All Stories

  1. The Origin of Gas Seeps in the Northern Adriatic Sea
  2. Potential Instability of Gas Hydrates along the Chilean Margin Due to Ocean Warming
  3. Marine Transform Faults and Fracture Zones: A Joint Perspective Integrating Seismicity, Fluid Flow and Life
  4. Gas Hydrate Estimate in an Area of Deformation and High Heat Flow at the Chile Triple Junction
  5. OBS Data Analysis to Quantify Gas Hydrate and Free Gas in the South Shetland Margin (Antarctica)
  6. High Gas Hydrate and Free Gas Concentrations: An Explanation for Seeps Offshore South Mocha Island
  7. Gas Hydrate Estimate in an Area of Deformation and High Heat Flow at the Chile Triple Junction
  8. A first estimation of gas hydrates offshore Patagonia (Chile)
  9. Pore-water in marine sediments associated to gas hydrate dissociation offshore Lebu, Chile
  10. High Gas Hydrate and Free Gas Concentrations: An Explanation for Seeps Offshore South Mocha Island
  11. Wave equation datuming applied to S-wave reflection seismic data
  12. Crustal structure of Central Sicily
  13. Gas Hydrate and Free Gas Concentrations in Two Sites inside the Chilean Margin (Itata and Valdivia Offshores)
  14. Distribution of the gas hydrate stability zone in the Ross Sea, Antarctica
  15. Wave Equation Datuming Applied to Seismic Data in Shallow Water Environment and Post-Critical Water Bottom Reflection
  16. Gas hydrate and free gas estimation from seismic analysis offshore Chiloé island (Chile)
  17. Gas hydrate stability zone in shallow Arctic Ocean in presence of sub-sea permafrost
  18. The challenges of quantifying the carbon stored in Arctic marine gas hydrate
  19. An inversion method for seafloor elastic parameters
  20. Reflection seismic sections across the Geothermal Province of Tuscany from reprocessing CROP profiles
  21. The potential response of the hydrate reservoir in the South Shetland Margin, Antarctic Peninsula, to ocean warming over the 21st century
  22. Numerical simulation of coupled waves in borehole drilling through a BSR
  23. Sicily’s fold–thrust belt and slab roll-back: the SI.RI.PRO. seismic crustal transect
  24. Variations in BSR depth due to gas hydrate stability versus pore pressure
  25. Geophysical Methods for Environmental Studies
  26. Arctic Ocean Gas Hydrate Stability in a Changing Climate
  27. An Overview of Mud Volcanoes Associated to Gas Hydrate System
  28. Gas hydrate versus geological features: The South Shetland case study
  29. Gas Hydrate on Continental Margins
  30. A crustal seismic profile across Sicily
  31. Wave equation datuming applied to marine OBS data and to land high resolution seismic profiling
  32. Overpressure Condition Versus BSR
  33. BSR versus Climate Change and Slides
  34. Basal and Frontal Accretion Processes versus BSR Characteristics along the Chilean Margin
  35. Offshore Antarctic Peninsula Gas Hydrate Reservoir Characterization by Geophysical Data Analysis
  36. P and S reflection and P refraction: An integration for characterising shallow subsurface
  37. Tectonic Processes and BSR Features along Chilean Margin
  38. Thermal state and concentration of gas hydrate and free gas of Coyhaique, Chilean Margin (44°30′ S)
  39. VP versus VS to characterise the shallow subsurface
  40. 25. Wave Theory, Simulation, and Determination of Gas-Hydrate Content in Sediments
  41. Analyses of bottom simulating reflections offshore Arauco and Coyhaique (Chile)
  42. 3D seismic data for shallow aquifers characterisation
  43. Geographic Information System – An Application to Manage Geophysical Data
  44. Characteristic of Gas Hydrates Reservoir from Seismic Analysis of Multichannel Seismic Profiles Offshore South Chile
  45. Regional versus detailed velocity analysis to quantify hydrate and free gas in marine sediments: the South Shetland Margin case study
  46. Characterization of the shallow aquifers by high-resolution seismic data
  47. Estimation of biogenic silica contents in marine sediments using seismic and well log data: Sediment Drift 7, Antarctica
  48. Gas hydrates and active mud volcanism on the South Shetland continental margin, Antarctic Peninsula
  49. Thermal modelling of the Larderello geothermal field (Tuscany, Italy)
  50. Fluid seepage in mud volcanoes of the northern Apennines: An integrated geophysical and geological study
  51. Evidence for fluid circulation, overpressure and tectonic style along the Southern Chilean margin
  52. Tomographic joint inversion of first arrivals in a real case fromSaudi Arabia
  53. Geophysical Investigation of a Mud-Volcano in the Northern Apennines
  54. Analysis of Crustal Seismic Data in a Geothermal Field (Southern Tuscany)
  55. Geofluid evidence from analysis of deep crustal seismic data (Southern Tuscany, Italy)
  56. Crustal structures in the geothermal areas of southern Tuscany (Italy): Insights from the CROP 18 deep seismic reflection lines
  57. Tomographic inversion of common image gathers
  58. Seismic‐while‐drilling by using dual sensors in drill strings
  59. NUMERICAL SIMULATION OF COUPLED WAVES IN BOREHOLE
  60. Assessment of gas hydrate and free gas distribution on the South Shetland margin (Antarctica) based on multichannel seismic reflection data
  61. Data Report: Physical Properties Relevant to Seismic Stratigraphic Studies, Continental Rise Sites 1095, 1096, and 1101, ODP Leg 178, Antarctic Peninsula
  62. The seismic response to overpressure: a modelling study based on laboratory, well and seismic data
  63. Data Report: Seismic Velocity Analysis On The Continental Shelf Transect, ODP Leg 178, Antarctic Peninsula
  64. Gas hydrate physical properties imaging by multi-attribute analysis — Blake Ridge BSR case history
  65. To: “Bottom simulating reflectors: Seismic velocities and AVO effects,” J. M. Carcione and U. Tinivella (GEOPHYSICS, 65, 54–67)
  66. Estimation of gas-hydrate concentration and free-gas saturation from log and seismic data
  67. Estimation of pore pressure by AVO inversion
  68. Compressional velocity structure and Poisson's ratio in marine sediments with gas hydrate and free gas by inversion of reflected and refracted seismic data (South Shetland Islands, Antarctica)
  69. Bottom‐simulating reflectors: Seismic velocities and AVO effects
  70. Estimation of gas hydrate concentration and free gas saturation from log and seismic data
  71. The Blake Ridge bottom-simulating reflector transect: tomographic velocity field and theoretical model to estimate methane hydrate quantities
  72. Acoustic Properties and AVO of Bottom Simulating Reflectors Associated with Gas-Hydrates
  73. Semi-automatic picking in real seismic data
  74. Seismic tomography study of a bottom simulating reflector off the South Shetland Islands (Antarctica)
  75. Random pseudobinary ionic alloys: lattice energy and structural properties
  76. Tomographic and AVO analyses of Bottom Simulating Reflectors (BSR) on real data
  77. Pre‐stack depth migration by 3‐D reflection tomography in the North Sea
  78. GEOGRAPHICAL INFORMATION SYSTEM APPLIED TO GEOPHYSICAL DATA TO STUDY GAS HYDRATE
  79. CORRELATION BETWEEN GEOLOGICAL STUCTURES AND GAS HYDRATE AMOUNT OFFSHORE THE SOUTH SHETLAND ISLAND — PRELIMINARY RESULTS