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Equilibration depth and temperature of Neogene alkaline lavas in the Cordillera of Alaska and Canada as a constraint on the lithosphere–asthenosphere boundary
Thermal Condition of the 27 October 2012 M w 7.8 Haida Gwaii Subduction Earthquake at the Obliquely Convergent Queen Charlotte Margin
Rupture area and displacement of past Cascadia great earthquakes from coastal coseismic subsidence
Great earthquakes on Canada’s west coast: a review This article is one of a series of papers published in this Special Issue on the theme Lithoprobe — parameters, processes, and the evolution of a continent . Geological Survey of Canada Contribution 20090196.
Imaging a hydrate-related cold vent offshore Vancouver Island from deep-towed multichannel seismic data
Abstract This chapter reviews the extensive geophysical studies and Ocean Drilling Program (ODP) results that provide constraints on the occurrence, distribution, and concentration of deep-sea gas hydrate beneath the northern Cascadia margin offshore Vancouver Island. Most of this information comes from a wide range of seismic surveys and includes the mapping of the bottom-simulating reflector (BSR), as well as estimating gas-hydrate and free-gas concentrations. Recent additional constraints on the distribution and concentration of gas hydrate come from sea-floor-towed, controlled-source electromagnetic surveying and sea-floor compliance studies. These surveys and studies have been primarily deployed around a cold vent field, where seismic data show several broad blank zones, interpreted as fault-related conduits for focused fluid-gas migration, and where gas hydrate has been recovered in piston cores at the sea floor. Results from the ODP Leg 146 and the recently completed Integrated Ocean Drilling Program (IODP) Expedition 311 further constrain concentration estimates for gas hydrate and free gas in the sediments along the margin and also give insight into the complex formation mechanisms and controlling factors for gas hydrate occurrence in an accretionary complex. This summary was first presented in September 2004 at the AAPG Hedberg Research Conference on gas hydrates. Subsequently, 1 yr later, the drilling of IODP Expedition 311 resulted in a significant amount of new information and insight into the occurrence and formation processes of gas hydrate at the northern Cascadia margin. This chapter provides only a short summary of the results from that IODP Expedition. Reviews of the results from that drill coring and the downhole measurements are in progress.
AVO inversion of BSRs in marine gas hydrate studies
Geophysical and geochemical signatures associated with gas hydrate–related venting in the northern Cascadia margin
Current tectonics of the northern Canadian Cordillera ,
Coseismic subsidence in the 1700 great Cascadia earthquake: Coastal estimates versus elastic dislocation models
Fault Parameters of the Nisqually Earthquake Determined from Moment Tensor Solutions and the Surface Deformation from GPS and InSAR
Yakutat collision and strain transfer across the northern Canadian Cordillera
High-resolution, deep-towed, multichannel seismic survey of deep-sea gas hydrates off western Canada
Origin of bottom-simulating reflectors: Geophysical evidence from the Cascadia accretionary prism
Abstract The Queen Charlotte margin occupies part of a right-lateral strike-slip transform zone extending from the active subduction zone of the Juan de Fuca Plate off Vancouver Island to the active subduction zone of the Pacific Plate off southern Alaska. It marks the boundary between the Pacific and North American lithospheric plates.