Principles of sedimentary basin analysis /

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Detalles Bibliográficos
Autor principal: Miall, Andrew D.
Formato: Desconocido
Lenguaje:Español
Publicado: Berlin : Springer, 2010
Edición:3rd ed.
Materias:
Sedimentación
Geología
Cuenca
Aporte de:Registro referencial: Solicitar el recurso aquí
Sistema de Bibliotecas UNRN de Universidad Nacional de Río Negro
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100 1 |a Miall, Andrew D.  |9 15294 
245 1 0 |a Principles of sedimentary basin analysis /   |c Andrew D. Miall 
250 |a 3rd ed. 
260 |a Berlin :   |b Springer,   |c 2010 
300 |a 616 p. :   |b grafs. ;   |c 28 cm. 
500 |a Incluye índice analítico 
505 |a Part 1. The stratigraphic and sedimentology of sedimentary basins. 1. Introduction. 1.1. Scope and purpose of book -- 1.2. The modern revolution in stratigraphy -- 1.2.1. Traditional strtigraphy - 1.2.2. Modern developments -- 1.2.3. The new stratigraphic method -- 1.3. Time in stratigraphy -- 1.4. Types of project and data problems -- 1.4.1. Regional surface stratigrapic mapping prohect -- 1.4.2. Local stratigraphic-sedimentologic mapping project -- 1.4.3. Regional subsurface mapping project -- 1.4.4. Local subsurface mapping project -- 1.5. Summary of research and reporting procedures -- 2. The stratigraphic.sedimentologic database -- 2.1. Introduction -- 2.2. Descriibng surgace stratigrafphic sections -- 2.2.1. Methods of measuring and recording the data: vertical stratigraphc sections -- 2.2.2. Methodos of measuring and recording te data: the construction of laterl profiles -- 2.2.3. Types of field observation -- 2.2.3.1. Subdivision of the section into descriptive units -- 2.2.3.2. Lithology and grain size -- 2.2.3.3. Porosity -- 2.2.3.4. color -- 2.2.3.5. Bedding -- 2.2.3.6. Sedimentar structures produced by hydrodynamic molding of the bed -- 2.2.3.7. Sedimentary structures produced by hydrodynamic erosion of the bed -- 2.2.3.8. Liquefaction, load and fluid-loss structures -- 2.2.3.9. Fossils -- 2.2.3.10. Biogenic sedimentary structures -- 2.2.4. Sampling plan -- 2.2.4.1. Illustrative samples -- 2.2.4.2. Petrographic sammples -- 2.2.4.3. Biostratigraphic sammples -- 2.2.5. Plotting the section - 2.3. Describing subsurface stratigraphc section -- 2.3.1. Metods of measuring and recording the data -- 2.3.1.1. Examination of well cuttings -- 2.3.1.2. Examination of core -- 2.3.2. Types of cuting and dore observation -- 2.3.2.1. Subdivision of the section into descriptive units -- 2.3.2.2. Lithology and grain size -- 2.3.2.3. Porosity -- 2.3.2.4. color -- 2.3.2.5. Bedding -- 2.3.2.6. Sedimentary structures -- 2.3.2.7. Fossils -- 2.3.2.8. Biogenic sedimentary structures -- 2.3.3. Sampling plan -- 2.3.4. Plotting the section .. 2.4. Petrophysical logs -- 2.4.1. Gamma-ray log -- 2.4.2. Spontaneous-potentioa log -- 2.4.3. Resistivity logs -- 2.4.4. Sonic log -- 2.4.5. Formation-density log -- 2.4.6. Neutron log -- 2.4.7. Crosslots -- 3. Stratigraphic correlation. 3.1. Introduction -- 3.2. Types of stratigraphic unit -- 3.3. Stratigraphic procedires -- 3.3.1. North american and international stratigraphic codes -- 3.3.2. Establishing named units -- 3.3.3. The six steps involved in dating and correlation -- 3.4. Lithostratigraphy -- 3.4.1. Recognition of a lithostratigraphic subdivision -- 3.4.2. Types of lithostratigraphic units and their definition -- 3.4.2.1. Te formation -- 3.4.2.2. The group -- 3.4.2.3. The member -- 3.4.2.4. Tongue of lenil -- 3.4.2.5. Bed -- 3.4.2.6. Choice of names -- 3.4.2.7. Changes in rank -- 3.4.3. Mapping and correlation procedures -- 3.4.3.1. Surface mapping -- 3.4.3.2. Event stratigraphy -- 3.4.3.3. Section matching -- 3.5. Biostratigraphy -- 3.5.1. The nature of the biostratigraphic record -- 3.5.1.1. Biostratigraphy and evolution -- 3.5.1.2. Biostratigraphy and biogeography -- 3.5.1.3. Life, death and reworked assenblages -- 3.5.2. Bizones -- 3.5.2.1. Assemblage biozone -- 3.5.2.2. Range biozone -- 3.5.2.3. Concurrent-range biozone -- 3.5.2.4. Lineage biozone -- 3.5.2.5. Other biozone terms -- 3.5.3. Quatitative metods in biostratigraphy -- 3.5.3.1. The graphic correlaion techinque -- 3.5.3.2. Use of multivariate statistics -- 3.6. Unconformity-bounded units -- 3.7. Chronostratigraphy and geochronometry -- 3.7.1. Chronostratigraphic and geochronometric scales -- 3.7.2. The stage -- 3.7.3. Chronostratigraphic bondaries -- 3.7.4. Radiometric dating -- 3.7.4.1. Radiometric methods -- 3.7.4.2. Uses in stratigraphy -- 3.7.5. Magnetostratigraphy -- 3.7.5.1. Development of the techinique -- 3.7.5.2. Uses in stratigraphy -- 3.7.6. chemostratigraphic-dating techniques -- 3.7.7. Other correlation techniques -- 3.7.8. Stratigraphic completeness -- 3.7.9. The global time scale -- 3.7.9.1. The panerozoic -- 3.7.9.2. The precambrian -- 4. Facies analysis. 4.1. Introduction -- 4.2. The meaning of facies -- 4.3. recognition and definition of facies types -- 4.3.1. Philosophy and methods -- 4.3.2. Field examples of facies schemes -- 4.3.3. Establishing a facies shcme -- 4.3.4. Facies architecture -- 4.4. Facies associations and models -- 4.4.1. The association and ordering of facies --- 4.4.2. The theory of facies models -- 4..4.3. The present as the key to the ast and vice versa -- 4.4.4. To classify and codify of not? -- 4.4.5. Facies analysis and sequience sratigraphy -- 4.5. Review of environmental criteria -- 4.5.1. Grain size and texture -- 4.5.2. Petrology -- 4.5.3. Beding -- 4.5.4. Sedimentary structures produced by hydrodynamic molding of the bed -- 4.5.5. Sedimentary structures produced by hydrofynamic erosion of the bed -- 4.5.6. Liquefaction, load and fluid-loss structures -- 4.5.7. Paleoecology -- 4.5.8. Vertical rofiles -- 4.5.9. Architectural elements and bounding surfaces -- 4.5.9.1. Architectural scale and bonging-surface hierarchies -- 4.5.9.2. Architectural elements -- 4.6. Facies models for a new millenium -- 4.6.1. Flucial environments -- 4.6.2. Deltaic environments -- 4.6.3. Lacustrine environments -- 4.6.4. Eolian envronments -- 4.6.5. Clastic shorelines -- 4.6.6. Arid shorelines ank evaporites -- 4.6.7. Clastic continental shelves -- 4.6.8. Carbonate envronments -- 4.6.9 Clastic Continental Slope and Deep-Oceanic Environments -- 4.6.10 Glacial Environments -- 4.7 Conclusions and Scale Considerations -- 5 Basin-Mapping Methods -- 5.1 Introduction -- 5.2 Structure and Isopach Contouring -- 5.3 Lithofacies Maps -- 5.3.1 Multieomponent Maps -- 5.3.2 Lithofacies-Assemblage Maps -- 5.3.3 Single-Component Maps -- 5.4 Geophysieal Techniques -- 5.4.1 Reflection-Seismic Maps and Sections -- 5.4.1.1 Introduction -- 5.4.1.2 The Nature of the Seismic Record -- 5.4.1.3 Structural Mapping -- 5.4.1.4 Seismie Facies -- 5.4.2 Lithofacies Mapping with Petrophysical Logs -- 5.4.3 The Dipmeter -- 5.4.4 Other Geophysical Methods -- 5.5 Clastic-Petrographic Data -- 5.6 Paleocurrent Analysis -- 5.6.1 Introduction -- 5.6.2 Types of Paleocurrent Indicators -- 5.6.3 Data Collection and Processing -- 5.6.4 The Bedform Hierarchy -- 5.6.5 Environment and Paleoslope Interpretations -- 5.6.6 The Dipmeter Again -- 5.7 Remote Sensing -- 5.8 Computer Mapping Methods -- 5.9 Sampling Density and Map Reliability -- 5.10 Stratigraphie Cross Seetions -- 5.11 Paleogeographic Synthesis -- 6 Sequence Stratigraphy -- 6.1 Introduction -- 6.2 Stratigraphie Architecture -- 6.3 Depositional Systems and Systems Tracts -- 6.4 Sequence Boundaries -- 6.5 Systems Tracts and Sequences in Siliciclastic Deposits -- 6.5.1 Nonmarine and Coastal Sequences -- 6.5.1.1 Fluvial Sequences -- 6.5.1.2 Lacustrine Sequences -- 6.5.1.3 Eolian Sequences -- 6.5.1.4 Incised Valleys and Estuaries -- 6.5.2 Marginal-Marine and Shallow-Marine Sequences -- 6.5.2.1 -- Deltas -- 6.5.2.2 The Coast-Shelf Interface -- 6.5.3 Sequences in Deep-Marine Siliciclastie Deposits -- 6.6 Systems Tracts and Sequences in Carbonate Deposits -- 6.6.1 Epeiric Platforms -- 6.6.2 Rimmed Shelves -- 6.6.3 Isolated Platforms -- 6.6.4 Ramps -- 6.6.5 Mixed Carbonate-Clastic Systems -- 6.7 Evaporites -- 6.8 Conclusions -- 
505 |a Part 2. Global Controls of Sedimentary Basin Development -- 7 Tectonism and Sedimentation: Principles and Models -- 7.1 Introduction -- 7.2 Components of a Basin Model -- 7.2.1 Stratigraphy -- 7.2.2 Basin and Crustal Geometry -- 7.2.3 Porosity - Depth Relationships -- 7.2.4 Paleobathymetry -- 7.2.5 Sea-Level Change -- 7.2.6 Physical Properties of the Lithosphere -- 7.3 Extensional Basins -- 7.3.1 Evolution of the Basic Model -- 7.3.2 Backstripping Techniques -- 7.3.3 Refinements of the Basic Extensional Model -- 7.4 Basins Produced by Supracrustal Loading -- 7.4.1 Evolution of the Basic Model -- 7.4.2 Refinements of the Basie Supracrustal Loading Model -- 7.5 Dynamic Topography -- 7.6 Intraplate Stress -- 7.7 Basin Inversion -- 7.8 Basement Tectonic Control -- 7.9 Application of the Modeling Techniques to Other Types of Basin -- 7.10 Conclusions -- 8 Regional and Global Stratigraphie Cycles -- 8.1 Overview of Recent Developments -- 8.2 Causes of Stratigraphic Cyclicity -- 8.2.1 Supercontinent Cycles -- 8.2.2 Mechanisms with Episodicities of Tens of Millions ofYears -- 8.2.2.1 Eustatic Cycles -- 8.2.2.2 Tectonostratigraphic Cycles -- 8.2.2.3 Conclusions -- 8.2.3 Mechanisms with Million-Year Episodicities -- 8.2.3.1 Intraplate Stress -- 8.2.3.2 Sediment Supply -- 8.2.4 Mechanisms with Episodicities of Less Than One Million Years -- 8.2.4.1 Milankovitch Mechanisms -- 8.2.4.2 High-Frequency Tectonism -- 8.3 The Stratigraphie Record -- 8.3.1 Stratigraphie Effects of Supercontinent Assembly and DispersalStratigraphie Effects of Supercontinent Assembly and Dispersal -- 8.3.2 Cycles with Episodicities of Tens of Millions of Years -- 8.3.2.1 Cratonic Cycles -- 8.3.2.2 Regional Tectonostratigraphic Cycles -- 8.3.3 Cycles with Episodicities in the Million-Year Range -- 8.3.4 Cycles with Episodicities of Less Than One Million Years -- 8.3.4.1 Neogene Clastie Cycles of Continental Margins -- 8.3.4.2 Pre-Neogene Carbonate-Dominated Cycles -- 8.3.4.3 Late-Paleozoie Cydothems -- 8.3.4.4 Clastie Cydes of Foreland Basins -- 8.4 Cyde Correlation and the Global Eustasy Model -- 8.5 Architectural Indieators of Teetonism, Sediment Supply, and Sea-Level Change: The Role of Stratigraphie Simulation -- 8.6 Condusions -- 9 Sedimention and Plate Tectonics -- 9.1 The Basin-Model Concept -- 9.2 Basin Classification -- 9.3 Basin Models -- 9.3.1 Divergent-Margin Basins -- 9.3.1.1 Tectonic Review -- 9.3.1.2 Rift Basins -- 9.3.1.3 Ocean-Margin Rises and Terraces -- 9.3.1.4 Aulaeogens and Failed Rifts -- 9.3.2 Convergent-Margin Basins -- 9.3.2.1 Tectonic Review -- 9.3.2.2 Trenehes and Subduction Complexes -- 9.3.2.3 Foreare Basins -- 9.3.2.4 Intra-Are Basins -- 9.3.2.5 Interare and Baekarc Basins on Oeeanic or Transitional Crust -- 9.3.2.6 Backare Basins on Continental Crust -- 9.3.2.7 Retroare Foreland Basins -- 9.3.3 Transform Margins and Strike-Slip Fault Basins -- 9.3.3.1Tectonic Review -- 9.3.3.2 Sedimentary Basins Associated with Plate-Boundary Transform Faults -- 9.3.3.3 Sedimentary Basins Associated with Divergent-Margin Transform Faults -- 9.3.3.4 Sedimentary Basins Associated with Convergent-Margin Transeurrent Faults -- 9.3.3.5 Sedimentary Basins Associated with Suture-Zone Transeurrent Faults -- 9.3.4 Basins Associated with Suture Zones -- 9.3.4.1 Introduction -- 9.3.4.2 Basic Suture Model -- 9.3.4.3 Arc-Arc Collision -- 9.3.4.4 Collapse of Outboard Arcs -- 9.3.4.5 Collisions of Continents with Arcs-- Introduction -- 9.3.4.6 Terminal Sutures -- 9.3.4.7 Proforeland, Foredeep, or Peripheral Basins -- 9.3.4.8 Remnant Oeean Basins -- 9.3.4.9 Basin Analysis of Suture Zones -- 9.3.4.10 Basins and Uplifts Resulting from Intraplate Stresses -- 9.3.5 Basin Analysis of Aeeretionary Terranes -- 9.3.6 Cratonic Basins -- 9.3.6.1 Tectonie Review -- 9.3.6.2 Sedimentation Patterns -- 9.4 Clastic Petrofaeies -- 9.4.1 Introduction -- 9.4.2 Sandstone Composition and Plate-Tectonic Setting -- 9.4.3 Examples of Petrofacies Interpretation -- 9.5 Basin Models in the Precambrian -- 9.5.1 Precambrian Plate Tectonics? -- 9.5.2 The Evidence from Sedimentary Basins -- 10 Conclusions. 
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