |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007866170&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
Datensatz im Suchindex
| _version_ | 1805083627271225344 |
|---|---|
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Tăblie
©if Contents
Page
Preface H.C.W. Skinner
1
Chapter
1
K. H. Nealson
&
D. À.
Stahl
microorganisms and blogeochemical cycles: what
Can We Learn from Layered microbial Communities?
Introduction
. 5
Properties of Prokaryotes
. 9
Size
. 9
Structure
. 12
Metabolic versatility
. 12
Mechanisms of energy conservation and patterns of metabolism
. 13
The Processes
. 14
Aerobic respiration
. 16
Nitrification and dentrification
. 16
Methane oxidation
. 16
Manganese and iron oxidation
. 16
Sulfur oxidation
. 16
Manganese and iron reduction
. 17
Sulfate
reduction
. 17
Methanogenesis
. 17
The Organisms
. 17
Aerobic heterotrophs
. 18
Chemolithotrophs
. 18
Hydrogen-oxidizing bacteria
. 18
Sulfur-oxidizing bacteria
. 18
Iron-oxidizing bacteria
. 20
Nitrifying bacteria and methanotrophs
. 20
Methanogens
. 20
Acetogens
. 20
Fermentative bacteria
. 20
Nitrate respiring bacteria
. 20
Metal respiring bacteria
. 21
Sulfur- and sulfate-reducing bacteria
. 21
Proton reducers (syntrophic bacteria)
. 21
New Methods and Approaches
. 21
Molecular approaches to the microbiology of sediments
. 21
Ribosomal RNA-based approaches
. 23
Isolation of new organisms
—
metal active microbes
. 27
Iron-oxidizing bacteria
. 27
The iron-reducing bacteria
. 28
Anaeobic biogeochemical cycling of iron
. 28
Mineral and microbes
. 29
New microscopic techniques
. 29
New microbial ecosystems
. 29
Summary
. 31
Acknowledgments
. 31
References
. 31
Chapter
2
S.M.
Barns
&
S.
Nierzwicki-Bauer
microbial
diversity in
modern
subsurface,
Ocean, Surface Environments
Introduction
. 35
Phylogenetic Introduction to the Diversity and Evolution of Microorganisms
. 35
Molecular phylogeny of the microbial world
. 35
The origin of life and the Last Common Ancestor
. 38
Beyond the Last Common Ancestor
—
Diversification of the domains
. 40
Eucarya
. 40
Archaea
. 41
Bacteria
. 41
Geomicrobiological Agents in Depth
. 42
Eucarya: Fungi, lichens, algae and protozoa
. 42
Archaea
. 43
Introduction
. 43
Hyperthermophiles
. 44
Physiology
. 44
Ecology
. 45
Halophiles
. 46
Physiology
. 46
Ecology
. 47
Methanogens
. 48
Physiology
. 48
Ecology
. 49
Bacteria: Abundance and diversity
. 50
Biogeochemical cycling by bacteria: Introduction
. 50
Iron-oxidizing and -reducing organisms
. 50
Sulfur-oxidizing and -reducing bacteria
. 50
Manganese-oxidizing and -reducing bacteria
. 51
Nitrifying and denitrifying bacteria
. 52
Bacteria in the
lithosphère
and hydrosphere: Introduction
. 52
Bacteria in the
lithosphère
. 53
Molecular studies of bacterial diversity and abundance in
sediments and soils
. 53
Bacteria in the hydrosphere
. 54
Molecular studies of bacterial diversity and abundance in the
hydrosphere
. 54
Freshwater
. 55
Subterranean groundwater ecosystems
. 56
Techniques for Studying Geologically Important Microorganisms
. 57
Culture-based techniques
. 57
Identification and physiological studies
. 58
API tests
. 58
Biolog
tests
. 58
Analysis of microbial populations without cultivation
. 59
Introduction
. 59
Molecular sequence-based phylogenic analysis of microbial
populations
—
Molecular microbial ecology
. 59
Survey of constituent species
. 59
rRNA sequence-based in situ methods
. 60
PCR-based analyses
. 61
DNA
probe hybridization analyses
. 61
Microscopic techniques for the examination of environmental samples
. 62
Signature
lipid
biomarker (SLB)
profiles.
64
Identification
of cultured microorganisms and in situ microbial
community structure
. 64
Nutritional and physiological status of microorganisms
. 64
Non-
viable and viable biomass determinations
. 65
Case Studies
. 65
Microbiology of the terrestrial subsurface
—
GEMHEX
. 65
Crenarchaeota in hot and not-so-hot environments
. 67
Introduction
. 67
Crenarchaeal diversity in Obsidian Pool hot spring
. 67
Crenarchaeota are widespread and abundant in low-temperature
environments
. 70
Summary and Conclusions
. 71
References
. 71
Chapter
3
J.F. Banfield
&
R.J.
Hamers
Processes at minerals and Surfaces with
Relevance to Microorganisms and Prebiotic Synthesis
Introduction
. 81
Microbial Access to Mineral Surfaces
. 82
Factors that Control Mineralogy
. 83
Principles behind Assembly of Crystals
. 87
Surfaces and Interfaces
. 89
Crystal form
. 89
Morphology modification
. 91
Defects and surface reactivity
. 91
Charge and
Protonation
at Surfaces
. 93
pH
dependence of charge at surfaces
. 93
Protonation
of surfaces
. 94
Reactions at Surfaces
. 95
Dissolution
. 96
Dissolution rate analysis
. 96
Adsorption, precipitation, and growth
. 98
Silicate Minerals and Their Reactivity: Examples
. 99
Silica
. 99
Structure and composition
. 99
Reactivity
. 99
Feldspars
. 99
Composition, structure, and
microstructure
. 99
Reactivity
. 100
Layer silicates
. 101
Structures and compositions of different types of layer silicates
. 101
Compositions and structures of clay minerals
. 102
Reactivity of layer silicates
. 102
Chain silicates
. 103
Structure and chemistry
. 103
Reactivity
. 103
Orthosilicates
. 105
Structures and compositions
. 105
Reactivity
. 105
Surface phenomena in the laboratory vs. natural weathering
.105
Non-silicate Mineral Reactivity: Examples
.106
Carbonate minerals
. 106
Structures and compositions
.106
Reactivity
.106
Oxides and oxyhydroxides
.107
Structures and compositions
.107
Reactivity
.109
Sulfides
and
sulfates
.109
Structures and compositions
.109
Reactivity
.109
Phosphates
.110
Compositions and structures
. 110
Reactivity
.
Ill
Geochemical Reactions and Bioavailability
.
Ill
Prebiotic Synthesis and the Role of Mineral Surfaces in the Origin of Life
. 112
Prebiotic synthesis of basic building blocks
.113
Abiotic assembly of the first self-replicating molecules
.114
Problems with the
"RNA
world" and alternatives
.115
Minerals as alternative early genetic systems
.115
Conclusion
. 116
Concluding Comments Regarding Future Work
.116
Acknowledgments
.116
References
.117
Chapter
4
B.J. Little,
P.A.
Wagner
&
Z. Lewandowski
Spatial relationships between
Bacteria and mineral Surfaces
Introduction
.123
Overview of
Biofilm
Formation
. 125
Initial events of
biofilm
formation
.125
Biofilm
accumulation
.125
Biofilm
architecture
. 127
Spatial Relationships between
Biofilms
and Minerals
.128
Mineral deposition
. 130
Oxides
.130
Manganese
.130
Iron
.134
Sulfides.136
Iron
.137
Copper
. 139
Silver
.144
Other metals
. 146
Carbonates
.146
Mineral dissolution
.148
Conclusions
.153
Acknowledgments
.155
References
.155
Chapter
5
D.
Fortin,
F.G. Ferris
&
T.J.
Beveridge
Surface-mediated mineral Development
by bacteria
Introduction
.161
General Overview
.162
Bacterial cell walls
.162
Additional layers above eubacterial cell walls
.163
Biofilms
.164
Sorption
of Metal and Silicate Ions to Bacterial Surfaces
.164
Bacterial Mineral Precipitation
.167
Carbonates
.168
Sulfides
and paragenetic minerals that form in anaerobic environments
.170
Iron and manganese oxides
.172
Enzymatic reactions
.172
Non-enzymatic reactions
.173
Silicates
.175
Conclusions
. 176
Acknowledgments
. 177
References
. 177
Chapter
6
Đ.A.
Bazylinksi
&
B.M. Moskowitz
mlcrobial biomineralization of magnetic iron minerals:
microbiology, magnetism
and Environmental Significance
Introduction
.181
Biologically Induced Mineralization
.182
General features
.182
Magnetite
.182
Greigite and pyrrhotite
. 183
Other non-magnetic iron minerals produced by
BIM
. 184
Biologically-controlled Mineralization
.184
General features
.184
The magnetotactic bacteria
.185
Ecology of magnetotactic bacteria
.185
Function of magnetotaxis
.187
Composition and morphology of the magnetosome mineral phase
.188
Effect of environmental conditions on the biomineralization in
magnetotactic bacteria
.192
Chemistry and biochemistry of magnetosome formation
.193
Physiology of magnetotactic bacteria
.194
Control over BCM of magnetite
.196
Molecular biology of magnetosome formation and genetics of
magnetotactic bacteria
.197
Magnetic Properties of Biogenic Magnetic Minerals
. 199
Fundamental principles
.199
Saturation magnetization and Curie temperature
.199
Thermomagnetic analysis
.200
Magnetic hysteresis analysis
.200
Magnetism of Magnetosomes
.202
Particle sizes of magnetosomes
.202
Crystallographic orientation of magnetosomes
.202
Chain assembly of magnetosomes
.203
Physics of Magnetotaxis
.203
Magnetic Microstates of Biogenic Magnetic Minerals
.205
Single domain and multidomain states
.206
Superparamagnetic state
.206
Theoretical domain calculations: Butler-Banerjee model
.206
Local energy minima and metastable SD states: Micromagnetic models
.208
Magnetosomes and micromagnetism
.209
Magnetic Characteristics of BCM- and BIM-type Magnetite
.209
Room temperature magnetic measurements
.209
Low-temperature magnetic properties
.210
Magnetic and geochemical study of magnetotactic bacteria in chemically
stratified environments
.213
Biogenic Magnetic Minerals in Sediments
.215
Magnetofossils
and natural
remanent
magnetization
.215
Magnetochemical alteration and preservation of biogenic magnetic minerals
.216
Magnetosomes, Magnetite and Mars
.217
Acknowledgments
.217
References
.218
Chapter
7
B.M. Tebo, W.C. Ghiorse,
L.G. van Waasbergen, P.L. Siering,
&
R.
Caspi
BACTERIALLY-MEDIATED MINERAL FORMATION:
INSIGHTS INTO
MANGANESEflil)
OXIDATION FROM MOLECULAR
GENETIC AND BIOCHEMICAL STUDIES
Introduction
.225
Background
.226
Manganese geochemistry
.226
Manganese mineralogy
.227
Abiotic
Μη(Π)
oxidation
.228
Biological
Μη{Π)
oxidation
.229
Rates of Mn Oxidation/Mineral Formation
.233
Mineralogy of Microbially-produced Manganese Oxides
.234
Model Systems for the Study of Genetics and Biochemistry of
Μη(Π)
oxidation
.239
Pseudomonas
putida
strain MnB
1.239
Biochemistry
.239
Genetics
.240
Μη(Π)
oxidation and cytochromes
.242
Possible mechanisms for the oxidation of
Μη(Π)
by strain MnB
1.242
Marine Bacillus sp. strain SG-1
.245
Biochemistry
.245
Genetics
.247
Possible mechanism for the oxidation of
Μη(Π)
by
SG-
1.247
Surface chemistry of SG-1 spores
.251
Leptothrix discophora strains SS-1 and SP-6
.251
Biochemistry
.251
Genetics
.253
A molecular ecological study of the mofA gene in its native habitat
.254
Possible mechanisms for oxidation of
Μη(Π)
by Leptothrix spp
.255
Comparative Aspects of Mn(TI)-oxidizing Proteins
.255
Interactions of Mn(II)-oxidizing Bacteria with Other Metals
.258
Conclusions
.259
Acknowledgments
.259
References
.260
Chapter
8
E.W.
de Vrind-de Jong
&
J.P.M, de Vrind
ALGAL DEPOSITION OF CARBONATES AND SILICATES
Introduction
.267
Calcifying and silicifying algae: Occurrence and impact on element cycles
.267
Diatoms
.267
Coccolithophoridae
.269
Principles of biomineralization: Biologically induced or controlled
.269
Supersaturation
and nucleation
.272
Crystal growth
.273
Termination of crystal growth
.273
Biomineralization: Biological interference with mineralization
.274
Algal Deposition of Calcium Carbonate
.274
Biologically induced calcification:
Chara
and Halimeda
.274
Some aspects of photosynthesis
.275
The example of
Chara
.275
The example of Halimeda
.277
Biologically controlled calcification: Three coccolithophorid species
.278
Coccolith formation in Pleurochrysis carterae:
Ultrastructure
of cells and
coccoliths
.279
Mechanisms of coccolith synthesis in Pleurochrysis carterae: Role of cell
organelies
and organic constituents
.279
Relation between photosynthesis and coccolith formation in Pleurochrysis
carterae
.283
Coccolith formation in
Emiliania
huxleyi:
Ultrastructure
of
cells and coccoliths
.283
Coccolith formation in
Emiliania
huxleyi: Role of cell organelles and organic
constituents
.284
Relation between photosynthesis and coccolith formation in
Emiliania
huxleyi
.288
Coccolith formation in Coccolithus pelagicus: An example of extracellular-
controlled biomineralization
.289
Algal Deposition of Silica
.290
Cell wall formation in diatoms
.291
The cell cycle
.291
Cell wall formation:
Ultrastructure
of frustules
.291
Mechanisms of
frustale
formation
.292
Scale and stomatocyst formation in Chrysophyta
.296
Stomatocyst formation
.296
Scale formation
.297
Concluding Remarks
.299
Recent developments: The molecular genetical approach
.299
Recent developments: The interdisciplinary approach
.301
Acknowledgments
.302
References
.302
Chapter
9
A.T. Stone
REACTIONS OF EXTRACELLULAR ORGANIC LlGANDS
WITH DISSOLVED METAL IONS AND MINERAL SURFACES
Introduction
.309
Metal Ions and Ligands: Speciation and Inventory
.309
Lewis Base Functional Groups
.312
Metal Ion Properties Affecting Complex Formation
.314
Physiological Functions that Benefit from Extracellular Organic Ligand Release
.314
Complexation of
+П
Metal Ions
.316
Complexation of Cu11
.316
Metal-to-metal comparisons
.319
Complexation of
+ΙΠ
Metal Ions
.320
Solubility limitations
.320
Solubilization of Fe111
.321
Sequestration of
Al111
.327
Complexation and
Redox
Equilibria
.329
Eh when
FeOOH(s)
serves as the solubility-limiting phase
.331
Eh when
Бе(ОН)з(ѕ)
serves as the solubility-limiting phase
.333
Organic Ligand Adsorption
.3 34
Remaining Challenges towards Understanding Metal Ion and Extracellular Organic
Ligand Speciation
.336
Slow rates of
+П
metal ion desorption from mineral surfaces
.336
Kinetics of ligand exchange reactions
.336
Ternary complex formation in solution and on mineral surfaces
.336
Organic ligand adsorption versus ligand-assisted dissolution
.336
Breakdown of free and metal ion-coordinated organic ligands
.337
A Survey of Extracellular Organic Ligands
.337
Conclusions
.341
Acknowledgments
.341
References
.341
Chapter
10
S. Silver
THE BACTERIAL VIEW OF THE PERIODIC TABLE:
SPECIFIC FUNCTIONS FOR ALL ELEMENTS
Strategies for Metal Handling by Microorganisms
.345
Mechanisms of Metal Resistance
.347
Plasmid and chromosomal genes
.348
Efflux pumps
.348
Archaea
.349
Metal Resistance in Bacteria: Case Studies
.349
Mercury
.349
Mercury in the environment
.349
Mercury resistance in bacteria
.350
Arsenic
.351
Arsenic in the environment
.351
Arsenic resistance
.352
Copper resistance in bacteria
.353
Bacterial metallothionein in cyanobacteria
.354
Cadmium resistance in Gram-positive bacteria
.354
Chromáte
resistance and
chromáte
reduction in Gram-negative bacteria
.356
Tellurite resistance in Gram-negative bacteria
.356
Silver resistance in enteric bacteria
.356
Other toxic metal resistances
.357
Final Comment
.357
Acknowledgments
.358
References
.358
Chapter
11
D.K. Nordstrom
&
G. Southam
Geomicrobiology of
Sulfide
Mineral oxidation
Introduction
.361
Summary of
Sulfide
Mineral Oxidation Reactions
.363
Compilation of
sulfide
mineral oxidation studies
.366
Role of bacteria
.366
Aqueous FeCII) Oxidation Kinetics
.369
Sulfide
Metal Oxidation Kinetics
.370
Microbial Oxidation of
Sulfide
Minerals
.372
General
physiology of Thiobacillus ferroxidans
.372
Direct vs. indirect oxidation of non-ferrous
sulfide
minerals
.373
Thiobacillus spp.-mineral interaction in natural systems
.374
Effects of temperature
.377
Microbial Ecology in Mine Waste Environments
.379
Summary and Future Work
.380
References
.382
Chapter
12
W.W. Barker,
S.A.
Welch
&
J.F. Banfield
BIOGEOCHEMICAL WEATHERING OF SILICATE MINERALS
Introduction
.391
Methods
.392
Lab studies
.392
Field studies
.393
Mechanisms
.395
Physical disaggregation
.395
Soil stabilization
.396
Inorganic acids
.397
Organic acids
.399
Oxalate
.400
Lichen acids
.401
Siderophores
.402
Polysaccharides
.402
Proteins
.403
Nutrient adsorption
.405
Mineral Weathering Studies
.405
Quartz
.405
Feldspars
.406
Micas
.408
Chain silicates
.409
Biogeochemical Weathering over Time
.412
Suggestions for Further Research
.416
Conclusion
.419
Acknowledgments
.419
References
.420
Chapter
13
D.J. DesMarais
LONG-TERM EVOLUTION OF THE
BIOGEOCHEMICAL CARBON CYCLE
Introduction
.429
The Biochemical
С
Cycle Today
.429
The hydrosphere-atmosphere-biosphere
(HAB)
subcycle.
430
The sedimentary
(SED)
subcycle
.431
The metamorphic (MET)
subcycle
.432
The mantle-crust (MAN)
subcycle
.432
The Carbon Isotope Perspective
.433
Isotope discrimination
.433
Isotopic mass balance
.433
Nonbiological Agents of Long-term Change
.434
The Sun
.434
Impacts
.435
Heat flow
.436
Mantle outgassing
.436
Subduction.
436
Metamorphism
.437
Continental architecture
.437
Role of continents
.437
Ancient continents and the
С
cycle
.437
Coevolution of the
С
Cycle and Early Life
.438
The Archean
.438
The MAN
subcycle
.438
Life's early role in the
С
cycle
.438
Climate, atmospheric composition and weathering
.439
Stability of the continental crust
.439
Oxygenic photosynthesis
.439
The late Archean and early Proterozoic
.440
Changes in the MAN
subcycle
.440
Tectonic effects on the
SED
and MET
subcycles
.440
Changes in the
HAB
and
SED
subcycles.
440
Evolution of the Proterozoic biosphere and its environment
.441
Carbon isotopic evidence
.441
Changing patterns of mineral deposition
.443
Organic
С
concentrations in sedimentary rocks
.443
Summary
.443
The
С
cycle, O2 and the evolution of Eukarya
.444
The biosphere-C cycle connection: Future work
.445
Acknowledgments
.445
References
.445 |
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| discipline | Geowissenschaften Physik Geologie / Paläontologie Biologie |
| format | Book |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content (DE-588)1071861417 Konferenzschrift 1997 Alta Utah gnd-content |
| genre_facet | Aufsatzsammlung Konferenzschrift 1997 Alta Utah |
| id | DE-604.BV011669260 |
| illustrated | Illustrated |
| indexdate | 2024-07-20T07:51:34Z |
| institution | BVB |
| isbn | 0939950456 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-007866170 |
| oclc_num | 246530028 |
| open_access_boolean | |
| owner | DE-703 DE-355 DE-BY-UBR DE-19 DE-BY-UBM DE-12 DE-29 DE-M49 DE-BY-TUM DE-20 DE-83 DE-11 DE-188 DE-B16 DE-M490 |
| owner_facet | DE-703 DE-355 DE-BY-UBR DE-19 DE-BY-UBM DE-12 DE-29 DE-M49 DE-BY-TUM DE-20 DE-83 DE-11 DE-188 DE-B16 DE-M490 |
| physical | 448 S. Ill., graph. Darst. |
| publishDate | 1997 |
| publishDateSearch | 1997 |
| publishDateSort | 1997 |
| publisher | Mineralogical Soc. of America |
| record_format | marc |
| series | Reviews in mineralogy |
| series2 | Reviews in mineralogy |
| spelling | Geomicrobiology interactions between microbes and minerals ed. by Jillian F. Banfield ... Washington, DC Mineralogical Soc. of America 1997 448 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Reviews in mineralogy 35 Agentes microbianos larpcal Microbiologia larpcal Minerais (química inorgânica) larpcal Mineralogia larpcal Bacteria Biomineralization Geomicrobiology Minerals Geomikrobiologie (DE-588)4156734-1 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content (DE-588)1071861417 Konferenzschrift 1997 Alta Utah gnd-content Geomikrobiologie (DE-588)4156734-1 s DE-604 Banfield, Jillian F. Sonstige oth Reviews in mineralogy 35 (DE-604)BV000002349 35 Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007866170&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Geomicrobiology interactions between microbes and minerals Reviews in mineralogy Agentes microbianos larpcal Microbiologia larpcal Minerais (química inorgânica) larpcal Mineralogia larpcal Bacteria Biomineralization Geomicrobiology Minerals Geomikrobiologie (DE-588)4156734-1 gnd |
| subject_GND | (DE-588)4156734-1 (DE-588)4143413-4 (DE-588)1071861417 |
| title | Geomicrobiology interactions between microbes and minerals |
| title_auth | Geomicrobiology interactions between microbes and minerals |
| title_exact_search | Geomicrobiology interactions between microbes and minerals |
| title_full | Geomicrobiology interactions between microbes and minerals ed. by Jillian F. Banfield ... |
| title_fullStr | Geomicrobiology interactions between microbes and minerals ed. by Jillian F. Banfield ... |
| title_full_unstemmed | Geomicrobiology interactions between microbes and minerals ed. by Jillian F. Banfield ... |
| title_short | Geomicrobiology |
| title_sort | geomicrobiology interactions between microbes and minerals |
| title_sub | interactions between microbes and minerals |
| topic | Agentes microbianos larpcal Microbiologia larpcal Minerais (química inorgânica) larpcal Mineralogia larpcal Bacteria Biomineralization Geomicrobiology Minerals Geomikrobiologie (DE-588)4156734-1 gnd |
| topic_facet | Agentes microbianos Microbiologia Minerais (química inorgânica) Mineralogia Bacteria Biomineralization Geomicrobiology Minerals Geomikrobiologie Aufsatzsammlung Konferenzschrift 1997 Alta Utah |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007866170&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000002349 |
| work_keys_str_mv | AT banfieldjillianf geomicrobiologyinteractionsbetweenmicrobesandminerals |