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GSA TODAY | NOVEMBER 2015        Evidence for and against Large-Scale Displacements: St. John’s,                     the Baja British Columbia hypothesis: Journal of Geophysical Research,
                                 Newfoundland, Geological Association of Canada Special Paper 46,                    v. 109, B02102, doi: 10.1029/2003JB002696.
                                 p. 299–306.                                                                   King, P.B., 1969, The tectonics of North America—A discussion to accompany
                           Glazner, A.F., Nielson, J.E., Howard, K.A., and Miller, D.M., 1986, Correlation           the Tectonic Map of North America: U.S. Geological Survey Professional
                                 of the Peach Springs Tuff, a large-volume Miocene ignimbrite sheet in               Paper 628, scale 1:5,000,000, 95 p.
                                 California and Arizona: Geology, v. 14, p. 840–843, doi:                      Mac Niocaill, C., Torsvik, T.H., and van der Pluijm, B., eds., 2003, Paleo­
                                 10.1130/0091-7613(1986)14<840:COTPST>2.0.CO;2.                                      magnetism Applied to Tectonics—A Tribute to Rob Van der Voo:
                           Haxel, G.B., Tosdal, R.M., May, D.J., and Wright, J.E., 1984, Latest Cretaceous           Tectonophysics Special Issue, v. 362, 355 p.
                                 and early Tertiary orogenesis in south-central Arizona: Thrust faulting,      Mahoney, J.B., Mustard, S., Haggart, J.W., Friedman, R.M., Fanning, M., and
                                 regional metamorphism, and granitic plutonism: GSA Bulletin, v. 95,                 McNicholl, J., 1999, Archean and Proterozoic zircons in Cretaceous
                                 p. 631–653, doi: 10.1130/0016-7606(1984)95<631:LCAETO>2.0.CO;2.                     sediments of the western Canadian and northwest U.S. Cordillera: The
                           Henry, C.D., and John, D.A., 2013, Magmatism, ash-flow tuffs, and calderas of             “Baja-B.C.” hypothesis fails a “crucial test”: Geology, v. 27, p. 195–198,
                                 the ignimbrite flareup in the western Nevada volcanic field, Great Basin,           doi: 10.1130/0091-7613(1999)027<0195:AZICSO>2.3.CO;2.
                                 USA: Geosphere, v. 9, p. 951–1008, doi: 10.1130/GES00867.1.                   Manduca, C.A., Kuntz, M.A., and Silver, L.T., 1993, Emplacement and
                           Hildebrand, R.S., 2009, Did Westward Subduction Cause Cretaceous–Tertiary                 deformation history of the western margin of the Idaho batholith near
                                 Orogeny in the North American Cordillera?: Geological Society of                    McCall, Idaho: Influence of a major terrane boundary: GSA Bulletin,
                                 America Special Paper 457, 71 p.                                                    v. 105, p. 749–765, doi: 10.1130/0016-7606(1993)105<0749:EADHOT>2
                           Hildebrand, R.S., 2013, Mesozoic assembly of the North American Cordillera:               .3.CO;2.
                                 Geological Society of America Special Paper 495, 162 p.                       May, D.J., 1989, Late Cretaceous intra-arc thrusting in southern California:
                           Hildebrand, R.S., 2014, Geology, mantle tomography, and inclination corrected             Tectonics, v. 8, p. 1159–1173, doi: 10.1029/TC008i006p01159.
                                 paleogeographic trajectories support westward subduction during               Mickus, K., Stern, R.J., Keller, G.R., and Anthony, E.Y., 2009, Potential field
                                 Cretaceous orogenesis in the North American Cordillera: Hank Williams               evidence for a volcanic rifted margin along the Texas Gulf Coast: Geology,
                                 Volume: Geoscience Canada, v. 41, p. 207–224, doi: 10.12789/geocanj                 v. 37, p. 387–390, doi: 10.1130/G25465A.1.
                                 .2014.41.032.                                                                 Miller, F.K., and Morton, D.M., 1980, Potassium-Argon geochronology of the
                           Hildebrand, R.S., and Whalen, J.B., 2014, Arc and slab-failure magmatism in               eastern Transverse Ranges and southern Mojave Desert, Southern
                                 Cordilleran batholiths II—The Cretaceous Peninsular Ranges batholith of             California: U.S. Geological Survey Professional Paper 1152, 30 p.
                                 Southern and Baja California: Paul Hoffman Volume: Geoscience Canada,         Miller, I.M., Brandon, M.T., and Hickey, L.J., 2006, Using leaf-margin analysis
                                 v. 41, p. 399–458, doi: 10.12789/geocanj.2014.41.059.                               to estimate the mid-Cretaceous (Albian) paleolatitude of the Baja British
                           Housen, B.A., and Dorsey, R.J., 2005, Paleomagnetism and tectonic significance            Columbia block: Earth and Planetary Science Letters, v. 245, p. 95–114,
                                 of Albian and Cenomanian turbidites, Ochoco Basin, Mitchell Inlier,                 doi: 10.1016/j.epsl.2006.02.022.
                                 central Oregon: Journal of Geophysical Research, v. 110, B07102, doi:         Miller, R.B., Gordon, S.M., Bowring, S.A., Doran, B.A., McLean, N.M., Michels,
                                 10.1029/2004JB003458.                                                               Z.D., Shea, E.K., Whitney, D.L., Wintzer, N.E., and Mendoza, M.K., 2009,
                           Humphreys, E., 2009, Relation of flat subduction to magmatism and                         Linking deep and shallow crustal processes in an exhumed continental arc,
                                 deformation in the western United States, in Kay, S.M., Ramos, V.A., and            North Cascades, Washington, in O’Connor, J.E., Dorsey, R.J., and Madin,
                                 Dickinson, W.R., eds., Backbone of the Americas: Shallow Subduction,                I.P., eds., Volcanoes to Vineyards: Geologic Field Trips through the
                                 Plateau Uplift, and Ridge and Terrane Collision: Geological Society of              Dynamic Landscape of the Pacific Northwest: Geological Society of
                                 America Memoir 204, p. 85–98.                                                       America Field Guide 15, p. 373–406.
                           Irving, E., 1979, Paleopoles and paleolatitudes of North America and speculations   Mustard, P.S., 1994, The Upper Cretaceous Nanaimo Group, Georgia Basin, in
                                 about displaced terrains: Canadian Journal of Earth Sciences, v. 16,                Monger, J.W.H., ed., Geological Hazards of the Vancouver Region,
                                 p. 669–694, doi: 10.1139/e79-065.                                                   Southwestern British Columbia: Geological Survey of Canada Bulletin
                           Irving, E., 1985, Whence British Columbia: Nature, v. 314, p. 673–674, doi:               481, p. 27–96.
                                 10.1038/314673a0.                                                             Needy, S.K., Anderson, J.L., Wooden, J.L., Fleck, R.J., Barth, A.P., Paterson,
                           Irving, E., Wynne, P.J., Thorkelson, D.J., and Schiarizza, P., 1996, Large (1000–         S.R., Memeti, V., and Pignotta, G.S., 2009, Mesozoic magmatism in an
                                 4000 km) northward movements of tectonic domains in the northern                    upper- to middle-crustal section through the Cordilleran continental
                                 Cordillera, 83 to 45 Ma: Journal of Geophysical Research, v. 101,                   margin arc, eastern Transverse Ranges, California, in Miller, R.B., and
                                 p. 17,901–17,916, doi: 10.1029/96JB01181.                                           Snoke, A.W., eds., Crustal Cross Sections from the Western North
                           Johnston, S.T., 2001, The great Alaskan terrane wreck: Oroclinal orogeny and              American Cordillera and Elsewhere: Implications for Tectonic and
                                 reconciliation of paleomagnetic and geological data in the northern                 Petrologic Processes: Geological Society of America Special Paper 456,
                                 Cordillera: Earth and Planetary Science Letters, v. 193, p. 259–272, doi:           p. 187–218.
                                 10.1016/S0012-821X(01)00516-7.                                                Nelson, J.A., Colpron, M., and Israel, S., 2013, The Cordillera of British
                           Johnston, S.T., 2008, The Cordilleran ribbon continent of North America:                  Columbia, Yukon, and Alaska: Tectonics and Metallogeny: Society of
                                 Annual Review of Earth and Planetary Sciences, v. 36, p. 495–530, doi:              Economic Geologists Special Publication, v. 17, p. 53–109.
                                 10.1146/annurev.earth.36.031207.124331.                                       Parrish, R.R., 1992, U-Pb ages for Cretaceous plutons in the eastern Coast Belt,
                           Johnston, S.T., and Canil, D., 2007, Crustal architecture of SW Yukon, northern           Southern British Columbia, in Radiogenic Age and Isotopic Studies;
                                 Cordillera: Implications for crustal growth in a convergent margin orogen:          Report 5: Geological Survey of Canada, Paper 91-2, p. 109–113.
                                 Tectonics, v. 26, TC1006, doi: 10.1029/2006TC001950.                          Rasmussen, K.L., 2013, The timing, composition and petrogenesis of syn- to
                           Kent, D.V., and Irving, E., 2010, Influence of inclination error in sedimentary           post-accretionary magmatism in the northern Cordilleran miogeocline,
                                 rocks on the Triassic and Jurassic apparent pole wander path for North              eastern Yukon and southwestern Northwest Territories [unpub. Ph.D.
                                 America and implications for Cordilleran tectonics: Journal of                      dissertation]: Vancouver, University of British Columbia, 788 p.
                                 Geophysical Research, v. 115, B10103, doi: 10.1029/2009JB007205.              Reed, J.C., Wheeler, J.O., and Tucholke, B.E., compilers, 2004, Geologic map of
                           Kent, D.V., and Witte, W.K., 1993, Slow apparent polar wander for North                   North America: Decade of North American Geology Continental Scale
                                 America in the Late Triassic and large Colorado Plateau rotation: Tectonics,        Map 001, Boulder, Colorado, Geological Society of America, scale
                                 v. 12, p. 291–300, doi: 10.1029/92TC01966.                                          1:5,000,000.
                           Kerr, R.A., 1995, How far did the west wander?: Science, v. 268, p. 635–637, doi:   Reidel, S.P., Camp, V.E., Tolan, T.L., and Martin, B.S., 2013, The Columbia
                                 10.1126/science.268.5211.635.                                                       River flood basalt province: Stratigraphy, areal extent, volume, and
                           Kim, B., and Kodama, K.P., 2004, A compaction correction for the paleo­                   physical volcanology, in Reidel, S.P., Camp, V.E., Ross, M.E., Wolff, J.A.,
                                 magnetism of the Nanaimo Group sedimentary rocks: Implications for

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