2002
DOI: 10.1029/2001gl013614
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Migration of the Mendocino triple junction and ephemeral crustal deformation: Implications for California Coast range heat flow

Abstract: Thermal models have been constructed to demonstrate how regional crustal deformation and subsequent asthenospheric upwelling associated with the migration of the Mendocino triple junction affect the thermal regime of the northern California Coast Ranges. Ephemeral crustal thickening caused by the migration of the triple junction, coupled with the thermal effects of inflow of asthenosphere into the slab window, produces a heat flow signature that is consistent with the observed surface heat flow in the region. … Show more

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Cited by 26 publications
(45 citation statements)
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“… Lachenbruch and Sass [1980] show that background heat flow throughout the Coast Ranges is higher than the surrounding areas and not uniform. This “Coast Ranges high” is much broader than the anomalies we predict for frictional heat in the brittle upper crust and has been attributed to deep viscous heating [e.g., Thatcher and England , 1998] or hot asthenospheric intrusion into a “slab window” as the Farallon plate disappears from beneath California as the Mendocino triple junction moves northward [e.g., Lachenbruch and Sass , 1980; ten Brink et al , 1999; Guzofski and Furlong , 2002]. The stalled Monterey microplate underlying portions of our study area may further modify the background heat flow [ ten Brink et al , 1999].…”
Section: Is the Creeping Section Strong?mentioning
confidence: 96%
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“… Lachenbruch and Sass [1980] show that background heat flow throughout the Coast Ranges is higher than the surrounding areas and not uniform. This “Coast Ranges high” is much broader than the anomalies we predict for frictional heat in the brittle upper crust and has been attributed to deep viscous heating [e.g., Thatcher and England , 1998] or hot asthenospheric intrusion into a “slab window” as the Farallon plate disappears from beneath California as the Mendocino triple junction moves northward [e.g., Lachenbruch and Sass , 1980; ten Brink et al , 1999; Guzofski and Furlong , 2002]. The stalled Monterey microplate underlying portions of our study area may further modify the background heat flow [ ten Brink et al , 1999].…”
Section: Is the Creeping Section Strong?mentioning
confidence: 96%
“…Figure S1 illustrates a 2‐D distribution of background heat flow determined by merging two 1‐D models. In those models, heat flow declines about 1 mW m −2 for every 20 km traveled southeast along the Coast Ranges [after Guzofski and Furlong , 2002], and heat flow drops by 30 mW m −2 over a ∼100‐km‐wide transition across the eastern edge of the Coast Ranges [ Lachenbruch and Sass , 1973; Williams et al , 2004]. For the most part, models constrain the along‐strike variation in the North American plate better than the east‐west variation.…”
Section: Is the Creeping Section Strong?mentioning
confidence: 99%
“…The MTJ and the subducting slab have migrated northward over time, and in its wake, subduction analogous to that occurring in present‐day Cascadia has been replaced by the strike‐slip tectonics of the SAF system [ Atwater and Stock , 1998]. As the subducting slab is replaced with upwelled asthenosphere (or remaining slab stalls beneath the overlying crust and thermally reequilibrates), serpentinized upper mantle, believed to remain beneath the North American crust, is heated (Figure 4b) [ ten Brink et al , 1999; Guzofski and Furlong , 2002; Kirby et al , 2002; Brocher et al , 2003; Erkan and Blackwell , 2008]. Serpentinite minerals are unique, and relevant to this study, in that they contain up to 10–13 wt% water in their mineral structure [ Iwamori , 1998].…”
Section: Introductionmentioning
confidence: 99%
“…It is important to note that the cause of this high regional heat flow is not well understood. High heat flow throughout the California Coast Ranges has been interpreted as a transient thermal response to the migration of the Mendocino Triple Junction and associated slab window [Lachenbruch and Sass, 1980;Guzofski and Furlong, 2002]. Alternatively, Lachenbruch and Sass [1980] and Scholz [2000] note the possibility that the regionally high heat flow could reflect lower basal heat flux, combined with broadly redistributed frictionally generated heat from a strong SAF.…”
Section: Implications and Additional Considerationsmentioning
confidence: 99%