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Table of Contents - Special Paper 349Ophiolites and Oceanic Crust: New Insights from Field Studies and the Ocean Drilling Program |
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| Preface | vii | |
Section I. Ophiolites, Oceanic Crust, and Global Tectonics |
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| 1. | Tethyan ophiolites, mantle convection, and tectonic “historical contingency”:
A resolution of the “ophiolite conundrum” Eldridge M. Moores, Louise H. Kellogg, and Yildirim Dilek |
3 |
| 2. | Evidence for subduction-related contamination of the mantle beneath the southern
Chile Ridge: Implications for ambiguous ophiolite compositions Marnie E. Sturm, Emily M. Klein, Jill L. Karsten, and Jeffrey A. Karson |
13 |
| 3. | The ophiolite–oceanic lithosphere analogue: New insights from the Northern
Apennines (Italy) Elisabetta Rampone and Giovanni B. Piccardo |
21 |
| 4. | Significance of serpentine mud volcanism in convergent margins Patricia Fryer, John P. Lockwood, Nathan Becker, Steven Phipps, and Clifford S. Todd |
35 |
| 5. | Spatial and temporal relationships between ophiolites and their metamorphic
soles: A test of models of forearc ophiolite genesis John Wakabayashi and Yildirim Dilek |
53 |
Section II. Oceanic Lower Crust and Upper Mantle |
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| 6. | Large mantle upwellings and related variations in crustal thickness in the
Oman ophiolite Adolphe Nicolas and Françoise Boudier |
67 |
| 7. | Lower oceanic crust formed at an ultra-slow-spreading ridge: Ocean Drilling
Program Hole 735B, Southwest Indian Ridge Paul T. Robinson, Henry J.B. Dick, James H. Natland, and the ODP Leg 176 Shipboard Party |
75 |
| 8. | Magmatic and tectonic controls on the evolution of oceanic magma chambers
at slow-spreading ridges: Perspectives from ophiolitic and continental layered
intrusions Peter Thy and Yildirim Dilek |
87 |
| 9. | Syntexis and the genesis of lower oceanic crust Jean H. Bédard, Réjean Hébert, Alain Berclaz, and Véronika Varfalvy |
105 |
| 10. | Can downward flow of dense cumulate slurry through mushy upper gabbros produce
lower gabbros at a fast-spreading center? W. Roger Buck |
121 |
| 11. | Evolution of gabbroic rocks of the Northern Apennine ophiolites (Italy): Comparison
with the lower oceanic crust from modern slow-spreading ridges Riccardo Tribuzio, Massimo Tiepolo, and Riccardo Vannucci |
129 |
| 12. | New insights concerning the influence of water during the formation of podiform
chromitite Stephen J. Edwards, Julian A. Pearce, and Jonathan Freeman |
139 |
| 13. | Gauging stress from mantle chromitite pods in the Oman ophiolite Benjamin Holtzman |
149 |
Section III. Structure and Physical Properties of Upper Oceanic Crust |
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| 14. | Dependence of crustal accretion and ridge-axis topography on spreading rate,
mantle temperature, and hydrothermal cooling Yongshun John Chen |
161 |
| 15. | Comparison of volcanic construction in the Troodos ophiolite and oceanic crust
using paleomagnetic inclinations from Cyprus Crustal Study Project (CCSP) CY-1
and CY-1A and Ocean Drilling Program (ODP) 504B drill cores Hans Schouten and Charles R. Denham |
181 |
| 16. | On the boundary between seismic layers 2 and 3: A stress change? Philippe A. Pezard |
195 |
| 17. | Characterization of the upper oceanic crust using high-resolution seismic
amplitude modeling Yue-Feng Sun and David Goldberg |
203 |
Section IV. Hydrothermal Processes |
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| 18. | A synthesis of geological and geochemical investigations of the TAG hydrothermal
field: Insights into fluid-flow and mixing processes in a hydrothermal system Susan E. Humphris and Margaret K. Tivey |
213 |
| 19. | Volatiles in mid-ocean ridge environments Deborah S. Kelley and Gretchen L. Früh-Green |
237 |
| 20. | Lower-crustal cracking front at fast-spreading ridges: Evidence from the East
Pacific Rise and the Oman ophiolite Craig E. Manning, Christopher J. MacLeod, and Patricia E. Weston |
261 |
| 21. | Hydrothermal alteration and fluid fluxes in ophiolites and oceanic crust Jeffrey C. Alt and Damon A.H. Teagle |
273 |
| 22. | Hydrothermal alteration patterns in supra-subduction zone ophiolites Kathryn M. Gillis and Neil R. Banerjee |
283 |
Section V. Pacific Rim Ophiolites |
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| 23. | Macquarie Island: Its geology, structural history, and the timing and tectonic
setting of its N-MORB to E-MORB magmatism Rick Varne, Anthony V. Brown, and Trevor Falloon |
301 |
| 24. | The Timor ophiolite, Indonesia: Model or myth? Ron Harris and Timothy Long |
321 |
| 25. | Proterozoic–early Paleozoic ophiolites of the Andean basement of southern
South America Victor A. Ramos, Mónica Escayola, Diana I. Mutti, and Graciela I. Vujovich |
331 |
| 26. | Prospecting for ophiolites along the California continental margin Robert G. Coleman |
351 |
| 27. | Mesozoic assimilation of oceanic crust and island arc into the North American
continental margin in California and Nevada: Insights from geophysical data Nicola J. Godfrey and Yildirim Dilek |
365 |
| 28. | Tectonostratigraphic significance of sedimentary strata occurring within and
above the Coast Range ophiolite (California Coast Ranges) and the Josephine ophiolite
(Klamath Mountains), northwestern California Emile A. Pessagno, Jr., Donna M. Hull, and Clifford A. Hopson |
383 |
| 29. | Models for origin and emplacement of Jurassic ophiolites of northern California Raymond V. Ingersoll |
395 |
| 30. | Geology and geochemistry of the ophiolitic Trinity terrane, California: Evidence
of middle Paleozoic depleted supra-subduction zone magmatism in a proto-arc setting Rodney V. Metcalf, E. Timothy Wallin, Keith R. Willse, and Edward R. Muller |
403 |
| 31. | Sulfide minerals as an indicator for petrogenesis and serpentinization of
peridotites: An example from the Hayama-Mineoka belt, central Japan Hiroshi Sato and Yujiro Ogawa |
419 |
Section VI. Ophiolites from the Iapetus, Rheic-Pleionic, Neotethyan, and Indian Oceans |
431 |
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| 32. | Contrasting mantle sequences exposed in the Lewis Hills massif: Evidence for the
early, arc-related history of the Bay of Islands ophiolite Günter Suhr and Stephen John Edwards |
433 |
| 33. | Petrology, tectonics, and hydrothermal alteration of a fossil backarc
oceanic crust: Solund-Stavfjord ophiolite complex of the western Norwegian Caledonides—A
review Harald Furnes, Kjell Petter Skjerlie, and Yildirim Dilek |
443 |
| 34. | Early Devonian boninites from the Magnitogorsk arc, southern Urals (Russia):
Implications for early development of a collisional orogen Piera Spadea and Jane H. Scarrow |
461 |
| 35. | Constraints on the formation and emplacement age of western Greek ophiolites
(Vourinos, Pindos, and Othris) inferred from deformation structures in peridotites Annie Rassios and Alan G. Smith |
473 |
| 36. | Petrology and geochemistry of the Shahr-Babak ophiolite, central Iran A. Mohamad Ghazi and A.A. Hassanipak |
485 |
| 37. | Aswad massif (United Arab Emirates): Archetype of the Oman-UAE ophiolite belt Adolphe Nicolas, Françoise Boudier, K. Michibayashi, and L. Gerbert-Gaillard |
499 |
| 38. | A new structural profile along the Muscat-Ibra transect, Oman: Implications
for emplacement of the Samail ophiolite David R. Gray, Robert T. Gregory, and John McL. Miller |
513 |
| 39. | Formation and evolution of the western Indian Ocean as evidenced by the Masirah ophiolite: A review Tjerk Peters |
525 |
Index |
537 |
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