World Atlas of Submarine Gas Hydrates in Continental Margins
portes grátis
World Atlas of Submarine Gas Hydrates in Continental Margins
Camerlenghi, Angelo; Mienert, Juergen; Liu, Char-Shine; Berndt, Christian; Trehu, Anne M.
Springer Nature Switzerland AG
12/2022
514
Mole
Inglês
9783030811884
15 a 20 dias
1625
Descrição não disponível.
Part I. A History of gas hydrate research.- Chapter 1. Gas Hydrate Research: From the Laboratory to the Pipeline.- Chapter 2. Shallow gas hydrates near 64 degrees N, off Mid-Norway: Concerns regarding drilling and production technologies.- Chapter 3. Finding and using the world's gas hydrates.- Part II. Gas Hydrate Fundamentals.- Chapter 4. Seismic rock physics of gas-hydrate bearing sediments.- Chapter 5. Estimation of gas hydrates in the pore space of sediments using inversion methods.- Chapter 6. Electromagnetic applications in methane hydrate reservoirs.- Part III. Gas Hydrate Drilling for Research and Natural Resources.- Chapter 7. Hydrate Ridge - A gas hydrate system in a subduction zone setting.- Chapter 8. Northern Cascadia Margin gas hydrates - Regional geophysical surveying, IODP drilling Leg 311 and cabled observatory monitoring.- Chapter 9. Accretionary wedge tectonics and gas hydrate distribution in the Cascadia forearc.- Chapter 10. Bottom Simulating Reflections below the Blake Ridge, western North Atlantic Margin.- Chapter 11. A review of the exploration, discovery, and characterization of highly concentrated gas hydrate accumulations in coarse-grained reservoir systems along the Eastern Continental Margin of India.- Chapter 12. Ulleung Basin Gas Hydrate Drilling Expeditions, Korea: Lithologic characteristics of gas hydrate-bearing sediments.- Chapter 13. Bottom simulating reflections in the South China Sea.- Chapter 14. Gas hydrate and fluid related seismic indicators across the passive and active margins off SW Taiwan.- Chapter 15. Gas Hydrate Drilling in the Nankai Trough, Japan.- Chapter 16. Alaska North Slope Terrestrial Gas Hydrate Systems: Insights from Scientific Drilling.- Part IV.- Arctic.- Chapter 17. Gas Hydrates on Alaskan Marine Margins.- Chapter 18. Gas Hydrate related bottom-simulating reflections along the west-Svalbard margin, Fram Strait.- Chapter 19. Occurrence and distribution of bottom simulating reflectionsin the Barents Sea.- Chapter 20. Svyatogor Ridge - A gas hydrate system driven by crustal scale processes.- Chapter 21. Gas hydrate potential in the Kara Sea.- Part V. Greenland and Norwegian Sea.- Chapter 22. Geophysical indications of gas hydrate occurrence on the Greenland continental margins.- Chapter 23. Gas hydrates in the Norwegian Sea.- Part VI. North Atlantic. Chapter 24. U.S. Atlantic Margin Gas Hydrates.- Chapter 25. Gas Hydrates and submarine sediment mass failure: A case study from Sackville Spur, offshore Newfoundland.- Chapter 26. Bottom Simulating Reflections and Seismic Phase Reversals in the Gulf of Mexico.- Chapter 27. Insights into gas hydrate dynamics from 3D seismic data, offshore Mauritania.- Part VII. South Atlantic.- Chapter 28. Distribution and Character of Bottom Simulating Reflections in the Western Caribbean Offshore Guajira Peninsula, Colombia.- Chapter 29. Gas hydrate systems on the Brazilian continental margin.- Chapter 30. Gas hydrate on the southwestAfrican continental margin.- Chapter 31. Shallow gas hydrates associated to pockmarks in the Northern Congo deep-sea fan, SW Africa.- Part VIII. Pacific.- Chapter 32. Gas hydrate-bearing province off eastern Sakhalin slope.- Chapter 33. Tectonic BSR Hypothesis in the Peruvian margin: A forgotten way to see marine gas hydrate systems at convergent margins.- Chapter 34. Gas hydrate and free gas along the Chilean Continental Margin.- Chapter 35. New Zealand's Gas Hydrate Systems.- Part IX. Indic.- Chapter 36. First evidence of bottom simulation reflectors in the western Indian Ocean offshore Tanzania.- Part X. Mediterranean Sea.- Chapter 37. A Gas Hydrate System of Heterogenous Character in the Nile Deep-Sea Fan.- Part XI. Black Sea.- Chapter 38. Gas hydrate accumulations in the Black Sea.- Part XII. Lake Baikal.- Chapter 39. The position of gas hydrates in the sedimentary strata and in the geological structure of Lake Baikal.- Part XIII. Antarctic.- Chapter 40. Bottom Simulating Reflector in the western Ross Sea Antarctica.- Chapter 41. Bottom Simulating Reflectors along the Scan Basin, a deep-sea gateway between the Weddell Sea (Antarctica) and Scotia Sea.- Chapter 42. Bottom Simulating Reflections in Antarctica.- Part XIV. Where Gas Hydrate Dissociates Seafloor Microhabitats Flourish. Chapter 43. Integrating fine-scale habitat mapping and pore water analysis in cold seep research: A case study from the SW Barents Sea.
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Gas hydrates;Continental margins;hydrate related geohazards;gas hydrate exploration;bottom simulating reflectors;active continental margins;passive continental margins;gas hydrate systems;carbon reservoirs;ocean climate capacitator;flamable ice;gas hydrate stability zone
Part I. A History of gas hydrate research.- Chapter 1. Gas Hydrate Research: From the Laboratory to the Pipeline.- Chapter 2. Shallow gas hydrates near 64 degrees N, off Mid-Norway: Concerns regarding drilling and production technologies.- Chapter 3. Finding and using the world's gas hydrates.- Part II. Gas Hydrate Fundamentals.- Chapter 4. Seismic rock physics of gas-hydrate bearing sediments.- Chapter 5. Estimation of gas hydrates in the pore space of sediments using inversion methods.- Chapter 6. Electromagnetic applications in methane hydrate reservoirs.- Part III. Gas Hydrate Drilling for Research and Natural Resources.- Chapter 7. Hydrate Ridge - A gas hydrate system in a subduction zone setting.- Chapter 8. Northern Cascadia Margin gas hydrates - Regional geophysical surveying, IODP drilling Leg 311 and cabled observatory monitoring.- Chapter 9. Accretionary wedge tectonics and gas hydrate distribution in the Cascadia forearc.- Chapter 10. Bottom Simulating Reflections below the Blake Ridge, western North Atlantic Margin.- Chapter 11. A review of the exploration, discovery, and characterization of highly concentrated gas hydrate accumulations in coarse-grained reservoir systems along the Eastern Continental Margin of India.- Chapter 12. Ulleung Basin Gas Hydrate Drilling Expeditions, Korea: Lithologic characteristics of gas hydrate-bearing sediments.- Chapter 13. Bottom simulating reflections in the South China Sea.- Chapter 14. Gas hydrate and fluid related seismic indicators across the passive and active margins off SW Taiwan.- Chapter 15. Gas Hydrate Drilling in the Nankai Trough, Japan.- Chapter 16. Alaska North Slope Terrestrial Gas Hydrate Systems: Insights from Scientific Drilling.- Part IV.- Arctic.- Chapter 17. Gas Hydrates on Alaskan Marine Margins.- Chapter 18. Gas Hydrate related bottom-simulating reflections along the west-Svalbard margin, Fram Strait.- Chapter 19. Occurrence and distribution of bottom simulating reflectionsin the Barents Sea.- Chapter 20. Svyatogor Ridge - A gas hydrate system driven by crustal scale processes.- Chapter 21. Gas hydrate potential in the Kara Sea.- Part V. Greenland and Norwegian Sea.- Chapter 22. Geophysical indications of gas hydrate occurrence on the Greenland continental margins.- Chapter 23. Gas hydrates in the Norwegian Sea.- Part VI. North Atlantic. Chapter 24. U.S. Atlantic Margin Gas Hydrates.- Chapter 25. Gas Hydrates and submarine sediment mass failure: A case study from Sackville Spur, offshore Newfoundland.- Chapter 26. Bottom Simulating Reflections and Seismic Phase Reversals in the Gulf of Mexico.- Chapter 27. Insights into gas hydrate dynamics from 3D seismic data, offshore Mauritania.- Part VII. South Atlantic.- Chapter 28. Distribution and Character of Bottom Simulating Reflections in the Western Caribbean Offshore Guajira Peninsula, Colombia.- Chapter 29. Gas hydrate systems on the Brazilian continental margin.- Chapter 30. Gas hydrate on the southwestAfrican continental margin.- Chapter 31. Shallow gas hydrates associated to pockmarks in the Northern Congo deep-sea fan, SW Africa.- Part VIII. Pacific.- Chapter 32. Gas hydrate-bearing province off eastern Sakhalin slope.- Chapter 33. Tectonic BSR Hypothesis in the Peruvian margin: A forgotten way to see marine gas hydrate systems at convergent margins.- Chapter 34. Gas hydrate and free gas along the Chilean Continental Margin.- Chapter 35. New Zealand's Gas Hydrate Systems.- Part IX. Indic.- Chapter 36. First evidence of bottom simulation reflectors in the western Indian Ocean offshore Tanzania.- Part X. Mediterranean Sea.- Chapter 37. A Gas Hydrate System of Heterogenous Character in the Nile Deep-Sea Fan.- Part XI. Black Sea.- Chapter 38. Gas hydrate accumulations in the Black Sea.- Part XII. Lake Baikal.- Chapter 39. The position of gas hydrates in the sedimentary strata and in the geological structure of Lake Baikal.- Part XIII. Antarctic.- Chapter 40. Bottom Simulating Reflector in the western Ross Sea Antarctica.- Chapter 41. Bottom Simulating Reflectors along the Scan Basin, a deep-sea gateway between the Weddell Sea (Antarctica) and Scotia Sea.- Chapter 42. Bottom Simulating Reflections in Antarctica.- Part XIV. Where Gas Hydrate Dissociates Seafloor Microhabitats Flourish. Chapter 43. Integrating fine-scale habitat mapping and pore water analysis in cold seep research: A case study from the SW Barents Sea.
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