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Sedimentology and Sedimentary Basins: From Turbulence to Tectonics PDF

784 Pages·2011·9.16 MB·English
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Contents Preface Acknowledgements Part 1: MAKING SEDIMENT Introduction Chapter 1 CLASTIC SEDIMENT AS A CHEMICAL AND PHYSICAL BREAKDOWN PRODUCT 1.1 Introduction: clastic sediments—‘accidents’ of weathering 1.2 Silicate minerals and chemical weathering 1.3 Solute flux: rates and mechanisms of silicate chemical weathering 1.4 Physical weathering 1.5 Soils as valves and filters for the natural landscape 1.6 Links between soil age, chemical weathering and weathered-rock removal 1.7 Provenance: siliciclastic sediment-sourcing Further reading Chapter 2 CARBONATE, SILICEOUS, IRON-RICH AND EVAPORITE SEDIMENTS 2 2.1 Marine vs. freshwater chemical composition and fluxes 2.2 The calcium carbonate system in the oceans 2.3 Ooid carbonate grains 2.4 Carbonate grains from marine plants and animals 2.5 Carbonate muds, oozes and chalks 2.6 Other carbonate grains of biological origins 2.7 Organic productivity, sea-level and atmospheric controls of biogenic CaCO3 deposition rates 2.8 CaCO3 dissolution in the deep ocean and the oceanic CaCO3compensation mechanism 2.9 The carbonate system on land 2.10 Evaporite salts and their inorganic precipitation as sediment 2.11 Silica and pelagic plankton 2.12 Iron minerals and biomineralizers 2.13 Desert varnish 2.14 Phosphates 2.15 Primary microbial-induced sediments: algal mats and stromatolites 3 Further reading Chapter 3 SEDIMENT GRAIN PROPERTIES 3.1 General 3.2 Grain size 3.3 Grain-size distributions 3.4 Grain shape and form 3.5 Bulk properties of grain aggregates Further reading Part 2: MOVING FLUID Introduction Chapter 4 FLUID BASICS 4.1 Material properties of fluids 4.2 Fluid kinematics 4.3 Fluid continuity with constant density 4.4 Fluid dynamics 4.5 Energy, mechanical work and power Further reading 4 Chapter 5 TYPES OF FLUID MOTION 5.1 Osborne Reynolds and flow types 5.2 The distribution of velocity in viscous flows: the boundary layer 5.3 Turbulent flows 5.4 The structure of turbulent shear flows 5.5 Shear flow instabilities, flow separation and secondary currents 5.6 Subcritical and supercritical flows: the Froude number and hydraulic jumps 5.7 Stratified flow generally 5.8 Water waves 5.9 Tidal flow—long-period waves Further reading Part 3: TRANSPORTING SEDIMENT Introduction Chapter 6 SEDIMENT IN FLUID AND FLUID FLOW—GENERAL 6.1 Fall of grains through stationary fluids 5 6.2 Natural flows carrying particulate material are complex 6.3 Fluids as transporting machines 6.4 Initiation of grain motion 6.5 Paths of grain motion 6.6 Categories of transported sediment 6.7 Some contrasts between wind and water flows 6.8 Cohesive sediment transport and erosion 6.9 A warning: nonequilibrium effects dominate natural sediment transport systems 6.10 Steady state, deposition or erosion: the sediment continuity equation and competence vs. capacity Further reading Chapter 7 BEDFORMS AND SEDIMENTARY STRUCTURES IN FLOWS AND UNDER WAVES 7.1 Trinity of interaction: turbulent flow, sediment transport and bedform development 7.2 Water-flow bedforms 7.3 Bedform phase diagrams for water flows 7.4 Water flow erosional bedforms on cohesive beds 6 7.5 Water wave bedforms 7.6 Combined flows: wave–current ripples and hummocky cross-stratification 7.7 Bedforms and structures formed by atmospheric flows Further reading Chapter 8 SEDIMENT GRAVITY FLOWS AND THEIR DEPOSITS 8.1 Introduction 8.2 Granular flows 8.3 Debris flows 8.4 Turbidity flows 8.5 Turbidite evidence for downslope transformation from turbidity to debris flows Further reading Chapter 9 LIQUEFACTION, FLUIDIZATION AND SLIDING SEDIMENT DEFORMATION 9.1 Liquefaction 9.2 Sedimentary structures formed by and during liquefaction 9.3 Submarine landslides, growth faults and slumps 7 9.4 Desiccation and synaeresis shrinkage structures Further reading Part 4: MAJOR EXTERNAL CONTROLS ON SEDIMENTATION AND SEDIMENTARY ENVIRONMENTS Introduction Chapter 10 MAJOR EXTERNAL CONTROLS ON SEDIMENTATION 10.1 Climate 10.2 Global climates: a summary 10.3 Sea-level changes 10.4 Tectonics 10.5 Sediment yield, denudation rate and the sedimentary record Further reading Part 5: CONTINENTAL SEDIMENTARY ENVIRONMENTS Introduction Chapter 11 RIVERS 8 11.1 Introduction 11.2 River networks, hydrographs,patterns and long profiles 11.3 Channel form 11.4 Channel sediment transport processes, bedforms and internal structures 11.5 The floodplain 11.6 Channel belts, alluvial ridges and avulsion 11.7 River channel changes, adjustable variables and equilibrium 11.8 Alluvial architecture: product of complex responses 11.9 Alluvial architecture: scale, controls and time Further reading Chapter 12 SUBAERIAL FANS: ALLUVIAL AND COLLUVIAL 12.1 Introduction 12.2 Controls on the size (area) and gradient of fans 12.3 Physical processes on alluvial fans 12.4 Debris-flow-dominated alluvial fans 12.5 Stream-flow-dominated alluvial fans 9 12.6 Recognition of ancient alluvial fans and talus cones Further reading Chapter 13 AEOLIAN SEDIMENTS IN LOW-LATITUDE DESERTS 13.1 Introduction 13.2 Aeolian system state 13.3 Physical processes and erg formation 13.4 Erg margins and interbedform areas 13.5 Erg and draa evolution and sedimentary architecture 13.6 Erg construction, stasis and destruction: climate and sea-level controls 13.7 Ancient desert facies Further reading Chapter 14 LAKES 14.1 Introduction 14.2 Lake stratification 14.3 Clastic input by rivers and the effect of turbidity currents 14.4 Wind-forced physical processes 10

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The sedimentary record on Earth stretches back more than 4.3 billion years and is present in more abbreviated forms on companion planets of the Solar System, like Mars and Venus, and doubtless elsewhere. Reading such planetary archives correctly requires intimate knowledge of modern sedimentary proc
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