cene oceanic plateau: Lithos, v. 274–275, p. 291–  Simpson, R.W., and Cox, A., 1977, Paleomagnetic   and Washington: Tectonics, v. 3, no. 2, p. 275–
          303, https://doi.org/10.1016/j.lithos.2017.01.005.  evidence for tectonic rotation of the Oregon   294, https://doi.org/10.1029/TC003i002p00275.
         Pierce, K.L., and Morgan, L.A., 1992, The track of   Coast Range: Geology, v. 5, p. 585–589, https://  Wells, R.E., Bukry, D., Friedman, R., Pyle, D.,
          the  Yellowstone  hot  spot:  Volcanism,  faulting,   doi.org/10.1130/0091-7613(1977)5<585:PEFTRO  Duncan, R.A., Haeussler, P., and Wooden, J.,
          and uplift, in Link, P.K., ed., Regional Geology   >2.0.CO;2.           2014, Geologic history of Siletzia, a large igne-
          of Eastern Idaho and Western Wyoming: Geo-  Sleep, N.H., 1996, Lateral flow of hot plume mate-  ous province in the Oregon and Washington
          logical Society of America Memoir 179, p. 1–54,   rial ponded at sublithospheric depths: Journal of   Coast Range: Correlation to the geomagnetic
          https://doi.org/10.1130/MEM179-p1.  Geophysical Research, v. 101, p. 28,065–28,083,
         Pierce, K.L., and Morgan, L.A., 2009, Is the track   https://doi.org/10.1029/96JB02463.  polarity time scale and implications for a long-
          of the YHS driven by a deep mantle plume?—  Smith, R.B., Jordan, M., Steinberger, B., Puskas,   lived Yellowstone  hotspot:  Geosphere, v.  10,
          Review of volcanism, faulting and uplift in light   C.M., Farrell, J., Waite, G.P., Husen, S., Wu-Lung,   p. 692–719, https://doi.org/10.1130/GES01018.1.
          of new data: Journal of Volcanology and Geo-  C., and O’Connell, R., 2009, Geodynamics of the   Wolff, J.A., and Ramos, F.C., 2013, Source materials
          thermal Research, v. 188, p. 1–25, https://doi.org/   Yellowstone hotspot and mantle plume: Seismic   for the main phase of the Columbia River Basalt
          10.1016/j.jvolgeores.2009.07.009.   and GPS imaging, kinematics, and mantle flow:   Group: Geochemical evidence and implications
         Pierce, K.L., Morgan, L.A., and Saltus, R.W., 2002,   Journal of Volcanology and Geothermal Re-  for magma storage and transport, in Reidel, S.P.,
          Yellowstone plume head: Postulated tectonic re-  search, v.  188, p.  26–56,  https://doi.org/10.1016/   Camp, V.E., Ross, M.E., Wolff, J.A., Martin, B.S.,
          lations to the Vancouver slab, continental bound-  j.jvolgeores.2009.08.020.  Tolan, T.L., and Wells, R.E., eds., The Columbia
          aries, and climate, in Bonnichsen, B., White,   Steinberger, B., Nelson, P.L., Grand, S.P., and Wang,   River Flood Basalt Province: Geological Society
          C.M., and McCurry, M., eds., Tectonic and Mag-  W., 2019, Yellowstone plume conduit tilt caused by   of America Special Paper 497,  p. 273–291, https://
          matic Evolution of the Snake River Plain Volca-  large-scale mantle flow: Geochemistry, Geophys-
          nic Province: Idaho Geological Survey Bulletin   ics, Geosystems, v.  20,  https://doi .org/ 10.1029/   doi.org/10.1130/2013.2497(11).
          30, p. 5–33.                        2019GC008490.                     Woodworth, D., and Gordon, R.G., 2018, Paleo-
         Pyle, D.G., Duncan, R.A., Wells, R.E., Graham,   Trehu, A.M., Asudeh, I., Brocher, T.M., Luetgert,   latitude of the Hawaiian hot spot since 48 Ma:
          D.W., Hanan, B.B., Harrison, B.K., and Haileab,   J.H., Mooney, W.D., Nabelek, J.L., and Naka-  Evidence for a mid-Cenozoic true polar still-
          B., 2015, Longevity of YHS volcanism: Isotopic   mura, Y., 1994, Crustal architecture of the Cas-  stand followed by late Cenozoic true polar wan-
          evidence linking the Siletzia LIP (56 Ma) and   cadia forearc: Science, v. 266, p. 237–243, https://  der coincident with Northern Hemisphere gla-
          early Columbia River Basalt Group (17 Ma) to   doi.org/10.1126/science.266.5183.237.  ciation: Geophysical Research Letters, v.  45,
          mantle sources:  American Geophysical Union   Wagner, L., Forsyth, D.W., Fouch, M.J., and James,   no. 21, p. 11,632–11,640, https://doi.org/10.1029/
          Fall Meeting, Abstract V31E-3060.   D.E., 2010, Detailed three-dimensional shear   2018GL080787.
         Schmandt, B., and Humphreys, E.D., 2011, Seismi-  wave velocity structure of the northwestern Unit-  Zhou, Q., Liu, L., and Hu, J., 2018, Western US
          cally imaged relict slab from the 55 Ma Siletzia   ed States from Rayleigh wave tomography: Earth   volcanism  due  to  intruding  oceanic  mantle
          accretion to the northwest United States: Geolo-  and Planetary Science Letters, v. 299, p. 273–284,   driven by ancient Farallon slabs: Nature Geo-
          gy, v.  39, p.  175–178,  https://doi.org/10.1130/  https://doi.org/10.1016/j.epsl.2010.09.005.  science, v. 11, p. 70–76, https://doi.org/10.1038/
          G31558.1.                          Wells, R.E., and McCaffrey, R., 2013, Steady rota-
         Shervais, J.W., and Hanan, B.B., 2008, Litho-  tion of the Cascade arc: Geology, v. 41, p. 1027–  s41561 -017-0035-y.
          spheric topography, tilted plumes, and the track   1030, https://doi.org/10.1130/G34514.1.
          of the Snake River–Yellowstone hot spot: Tec-  Wells,  R.E., Engebretson,  D.C., Snavely, P.D.,  Jr.,   Manuscript received 21 July 2020
          tonics, v.  27, TC5004,  https://doi.org/10.1029/   and Coe, R.S., 1984, Cenozoic plate motions and   revised Manuscript received 14 sept. 2020
          2007TC002181.                       the volcano-tectonic evolution of western Oregon   Manuscript accepted 17 sept. 2020








































         10  GSA Today  |  January 2021