Bryant Platt scite author profile

Bryant Platt

5Publications

33Citation Statements Received

86Citation Statements Given

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California State University, Fresno

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Basin and Range volcanism as a passive response to extensional tectonics

Putirka

Platt

2012

Geosphere

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A long-standing issue in Cordilleran geology involves the nature of Basin and Range (western USA) volcanism, and whether such magmatism provides a trigger for extensional deformation, or if volcanic activity is a passive response to extension. We use space-timecomposition patterns across the central and southern Basin and Range, and where appropriate, reconstructed latitudes and longitudes of volcanic rocks, to show that volcanism is fundamentally a passive process. Our analysis suggests that Basin and Range volcanism is initiated by the transition from a subduction to a transform boundary (now manifest as the San Andreas fault), which causes a slab window to open, as the subducting Farallon plate falls away. Accordingly, volcanic activity follows the northward-migrating Mendocino Triple Junction (MTJ). In the wake of the MTJ, continental mantle lithosphere is heated over a time scale of 10-12 Ma; it then rapidly degrades (or is removed) 17-20 Ma after MTJ arrival at any given latitude, and is replaced by asthenosphere. In the central Basin and Range, MTJ migration triggers the well-documented structural migration of the Sierra Nevada away from the Colorado Plateau. Not only is volcanism triggered by the tectonic transition, but in the central Basin and Range volcanism also migrates west, following the initiation of upper crustal extensional faulting; the lag between the onset of extension and initiation of volcanism is a remarkably consistent 2 Ma. Within this framework, the initial stage of eastward-concentrated volcanism is dominated by felsic magmatism, which then gradually degrades to a more mafi c composition. This pattern, and temporal relations indicate that once lithospheric extension begins, between 2 and 5 Ma are needed to develop conduits through which nonviscous magmas can transit the crust, and that especially high amounts of extensional strain favor the eruption of K 2 Orich, low-degree partial melts. Our observations indicate that it is unlikely that mantle plume processes initiated Basin and Range volcanism within the study area, and that decreases in SiO 2 and increases in incompatible element abundances to the east within the Cordillera are best explained by continental mantle lithosphere that thickens to the east, which reduces average melt fractions.

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Monitoring thermal springs to improve land management decision-making, Sierra Nevada, California

Graff

Pluhar

Gallegos³

et al. 2017

Environmental & Engineering Geoscience

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Does the Arrival of Recharge Magma Control the Timing of Volcanic Eruptions? Evidence for Post-Recharge Cooling in Mineral Thermal Profiles From Brokeoff Volcano, Lassen Volcanic Center, California

Platt¹,

Office²,

Putirka³

2021

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Does the Arrival of Mafic Recharge Trigger Volcanic Eruptions? new Insights From Feldspar Thermometry

Platt¹,

Putirka²

2017

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Is Mafic Recharge Necessary to Trigger Andesitic Volcanic Eruptions? New Insights From Feldspar and Pyroxene Thermobarometry

Platt¹,

Putirka²

2018

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Bryant Platt

Basin and Range volcanism as a passive response to extensional tectonics

Monitoring thermal springs to improve land management decision-making, Sierra Nevada, California

Does the Arrival of Recharge Magma Control the Timing of Volcanic Eruptions? Evidence for Post-Recharge Cooling in Mineral Thermal Profiles From Brokeoff Volcano, Lassen Volcanic Center, California

Does the Arrival of Mafic Recharge Trigger Volcanic Eruptions? new Insights From Feldspar Thermometry

Is Mafic Recharge Necessary to Trigger Andesitic Volcanic Eruptions? New Insights From Feldspar and Pyroxene Thermobarometry

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