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  • 1
    Monograph available for loan
    Monograph available for loan
    Wymondham : Caister Academic Press
    Call number: 20-2/M 12.0248
    Type of Medium: Monograph available for loan
    Pages: VIII, 436 S. , cm
    ISBN: 9781908230041
    Classification:
    D.8.
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  • 2
    Monograph available for loan
    Monograph available for loan
    Norfolk : Caister Academic Press
    Call number: 20-2/M 12.0246
    Type of Medium: Monograph available for loan
    Pages: XI, 299 S. , Ill., graph. Darst.
    ISBN: 9781904455981
    Classification:
    D.8.
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  • 3
    Monograph available for loan
    Monograph available for loan
    Norfolk : Caister Academic Press
    Call number: 20-2/M 13.0198
    Description / Table of Contents: The earth is dominated by low-temperature environments including 90% of oceans and 26% of terrestrial soil ecosystems. Once thought too cold for life these environments have been shown to support diverse microbial communities. Psychrophiles use a wide variety of metabolic pathways, including photosynthesis, chemoautotrophy and heterotrophy and form robust, diverse communities. Cold-adapted microorganisms play a major role in nutrient turnover and primary biomass production in cold ecosystems and have important applications in biotechnology and in the study of food spoilage microorganisms.In this up-to-date book, prominent authors present cutting-edge knowledge and current concepts on cold-adapted microorganisms. Divided into three main sections the book covers the major aspects of biodiversity in cold ecosystems, the physiology and molecular adaptation mechanisms, and the various biomolecules related to cold adaptation. Individual Chapters cover the various habitats and the diverse strategies employed to cope with the cold. This major new work represents a valuable source of information to all those scientists interested in cold-adapted microorganisms, extremophiles, microbial ecology and environmental microbiology.. - Chapter 1 Diversity of Bacteria in Permafrost. In the cold challenging environment of the permafrost, bacteria have found a way to survive and grow for thousands to millions of years. In this Chapter, we explore bacterial diversity in permafrost from around the world, identified through culture-dependent and -independent techniques. Members of the phylum Actinobacteria, Firmicutes and Proteobacteria have been found in every environment studied thus far, indicating that these bacteria are well suited for life at low temperatures with low water activity. Also, unique species specific to individual environments have been discovered at each site. Researchers are faced with the challenge of determining which bacteria are active in the permafrost and which are in a dormant state. The ability of bacteria to reside in a dormant state further complicates culture-independent experimental results, as DNA from both dormant and active cells has been analyzed. We are only beginning to understand the metabolic capabilities of permafrost bacteria, many discoveries are still to come.. - Chapter 2 Ecology and Taxonomy of Psychrotolerant Bacteria in Artificial Cold Environments. A variety of artificial cold environmental conditions exist around human activities. These environments involve several factors that define the kinds of bacteria existing in niches. These environmental factors change with time owing to changes in the environment caused by existing microorganisms and their metabolisms. Namely, the inevitable selection of bacteria occurs in each artificial cold environment and the successive changes in microbiota occur according to changes in environmental factors. Some of the microorganisms in these microbial communities are useful for the degradation of organic matter in cold environments and for food preservation. On the other hand, several microorganisms adapted to artificial cold environments cause food spoilage. The frequently isolated psychrotolerant bacterial genera in artificial cold environments are Pseudomonas, Psychrobacter, Staphylococcus and Photobacterium. Lactic acid bacteria are also frequently detected under anaerobic conditions. To date, it has been reported that these genera are widely distributed in natural as well as artificial cold environments. It is intriguing why these bacterial genera are widely distributed in cold environments and why certain species belonging to these genera are able to survive in artificial cold environments. The frequent detection of members of above-mentioned genera in artificial cold environments suggests that the important factors that define the existence of these genera in cold artificial environments are i) chances of invasion of such cold environments from ambient environments, ii) chances of invasion through their own basic components, iii) ability to rapidly propagate at low temperature and iv) presence or absence of oxygen. It is also considered that these genera are genetically widely diverse, and cold artificial environment adaptation mechanisms of certain species belonging to these genera make their distribution wider not only in natural cold environments but also in artificial cold environments.. - Chapter 3 Psychrophilic Microorganisms in Marine Environments. Psychrophilic microorganisms are extremophiles that are capable of growth and reproduction at low temperatures. They are present in marine environments, which occupy slightly more than 70% of Earth's surface, especially in the Arctic, Antarctica, and deep seas at temperatures lower than 15°C. Marine psychrophiles utilize a wide variety of metabolic pathways, including photosynthesis, chemoautotrophy, and heterotrophy. The deep-sea bacteria called psychropiezophiles "love" both high pressure and low temperature. Marine psychrophiles are characterized by lipid cell membranes chemically resistant to hardening in response to the cold. Most psychrophiles are Bacteria, and psychrophily is present in widely diverse microbial lineages within the broad groups of Alpha-, Beta-, Delta-, and Gammaproteobacteria and the Bacteroidetes phylum.. - Chapter 4 Fungi in Cryosphere: Their Adaptation to Environments. Cold-adapted fungi are widely distributed in the cryopsphere where biosphere is constantly or seasonally covered with snow and/or ice. Fungi normally have different cells in their lifecycle; therefore, thermal dependence of fungal lifecycle stages is completely different from that of bacteria. We showed examples from fungi that the concept of "psychrophile" by Moria in 1975 was not applicable and propose a new term "cryophilic fungi" for those that spend a certain life stage or whole life cycle (sexual and/or asexual reproductions) in cryosphere. Several groups of fungi associated with snow and/or ice, i.e., cryophilc fungi, are illustrated in terms of their ecology, and their ecophysiological adaptation mechanisms to freezing stress are reviewed, here.. - Chapter 5 Energy Metabolism in Low-temperature and Frozen Conditions in Cold-adapted Microorganisms. Managing biochemical energy is a challenge that microorganisms have to face for maintaining activity at low temperatures, at which metabolic processes are altered by the decrease of reactions rates and by the rigidification of cellular structures, notably enzymes and membranes. Cold-adapted prokaryotes and eukaryotes, while exhibiting distinct trophic modes, share specificities for compensating these thermodynamic effects and keep the cellular machinery running: they elevate the concentration of adenylate compounds, the key molecules of the energy metabolism. This is achieved by tight adjustments acting at several levels of the metabolism in a global strategy of energy saving: strong orientation of the adenylate metabolism toward the production and regeneration of AMP and its phosphorylation, whereas its destruction is repressed; elevation of the respiration rate; intervention of specific enzymes allowing the rapid synthesis of ATP (polyphosphatases and interferases), shifts in the utilization of substrates; and rerouting of central metabolic pathways. These are presented here and illustrated by examples of metabolic regulations in cold-adapted microorganisms evidenced by recent transcriptomic and proteomic approaches.. - Chapter 6 Proteins Involved in Cold-adaptation. This . - Chapter primarily describes cold shock proteins (CSPs), which are induced in response to temperature downshift in both psychrophiles and mesophiles. These proteins are important for various cellular processes, including transcription, translation, protein synthesis and folding, and membrane functions, to maintain their viability under cold conditions. Here, the CSPs in psychrophilic and mesophilic microorganisms are represented on the basis of the results of proteome analyses. In particular, CSPs that were isolated from the Antarctic psychrophile Shewanella livingstonensis Ac10 are described in detail. A number of microorganisms induce molecular chaperones in response to the cold, although the majority of chaperones are induced as a result of heat shock. Chaperones with peptidyl prolyl cis-trans isomerase activity are often induced by cold to accelerate protein folding by interconverting the cis and trans isomers of proline imidic peptide bonds, and these cold shock chaperones are also discribed here. Cold adapted proteins often have higher flexibility as compared to mesophilic proteins. The features of cold adapted proteins are briefly described. Finally, the production of recombinant proteins in psychrophiles is shown to suggest a future application of psychrophiles.. - Chapter 7 Heat Shock Responce in Psychrophilic Microorganisms. Psychrophilic microorganisms can optimally grow at temperatures below 15°C. In these microorganisms, heat stress occurs at relatively low temperatures in comparison with that in mesophilic microorganisms. The majority of psychrophilic microorganisms possess genes encoding a complete set of heat shock proteins (Hsps). Therefore, psychrophilic microorganisms respond to heat stress by producing Hsps like other microorganisms; however, they need a specific system to enable the expression and function of Hsps at relatively low temperatures. In this . - Chapter, we summarize the heat shock response of psychrophilic microorganisms, focusing on how this response starts working at relatively low temperatures and what the features of psychrophilic Hsps are.. - Chapter 8 Catalysis and Protein Folding in Psychrophiles. Enzymes have the property to catalyze most of the chemical reactions occuring in living organisms and their efficiency is exponentially depending on temperature through the Arrhenius law. On the other hand psychrophiles are organisms that live in permanently cold habitats so, in the absence of adaptation, the rate of the chemical reactions would be to slow to sustain life. In fact, these organisms display, at the low temperature of their environment, metabolic fluxes close to that of their mesophilic counterparts. That means that their enzymes have been modified in order to compensate for the cooling effect on reaction rates. The analysis of the structure, catalytic properties and thermal stability of an already large number of psychrophilic enzymes has demonstrated that discrete changes in the amino acid sequence of these enzymes can confer a high catalytic efficiency at low and moderate temperatures. This is accompanied by a significant decrease of the thermal stability itself inducing a large increase of the flexibility of the molecular structure that enables the accomodation of the substrate even at temperatures lower than the freezing point of water. The folding process,which, in theory, is also rendered uneasy due to the large increase in viscosity, the low residual energy in the system and the depressive effect of low temperatures, notably on hydrophobic interactions, is also rescued, mainly, through the overexpression of peptidyl prolyl cis/trans isomerases and of the trigger factor which is the first to take in charge the nascent polypeptide chain.. - Chapter 9 Cold-adapted H2O2 Tolerant Bacteria and their Catalases. Three novel species of psychrotolerant H2O2-resistant bacteria have been isolated from drain pools of a fish egg processing plant that uses H2O2 as a bleaching agent. Among them Vibrio rumoiensis was isolated from downstream of the drain pool, whereas Exiguobacterium oxidotolerans and Psychrobacter piscatorii were isolated from upstream. The catalase activity in the cell extract of the former was lower than that in the latter, which reflected the H2O2 concentration in their niches. The VktA (catalase from V. rumoiensis) and PktA (catalase from P. piscatorii) belonged to clade III, and EktA (catalase from E. oxidotolerans) belonged to clade I. From the temperature profile of their activities, these catalases exhibited heat sensitivity at higher than 60°C. The cell extract of V. rumoiensis exhibited lower catalase content (1.8%) than that of P. piscatorii (10%), whereas the former produces VktA, which exhibited a higher catalytic efficiency than the PktA. EktA content in the cell extract of E. oxidotolerans was 6.5% and EktA exhibited the highest catalase activity in both cell extract and the purified form among the three catalases. EktA possesses a wider bottleneck structure in the main channel for accepting substrates, enable it to react efficient with organic peroxides larger than H2O2 as substrates. Considering the environmental adaptation and distribution of microorganisms in this unique niche with high concentrations of H2O2 and low temperatures, certain variations of unknown bacterial species exist with certain variations of environmental adaptation mechanisms (e.g., cellular localization, production rate, and catalytic efficiency of catalase) depending on the environmental H2O2 concentration and fragility of cells. Furthermore, the characteristics of these catalase molecules reflect the environmental conditions (low temperatures and high concentrations of H2O2) under which these bacteria survive.. - Chapter 10 Microorganisms in Permafrost Ice Wedge and their Resuscitation Promoting Factor. Bacteria and fungi preserved for long periods at sub-zero temperatures in Alaskan and Siberian permafrost ice wedge were reactivated on agar by aerobic cultivation at 15°C. Culturable bacteria differed among ice samples, but several phylogenetic groups were closely related to those in other frozen environments. Incubation under controlled temperatures and the Arrhenius profiles of bacterial isolates from the Alaskan ice wedge indicated that they could grow at temperatures below 0°C without remarkable alterations in their cellular process. The novel ice wedge isolates, Glaciibacter superstes AHU1791T and Tomitella biformata AHU1821T, increased membrane fluidity at lower to subzero temperatures by modulating the fatty acid composition of the cytoplasmic membrane. Reactivating the non-culturable state of ice wedge isolates using resuscitation promoting factor (Rpf) and culturing melted ice wedge with Rpf provided indirect evidence that non-culturable bacteria exist within the ice wedge in situ. Bacteria in ice wedges can change their membrane fatty acid composition and/or structure to survive, but may then lose the ability to grow under laboratory conditions, as a final adaptation to long periods in a frozen natural environment.. - Chapter 11 Lipids in Cold-adapted Microorganisms. Ever since Escherichia coli, which is a mesophilic bacterium, was found to adjust its membrane fluidity in a liquid crystalline state by modulating fatty acid composition and the designation of this process as homeoviscous or homeophasic adaptation, numerous analogous phenomena have been reported in cold-adapted bacteria [psychrophilic or psychrotrophic (psychrotolerant) bacteria]. Unsaturation, which includes the biosynthesis of monounsaturated or long-chain polyunsaturated fatty acids and branched fatty acids, and branched-chain formation are the most important types of fatty acid modulation in psychrophilic and psychrotrophic (psychrotolerant) bacteria. The distribution of these fatty acids is not restricted to cold-adapted microorganisms: rather, it appears to depend on bacterial diversity (Gram- positive or negative) and/or habitat (terrestrial or marine environment) than on temperature. Eicosapentaenoic acid, which has been detected only in marine Gram-negative bacteria, had been regarded to confer significant membrane fluidity in bacteria, but it is now considered that it may also have a function in antioxidation or membrane modulation by constraining membrane fluidity. The mode of fatty acid modulation is unlikely to differ between psychrophilic and psychrotrophic bacteria, which had narrower and wider growth temperature ranges, respectively. The sole difference seems to be higher capacity to modulate fatty acid composition in psychrotrophic bacteria than in psychrophilic bacteria.
    Type of Medium: Monograph available for loan
    Pages: X, 226, A3 S. : z.T. farb. Ill., graph. Darst.
    ISBN: 9781908230263
    Classification:
    D.8.
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  • 4
    Monograph available for loan
    Monograph available for loan
    Washington, DC : ASM Press
    Call number: 20-2/M 13.0055
    Description / Table of Contents: Molecular Genetics of Bacteria is the single most comprehensive and authoritative textbook on bacterial molecular genetics. Perfect for advanced undergraduate and graduate-level courses, the text presents the latest research on the subject in a clearly written and well-illustrated style. This book is intended for students and professionals in the fields of microbiology, genetics, biochemistry, bioengineering, medicine, molecular biology, and biotechnology.
    Type of Medium: Monograph available for loan
    Pages: XX, 707 S. : Ill., graph. Darst.
    Edition: 4th ed.
    ISBN: 9781555816278 , 978-1-555-81716-9
    Classification:
    D.8.
    Note: Erscheinungsjahr in Vorlageform:c2013
    Location: Upper compact magazine
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  • 5
    Call number: 20-2/M 12.0175
    In: Modern approaches in solid earth sciences
    Description / Table of Contents: Microbial systems in extreme environments and in the deep biosphere may be analogous to potential life on other planetary bodies and hence may be used to investigate the possibilities of extraterrestrial life. This book examines the mode and nature of links between geological processes and microbial activities and their significance for the origin and evolution of life on the Earth and possibly on other planets. This is a truly interdisciplinary science with societal relevance. Inhaltsverzeichnis: Preface. Acknowledgements. Contributors. 1. Oceanic pillow lavas and hyaloclastites as habitats for microbial life through time - a review; H. Furnes et al. 2. Microbial colonization of various habitable niches during alteration of oceanic crust; M. Ivarsson, N.G. Holm. 3. Ambient inclusion trails: their recognition, age range and applicability to early life on earth; D. Wacey et al. 4. Spatial distribution of the subseafloor life: diversity of biogeography; F. Inagaki, S. Nakagawa. 5. Analysis of deep subsurface microbial communities by functional genes and genomics; A. Teske, J. Biddle. 6. Diversity of Behamian stromatolite substrates; R. Ginsburg, N. Planavsky. 7. Evaporite microbial films, mats, microbialites, and stromatolites; R. Brigmon et al. 8. Microbial life in extreme environments: linking geological and microbial processes; H. Dong. 9. Marine methane biochemistry of the Black Sea: a review; T. Pape et al. 10. From volcanic winter to snowball earth: an alternative explanation for neoproterozoic biosphere stress; R.J. Stern et al. Subject index.
    Type of Medium: Monograph available for loan
    Pages: 364 S. , Ill., graph. Darst., Kt.
    ISBN: 9789048178377
    Series Statement: Modern approaches in solid earth sciences 4
    Classification:
    D.8.
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  • 6
    Call number: 20-2/M 13.0091
    Description / Table of Contents: This book is an interdisciplinary review of recent developments in topics including origin of life, microbial-mineral interactions, and microbial processes functioning in marine and terrestrial environments. A major component of this book addresses molecular techniques to evaluate microbial evolution and assess relationships of microbes in complex, natural communities. The function of microbial community members and their possible geological impact are evaluated from a perspective of (meta)genomics, (meta)proteomics, and isotope labeling. As well as summarizing current knowledge in various areas, it also reveals unresolved questions that require future investigations. These chapters enhance our fundamental knowledge of geomicrobiology that contributes to the exploitation of microbial functions in mineral and environmental biotechnology applications. Authors have provided skillful reviews and outlined unique perspectives on environmental microorganisms and their related processes.
    Description / Table of Contents: 1. Chemoautotrophic origin of life: the Iron-Sulfur World Hypothesis; Gunter Wachtershauser 2. Evolution of metabolic pathways and evolution of genomes; Giovanni Emiliani, Marco Fondi, Pietro Lio, and Renato Fani 3. Novel cultivation strategies for environmentally important microorganisms; Jorg Overmann 4. Environmental proteomics: Studying structure and function of microbial communities; Thomas Schneider and Kathrin Riedel 5. Analysis of microbial communities by functional gene arrays; Jizhong Zhou, Zhili He, and Joy D. Van Nostrand 6. Probing identity and physiology of uncultured microorganisms with isotope labeling techniques; Alexander Loy and Michael Pester 7. The geomicrobiology of arsenic; Rhesa N. Ledbetter and Timothy S. Magnuson 8. Bioinformatics and genomics of iron- and sulfur-oxidizing acidophiles; Violaine Bonnefoy 9. The geomicrobiology of catastrophe: a comparison of microbial colonization in post-volcanic and impact environments; Charles S. Cockell 10. Microbial diversity of cave ecosystems; Annette S. Engel 11. Statistical evaluation of bacterial 16S rRNA gene sequences in relation to travertine mineral precipitation and water chemistry at Mammoth Hot Springs, Yellowstone National Park, USA; Hector Garcia Martin, John Veysey, George T. Bonheyo, Nigel Goldenfeld and Bruce W. Fouke 12. Compositional, physiological and metabolic variability in microbial communities associated with geochemically diverse, deep-sea hydrothermal vent fluids; Ken Takai and Kentaro Nakamura 13. The molecular geomicrobiology of bacterial manganese(II) oxidation; Bradley M. Tebo, Kati Geszvain and Sung-Woo Lee 14. Role of microorganisms in banded iron formations; Inga Koehler, Kurt Konhauser and Andreas Kappler 15. Synergistic roles of microorganisms in mineral precipitates associated with deep sea methane seeps; Huifang Xu 16. Bacterial degradation of polychlorinated biphenyls; Martina Mackova, Ondrej Uhlik, Petra Lovecka, Jitka Viktorova, Martina Novakova, Katerina Demnerova, Michel Sylvestre and Tomas Macek 17. Role of clay and organic matter in the biodegradation of organics in soil; Laura E. McAllister and Kirk T. Semple 18. Electrodes as electron acceptors, and the bacteria who love them; Daniel R. Bond 19. The biogeochemistry of biomining; Barrie D. Johnson
    Type of Medium: Monograph available for loan
    Pages: XIV, 437 S. : Ill., graph. Darst. , Ill., graph. Darst. , 235 mm x 155 mm
    ISBN: 9789048192038
    Classification:
    D.8.
    Note: Erscheinungsjahr in Vorlageform:2010
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  • 7
    Monograph available for loan
    Monograph available for loan
    Norfolk : Caister Academic Press
    Call number: 20-2/M 12.0247
    Description / Table of Contents: Biofilms are the default mode-of-life for many bacterial species. The three-dimensional structure of the biofilm provides the associated microbial communities with additional protection from predation, toxic substances and physical perturbation. The variety of microniches provided by the biofilm also promotes a huge diversity of microbial life and metabolic potential. These complex and highly structured communities help to maintain the health of soils and waters. Current applications of biofilms include the degradation of toxic substances in soil and water, the commercial production of chemicals, and the generation of electricity. However, biofilm-based infections cause harm to millions of humans annually. In addition, biofilms can affect the quality and yield of crops and cause biofouling and microbially-induced corrosion. In this book, leading scientists provide an up-to-date review of the latest scientific research on these fascinating microbial communities and predict future trends and growth areas in biofilm-related research. Under the expert guidance of the editors Gavin Lear and Gillian Lewis, authors from around the world have contributed critical reviews on the most topical aspects of current biofilm research. Subjects covered include quorum sensing and social interactions in microbial biofilms, biofilms in disease, plant-associated biofilms, biofilms in the soil, applications in bioremediation, biofilms in wastewater treatment, corrosion and fouling, aquatic biofilms, microbial fuel cells, and catalytic biofilms. The book is essential for everyone interested in biofilms and their applications. It is also highly recommended for environmental microbiologists, soil scientists, medical microbiologists, bioremediation experts and microbiologists working in biocorrosion, biofouling, biodegradation, water microbiology, quorum sensing and many other areas.
    Type of Medium: Monograph available for loan
    Pages: VIII, 228 S. , Ill., graph. Darst. , 25 cm
    ISBN: 1904455964 , 978-1-904455-96-7
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    D.8.
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  • 8
    Monograph available for loan
    Monograph available for loan
    Washington, DC : ASM Press
    Call number: 20-2/M 12.0166
    Description / Table of Contents: This edited volume on Arctic, Antarctic and sub-polar microbiology is designed to introduce this fascinating field to a wide range of microbiologists and environmental scientists. Polar microbiology is a fast-growing field that can tell us much about the fundamentals of life on earth and the microbial contributions and consequences to such important global environmental issues as warming earth, ozone depletion, and elemental cycling. Polar microbial communities are considered important analogues for astrobiology investigations looking for life on other very cold solar system bodies.
    Type of Medium: Monograph available for loan
    Pages: xiii, 312 S. , Ill., Kt. , 27 cm
    ISBN: 9781555813796
    Classification:
    D.8.
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  • 9
    Monograph available for loan
    Monograph available for loan
    Berlin : Springer
    Call number: 20-2/M 12.0176
    Description / Table of Contents: Content: - Preface- Structure of Microbial Mats and Biofilms "Exopolymer Microdomains" as a Structuring Agent for Heterogeneity Within Microbial Biofilms- On Stromatolite Lamination- Bacterial calcification- Bacterial Roles in the Precipitation of Carbonate Minerals- Bacterially Induced Microscale and Nanoscale Carbonate Precipitates- Calcification in Cyanobacteria Cyanobacteria: Architects of Sedimentary Structures Fungi and Sediments- Diatoms and Benthic Microbial Carbonates- Carbon Isotopes and Microbial Sediments- Sulphur Isotopes and Microbial Sulphur- Cycling in Sediments Products and Depth Limits of Microbial Activity in Petroliferous Subsurface Settings- Microbe-metal Interactions in Sediments Microbial- Phosphate Sediment Microbes and Black Shales Organic and Biogeochemical Patterns in Cryptic Microbialites Subaerial- Microbial Mats and Their Effects on Soil and Rock Microbial Sediments in Tropical Karst Terrains: A Model Based on the Cayman Islands- Ambient Temperature- Freshwater Microbial- Tufas Microbial Precipitates Around Continental Hot Springs and Geysers- Evaporite Microbial Sediments- Gypsum Microbial Sediments: Neogene and Modern Examples- Siliciclastic Intertidal Microbial Sediments Subaqueous Siliciclastic Stromatolites. A Case Study from Late Miocene- Beach Deposits in the Sorbas Basin of SE Spain- Shallow Marine Microbial Carbonate Deposits- Microbial Whitings- Cold Seep Carbonates in the Tertiary Of North-West Italy: Evidence of Bacterial Degradation of Methane Processes and Products Fueled by Hydrocarbons At Submarine Seeps- Microbial Contribution to Reefal Mud Mounds in Ancient Deep-Water Settings: Evidence from the Cambrian Mesozoic Reefal Thrombolites and Other Microbolites Proterozoic- Stromatolite Taxonomy and Biostratigraphy- Microbial Versus Environmental Influences on the Morphology of Late Archean- Fenestrated Microbialites- Archean Stromatolites As Microbial Archives- Index.
    Type of Medium: Monograph available for loan
    Pages: VIII, 332 S. , 357 schw.-w. Ill., 30 farb. Ill., 12 schw.-w. Tab
    ISBN: 9783642082757 , 3-642-08275-0
    Classification:
    D.8.
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  • 10
    Monograph available for loan
    Monograph available for loan
    Malden, Mass. [u.a.] : Blackwell
    Call number: 20-2/M 12.0164
    Type of Medium: Monograph available for loan
    Pages: ix, 479 S. , Ill., graph. Darst., Kt.
    Edition: [Nachdr.]
    ISBN: 9781405136471
    Classification:
    D.8.
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