Encyclopedia of geobiology

The interplay between Geology and Biology has shaped the Earth from the early Precambrian, 4 billion years ago. Moving beyond the borders of the classical core disciplines, Geobiology strives to identify chains of cause-and-effect and synergisms between the geo- and the biospheres that have been driving the evolution of life in modern and ancient environments. Combining modern methods, geobiological information can be extracted not only from visible remains of organisms, but also from organic molecules, rock fabrics, minerals, isotopes and other tracers. An understanding of these processes and their signatures reveals enormous applied potentials with respect to issues of environment protection, public health, energy and resource management. The Encyclopedia of Geobiology has been designed to act as a key reference for students, researchers, teachers, and the informed public and to provide basic, but comprehensible knowledge on this rapidly expanding discipline that sits at the interface between modern geo- and biosciences.

Acetogens.-Acid Rock Drainage.- Acidophiles.-Acritarchs.- Aerobic Metabolism.-Algae (Eukaryotic) .-Alkalinity.-Amber.-Anaerobic Oxidation of Methane with Sulfate.-Anaerobic Transformation Processes, Microbiology.-Anammox.-Animal Biocalcification, Evolution.-Animal Skeletons, Advent.-Archaea.-Arsenic.-Asteroid and Comet Impacts.-Astrobiology.-Bacteria.-Bacterioplankton.-Banded Iron Formations.-Basalt (Glass, Endoliths) .-Beggiatoa.-Biodeterioration (of Stone).-Bioerosion.-Biofilms.-Biofilms and Fossilization.- Biogeochemical Cycless.- Biological Control on Diagenesis: Influence of Bacteria and Relevance to Ocean Acidification.-Biological Volcanic Rock Weathering.-Biomarkers (Molecular Fossils). -Biomarkers (Organic, Compound-Specific Isotopes).- Biomining (Mineral Bioleaching, Mineral Biooxidation).-Bioprotection.- Biosignatures in Rocks.- Biosilicification.- Black Shales.- Breakup of Rodinia.- Calcareous Algae.- Calcification.-Calcified Cyanobacteria.-Calcite Precipitation, Microbially Induced.-Calcium Biogeochemistry.-Cap Carbonates.-Carbon (Organic, Cycling) .-Carbon (Organic, Degradation) .-Carbon Cycle.-Carbon Isotopes.-Carbonate Environments.-Carbonates.-Cathodoluminescence Microscopy.-Chemolithotrophy.-Cherts.-Chondrites.-Chroococcidiopsis.-Clay Authigenesis, Bacterial.-Coccolithophores.-Cold Seeps.-Comets.-Commensalism.-Community.-Copper.-Cosmic Molecular Clouds.-Critical Intervals in Earth History.-Cryobiosphere.-Cyanobacteria.-Deep Biosphere of Salt Deposits.-Deep Biosphere of Sediments.-Deep Biosphere of the Oceanic Deep Sea.-Deep Fluids.-Degradation (of Organic Matter) .-Denitrification.-Desert Varnish.-Detachment.-Diatoms.-Dinoflagellates.-Divalent Earth Alkaline Cations in Seawater.-Diversity.-Dolomite, Microbial.-Early Earth.-Early Precambrian Eukaryotes.-Ecological Niche.-Ediacaran Biota.-Endoliths.-Endosymbiosis.-Evaporites.-Exoenzymes.-Extracellular Polymeric Substances (EPS) .-Extreme Environments.-Fe(II)-Oxidizing Prokaryotes.-Fe(III)-Reducing Prokaryotes.-Fermentation.-Fluorescence In Situ Hybridization (FISH) .-Foraminifera.-Frutexites.-Fungi and Lichens.-Gallionella.-Geobacter.-Geochronology.-Geomycology.-Geyserite.-Glass.-Glaucophytes.-Gold.-Gondwanaland, Formation.-Great Oxygenation Event (GOE) .-Green Algae.-Guild.-Habitat.-Halobacteria - Halophiles.-Haptophytes.-Heavy Metals.-Histology.-Hot Springs and Geysers.-Hydrogen.-Hydrothermal Environments, Fossil.-Hydrothermal Environments, Marine.-Hydrothermal Environments, Terrestrial.-Hypersaline Environments.-Ichnology.-Immunolocalization.-Iron Isotopes.-Iron Sulfide Formation.-Isotope Fractionation (Metal) .-Isotopes (Methods) .-Isotopes and Geobiology.-Isotopes, Radiogenic.-Karst Ecosystems.-Lateral Gene Transfer.-Leptothrix.-Magnetotactic Bacteria.-Manganese (Sedimentary Carbonates and Sulfides) .-Mass Extinctions, Phanerozoic.-Mat-Related Sedimentary Structures.-Metagenomics.-Metalloenzymes.-Metallogenium.-Metals, Acquisition by Marine Bacteria.-Meteoritics.-Methane Oxidation (Aerobic) .-Methane, Origin.-Methanogens.-Microbial Biomineralization.-Microbial Communities, Structure, and Function.-Microbial Degradation.-Microbial Ecology of Submarine Caves.-Microbial Mats.-Microbial Silicification - Bacteria (or Passive) .-Microbial Surface Reactivity.-Microbialites, Modern.-Microbialites, Stromatolites, and Thrombolites.-Microbial-Metal Binding.-Microbiocorrosion.-Microsensors for Sediments, Microbial Mats, and Biofilms.-Molar-tooth Structure.-Moonmilk.-Mud Mounds.-Mutualism.-Mycorrhizae.-Nan(n)obacteria.-Nanocrystals, Microbially Induced.-Nickel, Biology.-Nitrification.-Nitrogen.-Nitrogen Fixation.-Ores, Microbial Precipitation and Oxidation.-Organic Carbon.-Organomineralization.-Origin of Life.-Origins of the Metazoa.-Parasitism.-Pedogenic Carbonates.-Permafrost Microbiology.-Phosphorus, Phosphorites.-Photosynthesis.-Piezophilic Bacteria.-Pore Waters.-Protozoa (Heterotroph, Eukaryotic) .-Pyrite Oxidation.-Radioactivity (Natural) .-Radiolaria.-Raman Microscopy (Confocal) .-Reduction Spheroids.-Reefs.-Remineralization (of Organic Matter) .-Rhodophyta.-RNA-World.-Saline Lakes.-Salinity History of the Earth's Ocean.-Scanning Probe Microscopy (Includes Atomic Force Microscopy) .-Sediment Diagenesis - Biologically Controlled.-Selenium.-Shales.-Shewanella.-Siderite.-Siderophores.-Silica Biomineralization, Sponges.-Silicoflagellates.-Sinter.-Skeleton.-Small Shelly Fossils.-Snowball Earth.-Soda Lakes.-Soda Ocean Hypothesis.-Soils.-Species (Microbial) .-Speleothems.-Sponges (Porifera) and Sponge Microbes.-Stromatactis.-Stromatolites.-Subsurface Filamentous Fabrics.-Sulfate-Reducing Bacteria.-Sulfide Mineral Oxidation.-Sulfur Cycle.-Sulfur Isotopes.-Symbiosis.-Syntrophy.-Terrestrial Deep Biosphere.-Thioester World.-Thiomargarita.-Thiotrophic Bacteria.-Thrombolites.-Tidal Flats.-TOF-SIMS.-Trace Fossils: Neoproterozoic.-Tufa, Freshwater.-Waulsortian Mud Mounds.-Whale and Wood Falls.-Zinc.