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Progress in hydrogeochemistry : organics, carbonate systems, silicate systems, microbiology, models (1992)

Matthess, G. [HerausgeberIn] ; Frimmel, F. H. [HerausgeberIn] ; Hirsch, P. [HerausgeberIn] ; [weitere]

Berlin : Springer

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Signatur: M 92.0753 ; AWI G6-92-0394

Beschreibung / Inhaltsverzeichnis: This volume summarizes the main results of a priority programme of the Deutsche Forschungsgemeinschaft (DFG), Bonn-Bad Godesberg

Materialart: Monographie ausleihbar

Seiten: XXIX, 544 Seiten , Illustrationen

ISBN: 3-540-54034-2 , 0-387-54034-2

URL: http://bvbr.bib-bvb.de:8991/exlibris/aleph/a22_1/apache_media/AUE53P5JSXVF7Q6QKAPLNT6U27JVUQ.pdf

Klassifikation:

Geochemie

Sprache: Englisch

Anmerkung: Contents 1 Scope / G. Matthess 2 Polar Organic Substances and Their Role in the Water-Saturated and -Unsaturated Zones 2.0 Introduction / F.H. Frimmel 2.1 Isolation Procedures and Characterization Methods 2.1.1 Isolation and General Characterization of Organic Acids from Pore Water / F.H. Frimmel 2.1.2 Isolation and Characterization of Soil Humic Matter / W. Finger, B. Post and H. Klamberg 2.1.3 Isolation and Characterization of Organic Substancesin Ground Water and Sediments / F. Selenka and A. Hack 2.1.4 Chromatographie Characterization of the Acid-Soluble Part of Humic Substances / F.H. Frimmel 2.1.5 Spectroscopic Characterization of Humic Substances in the Ultraviolet and Visible Region and by Infrared Spectroscopy / G. Abbt-Braun 2.1.6 Temperature-Programmed/Time-Resolved Pyrolysis Field lonization Mass Spectrometry - a New Method for the Characterization of Humic Substances / H.-R. Schulten 2.1.7 Interpretation of the Pyrolysis Products of Isolated Humic and Fulvic Acids / G. Abbt-Braun 2.1.8 Characterization of Isolated Humic Material by 13C Nuclear Magnetic Resonance Spectroscopy /J. Buddrus and P. Burba 2.1.9 Characterization of Humic Substances Extracted by Organic Solvents / B. Post and H. Klamberg 2.2 Interaction of Inorganics with Humic Substances 2.2.1 Investigation of Metal Complexation by Polarography and Fluorescence Spectroscopy / F.H. Frimmel 2.2.2 Determination of Complexation Equilibria by the Ion-Exchange Method / W. Finger and H. Klamberg 2.2.3 Sorption of Metals on Humic Material / R. Becker and H. Klamberg 2.2.4 Interactions of Humic Substances with Iodine / K. G. Heumann and C. Reifenhäuser 2.2.5 Experiments on the Influence of Organic Ligands upon Kinetics of Feldspar Weathering / A. Petersen, G. Matthess and D. Schenk 2.3 Characterization of Some Organic Acids in the Subsurface of the Sandhausen Ecosystem / T. Cordt and H. Kussmaul 2.3.4 Organic Acids 2.3.5 Conclusions 3 Carbonate Systems 3.0 Introduction / E. Usdowski 3.1 Dissolution Kinetics in the Generation of Carbonate Ground Waters 3.1.1 Theoretical and Experimental Results of the Kinetics of Calcite Dissolution and Precipitation / W. Dreybrodt 3.1.2 Field Measurements and Laboratory Experiments on Calcite Dissolution Kinetics of Natural Porous Media / J. Baumann and H.D. Schulz 3.2 Field Studies on Subsurface Water of Selected Sites / B. Merkel and J. Grossmann 3.2.1 Pore Water Sampling in Carbonate Terrains 3.2.2 Variation of Inorganic Carbon in the Unsaturated Zone of a Carbonate Gravel System / L. Eichinger and B. Merkel 3.2.3 Isotope Geochemistry of the Subsurface Carbonate System in Sandhausen and Bocholt / H. Dörr, W. Leuchs, P. Obermann, W. Regenberg and C. Sonntag 3.2.4 Application of Stable Carbon and Sulfur Isotope Models to the Development of Ground Water in a Limestone-Dolomite-Anhydrite-Gypsum Area / K.W. Schaefer and E. Usdowski 3.2.5 A dissolution Front at the Contact of Sandsto Marly Limestone Aquifers / H.R. Langguth and R. Schulz 3.2.6 Carbonate Rock Dissolution Under Intermediate System Conditions / J. Michaelis 3.3 Alteration in Karst Systems 3.3.1 Mineralogy and Hydrogeochemistry of the Gypsum Karst of Foum Tatahouine, South Tunisia / W. Smykatz-Kloss, H. Hötzl and H. Kössl 3.3.2 Dedolomitization and Salt Formationin a Semi-Arid Environment / W. Smykatz-Kloss, and J. Goebelbecker 3.3.3 Transformation Processes in Paleokarst Sediments and Chemistry of Modern Waters in the Aladag Region, Turkey / M. Cevrini and W. Echle 4 Silicate Systems 4.0 Introduction / G. Matthess 4.1 Redox Reactions in the Subsurface 4.1.1 Anoxic Reaction Zones in an Aquifer Influenced by Increasing Nitrate and Sulfate Contents / W. Leuchs and P. Obermann 4.1.2 Nitrogen and Oxygen Isotopes as Indicators for Nitrification and Denitrification / H.-L. Schmidt, S. Voerkelius and A. Amberger 4.1.3 Redox Conditions and Microbial Sulfur Reactions in the Fuhrberger Field Sandy Aquifer / J. Böttcher, O. Strebet and W. Kölle 4.1.4 Influence of Fine-Grained Cover Beds on the Chemistry of Shallow Ground Water / G. Ebhardt and P. Fritsch 4.1.5 Hydrogeochemical Processes During the Passage of Surface Water and Ground Water Through Genetically Different Organic Sediments / H. Brühl, A. Moschick and H. Verleger 4.1.6 Hydrochemical Phenomena in the Dorsten Leakage System / M. Hoffmann, H.R. Langguth and J. Larue 4.1.7 Hydrogeochemical Processes in the Hamburg Deep Aquifer System / E.P. Loehnert, W. Bauhus and C. Sonntag 4.2 Rock-Water Interaction 4.2.1 Aluminium Speciation in Acid Soil Water and Ground Water / G. Dietze and B. Ulrich 4.2.2 Mineral-Pore Water Interaction in Two Soil Types on Pleistocene Sediments at Hamburg / F. Sztuka and I. Valeton 4.2.3 Subsurface Hydrochemical Reactions in the Sandhausen Forest Ecosystem / H. Jacob, W. Regenberg and C. Sonntag 4.3 Reaction Kinetics 4.3.1 Experimental Methods for Determining Dissolution Rates of Silicates - a Comparison / D. Schenk, G. Matthess, A. Dahmke and A. Petersen 4.3.2 Field Studies on the Kinetics of Silicate Minerals/Water Interaction / G. Matthess, A. Petersen, D. Schenk and A. Dahmke 5 Microbiology 5.0 Introduction / P. Hirsch 5.1 Characterization of the Natural Subsurface Environment 5.1.1 Morphological and Taxonomic Diversity of Ground Water Microorganisms / P. Hirsch, E. Rades-Rohkohl, J. Kölbel-Boelke and A. Nehrkorn 5.1.2 Methods of Studying Ground Water Microbiology: Critical Evaluations and Method suggestions / P. Hirsch, E. Rades-Rohkohl, J. Kölbel-Boelke, A. Nehrkorn, R. Schweisfurth, F. Selenka and A. Hack 5.1.3 Organic Substances in Ground Water and Sediments and Their Relationships to Microorganisms in a Sandy Aquifer / E Selenka and A. Hack 5.2 Microbial Activities 5.2.1 Observations on the Physiology of Microorganisms from Pristine Ground Water Environments / P. Hirsch 5.2.2 Formation and Transformation of Manganese Oxidation States by Bacteria / J. Gottfreund and R. Schweisfurth 5.2.3 Interactions Between Humic Acids and Microorganisms / G.-J. Tuschewitzki, B. Langer and H. Otremba 5.3 Microbiology of Selected Locations 5.3.1 Subsurface Microbial Activities in the Sandhausen Forest Ecosystem / R. Weyandt and R. Schweisfurth 5.3.2 Heterotrophic Bacterial Communities in the Bocholt Aquifer System / J. Kölbel-Boelke and A. Nehrkorn 5.3.3 The Natural Microflora of the Segeberger Forest Aquifer System / P. Hirsch and E. Rades-Rohkohl 5.3.4 Microbiological Observations of the Unsaturated Zone of a Quaternary Gravel Profile / I. Alexander, G. Freitag, J. Grossmann, Β. Merkel, P. Udluft and I. Ullsperger 6 Hydrogeochemical and Geochemical-Hydraulic Models and Model Concepts 6.0 Introduction / H.-D. Schulz 6.1 Hydrogeochemical Models and Concepts 6.1.1 Development of Secondary Permeability of a Fracture Aquifer in Carbonate Rocks: a Model / W. Dreybrodt 6.1.2 Some Aspects of Modelling the Carbon System in the Unsaturated Zone / B. Merkel, L. Eichinger and P. Udluft 6.1.3 Methodical Concepts in Silicate-Water Interaction - a Comparison of Results / A. Dahmke, G. Matthess, A. Petersen and D. Schenk 6.2 Combination of Transport and Geochemical Reactions 6.2.1 Water Movement and Geochemical Reactions in the Unsaturated Zone of Sands with Low Calcite Contents / H.-D. Schulz 6.2.2 Physical and Biochemical Processes Affecting Mass Transport in the Bocholt Aquifer System / C. Bugner and R. Mull 6.2.3 Tritium and 3He Measurements as Calibration Data for Ground Water Transport Models / H. Dörr, P. Schlosser, M. Stute and C. Sonntag 6.2.4 39Ar-, 85Kr-, 3He- and 3H Isotope Dating of Ground Water in the Bocholt and Segeberger Forst Aquifer Systems / M. Forster, H. Loosli and S. Weise 6.2.5 Modelling of Mass Balance and of Microbial Transformations in the Fuhrberger Feld Sandy Aquifer / O. Strebet, J. Böttcher and W.H.M. Duynisveld 6.3 Description of Geochemical Environments with Thermodynamic Equilibrium Models / M. Rolling and H.-D. Schulz 6

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The Asian monsoon : causes, history and effects (2008)

Clift, Peter D. ; Plumb, R. Alan

Cambridge [u.a.] : Cambridge Univ. Press

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Signatur: AWI A3-09-0026 ; M 14.0117

Materialart: Monographie ausleihbar

Seiten: X, 270, [4] S. : Ill., graph. Darst., Kt.

ISBN: 9780521847995

Klassifikation:

Meteorologie und Klimatologie

Sprache: Englisch

Anmerkung: Contents: Preface. - Acknowledgements. - 1 The meteorology of monsoons. - 1.1 Introduction. - 1.2 Meteorology of the tropics. - 1.3 The Indian Ocean monsoon system. - 1.4 Theory of monsoons. - 2 Controls on the Asian monsoon over tectonic timescales. - 2.1 Introduction. - 2.2 The influence of Tibet. - 2.3 Oceanic controls on monsoon intensity. - 2.4 Summary. - 3 Monsoon evolution on tectonic timescales. - 3.1 Proxies for monsoon intensity. - 3.2 Monsoon reconstruction by oceanic upwelling. - 3.3 Continental climate records. - 3.4 Eolian dust records. - 3.5 Evolving flora of East Asia. - 3.6 History of Western Pacific Warm Pool and the Monsoon. - 3.7 Summary. - 4 Monsoon evolution on orbital timescales. - 4.1 Introduction. - 4.2 Orbital controls on monsoon strength. - 4.3 Eolian records in North-east Asia. - 4.4 Monsoon records from cave deposits. - 4.5 Monsoon variability recorded in ice caps. - 4.6 Monsoon variability recorded in lacustrine sediments. - 4.7 Salinity records in marine sediments. - 4.8 Pollen records in marine sediments. - 4.9 Paleoproductivity as an indicator of monsoon strength. - 4.10 The Early Holocene monsoon. - 4.11 Mid–Late Holocene monsoon. - 4.12 Summary. - 5 Erosional impact of the Asian monsoon. - 5.1 Monsoon and oceanic strontium. - 5.2 Reconstructing erosion records. - 5.3 Reconstructing exhumation. - 5.4 Estimating marine sediment budgets. - 5.5 Erosion in Indochina. - 5.6 Erosion in other regions. - 5.7 Monsoon rains in Oman. - 5.8 Changes in monsoon-driven erosion on orbital timescales. - 5.9 Tectonic impact of monsoon strengthening. - 5.10 Climatic control over Himalaya exhumation. - 5.11 Summary. - 6 The Late Holocene monsoon and human society. - 6.1 Introduction. - 6.2 Holocene climate change and the Fertile Crescent. - 6.3 Holocene climate change and the Indus Valley. - 6.4 Holocene climate change and early Chinese cultures. - 6.5 Monsoon developments since 1000 AD. - 6.6 Monsoon and religion. - 6.7 Impacts of future monsoon evolution. - 6.8 Summary. - References. - Further reading. - Index.

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The geology of stratigraphic sequences : with 11 tables (1997)

Miall, Andrew D. [VerfasserIn]

Berlin : Springer

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Signatur: M 98.0363 ; AWI G8-96-0626

Materialart: Monographie ausleihbar

Seiten: XV, 433 Seiten , Illustrationen

ISBN: 3540593489

URL: http://bvbr.bib-bvb.de:8991/exlibris/aleph/a23_1/apache_media/3UPUQTPX5452YCB8J22YTRHAJ96AD4.pdf

Klassifikation:

Historische Geologie

Sprache: Englisch

Anmerkung: Contents I Review of Current Concepts 1 Introduction 1.1 Sequence Stratigraphy: A New Paradigm? 1.2 From Sloss to Vail 1.3 Problems and Research Trends: The Current Status 1.4 Stratigraphic Terminology 2 Methods for Studying Sequence Stratigraphy 2.1 Introduction 2.2 Erecting a Sequence Framework 2.2.1 The Importance of Unconformities 2.2.2 Facies Cycles 2.2.3 Stratigraphic Architecture: The Seismic Method 2.3 Methods for Assessing Regional and Global Changes in Sea Level, Other Than Seismic Stratigraphy 2.3.1 Areas and Volumes of Stratigraphic Units 2.3.2 Hypsometric Curves 2.3.3 Backstripping 2.3.4 Sea-Level Estimation from Paleoshorelines and Other Fixed Points 2.3.5 Documentation of Meter-Scale Cycles 2.4 Integrated Tectonic-Stratigraphic Analysis 3 The Four Basic Types of Stratigraphic Cycle 3.1 Introduction 3.2 The Supercontinent Cycle 3.3 Cycles with Episodicities of Tens of Millions of Years 3.4 Cycles with Million-Year Episodicities 3.5 Cycles with Episodicities of Less Than One Million Years 4 The Basic Sequence Model 4.1 Introduction 4.2 Terminology 4.3 Depositional Systems and Systems Tracts 4.4 Sequence Boundaries 4.5 Other Sequence Concepts 5 The Global Cycle Chart II The Stratigraphic Framework 6 Cycles with Episodicities of Tens to Hundreds of Millions of Years 6.1 Climate, Sedimentation, and Biogenesis 6.2 The Supercontinent Cycle 6.2.1 The Tectonic-Stratigraphic Model 6.2.2 The Phanerozoic Record 6.3 Cycles with Episodicities of Tens of Millions of Years 6.3.1 Intercontinental Correlations 6.3.2 Tectonostratigraphic Sequences 6.4 Main Conclusions 7 Cycles with Million-Year Episodicities 7.1 Extensional and Rifted Clastic Continental Margins 7.2 Foreland Basin of the North American Western Interior 7.3 Other Foreland Basins 7.4 Forearc Basins 7.5 Backarc Basins 7.6 Cyclothems and Mesothems 7;7 Carbonate Cycles of Platforms and Craton Margins 7.8 Evidence of Cyclicity in the Deep Oceans 7.9 Main Conclusions 8 Cycles with Episodicities of Less Than One Million Years 8.1 Introduction 8.2 Neogene Clastic Cycles of Continental Margins 8.3 Pre-Neogene Marine Carbonate and Clastic Cycles 8.4 Late Paleozoic Cyclothems 8.5 Lacustrine elastic and Chemical Rhythms 8.6 Clastic Cycles of Foreland Basins 8.7 Main Conclusions III Mechanisms 9 Long-Term Eustasy and Epeirogeny 9.1 Mantle Processes and Dynamic Topography 9.2 Supercontinent Cycles 9.3 Cycles with Episodicities of Tens of Millions of Years 9.3.1 Eustasy 9.3.2 Dynamic Topography and Epeirogeny 9.4 Main Conclusions 10 Milankovitch Processes 10.1 Introduction 10.2 The Nature of Milankovitch Processes 10.2.1 Components of Orbital Forcing 10.2.2 Basic Climatology 10.2.3 Variations with Time in Orbital Periodicities 10.2.4 Isostasy and Geoid Changes 10.2.5 The Nature of the Cyclostratigraphic Data Base 10.2.6 The Sensitivity of the Earth to Glaciation 10.2.7 Glacioeustasy in the Mesozoic? 10.2.8 Nonglacial Milankovitch Cyclicity 10.3 The Cenozoic Record 10.4 Late Paleozoic Cyclothems 10.5 The End-Ordovician Glaciation 10.6 Main Conclusions 11 Tectonic Mechanisms 11.1 Introduction 11.2 Rifting and Thermal Evolution of Divergent Plate Margins 11.2.1 Basic Geophysical Models and Their Implications for Sea-Level Change 11.2.2 Some Results from the Analysis of Modern Data Sets 11.3 Tectonism on Convergent Plate Margins and in Collision Zones 11.3.1 Magmatic Arcs and Subduction 11.3.2 Tectonism Versus Eustasy in Foreland Basins 11.3.2.1 The North American Western Interior Basin 11.3.2.2 The Appalachian Foreland Basin 11.3.2.3 Pyrenean and Himalayan Basins 11.3.3 Rates of Uplift and Subsidence 11.3.4 Discussion 11.4 Intraplate Stress 11.4.1 The Pattern of Global Stress 11.4.2 In-Plane Stress as a Control of Sequence Architecture 11.4.3 In-Plane Stress and Regional Histories of Sea-Level Change 11.5 Basement Control 11.6 Other Speculative Tectonic Hypotheses 11.7 Sediment Supply and the Importance of Big Rivers 11.8 Environmental Change 11.9 Main Conclusions IV Chronostratigraphy and Correlation: Why the Global Cycle Chart Should Be Abandoned 12 Time in Sequence Stratigraphy 12.1 Introduction 12.2 Hierarchies of Time and the Completeness of the Stratigraphic Record 12.3 Main Conclusions 13 Correlation, and the Potential for Error 13.1 Introduction 13.2 The New Paradigm of Geological Time? 13.3 The Dating and Correlation of Stratigraphic Events: Potential Sources of Uncertainty 13.3.1 Identification of Sequence Boundaries 13.3.2 Chronostratigraphic Meaning of Unconformities 13.3.3 Determination of the Biostratigraphic Framework 13.3.3.1 The Problem of Incomplete Biostratigraphic Recovery 13.3.3.2 Diachroneity of the Biostratigraphic Record 13.3.4 The Value of Quantitative Biostratigraphic Methods 13.3.5 Assessment of Relative Biostratigraphic Precision 13.3.6 Correlation of Biozones with the Global Stage Framework 13.3.7 Assignment of Absolute Ages 13.3.8 Implications for the Exxon Global Cycle Chart 13.4 Correlating Regional Sequence Frameworks with the Global Cycle Chart 13.4.1 Circular Reasoning from Regional Data 13.4.2 A Rigorous Test of the Global Cycle Chart 13.4.3 A Correlation Experiment 13.4.4 Discussion 13.5 Main Conclusions 14 Sea-Level Curves Compared 14.1 Introduction 14.2 The Exxon Curves: Revisions, Errors, and Uncertainties 14.3 Other Sea-Level Curves 14.3.1 Cretaceous Sea-Level Curves 14.3.2 Jurassic Sea-Level Curves 14.3.3 Why Does the Exxon Global Cycle Chart Contain So Many More Events Than Other Sea-Level Curves? 14.4 Main Conclusions V Approaches to a Modern Sequence-Stratigraphic Framework 15 Elaboration of the Basic Sequence Model 15.1 Introduction 15.2 Definitions 15.2.1 The Hierarchy of Units and Bounding Surfaces 15.2.2 Systems Tracts and Sequence Boundaries 15.3 The Sequence Stratigraphy of Clastic Depositional Systems 15.3.1 Pluvial Deposits and Their Relationship to Sea-Level Change 15.3.2 The Concept of the Bayline 15.3.3 Deltas, Beach-Barrier Systems, and Estuaries 15.3.4 Shelf Systems: Sand Shoals and Condensed Sections 15.3.5 Slope and Rise Systems 15.4 The Sequence Stratigraphy of Carbonate Depositional Systems 15.4.1 Platform Carbonates: Catch-Up Versus Keep-Up 15.4.2 Carbonate Slopes 15.4.3 Pelagic Carbonate Environments 15.5 Main Conclusions 16 Numerical and Graphical Modeling of Sequences 16.1 Introduction 16.2 Model Design 16.3 Selected Examples of Model Results 16.4 Main Conclusions VI Discussion and Conclusions 17 Implications for Petroleum Geology 17.1 Introduction 17.2 Integrated Tectonic-Stratigraphic Analysis 17.2.1 The Basis of the Methodology 17.2.2 The Development of an Allostratigraphic Framework 17.2.3 Choice of Sequence-Stratigraphic Models 17.2.4 The Search for Mechanisms 17.2.5 Reservoir Characterization 17.3 Controversies in Practical Sequence Analysis 17.3.1 The Case of the Tocito Sandstone, New Mexico 17.3.2 The Case of Gippsland Basin, Australia 17.3.3 Conclusions: A Modified Approach to Sequence Analysis for Practicing Petroleum Geologists and Geophysicists 17.4 Main Conclusions 18 Conclusions and Recommendations 18.1 Sequences in the Stratigraphic Record 18.1.1 Long-Term Stratigraphic Cycles 18.1.2 Cycles with Million-Year Episodicities 18.1.3 Cycles with Episodicities of Less Than One Million Years 18.2 Mechanisms 18.2.1 Long-Term Eustasy and Epeirogeny 18.2.2 Milankovitch Processes 18.2.3 Tectonic Mechanisms 18.3 Chronostratigraphy and Correlation 18.3.1 Concepts of Time 18.3.2 Correlation Problems, and the Basis of the Global Cycle Chart 18.3.3 Comparison of Sea-Level Curves 18.4 Modern Sequence Analysis 18.4.1 Elaboration of the Basic Sequence Model 18.4.2 Numerical and Graphical Modeling of Stratigraphic Sequences 18.5 Implications for Petroleum Geology 18.6 The Global-Eustasy Paradigm: Working Backwards from the Answer? 18.6.1 The Exxon Factor 18.6.2 Conclusions . 18.7 Recommendations References Author Index Subject Index

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Microbiology of extreme soils (2008)

Dion, Patrice [Hrsg.] ; Nautiyal, Chandra Shekhar [Hrsg.] ; Rummel, John D.

Berlin [u.a.] : Springer

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Signatur: AWI Bio-08-0027 ; M 08.0186

In: Soil biology

Beschreibung / Inhaltsverzeichnis: This volume provides a comprehensive coverage of the principal extreme soil ecosystems of natural and anthropogenic origin. Extreme soils oppose chemical or physical limits to colonization by most soil organisms and present the microbiologist with exciting opportunities. Described here are fascinating environments, such as permafrost, saline, arid and geothermal soils, peatlands, subsurface geomaterial rich in sulfidic ore, Martian soils, hydrocarbon-contaminated hot desert and Antarctic soils, as well as fire-impacted, heavy-metal and radionuclide contaminated soils. Those environments lend themselves both to timely descriptions of colonizing organisms and their activities, and to thoughtful examination of community structure and microbial evolution. Extreme soils provide invaluable examples of microbial adaptations in coping with hostile habitats. Being home to a remarkable diversity, they are ideal models for scientific exploration and propose solutions to biotechnology and bioremediation challenges.

Materialart: Monographie ausleihbar

Seiten: XVII, 369 S. : Ill., graph. Darst.

ISBN: 9783540742302

Serie: Soil biology 13

Anmerkung: Contents: PART I PRINCIPLES OF EXTREME SOIL MICROBIOLOGY. - 1 The Microbiological Promises of Extreme Soils / Patrice Dion. - 2 Microbial Diversity, Life Strategies, and Adaptation to Life in Extreme Soils / Vigdis Torsvik and Lise Øvreås. - 3 Extreme Views on Prokaryote Evolution / Patrice Dion. - 4 Biodiversity: Extracting Lessons from Extreme Soils / Diana H. Wall. - PART II NATURAL EXTREME SOILS. - 5 Halophilic and Halotolerant Micro-Organisms from Soils / Antonio Ventosa, Encarnacion Mellado, Cristina Sanchez-Porro, and M. Carmen Marquez. - 6 Atacama Desert Soil Microbiology / Benito G6mez-Silva, Fred A. Rainey, Kimberley A. Warren-Rhodes, Christopher P. McKay, and Rafael Navarro-Gonzruez. - 7 Microbial Communities and Processes in Arctic Permafrost Environments / Dirk Wagner. - 8 Aerobic, Endospore-Forming Bacteria from Antarctic Geothermal Soils / Niall A. Logan and Raymond N. Allan. - 9 Peatland Microbiology / Shwet Kamal and Ajit Vanna. - 10 Subsurface Geomicrobiology of the Iberian Pyritic Belt / Ricardo Amils, David Femandez-Remolar, Felipe Gómez, Elena González-Toril, Nuria Rodriguez, Carlos Briones, Olga Prieto-Ballesteros, Jose Luis Sanz, Emiliano Díaz,Todd O. Stevens, Carol R. Stoker, the MARTE Team. - 11 The Potential for Extant Life in the Soils of Mars / Ronald L. Crawford and David A. Newcombe. - PART III ANTHROPOGENIC EXTREME SOILS. - 12 Bacteriology of Extremely Cold Soils Exposed to Hydrocarbon Pollution / Lucas A.M. Ruberto, Susana C. Vazquez, and Walter P. Mac Cormack. - 13 Microbiology of Oil-Contaminated Desert Soils and Coastal Areas in the Arabian Gulf Region / Samir Radwan. - 14 Microbial Communities in Fire-Affected Soils / Christopher Janzen and Tarnmy Tobin-Janzen. - 15 Endophytes and Rhizosphere Bacteria of Plants Growing in Heavy Metal-Containing Soils / Angela Sessitsch and Markus Puschemeiter. - 16 Interactions of Fungi and Radionuclides in Soil / John Dighton, Tatyana Tugay, and Nelli Zhdanova. - Index.

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Report and preliminary results of the RV Pelagia cruise 64PE284 : cold-water corals in the Gulf of Cádiz and on coral patch seamount (NE Atlantic) : Portimão-Portimão, 18.02. - 09.03.2008 (2008)

Hebbeln, D. ; Wienberg, C. ; Beuck, L.

Bremen : Fachbereich Geowiss., Univ.

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Signatur: ZSP-166-265

In: Berichte aus dem MARUM und dem Fachbereich Geowissenschaften der Universität Bremen

Materialart: Monographie ausleihbar

Seiten: 90 S. : Ill., graph. Darst., Kt.

Serie: Berichte aus dem Fachbereich Geowissenschaften der Universität Bremen 265

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The carbon cycle (2000)

Wigley, Tom M. L. [Hrsg.] ; Schimmel, D. S. [Hrsg.]

Cambridge : Cambridge Univ. Press

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Signatur: M 00.0524 ; AWI G6-02-0002 ; PIK W 111-00-0377

Beschreibung / Inhaltsverzeichnis: Reducing carbon dioxide (CO2) emissions is imperative to stabilizing our future climate. Our ability to reduce these emissions, combined with an understanding of how much fossil fuel-derived CO2 the oceans and plants can absorb, is central to mitigating climate change. In The Carbon Cycle, leading scientists examine how atmospheric carbon dioxide concentrations have changed in the past and how this may effect the concentrations in the future. They look at the carbon budget and the "missing sink" for carbon dioxide. They offer approaches to modeling the carbon cycle, providing mathematical tools for predicting future levels of carbon dioxide. This comprehensive text incorporates findings from the recent IPCC reports. New insights, and a convergence of ideas and views across several disciplines, make this book an important contribution to the global change literature. It is an invaluable resource for students and researchers working in the field.

Materialart: Monographie ausleihbar

Seiten: XVII, 292 S.

Ausgabe: 1st ed.

ISBN: 0521583373

Serie: Office for Interdisciplinary Earth Studies Global Change Institute 6

Klassifikation:

Geochemie

Sprache: Englisch

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Natural gas hydrate : in oceanic and permafrost environments (2000)

Max, Michael D. [Hrsg.]

Dordrecht : Springer

Dazugehörige Bände

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Signatur: M 01.0062 ; M 01.0090 ; M 02.0172 ; AWI G3-02-0055

In: Coastal Systems and Continental Margins

Beschreibung / Inhaltsverzeichnis: Table of Contents: Preface / M. D. Max. - Part 1: Hydrate as a Material and its Discovery. - 1. Introduction, Physical Properties, and Natural Occurrences of Hydrate / R. E. Pellenbarg, M. D. Max. - 2. Natural Gas Hydrate: Introduction and History of Discovery / K. A. Kvenvolden. - Part 2: Physical Character of Natural Gas Hydrate. - 3. Practical Physical Chemistry and Empirical Predictions of Methane Hydrate Stability / E. T. Peltzer, P. G. Brewer. - 4. Thermal State of the Gas Hydrate Reservoir / C. Ruppel. - Part 3: Oceanic and Permafrost-Related Natural Gas Hydrate. - 5. Permafrost-Associated Gas Hydrate / T. S. Collett, S. R. Dallimore. - 6. Oceanic Gas Hydrate / W. P. Dillon, M. D. Max. - Part 4: Source of Methane and its Migration. - 7. The Role of Methane Hydrate in Ocean Carbon Chemistry and Biogeochemical Cycling / R. B. Coffin, K. S. Grabowski, J. P. Chanton. - 8. Deep Biosphere: Source of Methane for Oceanic Hydrate / P. Wellsbury, R. J. Parkes. - 9. Movement and Accumulation of Methane in Marine Sediments: Relation to Gas Hydrate Systems / M. B. Clennell, A. Judd & M. Hovland. - Part 5: Major Hydrate-Related Issues. - 10. Natural Gas Hydrate as a Potential Energy Resource / T. S. Collett. - 11. Climate Impact of Natural Gas Hydrate / B. U. Haq. - 12. Potential Role of Gas Hydrate Decomposition in Generating Submarine Slope Failures / C. K. Paull, W. Ussler III. & W. P. Dillon. - Part 6: Distribution of Natural Gas Hydrate. - 13. U.S. Atlantic Continental Margin; the Best Known Gas Hydrate Locality / W. P. Dillon, M. D. Max. - 14. Gas Hydrate in the Arctic and Northern North Atlantic Oceans / M. D. Max, J. Mienert, K. Andreassen & C. Berndt. - 15. Cascadia Margin, Northeast Pacific Ocean: Hydrate Distribution from Geophysical Investigations / G. D. Spence, R. D. Hyndman, N. R. Chapman, M. Riedel, N. Edwards & J. Yuan. - 16. The Occurrence of BSRs on the Antarctic Margin / E. Lodolo, A. Camerlenghi. - 17. Gas Hydrate Potential of the Indian Sector of the NE Arabian Sea and Northern Indian Ocean / M. D. Max. - 18. Hydrate as a Future Energy Resource for Japan / M. D. Max. - 19. A Note on Gas Hydrate in the Northern Sector of the South China Sea / S. McDonnell, M. Czarnecki. - Part 7: How we see Hydrate. - 20. Introduction to Physical Properties and Elasticity Models / J. Dvorkin, M. B. Helgerud, W. F. Waite, S. H. Kirby and A. Nur. - 21. Geophysical Sensing and Hydrate / P. R. Miles. - 22. Seismic Methods for Detecting and Quantifying Marine Methane Hydrate/Free Gas Reservoirs / I. A. Pecher, W. S. Holbrook. - 23. Ground Truth: In-Situ Properties of Hydrate / D. S. Goldberg, T. S. Collett & R. D. Hyndman. - Part 8: Laboratory Studies of Gas Hydrates. - 24. GHASTLI - Determining Physical Properties of Sediment Containing Natural and Laboratory-Formed Gas Hydrate / W. J. Winters, W. P. Dillon, I. A. Pecher & D. H. Mason. - 25. Laboratory Synthesis of Pure Methane Hydrate Suitable for Measurement of Physical Properties and Decomposition Behavior / L. Stern, S. H. Kirby, W. B. Durham, S. Circone & W. F. Waite. - Part 9: The Promise of Hydrate. - 26. Economic Perspective of Methane from Hydrate / K. J. Bil. - 27. Hydrate Resource, Methane Fuel, and a Gas-Based Economy? / M. D. Max. - Glossary of terms. - Selected references. - List of contributing authors.

Beschreibung / Inhaltsverzeichnis: This is the first book published on the emerging research field of naturally occurring gas hydrates (focusing on methane hydrate) that is not primarily a physical chemistry textbook. This book is designed as a broad introduction to the field of hydrate science, demonstrating the significance of the hydrate cycle to energy resource potential, seafloor stability, and global climate and climate change along with other issues. The best known hydrate localities are described, as are research and laboratory methods and results. The book consists of chapters grouped in related themes that present up-to-date information on methane hydrate. Each of the contributing authors is expert in hydrate science and most have been carrying out research in hydrate for a considerable time.

Materialart: Monographie ausleihbar

Seiten: 414 S.

ISBN: 0792366069

Serie: Coastal Systems and Continental Margins 5

Klassifikation:

Ozeanographie

Standort: Kompaktmagazin oben

Zweigbibliothek: GFZ Bibliothek

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Monographie ausleihbar

Marine geochemistry : with 23 tables (2000)

Schulz, Horst D. [HerausgeberIn] ; Zabel, Matthias [HerausgeberIn]

Berlin [u.a.] : Springer

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Signatur: 10/N 01.0413 ; AWI G2-19-51789

Materialart: Monographie ausleihbar

Seiten: XX, 455 Seiten , Illustrationen

ISBN: 354066453X

Klassifikation:

Geochemie

Sprache: Englisch

Anmerkung: Table of Contents: 1 The Solid Phase of Marine Sediments / DIETER K. FÜTTERER 1.1 Introduction 1.2 Sources and Components of Marine Sediments 1.2.1 Lithogenous Sediments 1.2.2 Biogenous Sediments 1.2.3 Hydrogenous Sediments 1.3 Classification of Marine Sediments 1.3.1 Terrigenous Sediments 1.3.2 Deep-Sea Sediments 1.4 Global Patterns of Sediment Distribution 1.4.1 Distribution Patterns of Shelf Sediments 1.4.2 Distribution Patterns of Deep-Sea Sediments 1.4.3 Distribution Patterns of Glay Minerals 1.4.4 Sedimentation Rates 2 Geophysical Perspectives in Marine Sediments 2.1 Physical Properties of Marine Sediments / MONIKA BREITZKE 2.1.1 Introduction 2.1.2 Porosity and Wet Bulk Density 2.1.2.1 Analysis by Weight and Volume 2.1.2.2 Gamma Ray Attenuation 2.1.2.3 Electrical Resistivity (Galvanic Method) 2.1.2.4 Electrical Resistivity (Inductive Method) 2.1.3 Permeability 2.1.4 Acoustic and Elastic Properties 2.1.4.1 Biot-Stoll Model 2.1.4.2 Full Waveform Ultrasonic Gore Logging 2.1.5 Sediment Classification 2.1.5.1 Full Waveform Gore Logs as Acoustic Images 2.1.5.2 P-and S-Wave Velocity, Attenuation, Elastic Moduli and Permeability 2.1.6 Sediment Echosounding 2.1.6.1 Synthetic Seismograms 2.1.6.2 Narrow-Beam Parasound Echosounder Recordings 2.2 Sedimentary Magnetism / ULRICH BLEIL 2.2.1 Introduction 2.2.2 Biogenie Magnetic Minerals in Marine Sediments 2.2.3 Reduction Diagenesis of Magnetic Minerals in Marine Environments 3 Quantification of Early Diagenesis: Dissolved Constituents in Marine Pore Water / HORST D. SCHULZ 3.1 Introduction: How to Read Pore Water Concentration Profiles 3.2 Calculation of Diffusive Fluxes and Diagenetic Reaction Rates 3.2.1 Steady State and Non-Steady State Situations 3.2.2 The Steady State Situation and Fick's First Law of Diffusion 3.2.3 Quantitative Evaluation of Steady State Concentration Profiles 3.2.4 The Non-Steady State Situation and Fick's Second Law of Diffusion 3.2.5 The Primary Redox-Reactions: Degradation of Organic Matter 3.3 Sampling of Pore Water for Ex-Situ Measurements 3.3.1 Obtaining Sampies of Sediment for the Analysis of Pore Water 3.3.2 Pore Water Extraction from the Sediment 3.3.3 Storage, Transport and Preservation of Pore Water 3.4 Analyzing Constituents in Pore Water, Typical Profiles 3.5 In-Situ Measurements 3.6 Influence of Bioturbation, Bioirrigation, and Advection 4 Organic Matter: The Driving Force for Early Diagenesis / JÜRGEN RULLKÖTTER 4.1 The Organic Carbon Cycle 4.2 Organic Matter Accumulation in Sediments 4.2.1 Productivity Versus Preservation 4.2.2 Primary Production of Organic Matter and Export to the Ocean Bottom 4.2.3 Transport of Organic Matter through the Water Column 4.2.4 The Influence of Sedimentation Rate on Organic Matter Burial 4.2.5 Allochthonous Organic Matter in Marine Sediments 4.3 Early Diagenesis 4.3.1 The Organic Carbon Content of Marine Sediments 4.3.2 Chemical Composition of Biomass 4.3.3 The Principle of Selective Preservation 4.3.4 The Formation of Fossil Organic Matter and its Bulk Composition 4.3.5 Early Diagenesis at the Molecular Level 4.3.6 Biological Markers (Molecular Fossils) 4.4 Organic Geochemical Proxies 4.4.1 Total Organic Carbon and Sulfur 4.4.2 Marine Versus Terrigenous Organic Matter 4.4.3 Molecular Paleo-Seawater Temperature and Climate Indicators 4.5 Analytical Techniques 4.5.1 Sam pie Requirements 4.5.2 Elemental and Bulk Isotope Analysis 4.5.3 Rock-Eval Pyrolysis and Pyrolysis Gas Chromatography 4.5.4 Organic Petrography 4.5.5 Bitumen Analysis 4.6 The Future of Marine Geochemistry of Organic Matter 5 Bacteria and Marine Biogeochemistry / Bo BARKER JORGENSEN 5.1 Role of Microorganisms 5.1.1 From Geochemistry to Microbiology - and back 5.1.2 Approaches in Marine Biogeochemistry 5.2 Life and Environments at Small Scale 5.2.1 Hydrodynamics of Low Reynolds Numbers 5.2.2 Diffusion at Small Scale 5.2.3 Diffusive Boundary Layers 5.3 Regulation and Limits of Microbial Processes 5.3.1 Substrate Uptake by Microorganisms 5.3.2 Temperature as a Regulating Factor 5.3.3 Other Regulating Factors 5.4 Energy Metabolism of Prokaryotes 5.4.1 Free Energy 5.4.2 Reduction-Oxidation Processes 5.4.3 Relations to Oxygen 5.4.4 Definitions of Energy Metabolism 5.4.5 Energy Metabolism of Microorganisms 5.4.6 Chemolithotrophs 5.4.7 Respiration and Fermentation 5.5 Pathways of Organic Matter Degradation 5.5.1 Depolymerization of Macromolecules 5.5.2 Aerobic and Anaerobic Mineralization 5.5.3 Depth Zonation of Oxidants 5.6 Methods in Biogeochemistry 5.6.1 Incubation Experiments 5.6.2 Radioactive Tracers 5.6.3 Example: Sulfate Reduction 5.6.4 Specific Inhibitors 5.6.5 Other Methods 6 Early Diagenesis at the Benthic Boundary Layer: Oxygen and Nitrate in Marine Sediments / CHRISTIAN HENSEN AND MATTHIAS ZABEL 6.1 Introduction 6.2 Oxygen and Nitrate Distribution in Seawater 6.3 The Role of Oxygen and Nitrate in Marine Sediments 6.3.1 Respiration and Redox Processes 6.3.1.1 Nitrification and Denitrification 6.3.1.2 Coupling of Oxygen and Nitrate to other Redox Pathways 6.3.2 Determination of Consumption Rates and Senthic Fluxes 6.3.2.1 Fluxes and Concentration Profiles Determined by In-Situ Devices 6.3.2.2 Ex-Situ Pore Water Data from Deep-Sea Sediments 6.3.2.3 Determination of Denitrification Rates 6.3.3 Oxic Respiration, Nitrification and Denitrification in Different Marine Environments 6.3.3.1 Quantification of Rates and Fluxes 6.3.3.2 Variation in Different Marine Environments: Case Studies 6.4 Summary 7 The Reactivity of Iron / RALF R. HAESE 7.1 Introduction 7.2 Pathways of Iron Input to Marine Sediments 7.2.1 Fluvial Input 7.2.2 Aeolian Input 7.3 Iron as a Limiting Nutrient for Primary Productivity 7.4 The Early Diagenesis of Iron in Sediments 7.4.1 Dissimilatary Iran Reductian 7.4.2 Solid Phase Ferric Iron and its Bioavailability 7.4.2.1 Properties of Iron Oxides 7.4.2.2 Bioavailability of Iron Oxides 7.4.2.3 Bioavailability of Sheet Silicate Sound Ferric lron 7.4.3 Iron and Manganese Redax Cycles 7.4.4 Iron Reactivity towards S, O2, Mn, NO3, P, HCO3, and Si-AI 7.4.4.1 lron Reduction by HS and Ligands 7.4.4.2 Iron Oxidation by O2, NO3, and Mn4+ 7.4.4.3 Iron-Sound Phosphorus 7.4.4.4 The Formation of Siderite 7.4.4.5 The Formation of lron Searing Aluminosilicates 7.4.5 Discussion: The Importance of Fe-and Mn-Reactivity in Various Enyironments 7.5 The Assay for Ferric and Ferrous Iron 8 Sulfate Reduction in Marine Sediments / SABINE KASTEN AND BO BARKER JØRGENSEN 8.1 Introduction 8.2 Sulfate Reduction and the Degradation of Organic Matter 8.3 Biotic and Abiotic Processes Coupled to Sulfate Reduction 8.3.1 Pyrite Formation 8.3.2 Effects of Sulfate Reduction on Sedimentary Solid Phases 8.4 Determination of Sulfate Reduction Rates 9 Marine Carbonates: Their Formation and Destruction / RALPH R. SCHNEIDER, HORST D. SCHULZ AND CHRISTIAN HENSEN 9.1 Introduction 9.2 Marine Environments of Carbonate Production and Accumulation 9.2.1 Shallow-Water Carbonates 9.2.2 Pelagic Calcareous Sediments 9.3 The Calcite-Carbonate-Equilibrium in Marine Aquatic Systems 9.3.1 Primary Reactions of the Calcite-Carbonate-Equilibrium with Atmospheric Contact in Infinitely Diluted Solutions 9.3.2 Primary Reactions of the Calcite-Carbonate-Equilibrium without Atmospheric Contact 9.3.3 Secondary Reactions of the Calcite-Carbonate-Equilibrium in Seawater 9.3.4 Examples for Calculation of the Calcite-Carbonate-Equilibrium in Ocean Waters 9.4 Carbonate Reservoir Sizes and Fluxes between Particulate and Dissolved Reservoirs 9.4.1 Production Versus Dissolution of Pelagic Carbonates 9.4.2 Inorganic and Organic Carbon Release trom Deep-Sea Sediments 10 Influences of Geochemical Processes on Stable Isotope Distribution in Marine Sediments / TORSTEN SICKERT 10.1 Introduction 10.2 Fundamentals 10.2.1 Principles of Isotopic Fractionation 10.2.2 Analytical Procedures 10.3 Geochemicallnfluences on 18O/16O Ratios 10.3.1 δ18O of Seawater 10.3.2 δ18O in Marine Carbonates 10.4 Geochemical Influences on 13C/12C Ratios 10.4.1

Standort: Lesesaal

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Einführung in die organische Geochemie : 30 Tabellen (1997)

Killops, Stephen D. ; Killops, Vanessa J.

Stuttgart : Enke

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Signatur: M 99.0107 ; 17/M 98.0019 ; AWI G6-97-0197

Beschreibung / Inhaltsverzeichnis: Inhalt: 1 Die Bildung und Umwandlung von organischem Material. - 1.1 Der globale Kohlenstoffzyklus. - 1.1.1 Organische Geochemie und der Kohlenstoffzyklus: eine Einleitung. - 1.1.2 Kohlenstoffspeicher und -transport. - Organismen und der Kohlenstoffzyklus. - Die Anreicherung von organischem Sedimentmaterial. - Abweichungen vom Gleichgewichtszustand. - Marine Primärproduktion und Sedimentation. - 1.1.3 Biochemische und geochemische Subzyklen. - Organisch-reiche Sedimente und Primärproduktion. - 1.2 Photosynthese und die Evolution des Lebens. - 1.2.1 Atmosphärischer Sauerstoff, Photosynthese und die ersten Organismen. - 1.2.2 Evolution des marinen Lebens. - 1.2.3 Evolution des terrestrischen Lebens. - 1.2.4 Regionale Veränderungen von Ökosystemen. - 1.3 Quellen des sedimentären organischen Materials. - 1.3.1 Die wichtigsten heutigen Quellen. - 1.3.2 Fossile Aufzeichnungen der Quellen des organischen Materials. - 1.4 Photosynthese und stabile Kohlenstoffisotope. - 2 Die chemische Zusammensetzung biogener Stoffe. - 2.1 Die Struktur natürlich vorkommender Stoffe. - 2.1.1 Einleitung. - 2.1.2 Bindungen in organischen Verbindungen. - 2.1.3 Stereoisomerie. - 2.2 Kohlenhydrate. - 2.2.1 Zusammensetzung. - 2.2.2 Vorkommen und Funktion. - 2.3 Proteine. - 2.3.1 Zusammensetzung. - 2.3.2 Vorkommen und Funktion. - 2.4 Lipide. - 2.4.1 Glyceride. - Fette. - Phospholipide, Glycolipide und Etherlipide. - 2.4.2 Wachse und verwandte Verbindungen. - Wachse. - Kutin und Suberin. - 2.4.3 Terpene. - Monoterpene. - Sesquiterpene. - Diterpene. - Triterpene. - Steroide. - Tetraterpene. - 2.4.4 Tetrapyrrole Farbstoffe. - 2.5 Lignin, Tannin und verwandte Verbindungen. - 2.5.1 Lignin. - 2.5.2 Tannine und andere hydroxyaromatische Pigmente. - 2.6 Geochemische Auswirkungen der Veränderungen der Zusammensetzung. - 2.6.1 Veränderungen der Zusammensetzung von Organismen. - 2.6.2 Veränderungen durch die geologische Zeit. - 3 Bedingungen für die Bildung organisch-reicher Sedimente. - 3.1 Einleitung. - 3.2 Kontrollierende Faktoren der Primärproduktion. - 3.2.1 Die Schichtung der Wassersäule. - 3.2.2 Licht. - 3.2.3 Nährstoffe. - Ozeane in niedrigen Breitengraden. - Ozeane in mittleren Breitengraden. - Ozeane in höheren Breitengraden. - Geschichtete Seen. - 3.2.4 Räumliche Veränderungen der marinen Primärproduktion. - 3.2.5 Veränderungen der Phytoplanktonpopulationen. - 3.3 Die Erhaltung und der Abbau organischen Materials. - 3.3.1 Die Entwicklung der Primärproduktion in der Wassersäule. - 3.3.2 Der Werdegang des organischen Materials in den Sedimenten. - Der aerobe Abbau. - Der anaerobe Abbau. - Bakterielle Gemeinschaften und ihre Wechselwirkungen. - 3.3.3. Kontrollierende Faktoren bei der Erhaltung des organischen Sedimentmaterials. - 3.4 Ablagerungsbereiche. - 3.4.1 Lakustrine Bereiche. - Offene Seen. - Geschlossene Seen. - 3.4.2 Torfsümpfe und Kohlenbildung. - Okefenokee-Sumpf. - 3.4.3 Marine Bereiche. - Marine Schelfablagerungen. - Eingeschlossene und durch Schwellen abgetrennte Becken. - Bildung und Erhaltung organischen Materials im Schwarzen Meer. - Reduzierende Ereignisse der Kreide. - 4 Die Bildung von Huminstoffen, Kohle und Kerogen. - 4.1 Diagenese. - 4.1.1 Einleitung. - 4.1.2 Der mikrobielle Abbau des organischen Materials während der Diagenese. - 4.1.3 Die Bildung von Geopolymeren. - 4.2 Huminstoffe. - 4.2.1 Vorkommen und Klassifizierung. - 4.2.2 Komposition und Struktur. - 4.2.3 Die Bildung der Huminstoffe. - 4.3 Kohlen. - 4.3.1 Klassifizierung und Zusammensetzung. - Klassifizierung. - Petrologische Zusammensetzung. - Chemische Zusammensetzung. - 4.3.2 Die Bildung. - Torfbildung. - Die biochemische Stufe der Inkohlung. - Die geochemische Stufe der Inkohlung. - Strukturelle Veränderungen während der Bildung der Kohlen. - 4.4 Kerogen. - 4.4.1 Bildung. - Geopolymerbildung während der Diagenese. - Biomarker. - Schwefeleinbindung. - 4.4.2 Zusammensetzung des Kerogens. - 4.4.3 Klassifizierung des Kerogens. - Typ I-Kerogen. - Typ II-Kerogen. - Typ III-Kerogen. - Typ IV-Kerogen. - Verbesserte Kerogentypisierung. - 4.4.4 Die thermische Evolution des Kerogens. - Strukturelle Veränderungen. - Veränderungen der chemischen Zusammensetzung. - 5 Die Bildung und Zusammensetzung von Petroleum. - 5.1 Petroleumbildung. - 5.1.1 Einleitung. - 5.1.2 Kohlenwasserstoffbildung aus Kohlen. - 5.1.3 Kohlenwasserstoffzusammensetzung als Funktion der Kerogenreife. - 5.1.4 Reaktionen bei der Kohlenwasserstoffbildung. - Isotopenfraktionierung. - 5.2 Die Bedeutung von Zeit und Temperatur bei der Petroleumbildung. - 5.2.1 Der Einfluß von Zeit und Temperatur auf die Kohlenwasserstoffgeneration. - Temperatur. - Zeit. - 5.2.2 Kinetische Modelle der Petroleumbildung. - Zeit-Temperatur-Index. - Komplexe Modelle. - 5.3 Die Migration von Kohlenwasserstoffen. - 5.3.1 Primäre Migration. - Mechanismen der primären Migration. - Expulsionseffizienz. - 5.3.2 Sekundäre Migration. - 5.3.3 Fallen und Speicher. - 5.4 Die Zusammensetzung des Petroleums. - 5.4.1 Die Gesamtzusammensetzung von Erdölen. - 5.4.2 Kohlenwasserstoffe im Petroleum. - Die wichtigsten Kohlenwasserstoffe. - Biomarker. - 5.4.3 Vergleich der Rohölzusammensetzung mit dem Bitumen der Muttergesteine. - Migration. - Auswaschung. - Deasphaltierung. - Biodegradation. - Thermische Veränderungen. - 5.5 Die Vorkommen fossiler Brennstoffe. - 5.5.1 Die zeitliche Verteilung der fossilen Brennstoffe. - 5.5.2 Ölreserven. - Konventionelle Öle. - Schweröle. - Ölschiefer. - 5.5.3 Kohle. - 5.5.4 Gas. - 5.6 Die Bewertung von Erdöl- und Erdgasmuttergesteinen. - 5.6.1 Menge und Art des organischen Materials. - Menge des organischen Materials. - Typ des organischen Materials - optische Methoden. - Typ des organischen Materials - physikalisch-chemische Methoden. - 5.6.2 Reife des organischen Materials. - Optische Bestimmungen der Reife. - Pyrolytische Messungen der Reife. - Einfluß der Reife auf die Identifizierung des organischen Materials. - Chemische Bestimmungen der Reife anhand des Bitumens. - 5.6.3 Korrelationen zwischen Isotopenverteilung und Petroleummuttergestein. - 6 Die molekulare Bewertung rezenter Sedimente. - 6.1 Von Organismen vererbte Biomarkerverteilungen. - 6.1.1 Einleitung. - 6.1.2 Generelle Unterschiede zwischen den Hauptorganismengruppen. - 6.1.3 Faktoren, die die Lipidzusammensetzung der Organismen beeinflussen. - 6.2 Beispiele für Quellenindikatoren in rezenten Sedimenten. - 6.2.1 Fettsäuren. - Monoungesättigte Fettsäuren. - Polyungesättigte Fettsäuren. - 2- und 3-methylverzweigte Fettsäuren. - Intern-verzweigte und Cycloalkylfettsäuren. - Hydroxyfettsäuren. - 6.2.2 Sterole. - 6.2.3 Kohlenhydrate. - 6.2.4 Lignin. - 6.2.5 Kohlenstoffisotope. - 6.3 Die Diagenese auf molekularer Ebene. - 6.3.1 Allgemeine diagenetische Prozesse. - Kohlenhydrate und Lignine. - Biomarker. - 6.3.2 Die Lipiddiagenese in der Wassersäule. - 6.3.3 Die sedimentäre Diagenese der Lipide. - Fettsäuren. - Photosynthetisch aktive Farbstoffe. - Steroide. - Terpene. - 6.4 Paleotemperaturmessungen. - 6.4.1 Die Epimerisierung von Aminosäuren. - 6.4.2 Der Sättigungsgrad in langkettigen Ketonen. - 7 Molekulare Untersuchungen an Sedimenten und die Petroleumbildung. - 7.1 Quellenindikatoren. - 7.1.1 Einleitung. - 7.1.2 Kohlenwasserstoffe. - Normale und methyl-verzweigte Alkane. - Acyclische Isoprene. - Cycloalkane. - 7.1.3 Kohlenstoffisotope. - 7.2 Hinweise auf den Ablagerungsbereich. - 7.2.1 Hypersalinität. - 7.2.2 Redoxbedingungen. - Phytoldiagenese. - Nickel- und Vanadiumverteilungen. - 7.2.3 Die Erkennung unterschiedlicher mariner und lakustriner Bereiche. - 7.3 Thermische Reife und molekulare Umwandlungen. - 7.3.1 Strukturisomerie. - Acyclische Isoprenalkane. - Sterane. - Triterpane. - 7.3.2 Aromatisierung. - 7.3.3 Anreicherung von kurzkettigen Kohlenwasserstoffen und Crackprozesse. - Steroide. - Porphyrine. - 7.4 Molekulare Reife und Quellenparameter in der Erdölexploration. - 7.4.1 Molekulare Reifeparameter. - Leichte Kohlenwasserstoffe. - Kohlenstoffpräferenz-Index (Carbon Preference Index). - Pristanformations-Index. - Biomarker-Umwandlungen. - Methylgruppenisomerisierung in aromatischen Kohlenwasserstoffen. - 7.4.2 Der Einfluß von geothermischen Gradienten auf molekulare Reifeparameter. - 7.4.3 Öl/Muttergesteins-Korrelationen. - 7.5 Die Analyse der Biomarker-Kohlenwasserstoffe. - 7.5.1 Einleitung. - 7.5.2 Gaschromatographie-Massenspektrometrie. - 7.5.3 Die Bewertung der Biomarkerverteilungen. - 8 Das Verhalten anthropogener organischer Verbindungenin der Umwelt. - 8.1 Einleitung. - 8.2 Der Einfluß des Menschen auf den Kohlenstoffzyklus. - 8.2.1 Kohlendioxid und der Treibhauseffekt. - 8.2.2 Der Einfluß von Spurengasen auf die globale Erwärmung. - Methan. -Kohlenmonoxid. - Dimethylsulfide. - 8.2.3 Eutrophierung. - 8.3 Halogenkohlenwasserstoffe und Abbau des Ozons. - 8.4 Verschmutzungen durch Kohlenwasserstoffe im aquatischen Bereich. - 8.4.1 Die Verbrennung fossiler Brennstoffe. - Polycyclische aromatische Kohlenwasserstoffe in rezenten Sedimenten. - Polycyclische aromatische Kohlenwasserstoffe in vorzeitlichen Sedimenten. - 8.4.2 Ölverschmutzungen. - Die Effekte der Ölverschmutzung. - Die Überwachung von Ölverschmutzungen. - 8.5 Einige xenobiotische organische Substanzen. - 8.5.1 DDT und verwandte Verbindungen. - 8.5.2 Polychlorierte Biphenyle. - 8.6 Faktoren, die den Werdegang anthropogener Einträge beeinflussen. - 8.6.1 Allgemeine Betrachtungen. - 8.6.2 Huminstoffe und Schadstoffe. - Literatur. - Weiterführende Literatur. - Sachregister

Materialart: Monographie ausleihbar

Seiten: xiv, 230 S.

ISBN: 3432276419

Originaltitel: An introduction to organic geochemistry

Klassifikation:

Geochemie

Sprache: Deutsch

Standort: Kompaktmagazin oben

Standort: Lesesaal

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The chemistry of the atmosphere and oceans (1978)

Holland, Heinrich D.

New York [u.a.] : Wiley

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Signatur: M 93.0159 ; AWI A12-95-0120-1 ; AWI A12-95-0120-2 ; MOP 272 / Mitte

Materialart: Monographie ausleihbar

Seiten: XIV, 351 S.

ISBN: 0471035092

Serie: A Wiley-Interscience publication

Sprache: Englisch

Standort: Kompaktmagazin oben

Standort: MOP - Bitte bestellen

Zweigbibliothek: GFZ Bibliothek

Zweigbibliothek: AWI Bibliothek

Zweigbibliothek: GFZ Bibliothek

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