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doi:10.2204/iodp.proc.330.108.2012 ReferencesAlt, J.C., 1995. Subseafloor processes in mid-ocean ridge hydrothermal systems. In Humphris, S.E., Zierenberg, R., Mullineaux, L., and Thomson, R. (Eds.), Seafloor Hydrothermal Systems: Physical, Chemical, Biological and Geological Interactions within Hydrothermal Systems. Geophys. Monogr., 91:85–114. Arason, P., and Levi, S., 2010. Maximum likelihood solution for inclination-only data in paleomagnetism. Geophys. J. Int., 182(2):753–771. doi:10.1111/j.1365-246X.2010.04671.x Beier, C., Vanderkluysen, L., Regelous, M., Mahoney, J.J., and Garbe-Schönberg, D., 2011. Lithospheric control on geochemical composition along the Louisville Seamount Chain. Geochem., Geophys., Geosyst., 12:Q0AM01. doi:10.1029/2011GC003690 Cheng, Q., Park, K.-H., Macdougal, J.D., Zindler, A., Lugmair, G.W., Hawkins, J., Lonsdale, P., and Staudigel, H., 1987. Isotopic evidence for a hot spot origin of the Louisville Seamount Chain. In Keating, B.H., Fryer, P., Batiza, R., and Boehlert, G. (Eds.), Seamounts, Islands and Atolls. Geophys. Monogr., 43:283–296. Courtillot, V., Davaille, A., Besse, J., and Stock, J., 2003. Three distinct types of hotspots in Earth’s mantle. Earth Planet. Sci. Lett., 205(3–4):295–308. doi:10.1016/S0012-821X(02)01048-8 Duncan, R.A., Tarduno, J.A., and Scholl, D.W., 2006. Leg 197 synthesis: southward motion and geochemical variability of the Hawaiian hotspot. In Duncan, R.A., Tarduno, J.A., Davies, T.A., and Scholl, D.W. (Eds.), Proc. ODP, Sci. Results, 197: College Station, TX (Ocean Drilling Program), 1–39. doi:10.2973/odp.proc.sr.197.001.2006 Expedition 330 Scientists, 2012a. Methods. In Koppers, A.A.P., Yamazaki, T., Geldmacher, J., and the Expedition 330 Scientists, Proc. IODP, 330: Tokyo (Integrated Ocean Drilling Program Management International, Inc.). doi:10.2204/iodp.proc.330.102.2012 Expedition 330 Scientists, 2012b. Site U1374. In Koppers, A.A.P., Yamazaki, T., Geldmacher, J., and the Expedition 330 Scientists, Proc. IODP, 330: Tokyo (Integrated Ocean Drilling Program Management International, Inc.). doi:10.2204/iodp.proc.330.105.2012 Expedition 330 Scientists, 2012c. Site U1376. In Koppers, A.A.P., Yamazaki, T., Geldmacher, J., and the Expedition 330 Scientists, Proc. IODP, 330: Tokyo (Integrated Ocean Drilling Program Management International, Inc.). doi:10.2204/iodp.proc.330.107.2012 Hawkins, J.W., Lonsdale, P., and Batiza, R., 1987. Petrologic evolution of the Louisville Seamount Chain. In Keating, B.H., Fryer, P., Batiza, R., and Boehlert, G.W. (Eds.), Seamounts, Islands, and Atolls. Geophys. Monogr., 43:235–254. Jelinek, V., 1981. Characterization of the magnetic fabric of rocks. Tectonophysics, 79(3–4):T63–T67. doi:10.1016/0040-1951(81)90110-4 Koppers, A.A.P., Duncan, R.A., and Steinberger, B., 2004. Implications of a nonlinear 40Ar/39Ar age progression along the Louisville Seamount Trail for models of fixed and moving hot spots. Geochem., Geophys., Geosyst., 5(6):Q06L02–Q06L23. doi:10.1029/2003GC000671 Koppers, A.A.P., Gowen, M.D., Colwell, L.E., Gee, J.S., Lonsdale, P.F., Mahoney, J.J., and Duncan, R.A., 2011. New 40Ar/39Ar age progression for the Louisville hotspot trail and implications for inter-hotspot motion. Geochem., Geophys., Geosyst., 12:Q0AM02. doi:10.1029/2011GC003804 Koppers, A.A.P., Yamazaki, T., and Geldmacher, J., 2010. Louisville Seamount Trail: implications for geodynamic mantle flow models and the geochemical evolution of primary hotspots. IODP Sci. Prosp., 330. doi:10.2204/iodp.sp.330.2010 Laverne, C., 1993. Occurrence of siderite and ankerite in young basalts from the Galápagos spreading center (DSDP Holes 506G and 507B). Chem. Geol., 106(1–2):27–46. doi:10.1016/0009-2541(93)90164-E Pearson, P.N., Olsson, R.K., Huber, B.T., Hemleben, C., and Berggren, W.A. (Eds.), 2006. Atlas of Eocene Planktonic Foraminifera. Spec. Publ.—Cushman Found. Foraminiferal Res., 41. Smith, W.H.F., and Sandwell, D.T., 1997. Global sea floor topography from satellite altimetry and ship depth soundings. Science, 277(5334):1956–1962. doi:10.1126/science.277.5334.1956 Steinberger, B., 2002. Motion of the Easter hot spot relative to Hawaii and Louisville hot spots. Geochem., Geophys., Geosyst., 3(11):8503–8529. doi:10.1029/2002GC000334 Steinberger, B., and Antretter, M., 2006. Conduit diameter and buoyant rising speed of mantle plumes: implications for the motion of hot spots and shape of plume conduits. Geochem., Geophys., Geosyst., 7(11):Q11018–Q11042. doi:10.1029/2006GC001409 Steinberger, B., and Calderwood, A., 2006. Models of large-scale viscous flow in the Earth’s mantle with constraints from mineral physics and surface observations. Geophys. J. Int., 167(3):1461–1481. doi:10.1111/j.1365-246X.2006.03131.x Steinberger, B., Sutherland, R., and O’Connell, R.J., 2004. Prediction of Emperor–Hawaii Seamount locations from a revised model of global plate motion and mantle flow. Nature (London, U. K.), 430(6996):167–173. doi:10.1038/nature02660 Tarduno, J.A., Duncan, R.A., Scholl, D.W., Cottrell, R.D., Steinberger, B., Thordarson, T., Kerr, B.C., Neal, C.R., Frey, F.A., Torii, M., and Carvallo, C., 2003. The Emperor Seamounts: southward motion of the Hawaiian hotspot plume in Earth’s mantle. Science, 301(5636):1064–1069. doi:10.1126/science.1086442 Vanderkluysen, L., Mahoney, J.J., Koppers, A.A., and Lonsdale, P.F., 2007. Geochemical evolution of the Louisville Seamount Chain. Eos, Trans. Am. Geophys. Union, 88(52)(Suppl.):V42B-06. http://www.agu.org/meetings/fm07/waisfm07.html Wessel, P., and Kroenke, L.W., 1997. A geometric technique for relocating hotspots and refining absolute plate motions. Nature (London, U. 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