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Pulling the rug out from under California: Seismic images of the Mendocino Triple Junction Region

Trehu, Anne M. ; Mendocino Working Group

American Geophysical Union (AGU) ; 1995

In: Eos, Transactions American Geophysical Union Vol. 76, No. 38 ( 1995-09-19), p. 369-381

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In: Eos, Transactions American Geophysical Union, American Geophysical Union (AGU), Vol. 76, No. 38 ( 1995-09-19), p. 369-381

Abstract: The active tectonic regime of northwestern California changes abruptly from transform motion to subduction at the Mendocino Triple Junction. Northward migration of the triple junction has been a major factor in the tectonic history of the continental margin of California since the Oligocene and continues at present. Understanding the effects of triple junction migration on the structure of the crust and upper mantle in this region is therefore necessary for reconstructing the geologic evolution of the continental margin of California and accurately assessing seismic hazards associated with the San Andreas fault system and the Cascadia subduction zone. In 1993 and 1994 a network of large‐aperture seismic profiles was collected to image the crustal and upper‐mantle structure beneath northern California and the adjacent continental margin. The data include approximately 650 km of onshore seismic refraction/reflection data, 2000 km of off‐shore multichannel seismic (MCS) reflection data, and simultaneous onshore and offshore recording of the MCS airgun source to yield large‐aperture data. Scientists from more than 12 institutions were involved in data acquisition.

Type of Medium: Online Resource

ISSN: 0096-3941 , 2324-9250

URL: Article

DOI: 10.1029/95EO00229

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1995

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A seismic reflection profile across the Cascadia Subduction Zone offshore central Oregon: New constraints on methane distribution and crustal structure

Tréhu, Anne M. ; Lin, Guibiao ; Maxwell, Edward ; [et al.]

American Geophysical Union (AGU) ; 1995

In: Journal of Geophysical Research: Solid Earth Vol. 100, No. B8 ( 1995-08-10), p. 15101-15116

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In: Journal of Geophysical Research: Solid Earth, American Geophysical Union (AGU), Vol. 100, No. B8 ( 1995-08-10), p. 15101-15116

Abstract: In 1989, we conducted an onshore/offshore seismic experiment to image the crustal structure of the Cascadia forearc. In this paper, we discuss the processing and interpretation of a multichannel seismic reflection profile across the continental margin that was collected as part of this effort. This profile reveals several features of the forearc that were not apparent in an earlier, coincident reflection profile. One of the most important of these features is a very strong bottom simulating reflection (BSR) beneath the midslope region that is nearly continuous from water depths of about 1500 m to 600 m, where it appears to crop out on the seafloor. The pressure and temperature conditions at the BSR derived from our observations are remarkably consistent with the experimentally determined phase diagram for a methane hydrate/seawater system over a broad range of temperatures and pressures, assuming hydrostatic pressure and the temperature gradiant measured near the base of the continental slope during Ocean Drilling Program (ODP) leg 146. Interval velocities and reflection coefficients derived from the data indicate that the BSR represents a contrast between sediment with a small amount of hydrate overlying sediment containing free gas, consistent with results obtained during leg 146. Although the regional distribution of the anomalously strong BSR beneath the midslope is poorly known, we speculate that it may be related to apparent slope instability. The data also provide constraints on the thickness and geometry of the Siletz terrane, which is the basement beneath the shelf and acts as the subduction zone backstop. A deep reflection, which might mistakenly be interpreted to be Moho if coincident large‐aperture data were not available, is interpreted to be the base of the Siletz terrane. A “recently” active strike‐slip (?) fault zone that overlies the seaward edge of the Siletz terrane suggests that the Siletz terrane controls the location of decoupling of the subduction complex from the rest of the forearc.

Type of Medium: Online Resource

ISSN: 0148-0227

URL: Article

DOI: 10.1029/95JB00240

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1995

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