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References

  • Abouchami, W., and F. A. Frey (2006), Temporal evolution of Pb isotopes in shield lavas from Haleakala Volcano, Geophys. Res. Abstr., 8, Abstract 03915.
  • Abouchami, W., S. J. G. Galer, and A. W. Hofmann (2000), High precision lead isotope systematics of lavas from the Hawaiian Scientific Drilling Project, Chem. Geol., 169, 187209.
  • Abouchami, W., A. W. Hofmann, S. J. G. Galer, F. A. Frey, J. Eisele, and M. Feigenson (2005), Lead isotopes reveal bilateral asymmetry and vertical continuity in the Hawaiian mantle plume, Nature, 434, 851856.
  • Basu, A. R., and B. E. Faggart (1996), Temporal isotopic variations in the Hawaiian mantle plume: The Lanai anomaly, the Molokai Fracture Zone and a seawater-altered lithospheric component in Hawaiian volcanism, in Earth Processes: Reading the Isotopic Code, Geophys. Monogr. Ser., vol. 95, edited by A. R. Basu, and S. R. Hart, pp. 149159, AGU, Washington, D. C.
  • Bedard, J. H. (2005), Partitioning coefficients between olivine and silicate melts, Lithos, 83, 394419.
  • Bindeman, I. N., A. M. Davis, and M. J. Drake (1998), Ion microprobe study of plagioclase-basalt partition experiments at natural concentration levels of trace elements, Geochim. Cosmochim. Acta, 62, 11751193.
  • Bizimis, M., G. Sen, V. J. M. Salters, and S. Keshav (2005), Hf-Nd-Sr isotope systematics of garnet pyroxenites from Salt Lake Crater, Oahu, Hawaii: Evidence for a depleted component in Hawaiian volcanism, Geochim. Cosmochim. Acta, 69, 26292646.
  • Blichert-Toft, J., and F. Albarède (1999), Hf isotopic compositions of the Hawaii Scientific Drilling Project core and the source mineralogy of Hawaiian basalts, Geophys. Res. Lett., 26, 935938.
  • Blichert-Toft, J., C. Chauvel, and F. Albarède (1997), Separation of Hf and Lu for high-precision isotope analysis of rock samples by magnetic sector multiple collector ICP-MS, Contrib. Mineral. Petrol., 127, 248260.
  • Blichert-Toft, J., F. A. Frey, and F. Albarède (1999), Hf isotope evidence for pelagic sediments in the source of Hawaiian basalts, Science, 285, 879882.
  • Blichert-Toft, J., D. Weis, C. Maerschalk, A. Agranier, and F. Albarède (2003), Hawaiian hot spot dynamics as inferred from the Hf and Pb isotope evolution of Mauna Kea volcano, Geochem. Geophys. Geosyst., 4(2), 8704, doi:10.1029/2002GC000340.
  • Blundy, J., and J. Dalton (2000), Experimental comparison of trace element partitioning between clinopyroxene and melt in carbonate and silicate systems, and implications for mantle metasomatism, Contrib. Mineral. Petrol., 139, 356371.
  • Bryce, J. G., D. J. DePaolo, and J. C. Lassiter (2005), Geochemical structure of the Hawaiian plume: Sr, Nd, and Os isotopes in the 2.8 km HSDP-2 section of Mauna Kea volcano, Geochem. Geophys. Geosyst., 6, Q09G18, doi:10.1029/2004GC000809.
  • Chen, C. Y., and F. A. Frey (1985), Trace-element and isotopic geochemistry of lavas from Haleakala Volcano, East Maui, Hawaii: Implications for the origin of Hawaiian basalts, J. Geophys. Res., 90, 87438768.
  • Chen, C. Y., F. Frey, J. M. Rhodes, and R. M. Easton (1996), Temporal geochemical evolution of Kilauea volcano: Comparison of Hilina and Puna basalt, in Earth Processes: Reading the Isotopic Code, Geophys. Monogr. Ser., vol. 95, pp. 161181, AGU, Washington, D. C.
  • Clague, D. A. (1987), Petrology of West Molokai Volcano, Geol. Soc. Am. Abstr. Programs, 19, 366.
  • Clague, D. A., and G. B. Dalrymple (1987), The Hawaiian-Emperor volcanic chain: Part I: Geologic evolution, U.S. Geol. Sury. Prof. Pap., 1350, 554.
  • Clague, D. A., and F. A. Frey (1982), Petrology and trace-element geochemistry of the Honolulu volcanics, Oahu—Implications for the oceanic mantle below Hawaii, J. Petrol., 23, 447504.
  • Clague, D. A., J. G. Moore, J. E. Dixon, and W. B. Friesen (1995), Petrology of submarine lavas from Kilaueas Puna Ridge, Hawaii, J. Petrol., 36, 299349.
  • Cohen, A. S., R. K. Onions, and M. D. Kurz (1996), Chemical and isotopic variations in Mauna Loa tholeiites, Earth Planet. Sci. Lett., 143, 111124.
  • Coombs, M. L., T. W. Sisson, and P. W. Lipman (2006), Growth history of Kilauea inferred from volatile concentrations in submarine-collected basalts, J. Volcanol. Geotherm. Res., 151, 1949.
  • Cotten, J., A. Ledez, M. Bau, M. Caroff, R. C. Maury, P. Dulski, S. Fourcade, M. Bohn, and R. Brousse (1995), Origin of anomalous rare-earth element and yttrium enrichments in subaerially exposed basalts: Evidence from French Polynesia, Chem. Geol., 119, 115138.
  • Cousens, B. L., D. A. Clague, and W. D. Sharp (2003), Chronology, chemistry, and origin of trachytes from Hualalai Volcano, Hawaii, Geochem. Geophys. Geosyst., 4(9), 1078, doi:10.1029/2003GC000560.
  • DePaolo, D., E. Stolper, D. Tomas, and M. O. Garcia (1999), Hawaii Scientific Drilling Project: Core logs and summarizing data, report, Calif. Inst. of Technol., Pasadena.
  • DePaolo, D. J., J. G. Bryce, A. Dodson, D. L. Shuster, and B. M. Kennedy (2001), Isotopic evolution of Mauna Loa and the chemical structure of the Hawaiian plume, Geochem. Geophys. Geosyst., 2(7), doi:10.1029/2000GC000139.
  • Dixon, J. E., D. A. Clague, and E. M. Stolper (1991), Degassing history of water, sulfur, and carbon in submarine lavas from Kilauea Volcano, Hawaii, J. Geol., 99, 371394.
  • Eisele, J., W. Abouchami, S. J. G. Galer, and A. W. Hofmann (2003), The 320 kyr Pb isotope evolution of Mauna Kea lavas recorded in the HSDP-2 drill core, Geochem. Geophys. Geosyst., 4(5), 8710, doi:10.1029/2002GC000339.
  • Feigenson, M. D., A. W. Hofmann, and F. J. Spera (1983), Case studies on the origin of basalt II, The transition from tholeiitic to alkalic volcanism on Kohala Volcano, Hawaii, Contrib. Mineral. Petrol., V84, 390405.
  • Fekiacova, Z., W. Abouchami, S. J. G. Galer, M. Garcia, and A. W. Hofmann (2007), Temporal evolution of Koolau volcano: Inferences from isotope results on the Koolau Scientific Drilling Project (KSDP) and Honolulu Volcanics, Earth Planet. Sci. Lett., doi:10.1016/j.epsl.2007.06.005, in press.
  • Fodor, R. V., D. P. Malta, G. R. Bauer, and R. S. Jacobs (1989), Microbeam analyses of rare-earth element phosphate in basalt from Kahoolawe Island, Hawaii, paper presented at the 24th Annual Conference of the Microbeam Analytical Society, San Francisco, Calif.
  • Fodor, R. V., F. A. Frey, G. R. Bauer, and D. A. Clague (1992), Ages, rare-earth element enrichment, and petrogenesis of tholeiitic and alkalic basalts from Kahoolawe Island, Hawaii, Contrib. Mineral. Petrol., 110, 442462.
  • Frey, F. A., and J. M. Rhodes (1993), Intershield geochemical differences among Hawaiian volcanoes: Implications for source compositions, melting process and magma ascent paths, Philos. Trans. R. Soc. London, Ser. A, 342, 121136.
  • Frey, F. A., W. S. Wise, M. O. Garcia, H. West, S. T. Kwon, and A. Kennedy (1990), Evolution of Mauna-Kea Volcano, Hawaii: Petrologic and geochemical constraints on postshield volcanism, J. Geophys. Res., 95, 12711300.
  • Frey, F. A., M. O. Garcia, W. S. Wise, A. Kennedy, P. Gurriet, and F. Albarède (1991), The evolution of Mauna Kea Volcano, Hawaii: Petrogenesis of tholeiitic and alkalic basalts, J. Geophys. Res., 96, 14,34714,375.
  • Frey, F. A., M. O. Garcia, and M. F. Roden (1994), Geochemical characteristics of Koolau Volcano: Implications of intershield geochemical differences among Hawaiian volcanoes, Geochim. Cosmochim. Acta, 58, 14411462.
  • Frey, F. A., S. Huang, J. Blichert-Toft, M. Regelous, and M. Boyet (2005), Origin of depleted components in basalt related to the Hawaiian hot spot: Evidence from isotopic and incompatible element ratios, Geochem. Geophys. Geosyst., 6, Q02L07, doi:10.1029/2004GC000757.
  • Gaffney, A. M., B. K. Nelson, and J. Blichert-Toft (2004), Geochemical constraints on the role of oceanic lithosphere in intra-volcano heterogeneity at West Maui, Hawaii, J. Petrol., 45, 16631687.
  • Gaffney, A. M., B. K. Nelson, and J. Blichert-Toft (2005), Melting in the Hawaiian plume at 1–2 Ma as recorded at Maui Nui: The role of eclogite, peridotite, and source mixing, Geochem. Geophys. Geosyst., 6, Q10L11, doi:10.1029/2005GC000927.
  • Galer, S. J. G., and W. Abouchami (1998), Practical application of lead triple spiking for correction of instrumental mass discrimination, Mineral. Mag., 62A, 491492.
  • Garcia, M. O. (1996), Petrography and olivine and glass chemistry of lavas from the Hawaii Scientific Drilling Project, J. Geophys. Res., 101, 11,70111,713.
  • Garcia, M. O., D. W. Muenow, K. E. Aggrey, and J. R. Oneil (1989), Major element, volatile, and stable isotope geochemistry of Hawaiian submarine tholeiitic glasses, J. Geophys. Res., 94, 10,52510,538.
  • Garcia, M. O., T. P. Hulsebosch, and J. M. Rhodes (1995), Olivine-rich submarine basalts from the southwest rift zone of Mauna Loa volcano: Implications for magmatic processes and geochemical evolution, in Mauna Loa Revealed: Structure, Composition, History, and Hazards, Geophys. Monogr. Ser., vol. 92, edited by J. M. Rhodes, and J. P. Lockwood, pp. 219239, AGU, Washington, D. C.
  • Hammer, J. E., M. L. Coombs, P. J. Shamberger, and J.-I. Kimura (2006), Submarine sliver in North Kona: A window into the early magmatic and growth history of Hualalai Volcano, Hawaii, J. Volcanol. Geotherm. Res., 151, 157188.
  • Hanano, D., D. Weis, S. Aciego, J. Scoates, and D. DePaolo (2005), Geochemical systematics of Hawaiian postshield lavas: Implications for the chemical structure of the Hawaiian mantle plume, Eos Trans. AGU, 86(52), Fall Meet. Suppl., Abstract V41D-1497.
  • Haskins, E. H., and M. O. Garcia (2004), Scientific drilling reveals geochemical heterogeneity within the Ko'olau shield, Hawai'i, Contrib. Mineral. Petrol., 147, 162188.
  • Hauri, E. H., J. C. Lassiter, and D. J. DePaolo (1996), Osmium isotope systematics of drilled lavas from Mauna Loa, Hawaii, J. Geophys. Res., 101, 11,79311,806.
  • Helz, R. T., and T. L. Wright (1992), Differentiation and magma mixing on Kilauea East Rift Zone—A further look at the eruptions of 1955 and 1960. 1. The late 1955 lavas, Bull. Volcanol., 54, 361384.
  • Herzberg, C. (2005), Mantle geochemistry: Big lessons from little droplets, Nature, 436, 789790.
  • Hieronymus, C. F., and D. Bercovici (2001), A theoretical model of hotspot volcanism: Control on volcanic spacing and patterns via magma dynamics and lithospheric stresses, J. Geophys. Res., 106, 683702.
  • Hofmann, A. W. (2004), Sampling mantle heterogeneity through oceanic basalts: Isotopes and trace elements, in Treatise on Geochemistry, edited by H. D. Holland, and K. K. Turekian, pp. 61101, Elsevier, Oxford.
  • Hofmann, A. W., and W. M. White (1983), Ba, Rb and Cs in the Earth's mantle, Z. Naturforsch. Sect. A J. Phys. Sci., 38, 256266.
  • Huang, S., and F. A. Frey (2003), Trace element abundances of Mauna Kea basalt from phase 2 of the Hawaii Scientific Drilling Project: Petrogenetic implications of correlations with major element content and isotopic ratios, Geochem. Geophys. Geosyst., 4(6), 8711, doi:10.1029/2002GC000322.
  • Huang, S., and F. A. Frey (2005a), The geochemical structure of the Hawaiian Plume, Eos Trans. AGU, 86(52), Fall Meet. Suppl., Abstract V51A-1466.
  • Huang, S., and F. A. Frey (2005b), Recycled oceanic crust in the Hawaiian Plume: Evidence from temporal geochemical variations within the Koolau Shield, Contrib. Mineral. Petrol., 149, 556575.
  • Huang, S., F. Frey, J. Blichert-Toft, R. V. Fodor, and G. Xu (2005a), Depleted rejuvenated-stage source component in Hawaiian shield-stage lavas, Geochim. Cosmochim. Acta, 69, A104.
  • Huang, S., F. A. Frey, J. Blichert-Toft, R. V. Fodor, G. R. Bauer, and G. Xu (2005b), Enriched components in the Hawaiian plume: Evidence from Kahoolawe Volcano, Hawaii, Geochem. Geophys. Geosyst., 6, Q11006, doi:10.1029/2005GC001012.
  • Huang, S., M. Regelous, T. Thordarson, and F. A. Frey (2005c), Petrogenesis of lavas from Detroit Seamount: Geochemical differences between Emperor Chain and Hawaiian volcanoes, Geochem. Geophys. Geosyst., 6, Q01L06, doi:10.1029/2004GC000756.
  • Huang, S., M. Bizimis, R. V. Fodor, and G. R. Bauer (2006), Geochemical structure of the Hawaiian Plume: Constraints from the shield to postshield transition, Eos Trans. AGU, 87(52), Fall Meet. Suppl., Abstract V13B-0665.
  • Ito, G., and J. J. Mahoney (2005), Flow and melting of a heterogeneous mantle: 1. Method and importance to the geochemistry of ocean island and mid-ocean ridge basalts, Earth Planet. Sci. Lett., 230, 2946.
  • Jackson, D. E., E. A. Silver, and G. B. Dalrymple (1972), Hawaiian-Emperor chain and its relation to Cenozoic circumpacific tectonics, Geol. Soc. Am. Bull., 83, 601618.
  • Jang, Y. D., and H. R. Naslund (2003), Major and trace element variation in ilmenite in the Skaergaard Intrusion: Petrologic implications, Chem. Geol., 193, 109125.
  • Kennedy, A. K., S. T. Kwon, F. A. Frey, and H. B. West (1991), The isotopic composition of postshield lavas from Mauna-Kea Volcano, Hawaii, Earth Planet. Sci. Lett., 103, 339353.
  • Kurz, M. D., T. C. Kenna, D. P. Kammer, J. M. Rhodes, and M. O. Garcia (1995), Isotopic evolution of Mauna Loa volcano: A view from the submarine Southwest Rift Zone, in Mauna Loa Revealed: Structure, Composition, History, and Hazards, Geophys. Monogr. Ser., vol. 92, edited by J. M. Rhodes, and J. P. Lockwood, pp. 289306, AGU, Washington, D. C.
  • Kurz, M. D., J. Curtice, D. E. Lott III, and A. Solow (2004), Rapid helium isotopic variability in Mauna Kea shield lavas from the Hawaiian Scientific Drilling Project, Geochem. Geophys. Geosyst., 5, Q04G14, doi:10.1029/2002GC000439.
  • Lassiter, J. C., D. J. DePaolo, and M. Tatsumoto (1996), Isotopic evolution of Mauna Kea volcano: Results from the initial phase of the Hawaii Scientific Drilling Project, J. Geophys. Res., 101, 11,76911,780.
  • Macdonald, G. A., and T. Katsura (1964), Chemical compositional of Hawaiian lavas, J. Petrol., 5, 82133.
  • McDougall, I. (1964), Potassium-argon ages from lavas of the Hawaiian Islands, Geol. Soc. Am. Bull., 75, 107128.
  • Menard, H. W. (1962), Correlation between length and offset on very large wrench faults, J. Geophys. Res., 67, 40964098.
  • Moore, J. G., and D. A. Clague (1987), Coastal lava flows from Mauna Loa and Hualalai volcanoes, Kona, Hawaii, Bull. Volcanol., 49, 752764.
  • Moore, J. G., and D. A. Clague (1992), Volcano growth and evolution of the island of Hawaii, Geol. Soc. Am. Bull., 104, 14711484.
  • Moore, J. G., and D. A. Clague (2002), Mapping the Nuuanu and Wailau landslides in Hawaii, in Hawaiian Volcanoes: Deep Underwater Perspectives, Geophys. Monogr. Ser., vol. 128, edited by E. Takahashi et al., pp. 223244, AGU, Washington, D. C.
  • Moore, J. G., D. A. Clague, and W. R. Normark (1982), Diverse basalt types from Loihi Seamount, Hawaii, Geology, 10, 8892.
  • Moore, J. G., W. B. Bryan, M. H. Beeson, and W. R. Normark (1995), Giant blocks in the south Kona landslide, Hawaii, Geology, 23, 125128.
  • Morgan, J. K., D. A. Clague, D. C. Borchers, A. S. Davis, and K. L. Milliken (2007), Mauna Loa's submarine western flank: Landsliding, deep volcanic spreading, and hydrothermal alteration, Geochem. Geophys. Geosyst., 8, Q05002, doi:10.1029/2006GC001420.
  • Pietruszka, A. J., and M. O. Garcia (1999), The size and shape of Kilauea Volcano's summit magma storage reservoir: A geochemical probe, Earth Planet. Sci. Lett., 167, 311320.
  • Price, J. P., and D. Elliott-Fisk (2004), Topographic history of the Maui Nui Complex, Hawaii, and its implications for biogeography, Pac. Sci., 58, 2745.
  • Ren, Z. Y., S. Ingle, E. Takahashi, N. Hirano, and T. Hirata (2005), The chemical structure of the Hawaiian mantle plume, Nature, 436, 837840.
  • Ren, Z. Y., T. Shibata, M. Yoshikawa, K. T. M. Johnson, and E. Takahashi (2006), Isotope compositions of submarine Hana Ridge lavas, Haleakala volcano, Hawaii: Implications for source compositions, melting process and the structure of the Hawaiian plume, J. Petrol., 47, 255275.
  • Rhodes, J. M. (1995), The 1852 and 1868 Mauna Loa picrite eruptions: Clues to parental magma compositions and the magmatic plumbing system, in Mauna Loa Revealed: Structure, Composition, History, and Hazards, Geophys. Monogr. Ser., vol. 92, edited by J. M. Rhodes, and J. P. Lockwood, pp. 241262, AGU, Washington, D. C.
  • Rhodes, J. M. (1996), Geochemical stratigraphy of lava flows sampled by the Hawaii Scientific Drilling Project, J. Geophys. Res., 101, 11,72911,746.
  • Rhodes, J. M., and S. R. Hart (1995), Episodic trace element and isotopic variations in historical Mauna Loa lavas: Implications for Magma and plume dynamics, in Mauna Loa Revealed: Structure, Composition, History, and Hazards, Geophys. Monogr. Ser., vol. 92, edited by J. M. Rhodes, and J. P. Lockwood, pp. 263288, AGU, Washington, D. C.
  • Rhodes, J. M., and M. J. Vollinger (2004), Composition of basaltic lavas sampled by phase-2 of the Hawaii Scientific Drilling Project: Geochemical stratigraphy and magma types, Geochem. Geophys. Geosyst., 5, Q03G13, doi:10.1029/2002GC000434.
  • Robinson, J. E., and B. W. Eakins (2006), Calculated volumes of individual shield volcanoes at the young end of the Hawaiian Ridge, J. Volcanol. Geotherm. Res., 151, 309317.
  • Roden, M. F., T. Trull, S. R. Hart, and F. A. Frey (1994), New He, Nd, Pb, and Sr isotopic constraints on the constitution of the Hawaiian Plume—Results from Koolau Volcano, Oahu, Hawaii, USA, Geochim. Cosmochim. Acta, 58, 14311440.
  • Salters, V. J. M., J. Blichert-Toft, Z. Fekiacova, A. Sachi-Kocher, and M. Bizimis (2006), Isotope and trace element evidence for depleted lithosphere in the source of enriched Ko'olau basalts, Contrib. Mineral. Petrol., 151, 297312.
  • Searle, R. C., R. T. Holcomb, J. B. Wilson, M. L. Holmes, R. J. Whittington, E. S. Kappel, B. A. McGregor, and A. N. Shor (1993), The Molokai Fracture Zone near Hawaii, and the Late Cretaceous change in Pacific/Farallon spreading direction, in The Mesozoic Pacific: Geology, Tectonics, and Volcanism, Geophys. Monogr. Ser., vol. 77, edited by M. S. Pringle et al., pp. 155169, AGU, Washington, D. C.
  • Shinozaki, K., Z.-Y. Ren, and E. Takahashi (2002), Geochemical and petrological characteristics of Nuuanu and Wailau landslides blocks, in Hawaiian Volcanoes: Deep Underwater Perspectives, Geophys. Monogr. Ser., vol. 128, edited by E. Takahashi et al., pp. 297310, AGU, Washington, D. C.
  • Sinton, J. M. (1987), Revision of stratigraphic nomenclature of Waianae Volcano, Oahu, Hawaii, U.S. Geol. Surv. Bull., 1775A, A9A15.
  • Sisson, T. W., and P. W. Lipman (2002), Submarine alkalic through tholeiitic shield-stage development of Kilauea Volcano, Hawaii, in Hawaiian Volcanoes: Deep Underwater Perspectives, Geophys. Monogr. Ser., vol. 128, edited by E. Takahashi et al., pp. 193219, AGU, Washington, D. C.
  • Sobolev, A. V., A. W. Hofmann, S. V. Sobolev, and I. K. Nikogosian (2005), An olivine-free mantle source of Hawaiian shield basalts, Nature, 434, 590597.
  • Steiger, R. H., and E. Jager (1977), Subcommission on Geochronology—Convention on Use of Decay Constants in Geochronology and Cosmochronology, Earth Planet. Sci. Lett., 36, 359362.
  • Stille, P., D. M. Unruh, and M. Tatsumoto (1986), Pb, Sr, Nd, and Hf isotopic constraints on the origin of Hawaiian basalts and evidence for a unique mantle source, Geochim. Cosmochim. Acta, 50, 23032319.
  • Stolper, E., S. Sherman, M. Garcia, M. Baker, and C. Seaman (2004), Glass in the submarine section of the HSDP2 drill core, Hilo, Hawaii, Geochem. Geophys. Geosyst., 5, Q07G15, doi:10.1029/2003GC000553.
  • Stracke, A., V. J. M. Salters, and K. W. W. Sims (1999), Assessing the presence of garnet-pyroxenite in the mantle sources of basalts through combined hafnium-neodymium-thorium isotope systematics, Geochem. Geophys. Geosyst., 1(1), doi:10.1029/1999GC000013.
  • Sun, S.-S., and W. F. McDonough (1989), Chemical and isotopic systematics of oceanic basalts: Implications for mantle composition and processes, in Magmatism in the Ocean Basins, edited by A. D. Saunders, and M. J. Norry, Geol. Soc. Spec. Publ., 42, 313345.
  • Tanaka, R., E. Nakamura, and E. Takahashi (2002), Geochemical evolution of Koolau Volcano, Hawaii, in Hawaiian Volcanoes: Deep Underwater Perspectives, Geophys. Monogr. Ser., vol. 128, edited by E. Takahashi et al., pp. 311332, AGU, Washington, D. C.
  • Tatsumoto, M. (1978), Isotopic composition of lead in oceanic basalt and its implication to mantle evolution, Earth Planet. Sci. Lett., 38, 6387.
  • ten Brink, U. S., and T. M. Brocher (1988), Multichannel seismic evidence for variations in crustal thickness across the Molokai Fracture Zone in the mid-Pacific, J. Geophys. Res., 93, 11191130.
  • Todt, W., R. A. Cliff, A. Hanser, and A. W. Hofmann (1996), Evaluation of a 202Pb/205Pb double spike for high-precision lead isotope analysis, in Earth Processes: Reading the Isotopic Code, Geophys. Monogr. Ser., vol. 95, edited by A. Basu, and S. R. Hart, pp. 429437, AGU, Washington, D. C.
  • Wanless, V. D., M. O. Garcia, J. Michael Rhodes, D. Weis, and M. D. Norman (2006), Shield-stage alkalic volcanism on Mauna Loa Volcano, Hawaii, J. Volcanol. Geotherm. Res., 151, 141155.
  • Weisler, M. I., and D. A. Clague (1998), Characterization of archaeological volcanic glass from Oceania: The utility of three techniques, in Archaeological Obsidian Studies: Methods and Theory, edited by M. S. Shackley, pp. 103128, Plenum, New York.
  • Wessel, P., and L. Kroenke (1997), A geometric technique for relocating hotspots and refining absolute plate motions, Nature, 387, 365369.
  • West, H. B., D. C. Gerlach, W. P. Leeman, and M. O. Garcia (1987), Isotopic constraints on the origin of Hawaiian lavas from the Maui volcanic complex, Hawaii, Nature, 330, 216220.
  • West, H. B., M. O. Garcia, F. A. Frey, and A. Kennedy (1988), Nature and cause of compositional variation among the Alkalic Cap lavas of Mauna Kea Volcano, Hawaii, Contrib. Mineral. Petrol., 100, 383397.
  • Xu, G., F. A. Frey, D. A. Clague, D. Weis, and M. H. Beeson (2005), East Molokai and other Kea-trend volcanoes: Magmatic processes and sources as they migrate away from the Hawaiian hot spot, Geochem. Geophys. Geosyst., 6, Q05008, doi:10.1029/2004GC000830.
  • Yang, H. J., F. A. Frey, J. M. Rhodes, and M. O. Garcia (1996), Evolution of Mauna Kea volcano: Inferences from lava compositions recovered in the Hawaii Scientific Drilling Project, J. Geophys. Res., 101, 11,74711,767.
  • Yang, H. J., F. A. Frey, D. A. Clague, and M. O. Garcia (1999), Mineral chemistry of submarine lavas from Hilo Ridge, Hawaii: Implications for magmatic processes within Hawaiian rift zones, Contrib. Mineral. Petrol., 135, 355372.
  • Zindler, A., H. Staudigel, and R. Batiza (1984), Isotope and trace element geochemistry of young Pacific seamounts: Implications for the scale of upper mantle heterogeneity, Earth Planet. Sci. Lett., 70, 175195.