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Deep Marine Systems - Kevin T. Pickering, Richard N. Hiscott

Deep Marine Systems

Processes, Deposits, Environments, Tectonics and Sedimentation
Buch | Softcover
688 Seiten
2015
American Geophysical Union (Verlag)
978-1-4051-2578-9 (ISBN)
CHF 99,95 inkl. MwSt
Long held as the leading text in marine sedimentology, this updated edition of Deep-Water Systems is now completely rewritten to reflect the significant advances in our understanding of the processes involved in deep marine environments.
Deep-water (below wave base) processes, although generally hidden from view, shape the sedimentary record of more than 65% of the Earth’s surface, including large parts of ancient mountain belts. This book aims to inform advanced-level undergraduate and postgraduate students, and professional Earth scientists with interests in physical oceanography and hydrocarbon exploration and production, about many of the important physical aspects of deep-water (mainly deep-marine) systems. The authors consider transport and deposition in the deep sea, trace-fossil assemblages, and facies stacking patterns as an archive of the underlying controls on deposit architecture (e.g., seismicity, climate change, autocyclicity). Topics include modern and ancient deep-water sedimentary environments, tectonic settings, and how basinal and extra-basinal processes generate  the typical characteristics of basin slopes, submarine canyons, contourite mounds and drifts, submarine fans, basin floors and abyssal plains.

Kevin T. Pickering is Professor of Sedimentology & Stratigraphy in the Department of Earth Sciences at University College London, U.K. He has published ~140 peer-reviewed papers, co-authored 6 books and edited 3 books on aspects of deep-water sediments and global environmental issues. He managed the industry-sponsored Ainsa Project, an integrated outcrop-subsurface drilling project to understand deep-marine channels in the Spanish Pyrenees, and has sailed on four international scientific drilling expeditions (DSDP, ODP, IODP). In 2010, in recognition of his research, Pickering was elected as a Fellow of the Geological Society of America. Richard N. Hiscott is an Emeritus Professor at Memorial University of Newfoundland, Canada.  His 40 years of process-oriented research covers ancient deep-sea to alluvial facies of Proterozoic to Cretaceous age, four Ocean Drilling Program campaigns including Amazon submarine fan, Quaternary sedimentology of the Labrador Sea, Santa Monica Basin, and the Black Sea region including dynamics of the saline gravity current that enters the low-salinity Black Sea through the Bosphorus Strait.

Preface xi

About the companion website xiii

Part 1 Process and product 1

1 Physical and biological processes 3

1.1 Introduction 4

1.2 Shelf-edge processes 5

1.3 Deep, thermohaline, clear-water currents 12

1.4 Density currents and sediment gravity flows 16

1.5 Turbidity currents and turbidites 23

1.6 Concentrated density flows and their deposits 42

1.7 Inflated sandflows and their deposits 45

1.8 Cohesive flows and their deposits 46

1.9 Accumulation of biogenic skeletons and organic matter 52

2 Sediments (facies) 59

2.1 Introduction 60

2.2 Facies classifications 60

2.3 Facies Class A: Gravels, muddy gravels, gravelly muds, pebbly sands, ≥5% gravel grade 65

2.4 Facies Class B: Sands, >80% sand grade, <5% pebble grade 75

2.5 Facies Class C: Sand–mud couplets and muddy sands, 20–80% sand grade, <80% mud grade (mostly silt) 79

2.6 Facies Class D: Silts, silty muds, and silt–mud couplets, >80% mud, ≥40% silt, 0–20% sand 85

2.7 Facies Class E: ≥95% mud grade, <40% silt grade, <5% sand and coarser grade, <25% biogenics 90

2.8 Facies Class F: Chaotic deposits 98

2.9 Facies Class G: Biogenic oozes (>75% biogenics), muddy oozes (50–75% biogenics), biogenic muds (25–50% biogenics) and chemogenic sediments, <5% terrigenous sand and gravel 102

2.10 Injectites (clastic dykes and sills) (Figs 2.46–2.50) 105

2.11 Facies associations 111

3 Deep-water ichnology 112

3.1 Introduction 112

3.2 General principles of ichnology 113

3.3 Colonisation of SGF deposits: Opportunistic and equilibrium ecology 122

3.4 Ichnofacies 125

3.5 Ichnofabrics 127

3.6 Trace fossils in core 128

3.7 Case study I: Trace fossils as diagnostic indicators of deep-marine environments, Middle Eocene Ainsa–Jaca basins, Spanish Pyrenees 129

3.8 Case study II: Subsurface ichnological characterisation of the Middle Eocene Ainsa deep-marine system, Spanish Pyrenees 130

3.9 Summary of ichnology studies in deep-water systems 134

3.10 Concluding remarks 134

4 Time–space integration 136

4.1 Introduction 136

4.2 Submarine fan growth phases and sequence stratigraphy 144

4.3 Tectono-thermal/glacio-eustatic controls at evolving passive continental margins 153

4.4 Eustatic sea-level changes at active plate margins 154

4.5 Changing relative base level and sediment delivery processes 160

4.6 Autocyclic processes 164

4.7 Palaeo-seismicity and the stratigraphic record 171

4.8 Deconvolving tectonic and climatic controls on depositional sequences in tectonically active basins: Case study from the Eocene, Spanish Pyrenees 171

4.9 Problems in determining controls on sediment delivery 183

4.10 Carbonate versus siliciclastic systems 191

4.11 Computer simulations of deep-water stratigraphy 193

4.12 Laboratory simulations of deep-water stratigraphy 193

4.13 Supercritical versus subcritical fans 194

4.14 Hierarchical classification of depositional units 195

4.15 Concluding comments 196

5 Statistical properties of sediment gravity flow (SGF) deposits 200

5.1 Introduction 200

5.2 Cloridorme Formation, Middle Ordovician, Québec 205

5.3 Vertical trends 218

Part 2 Systems 237

6 Sediment drifts and abyssal sediment waves 239

6.1 Introduction 239

6.2 Distribution and character of contourites and sediment drifts, North Atlantic Ocean 241

6.3 Facies of muddy and sandy contourites 251

6.4 Seismic facies of contourites 255

6.5 The debate concerning bottom-current reworking of sandy fan sediments 255

6.6 Ancient contourites 257

6.7 Facies model for sediment drifts 260

7 Submarine fans and related depositional systems: modern 262

7.1 Introduction 262

7.2 Major controls on submarine fans 266

7.3 Submarine canyons 274

7.4 Architectural elements of submarine-fan systems 277

7.5 The distribution of architectural elements in modern submarine fans 303

7.6 Modern non-fan dispersal systems 303

7.7 Concluding remarks 307

8 Submarine fans and related depositional systems: ancient 309

8.1 Introduction 309

8.2 Ancient submarine canyons 311

8.3 Ancient submarine channels 313

8.4 Comparing modern and ancient channels 355

8.5 Ancient lobe, lobe-fringe, fan-fringe and distal basin-floor deposits 357

8.6 Seafloor topography and onlaps 369

8.7 Scours 377

8.8 Basin-floor sheet-like systems 382

8.9 Prodeltaic clastic ramps 387

8.10 Concluding remarks 393

Part 3 Plate tectonics and sedimentation 403

9 Evolving and mature extensional systems 405

9.1 Introduction 406

9.2 Models for lithospheric extension 408

9.3 Subsidence and deep-water facies of rifts and young passive margins 410

9.4 The post-breakup architecture of passive margins 413

9.5 Failed rift systems 428

9.6 Fragments of ancient passive margins 429

9.7 Concluding remarks 430

10 Subduction margins 433

10.1 Introduction 433

10.2 Modern subduction factories 435

10.3 Arc–arc collision zones 474

10.4 Forearc summary model 482

10.5 Marginal/backarc basins 483

10.6 Ancient convergent-margin systems 488

10.7 Forearc/backarc cycles 493

10.8 Concluding remarks 493

11 Foreland basins 497

11.1 Introduction 498

11.2 Modern foreland basins 499

11.3 Ancient deep-marine foreland basins 506

11.4 Concluding remarks 523

12 Strike-slip continental margin basins 528

12.1 Introduction 528

12.2 Kinematic models for strike-slip basins 529

12.3 Suspect terranes 529

12.4 Depositional models for strike-slip basins 532

12.5 Modern strike-slip mobile zones 537

12.6 Ancient deep-marine oblique-slip mobile zones 557

12.7 Concluding remarks 566

References 573

Index 647

Reihe/Serie Wiley Works
Sprache englisch
Maße 216 x 277 mm
Gewicht 1860 g
Themenwelt Naturwissenschaften Geowissenschaften Geologie
Naturwissenschaften Geowissenschaften Hydrologie / Ozeanografie
ISBN-10 1-4051-2578-0 / 1405125780
ISBN-13 978-1-4051-2578-9 / 9781405125789
Zustand Neuware
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