Open AccessPrecise measurements help gauge Pacific Northwest's Earthquake potential
Author(s) -
Miller M. Meghan,
Dragert Herb,
Endo Elliot,
Freymueller Jeffrey T.,
Goldfinger Chris,
Kelsey Harvey M.,
Humphreys Eugene D.,
Johnson Daniel J.,
McCaffrey Robert,
Oldow John S.,
Qamar Anthony,
Rubin Charles M.
Publication year - 1998
Publication title -
eos, transactions american geophysical union
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.316
H-Index - 86
eISSN - 2324-9250
pISSN - 0096-3941
DOI - 10.1029/98eo00202
Subject(s) - geology , seismology , magnitude (astronomy) , subduction , tsunami earthquake , foreshock , volcano , dendrochronology , pacific plate , aftershock , tectonics , paleontology , physics , astronomy
Except for the recent rumblings of a few moderate earthquakes and the eruption of Mt. St. Helen's, all has been relatively quiet on the Pacific Northwestern front. The Cascades region in the Pacific Northwest, a sporadically active earthquake and volcanic zone, still has great seismic potential [ Atwater , 1987], as comparisons with other subduction zones around the world have shown [ Heaton and Kanamori , 1984]. Recent tsunami propagation models [ Satake , 1996] and tree ring studies suggest that the last great Cascadia earthquake occurred in the winter of 1700 A.D. and had a magnitude of −8.9. The North Cascades or Wenatchee earthquake followed in 1872. With an estimated magnitude greater than 7, it was the largest earthquake in the written history of Washington and Oregon.
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