DuncanRobertCEOASGeologicHistorySiletzia.pdf
Siletzia is a basaltic Paleocene and Eocene large igneous province in coastal Oregon, Washington, and southern Vancouver Island that was accreted to North America in the early Eocene. New U-Pb magmatic, detrital zircon, and ⁴⁰Ar/³⁹Ar ages constrained by detailed field mapping, global nannoplankton z...
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| Online Access: | https://ir.library.oregonstate.edu/concern/articles/bz60cz41t |
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ftoregonstate:ir.library.oregonstate.edu:bz60cz41t 2024-04-14T08:20:47+00:00 DuncanRobertCEOASGeologicHistorySiletzia.pdf Wells, Ray Bukry, David Friedman, Richard Pyle, Doug Duncan, Robert Haeussler, Peter Wooden, Joe https://ir.library.oregonstate.edu/concern/articles/bz60cz41t unknown https://ir.library.oregonstate.edu/concern/articles/bz60cz41t Copyright Not Evaluated ftoregonstate 2024-03-21T15:42:56Z Siletzia is a basaltic Paleocene and Eocene large igneous province in coastal Oregon, Washington, and southern Vancouver Island that was accreted to North America in the early Eocene. New U-Pb magmatic, detrital zircon, and ⁴⁰Ar/³⁹Ar ages constrained by detailed field mapping, global nannoplankton zones, and magnetic polarities allow correlation of the volcanics with the 2012 geologic time scale. The data show that Siletzia was rapidly erupted 56–49 Ma, during the Chron 25–22 plate reorganization in the northeast Pacific basin. Accretion was completed between 51 and 49 Ma in Oregon, based on CP11 (CP—Coccolith Paleogene zone) coccoliths in strata overlying onlapping continental sediments. Magmatism continued in the northern Oregon Coast Range until ca. 46 Ma with the emplacement of a regional sill complex during or shortly after accretion. Isotopic signatures similar to early Columbia River basalts, the great crustal thickness of Siletzia in Oregon, rapid eruption, and timing of accretion are consistent with offshore formation as an oceanic plateau. Approximately 8 m.y. after accretion, margin parallel extension of the forearc, emplacement of regional dike swarms, and renewed magmatism of the Tillamook episode peaked at 41.6 Ma (CP zone 14a; Chron 19r). We examine the origin of Siletzia and consider the possible role of a long-lived Yellowstone hotspot using the reconstruction in GPlates, an open source plate model. In most hotspot reference frames, the Yellowstone hotspot (YHS) is on or near an inferred northeast-striking Kula-Farallon and/or Resurrection-Farallon ridge between 60 and 50 Ma. In this configuration, the YHS could have provided a 56–49 Ma source on the Farallon plate for Siletzia, which accreted to North America by 50 Ma. A sister plateau, the Eocene basalt basement of the Yakutat terrane, now in Alaska, formed contemporaneously on the adjacent Kula (or Resurrection) plate and accreted to coastal British Columbia at about the same time. Following accretion of Siletzia, the leading edge of North ... Other/Unknown Material Yakutat Alaska ScholarsArchive@OSU (Oregon State University) Pacific |
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Open Polar |
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ScholarsArchive@OSU (Oregon State University) |
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ftoregonstate |
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unknown |
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Siletzia is a basaltic Paleocene and Eocene large igneous province in coastal Oregon, Washington, and southern Vancouver Island that was accreted to North America in the early Eocene. New U-Pb magmatic, detrital zircon, and ⁴⁰Ar/³⁹Ar ages constrained by detailed field mapping, global nannoplankton zones, and magnetic polarities allow correlation of the volcanics with the 2012 geologic time scale. The data show that Siletzia was rapidly erupted 56–49 Ma, during the Chron 25–22 plate reorganization in the northeast Pacific basin. Accretion was completed between 51 and 49 Ma in Oregon, based on CP11 (CP—Coccolith Paleogene zone) coccoliths in strata overlying onlapping continental sediments. Magmatism continued in the northern Oregon Coast Range until ca. 46 Ma with the emplacement of a regional sill complex during or shortly after accretion. Isotopic signatures similar to early Columbia River basalts, the great crustal thickness of Siletzia in Oregon, rapid eruption, and timing of accretion are consistent with offshore formation as an oceanic plateau. Approximately 8 m.y. after accretion, margin parallel extension of the forearc, emplacement of regional dike swarms, and renewed magmatism of the Tillamook episode peaked at 41.6 Ma (CP zone 14a; Chron 19r). We examine the origin of Siletzia and consider the possible role of a long-lived Yellowstone hotspot using the reconstruction in GPlates, an open source plate model. In most hotspot reference frames, the Yellowstone hotspot (YHS) is on or near an inferred northeast-striking Kula-Farallon and/or Resurrection-Farallon ridge between 60 and 50 Ma. In this configuration, the YHS could have provided a 56–49 Ma source on the Farallon plate for Siletzia, which accreted to North America by 50 Ma. A sister plateau, the Eocene basalt basement of the Yakutat terrane, now in Alaska, formed contemporaneously on the adjacent Kula (or Resurrection) plate and accreted to coastal British Columbia at about the same time. Following accretion of Siletzia, the leading edge of North ... |
| author |
Wells, Ray Bukry, David Friedman, Richard Pyle, Doug Duncan, Robert Haeussler, Peter Wooden, Joe |
| spellingShingle |
Wells, Ray Bukry, David Friedman, Richard Pyle, Doug Duncan, Robert Haeussler, Peter Wooden, Joe DuncanRobertCEOASGeologicHistorySiletzia.pdf |
| author_facet |
Wells, Ray Bukry, David Friedman, Richard Pyle, Doug Duncan, Robert Haeussler, Peter Wooden, Joe |
| author_sort |
Wells, Ray |
| title |
DuncanRobertCEOASGeologicHistorySiletzia.pdf |
| title_short |
DuncanRobertCEOASGeologicHistorySiletzia.pdf |
| title_full |
DuncanRobertCEOASGeologicHistorySiletzia.pdf |
| title_fullStr |
DuncanRobertCEOASGeologicHistorySiletzia.pdf |
| title_full_unstemmed |
DuncanRobertCEOASGeologicHistorySiletzia.pdf |
| title_sort |
duncanrobertceoasgeologichistorysiletzia.pdf |
| url |
https://ir.library.oregonstate.edu/concern/articles/bz60cz41t |
| geographic |
Pacific |
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Pacific |
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Yakutat Alaska |
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Yakutat Alaska |
| op_relation |
https://ir.library.oregonstate.edu/concern/articles/bz60cz41t |
| op_rights |
Copyright Not Evaluated |
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1796299197884923904 |