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  • 1
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    Focused Fluid Flow Along the Nootka Fault Zone and Continental Slope, Explorer-Juan de Fuca Plate Boundary (2021)
    Details
    Publication Date: 2021-10-11
    Description: Geophysical and geochemical data indicate there is abundant fluid expulsion in the Nootka fault zone (NFZ) between the Juan de Fuca and Explorer plates and the Nootka continental slope. Here we combine observations from 〉20 years of investigations to demonstrate the nature of fluid-flow along the NFZ, which is the seismically most active region off Vancouver Island. Seismicity reaching down to the upper mantle is linked to near-seafloor manifestation of fluid flow through a network of faults. Along the two main fault traces, seismic reflection data imaged bright spots 100–300 m below seafloor that lie above changes in basement topography. The bright spots are conformable to sediment layering, show opposite-to-seafloor reflection polarity, and are associated with frequency reduction and velocity push-down indicating the presence of gas in the sediments. Two seafloor mounds ~15 km seaward of the Nootka slope are underlain by deep, nonconformable high-amplitude reflective zones. Measurements in the water column above one mound revealed a plume of warm water, and bottom-video observations imaged hydrothermal vent system biota. Pore fluids from a core at this mound contain predominately microbial methane (C1) with a high proportion of ethane (C2) yielding C1/C2 ratios 〈500 indicating a possible slight contribution from a deep source. We infer the reflective zones beneath the two mounds are basaltic intrusions that create hydrothermal circulation within the overlying sediments. Across the Nootka continental slope, gas hydrate-related bottom-simulating reflectors are widespread and occur at depths indicating heat flow values of 80–90 mW/m2.
    Keywords: 551 ; fluid flow ; Nootka transform fault ; gas hydrate ; intrusion ; heat flow
    Language: English
    Type: map
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    CITATION GEO-LEO
  • 2
    Electronic Resource
    Electronic Resource
    Structure of the Northern Symmetrical Segment of the Juan de Fuca Ridge (1993)
    Springer
    Marine geophysical researches 15 (1993), S. 219-240 
    Details
    ISSN: 1573-0581
    Keywords: Mid-Ocean Ridge ; Juan de Fuca Ridge ; seismic refraction
    Source: Springer Online Journal Archives 1860-2000
    Topics: Geosciences , Physics
    Notes: Abstract A seismic refraction profile was shot along the axis of the Northern Symmetrical Segment of the Juan de Fuca Ridge system. Three models of the along-axis crustal structure fit the observed data equally well. One model includes a low-velocity zone, the top of which is at a depth below the seafloor of approximately 3 km, that is continuous along-axis for at least 30 km. A second model includes a low-Q layer, the top of which is also at a depth of approximately 3 km below the seafloor and is continuous along-axis for at least 30 km. Both the low-Q layer and low-velocity zone can be explained geologically by a region of elevated temperatures. The third model is characterized by a homogeneous seismic layer 3. All models contain an ~1 km s−1 discontinuity at the seismic layer 2/3 boundary; a wide-angle reflection from this boundary is seen on all record sections. Kappel and Ryan (1986) had previously proposed that the Northern Symmetrical Segment was in a stage of volcanic inactivity, and this theory is supported by the seismic observations. Two-dimensional modelling of travel times to ocean bottom hydrophone instruments shows that the amplitude variations in the along-axis depth to intracrustal seismic layers (a few hundred meters) is on the order of the lateral changes in topographic relief. It is suggested that the crustal emplacement processes reflect the deeper style of 3-D mantle upwelling beneath the ridge.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF01204234
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    Paper (German National Licenses)
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  • 3
    Electronic Resource
    Electronic Resource
    Lithospheric structure along the Queen Charlotte margin in western Canada: constraints from flexural modeling (1997)
    Springer
    Geo-marine letters 17 (1997), S. 94-99 
    Details
    ISSN: 1432-1157
    Source: Springer Online Journal Archives 1860-2000
    Topics: Geosciences
    Notes: Abstract  The Queen Charlotte fault zone along the western margin of Canada, a right-lateral transform, is part of the boundary between the Pacific and North America plates. Combining reflection and refraction surveys and flexural modeling, we place limits on the amount of underthrusting of the Pacific plate beneath the North America plate. Results from our two-dimensional elastic modeling suggest 10–15 km of underthrusting along the northern Queen Charlotte Islands, in agreement with the amount of underthrusting inferred from plate motion models.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/s003670050013
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  • 4
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    Plate Boundary Adjustments of the Southernmost Queen Charlotte Fault (2015)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2015-05-01
    Description: A revision of the plate boundary configuration offshore southern Haida Gwaii, which is the locus of the 2012 M w  7.8 thrust earthquake, is based on a re-evaluation of regional geophysical data and leads to recognition of fault segments critical for seismic-hazard analysis. Off western Canada, the strike-slip Queen Charlotte fault (QCF) and Revere–Dellwood fault (RDF) constitute the transpressive plate boundary between the Pacific and North American plates. The southernmost 80 km of the QCF strikes at the highest angle (~20°) to the relative plate motion, yet geomorphology adjacent to the fault is the most subdued. Synthesizing geomorphology, seismicity, sidescan sonar, gravity, and seismic reflection profiles indicates that the plate boundary is evolving to a less transpressive configuration than previously interpreted. The RDF is 100 km longer than previously mapped; it has propagated northward and overlaps the QCF by 120 km. Propagation is defined by strike-slip earthquakes 3.9〈 M w 〈6.4, 500 m uplift of oceanic crust, and a fault scarp that disrupts margin parallel structures of the Queen Charlotte terrace. Part of the southern QCF has been reoriented through a series of short restraining steps, resulting in a less oblique orientation relative to the plate motions; the recent fault trace is clearly seen in previously uninterpreted sidescan sonar data. Overall this mapping delineates a segment of the plate boundary characterized by overlap between the QCF and RDF and defines the southern limit of a segment of the plate boundary characterized by historic pure shear deformation and rupture during the 2012 M w  7.8 and the 1949 M  8.1 earthquakes.
    Print ISSN: 0037-1106
    Electronic ISSN: 1943-3573
    Topics: Geosciences , Physics
    Published by Seismological Society of America (SSA)
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  • 5
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    An Abrupt Transition in the Mechanical Response of the Upper Crust to Transpression along the Queen Charlotte Fault (2015)
    Seismological Society of America (SSA)
    Details
    Publication Date: 2015-05-01
    Description: The Queen Charlotte Fault (QCF) is a major strike-slip fault that forms the boundary between the Pacific and North American plates from 51° to 58° N. Near 53.2° N, the angle of oblique convergence predicted by the Mid-Ocean Ridge VELocity (MORVEL) interplate pole of rotation decreases from 〉15° in the south to 〈15° in the north. South of 53.2° N, the convergent component of plate motion results in the formation of a 40 km wide terrace on the Pacific plate west of QCF and earthquakes with thrust mechanisms (including the 2012 Haida Gwaii earthquake sequence) are observed. North of 53.2° N, in the primary rupture zone of the M  8.1 strike-slip earthquake of 1949, the linear terrace disappears, and topography of the continental slope west of the QCF is characterized by a complex pattern of ridges and basins that trend obliquely to the primary trace of the QCF. Deformation within the Pacific plate appears to occur primarily through strike-slip faulting with a minor thrust component on secondary synthetic faults. The orientations of these secondary faults, as determined from seismic reflection and bathymetric data, are consistent with the reactivation of faults originally formed as ridge-parallel normal faults and as thrust faults formed parallel to the QCF south of the bend at 53.2° N and subsequently translated to the north. We suggest that an oblique convergence angle of 15° represents a critical threshold separating distinct crustal responses to transpression. This result is consistent with theoretical and analog strain models of transpressive plate boundaries. The sharpness of this transition along the QCF, in contrast to purely continental transform boundaries, may be facilitated by the relatively simple structure of oceanic crust and the presence of pre-existing, optimally oriented faults in the young Pacific plate.
    Print ISSN: 0037-1106
    Electronic ISSN: 1943-3573
    Topics: Geosciences , Physics
    Published by Seismological Society of America (SSA)
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  • 6
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    Slope failure and mass transport processes along the Queen Charlotte Fault Zone, western British Columbia (2018)
    Geological Society of London
    Details
    Publication Date: 2018
    Description: 〈p〉Multibeam echosounder (MBES) images, 3.5 kHz seismic-reflection profiles and piston cores obtained along the southern Queen Charlotte Fault Zone are used to map and date mass-wasting events at this transform margin – a seismically active boundary that separates the Pacific Plate from the North American Plate. Whereas the upper continental slope adjacent to and east (upslope) of the fault zone offshore of the Haida Gwaii is heavily gullied, few large-sized submarine landslides in this area are observed in the MBES images. However, smaller submarine seafloor slides exist locally in areas where fluid flow appears to be occurring and large seafloor slides have recently been detected at the base of the steep continental slope just above its contact with the abyssal plain on the Queen Charlotte Terrace. In addition, along the subtle slope re-entrant area offshore of the Dixon Entrance shelf bathymetric data suggest that extensive mass wasting has occurred in the vicinity of an active mud volcano venting gas. We surmise that the relative lack of submarine slides along the upper slope in close proximity to the Queen Charlotte Fault Zone may be the result of seismic strengthening (compaction and cohesion) of a sediment-starved shelf and slope through multiple seismic events.〈/p〉
    Print ISSN: 0375-6440
    Electronic ISSN: 2041-4927
    Topics: Geosciences
    Published by Geological Society of London
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  • 7
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    Slope failure and mass transport processes along the Queen Charlotte Fault Zone, western British Columbia (2018)
    Geological Society (of London)
    Details
    Publication Date: 2018-05-26
    Description: Multibeam echosounder (MBES) images, 3.5 kHz seismic-reflection profiles and piston cores obtained along the southern Queen Charlotte Fault Zone are used to map and date mass-wasting events at this transform margin – a seismically active boundary that separates the Pacific Plate from the North American Plate. Whereas the upper continental slope adjacent to and east (upslope) of the fault zone offshore of the Haida Gwaii is heavily gullied, few large-sized submarine landslides in this area are observed in the MBES images. However, smaller submarine seafloor slides exist locally in areas where fluid flow appears to be occurring and large seafloor slides have recently been detected at the base of the steep continental slope just above its contact with the abyssal plain on the Queen Charlotte Terrace. In addition, along the subtle slope re-entrant area offshore of the Dixon Entrance shelf bathymetric data suggest that extensive mass wasting has occurred in the vicinity of an active mud volcano venting gas. We surmise that the relative lack of submarine slides along the upper slope in close proximity to the Queen Charlotte Fault Zone may be the result of seismic strengthening (compaction and cohesion) of a sediment-starved shelf and slope through multiple seismic events.
    Print ISSN: 0305-8719
    Electronic ISSN: 2041-4927
    Topics: Geosciences
    Published by Geological Society (of London)
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  • 8
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    2D petroleum systems modeling of Queen Charlotte Basin, offshore British Columbia, Canada (2013)
    Canadian Society of Petroleum Geologists (CSPG)
    Details
    Publication Date: 2013-06-04
    Description: Two-dimensional petroleum systems models (PSMs) are calculated for a cross-section through Hecate Strait in order to estimate the timing of hydrocarbon generation, expulsion and migration in the Queen Charlotte Basin, offshore BC, Canada. Our PSMs account for dominant kerogen types in the potential source rocks, and predict timing of generation, expulsion, and migration patterns of petroleum. The PSMs highlight the importance of fault zones for migration and potential loss of petroleum through the seafloor. Rich marine Jurassic source rocks (Ghost Creek Formation, Sandilands Formation) are assumed to underlie Hecate Strait. We predict these source rocks to be overmature with more than 80% kerogen transformation into oil and gas (〉27 kg petroleum/t rock), even if significant heating was only restricted to Tertiary rifting. Our PSMs predict that most of the petroleum has been expelled from the source beds, with some potential seepage loss to the surface. Cretaceous source rocks are thicker and more extensive with less structural deformation on Haida Gwaii. They have variable, but generally low total organic carbon (TOC) content. If time equivalent sediments exist under Hecate Strait, they are likely to be terrestrial, Type III kerogen. Basin-wide, these source rocks are not considered to be highly productive, and only where they are buried 〉4.1 km (an area of approximately 2700 km 2 ) do we calculate a transformation ratio 〉50%. Only a minor amount of Cretaceous derived petroleum is anticipated to have migrated and accumulated in the overlying Skonun Formation sediments, which comprise the most extensive and suitable reservoir facies. No significant accumulations of hydrocarbon are expected from the terrestrial, Mio-Pliocene Skonun Formation source rocks. The area of the basin, where the anticipated transformation ratio exceeds 50% is less than approximately 1400 km 2 .
    Print ISSN: 0007-4802
    Electronic ISSN: 0007-4802
    Topics: Geosciences
    Published by Canadian Society of Petroleum Geologists (CSPG)
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  • 9
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    Lithospheric structure along the Queen Charlotte margin in western Canada: constraints from flexural modeling (1997)
    Springer
    Details
    Publication Date: 1997-02-26
    Print ISSN: 0276-0460
    Electronic ISSN: 1432-1157
    Topics: Geosciences
    Published by Springer
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  • 10
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    Structure of the Northern Symmetrical Segment of the Juan de Fuca Ridge (1993)
    Springer
    Details
    Publication Date: 1993-08-01
    Print ISSN: 0025-3235
    Electronic ISSN: 1573-0581
    Topics: Geosciences , Physics
    Published by Springer
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