Verfügbarkeit: The oceanic crust, from accretion to mantle recycling

The oceanic crust, from accretion to mantle recycling:

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Bibliographische Detailangaben
Hauptverfasser:	Juteau, Thierry 1940- (VerfasserIn), Maury, René (VerfasserIn)
Format:	Buch
Sprache:	English French
Veröffentlicht:	London [u.a.] Springer 1999 Chichester, UK Praxis Publ.
Schriftenreihe:	Springer-Praxis series in geophysics
Schlagworte:	GEOLOGIA MARINHA OCEANOGRAFIA Submarine geology Ozeanische Erdkruste Earth > Crust
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 390 S. Ill., graph. Darst., Kt.
ISBN:	185233116X

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Datensatz im Suchindex

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adam_text	Contents Preface................................................. v 1 Oceans, continents, and the fundamental cycle of the oceanic lithosphère . 1 1.1 The present-day face of the world s oceans................. 1 1.1.1 Surface and distribution of the world ocean............ 1 1.1.2 The fundamental duality of the Earth s crust........... 2 1.1.3 The main physiographic features of oceanic basins....... 3 1.2 Seafloor spreading, foundation of plate tectonics. Oceanic crust, lithosphère and asthenosphere......................... 4 1.3 Age of the oceanic crust and kinematics of the oceans......... 5 1.3.1 Magnetic anomalies, the growth records of the oceans .... 5 1.3.2 Decrease in heat flow and seafloor altitude away from the ridge axis................................... 6 1.4 The age of the oceans and the evolution stages of oceanic basins. . 8 1.4.1 Age of the crust and age of the oceanic basins.......... 8 1.4.2 The Wilson cycle............................... 9 1.5 The fundamental cycle of the oceanic lithosphère............. 12 1.5.1 Extraction from the mantle: genesis of the oceanic crust... 12 1.5.2 Basalt-seawater interaction....................... 12 1.5.3 Intraplate travel and meeting with hot spots........... 12 1.5.4 Return to the mantle............................ 13 1.5.5 Relict oceanic crust in a heterogeneous mantle.......... 13 1.6 The ophiolitic exception............................... 13 2 Magma series from oceanic domains........................... 15 2.1 Tectonic settings of oceanic basalts....................... 15 2.2 Upper mantle melting................................ 17 2.2.1 Composition of the upper mantle................... 17 2.2.2 The genesis of basaltic magmas..................... 19 2.2.3 Magma extraction and ascent...................... 20 viii Contents 2.3 Oceanic basalts and mantle heterogeneities.................. 21 2.3.1 Isotopic compositions of oceanic basalts.............. 21 2.3.2 Metasomatism or contamination?................... 23 2.4 The diversity of basalts from oceanic domains............... 24 2.4.1 Classification.................................. 24 2.4.2 Trace elements and diversity of basalts............... 26 2.4.3 MORB and BABB: basalts from oceanic accretion zones . . 28 2.4.4 OPB and OIB: oceanic intraplate basalts.............. 32 2.4.5 IAB, boninites, adakites: subduction zone magmas....... 33 2.5 Magma series from oceanic domains...................... 35 2.5.1 Processes of evolution........................... 35 2.5.2 Tholeiitic series................................ 38 2.5.3 Alkaline series................................. 39 2.5.4 Magma series from subduction/collision zones.......... 43 3 Surveying and sampling the oceanic crust....................... 45 3.1 Mapping and acoustic imagery of the ocean floor............. 46 3.1.1 Single-beam bathymétrie sounders................... 46 3.1.2 From single-beam sonars to multibeam-swath bathymétrie systems: from the line to the boulevard.............. 47 3.1.3 The side-scan sonar, or the acoustic photography of the deep-ocean floors............................. 51 3.1.4 Seafloor mapping from space...................... 52 3.2 Geophysical surveys.................................. 55 3.2.1 Seismic surveys................................ 55 3.2.2 Magnetic surveys............................... 55 3.2.3 Gravimetric surveys............................. 55 3.3 Sampling methods................................... 56 3.3.1 Dredging.................................... 56 3.3.2 Coring...................................... 57 3.3.3 Deep-oceanic drillings........................... 59 3.3.4 Direct sampling by manned submersibles.............. 65 4 The worldwide oceanic ridge. Geographic extension, morphology and segmentation......................................... 69 4.1 The reliefs of the oceanic-ridge system. Geographic extension .... 69 4.2 Transversal morphology and spreading rate................. 71 4.3 Along-strike morphology: the axial segmentation of the ridge .... 72 4.3.1 First-order segmentation. Transform faults and fracture zones...................................... 72 4.3.2 Small-scale axial segmentation of the oceanic ridges, and notion of elementary accretion segment ............ 72 5 Structure and lithology of the oceanic crust of the present-day oceans ... 87 5.1 Seismic structure of the present-day oceanic crust............. 87 Contents ix 5.1.1 General description............................. 88 5.1.2 Lithological interpretation of the seismic profiles........ 94 5.1.3 Seismic structure of the fracture zones................ 98 5.2 Sampling and lithological structure of the present-day oceanic crust 99 5.2.1 The continuous crustal tissue of fast-spreading ridges: the East-Pacific Rise and its ramifications............ 99 5.2.2 The discontinuous tissue of slow-spreading ridges: the Mid- Atlantic and South-West Indian Ridges............. 109 5.3 Conclusions on the structure and lithology of the present-day oceanic crust..................................... 126 5.3.1 Seismic structure............................... 127 5.3.2 Lithological structure............................ 128 Structure and lithology of fossil oceanic crust in ophiolites........... 129 6.1 Ophiolites, markers of ocean closures..................... 129 6.2 Historical record.................................... 131 6.2.1 From Steinmann s laccolites to the huge submarine flows . . 131 6.2.2 Ophiolite = oceanic lithosphère..................... 131 6.2.3 The ophiolite manifesto (1972).................... 132 6.2.4 Ophiolites and their diversity of origin............... 134 6.3 Crustal structure of ophiolites: the HOT and LOT types........ 135 6.4 Ophiolites with thick and continuous crustal sequence, and harz- burgitic mantle: the Oman ophiolite..................... 136 6.4.1 The synthetic Oman ophiolite log................... 137 6.4.2 Axial segmentation of the Oman palaeo-ridge: mantle diapirs and crustal segmentation....................... 146 6.5 Ophiolites with a thin, discontinuous crust, and a lherzolitic mantle: the ligurian ophiolites............................... 148 6.5.1 Constitution of an ultrabasic and gabbroic ocean floor. ... 151 6.5.2 The first supra-ophiolitic sediments and the emplacement of basalt flows................................. 153 6.5.3 End of the volcanic activity, and deposition of radiolarites and limestones (Malm-Berriasian)................. 153 6.6 Ophiolites of intermediate type.......................... 153 6.6.1 The Xigatse ophiolite............................ 153 6.6.2 The Trinity ophiolite............................ 155 6.7 Summary and conclusions about the crustal structure of present- day and fossil oceans............................... 155 Shallow processes: volcanic and tectonic activity of oceanic ridges...... 159 7.1 The axial volcanic zone of the ridges...................... 160 7.1.1 Fast-spreading ridges: the axial volcanic zone of the east- Pacific Rise................................. 160 7.1.2 Slow-spreading ridges: the axial volcanic zone of the Mid- Atlantic Ridge............................... 160 x Contents 7.2 The various types of basaltic eruptions in a submarine environment 166 7.2.1 Shallow submarine eruptions...................... 166 7.2.2 Deep-sea submarine eruptions...................... 167 7.3 The volcanic dynamism of oceanic ridges: description of the various types of basaltic flows and intrusions.......................... 167 7.3.1 Pillow-lava flows............................... 167 7.3.2 Lava lakes and fluid flows........................ 178 7.3.3 Breccia flows and deep hyaloclastites................. 181 7.3.4 Sills and dykes................................ 181 7.4 Relationships between pillow lavas and lava lakes............ 181 7.4.1 Influence of the spreading rate on the volcanic dynamism of the oceanic ridges........................... 182 7.4.2 Relations between crystal charge of the basalts, viscosity and eruptive dynamism............................ 184 7.5 Crystallization of MORB.............................. 185 7.5.1 Mineralogical compositions and textures.............. 185 7.5.2 Crystallization sequences in oceanic basalts............ 196 7.6 Tectonic processes at the axis, and the volcanic-tectonic cycle.... 197 7.6.1 Axial tectonic structures.......................... 197 7.6.2 The volcanic-tectonic cycle........................ 199 7.6.3 Tectonics, submarine erosion and mass-wasting products . . 201 7.7 Detection of deep submarine eruptions.................... 202 7.7.1 Growth of a neo-volcanic ridge on the Juan de Fuca Ridge during the 1980s.............................. 203 7.7.2 Carnage on the East-Pacific Rise, or the tubeworm bar- becue site.................................. 204 7.7.3 InterRidge , an international network of exploration and survey of the oceanic-ridge system................. 205 8 Deep processes: mantle diapirs, magma extraction and models of accretion magma chambers...................................... 207 8.1 The sources of the MORB............................. 207 8.1.1 Vertical variations.............................. 208 8.1.2 Local-source heterogeneities....................... 210 8.1.3 Horizontal variations along oceanic-ridge axes, and effects of segmentation................................ 211 8.1.4 Source heterogeneities at large scale................. 211 8.1.5 Genesis of MORB.............................. 211 8.2 The uprise of the asthenospheric mantle: birth and extraction of magmas......................................... 213 8.2.1 The beginning of melting......................... 214 8.2.2 A simplified phase diagram........................ 215 8.2.3 Distribution of the first magma droplets.............. 218 8.2.4 The permeability threshold........................ 220 8.2.5 Extraction of magmas........................... 221 Contents xi 8.3 The accretion-magma chambers......................... 222 8.3.1 Bidimensional models........................... 224 8.3.2 The 3D models, and the contribution of seismic tomography 226 8.3.3 Towards a new concept of oceanic accretion-magma chambers................................... 233 8.3.4 Functioning of accretion-magma chambers: significance of texture, structure and composition of the layered cumulates, and cryptic evolution.................. 237 9 Basalt-seawater interaction: metamorphic and hydrothermal processes . . . 247 9.1 Modifications of the physical properties of the crust........... 248 9.2 Active and passive convection......................... 250 9.3 Chemical and mineralogical modification of the oceanic crust .... 251 9.4 Description of the convection system...................... 253 9.4.1 Recharge zones................................ 253 9.4.2 The high-temperature reaction zone (HTRZ)........... 258 9.4.3 Discharge zones................................ 262 9.5 Metallogenic aspects of oceanic hydrothermalism: the polymetal- lic massive sulphide deposits.......................... 264 9.5.1 Massive sulphide deposits on the seafloor: the discovery of the black smokers ............................ 265 9.5.2 The genetic model.............................. 266 9.5.3 Towards a better understanding of terrestrial ore deposits. . 268 9.6 Biological aspects of the oceanic hydrothermal activity: oases on the deep seafloor.................................. 269 9.6.1 The discovery of deep hydrothermal faunas............ 269 9.6.2 Towards the origins of life?....................... 271 10 Intraplate oceanic magmatism............................... 273 Location.................................... 273 Age patterns................................. 274 The initial stages: the Society hot spot............... 277 The shield-volcano stage: Nuku Hiva (Marquesas)...... 278 The stage of subsidence: Tubuai (Australs)............ 281 The atoll stage: Mururoa (Pitcairn-Gambier).......... 284 10.2 Origin and evolution of Polynesian magmas................. 285 10.2.1 The example of Nuku Hiva...................... 285 10.2.2 Fractional crystallization effects.................... 289 10.2.3 Partial melting effects........................... 291 10.2.4 Mantle source heterogeneities..................... 292 10.3 The oceanic plateaus: geology and petrology................ 296 10.3.1 Location and ages of oceanic plateaus............... 296 10.3.2 A large oceanic plateau: Ontong Java............... 297 10.3.3 The fragmented Caribbean Plateau................. 298 10.3.4 Origin of oceanic plateau magmas.................. 300 10. i.l 10. 1.2 10. 1.3 10. 1.4 10. 1.5 10. .6 xii Contents 10.4 Plumes, hot spots and hot lines.......................... 302 10.4.1 A simple hot-spot model........................ 302 10.4.2 The complexity of hot spots...................... 304 10.4.3 Ridge-hot spot interactions...................... 306 10.4.4 Hot lines.................................... 307 10.4.5 Origin and evolution of hot spots.................. 309 11 The fate of the oceanic crust: from subduction to recycling........... 311 11.1 A typical volcanic arc: the Sunda arc in Java (Western Indonesia). 311 11.1.1 Tectonic setting............................... 311 11.1.2 Geology of Java............................... 313 11.1.3 Petrology and geochemistry of Java arc lavas.......... 315 11.1.4 Petrogenetic model of the Java Arc................. 318 11.2 The diversity of magmatic arcs.......................... 321 11.2.1 Arcs installed on thin crusts and on thick crusts........ 322 11.2.2 Enriched and depleted arcs....................... 325 11.2.3 Subduction of old crust versus subduction of young crust. 326 11.3 Contribution of the subducting oceanic crust to arc magmas..... 328 11.3.1 Evidence for crustal contribution................... 328 11.3.2 Evolution of genetic models...................... 329 11.3.3 The variable modalities of crustal/sedimentary contribu- tion: the example of the Luzon Arc (Philippines)...... 331 11.3.4 Hydrous fluid metasomatism and partial melting of the mantle wedge............................... 335 11.3.5 Melting of the subducted ocean crust................ 336 11.3.6 Simplified petrogenetic models.................... 341 11.4 Fore-arc and back-arc magmas.......................... 343 11.4.1 Magmatic effects of active ridge subduction........... 343 11.4.2 Boninites and their origins....................... 344 11.4.3 Back-arc basin magmas......................... 348 11.5 The fate of subducted oceanic crust....................... 350 11.5.1 From subduction to collision..................... 350 11.5.2 Deep recycling of oceanic crust.................... 351 11.5.3 Subduction and continental growth................. 353 Plate I Map of the Ocean Floors................ At end of Chapter 11 Plate II Map of the Ages of the World Ocean Floors . . At end of Chapter 11 Plate III Map of the Free-Air Gravity Anomalies..... At end of Chapter 11 Plate IV Free-Air Gravity Map of Northern and Central Atlantic Ocean...................... At end of Chapter 11 12 Conclusion: the oceanic crust cycle............................ 355 12.1 Petrologic and geochemical constraints.................... 355 12.2 Deep structure of the Earth and convection................. 356 12.3 From the extraction of oceanic crust to its recycling........... 358 12.4 The great tectono-magmatic crises in the oceans.............. 360 References............................................... 363 Index................................................... 386
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spelling	Juteau, Thierry 1940- Verfasser (DE-588)120579677 aut Géologie de la croûte océanique The oceanic crust, from accretion to mantle recycling Thierry Juteau and René Maury London [u.a.] Springer 1999 Chichester, UK Praxis Publ. XII, 390 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Springer-Praxis series in geophysics GEOLOGIA MARINHA larpcal OCEANOGRAFIA larpcal Submarine geology Ozeanische Erdkruste (DE-588)4401814-9 gnd rswk-swf Earth Crust Ozeanische Erdkruste (DE-588)4401814-9 s DE-604 Maury, René Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008373515&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Juteau, Thierry 1940- Maury, René The oceanic crust, from accretion to mantle recycling GEOLOGIA MARINHA larpcal OCEANOGRAFIA larpcal Submarine geology Ozeanische Erdkruste (DE-588)4401814-9 gnd
subject_GND	(DE-588)4401814-9
title	The oceanic crust, from accretion to mantle recycling
title_alt	Géologie de la croûte océanique
title_auth	The oceanic crust, from accretion to mantle recycling
title_exact_search	The oceanic crust, from accretion to mantle recycling
title_full	The oceanic crust, from accretion to mantle recycling Thierry Juteau and René Maury
title_fullStr	The oceanic crust, from accretion to mantle recycling Thierry Juteau and René Maury
title_full_unstemmed	The oceanic crust, from accretion to mantle recycling Thierry Juteau and René Maury
title_short	The oceanic crust, from accretion to mantle recycling
title_sort	the oceanic crust from accretion to mantle recycling
topic	GEOLOGIA MARINHA larpcal OCEANOGRAFIA larpcal Submarine geology Ozeanische Erdkruste (DE-588)4401814-9 gnd
topic_facet	GEOLOGIA MARINHA OCEANOGRAFIA Submarine geology Ozeanische Erdkruste Earth Crust
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008373515&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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