Indian MORB-type mantle beneath the Kuril Island arc: Isotopic investigation of the mafic lavas of Kunashir Island

Petrology - Tập 20 Số 1 - Trang 93-100 - 2012
Yu. A. Martynov1, Jun‐Ichi Kimura2, A. Yu. Martynov1, А. В. Рыбин3, M. Katakuse4
1Far East Geological Institute, Far East Branch, Russian Academy of Sciences, pr. Stoletiya Vladivostoka 159, Vladivostok, 690022, Russia
2Institute for Research on Earth Evolution, Japan Agency for Marine-Earth Science and Technology, Yokosuka, 237-0061, Japan
3Institute of Marine Geology and Geophysics, Far East Branch, Russian Academy of Sciences, ul. Nauki 5, Yuzhno-Sakhalinsk, 693022, Russia
4Kansai Construction Survey Co., Ltd., Osaka, 562, Japan

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Bailey, J.C., Role of Subducted Sediments in the Genesis of Kuril-Kamchatka Island Arc Basalts: Sr Isotopic and Elemental Evidence, Geochem. J., 1996, vol. 30, pp. 289–321.

Baranov, B., Wong, H.K., Dozorova, K., Kapp, B., Lüdmann, T., and Karnaukh, V., Opening Geometry of the Kurile Basin (Okhotsk Sea) as Inferred from Structural Data, The Island Arc, 2002, vol. 11, pp. 206–219.

Bindeman, I.N. and Bailey, J.C., Trace Elements in Anorthite Megacrysts from the Kurile Island Arc: A Window to Across-Arc Geochemical Variations in Magma Compositions, Earth Planet. Sci. Lett., 1999, vol. 169, pp. 209–226.

Blichert-Toft, J., Chauvel, C., and Albarede, F., Separation of Hf and Lu: for High-Precision Isotope Analysis of Rock Samples by Magnetic Sector-Multiple Collector ICP-MS, Contrib. Mineral. Petrol, 1997, vol. 127, pp. 248–260.

Crawford, A.J., Briqueu, L., Laporte, C., and Hasenaka, T., Coexistence of Indian and Pacific Oceaninc Upper Mantle Reservoirs beneath the Central New Hebrides Islnd Arc, AGU Geophys. Monog, 1995, vol. 88, pp. 199–217.

Duggen, S., Portnyagin, M., Baker, J., Ulfbeck, D., Hoernle, K., Garbe-Schonberg, D., and Grassineau, N., Drastic Shift in Lava Geochemistry in the Volcanic-Front to Rear-Arc Region of the Southern Kamchtkan Subduction Zone: Evidence for the Transition from Slab Surface Dehydration to Sediment Melting, Geochim. Cosmochim. Acta, 2007, vol. 71, pp. 452–480.

Dupré, B. and Allègre, C.J., Pb-Sr Isotope Variation in Indian Ocean Basalts and Mixing Phenomena, Nature, 1983, vol. 303, pp. 142–146.

Fedorchenko, V.I., Abdurakhmanov, A.I., and Rodionova, R.I., Vulkanizm Kuril’skoi ostrovnoi dugi: geologiya i petrogenezis (Volcanism of the Kuril Island Arc: Geology and Petrogenesis), Moscow: Nauka, 1989.

Haase, K.M., Worhington, T.J., Stoffers, P., Garbe-Schönberg, D., and Wright, I., Mantle Dynamics, Element Recycling and Magma Genesis beneath the Kermadec Arc-Havre Trough, Geochem. Geophys. Geosyst, 2002, vol. 3. doi: 10.1029/2002GC000335.

Hamelin, B. and Allègre, C.J., Large-Scale Regional Units in the Depleted Upper Mantle Revealed by an Isotopic Study of the South-West Indian Ridge, Nature, 1985, vol. 315, pp. 196–199.

Hauff, F., Hoernle, K., and Schmidt, A., Sr-Nd-Pb Composition of Mesozoic Pacific Oceanic Crust (Site 1149 and 801, ODP Leg 185): Implications for Alteration of Ocean Crust and the Input into the Izu-Bonin-Mariana Subduction System, Geochem. Geophys. Geosyst, 2003, vol. 4. doi: 10.1029/2002GC000421.

Hergt, J.M. and Hawkesworth, C.J., Pb, Sr and Nd Isotopic Evolution of the Lau Basin: Implications for Mantle Dynamics during Back-Arc Opening, Proc. Ocean Drilling Program. Sci. Res., 1994, vol. 135, pp. 505–517.

Hickey-Vargas, R., Isotope Characteristics of Submarine Lavas from the Philippine Sea: Implications for the Origin of Arc and Basin Magmas of the Philippine Sea Plate, Earth Planet. Sci. Lett., 1991, vol. 107, pp. 290–304.

Hickey-Vergas, R., Hergt, J.M., and Spadea, P., The Indian Ocean-Type Isotopic Signature in Western Pacific Marginal Basins: Origin and Significance, AGU Geophys. Monogr, 1995, vol. 88, pp. 175–197.

Ishikawa, T. and Tera, F., Source, Composition and Distribution of the Fluid in the Kuril Mantle Wedge: Constrain from Across-Arc Variations of B/Nb and B Isotopes, Earth Planet. Sci. Lett., 1997, vol. 152, pp. 113–122.

Jolivet, L. and Tamaki, K., Neogene Kinematics in the Japan Sea Region and Volcanic Activity of the Northeast Japan Arc, Proc. Ocean Drilling Program. Sci. Res., 1992, vol. 127/128, pp. 1311–1331.

Kersting, A.B., Arculus, R.J., and Gust, D.A., Lithospheric Contributions to Arc Magmatism: Isotope Variations along Strike in Volcanoes of Honshu, Japan, Science, 1996, vol. 272, pp. 1464–1467.

Kimura, J.-I. and Yoshida, T., Contributions of Slab Fluid, Mantle Wedge and Crust to the Origin of Quaternary Lavas in the NE Japan Arc, J. Petrol., 2006, vol. 47, pp. 2185–2232.

Klein, E.M., Langmuir, C.H., Zindler, A., Staudigel, H., and Hamelin, B., Isotope Evidence of a Mantle Convection Boundary of the Australian-Antarctic Discordance, Nature, 1988, vol. 333, pp. 623–629.

Look, G., McDonough, W.F., Goldstein, S.L., and Hofmann, A.W., Isotopic Compositions of Volcanic Glasses from the Lau Basin, Mar. Min., 1990, vol. 9, pp. 235–245.

Mahoney, J.J., LeRoex A.P., Peng Z., Fisher R.L., and Natland, J.H., Southwestern Limits of Indian Ocean Ridge Mantle and the Origin of Low 206Pb/204Pb Mid Ocean Ridge Basalts: Isotope Systematics of the Central Southwest Indian Ridge (17°-50°E), J. Geophys. Res., 1992, vol. 97, pp. 19771–19779.

Mahoney, J.J., Natland, J.H., White, W.M., Poreda, R., Bloomer, S.H., Fisher, R.L., and Baxter, A.N., Isotope and Geochemical Provinces in the Western Indian Ocean Spreading Centers, J. Geophys. Res., 1989, vol. 94, pp. 4033–4052.

Martynov, A.Yu., Kimura, J.-I., Martynov, Yu.A., and Rybun, A.V., Geochemistry of Late Cenozoic Lavas on Kunashir Island, Kurile Arc, The Island Arc, 2010a, vol. 19, pp. 86–104.

Martynov, Yu.A., Khanchuk, A.I., Kimura, J.-I., Rybin, A.V., and Martynov, A.Yu., Geochemistry and Petrogenesis of Volcanic Rocks in the Kuril Island Arc, Petrology, 2010b, vol. 18, no. 5, pp. 489–513.

Milner, S.C. and LeRoex, A.P., Isotope Characteristics of the Okenyenya Igneous Complex, Northwestern Namibia: Constraints on the Composition of the Early Tristan Plume and the Origin of the EM1 Mantle Component, Earth Planet. Sci. Lett., 1996, vol. 141, pp. 277–291.

Münker, C., Wörner, G., Yogodzinski, G.M., and Churikova, T.G., Behaviour of High Field Strength Elements in Subduction Zones: Constraints from Kamchatka-Aleutian Arc Lavas, Earth Planet. Sci. Lett., 2004, vol. 224, pp. 275–293.

Nebel, O., Münker, C., Nebel-Jacobsen, Y.J., Kleine, T., Mezger, K., and Mortimer, N., Hf-Nd-Pb Isotope Evidence from Permian Arc Rocks for the Long-Term Presence of the Indian-Pacific Mantle Boundary in the SW Pacific, Earth Planet. Sci. Lett., 2007. doi: 19.1016/j.epsl.2006.11.046.

Pearce, J.A. and Peate, D.W., Tectonic Implications of the Composition of Volcanic Arc Magmas, Ann. Rev. Earth Planet. Sci, 1995, vol. 23, pp. 251–285.

Pearce, J.A., Kempton, P.D., Nowell, G.M., and Noble, S.R., Hf-Nd Element and Isotope Perspective on the Nature and Provenance of Mantle and Subduction Components in Western Pacific Arc-Basin Systems, J. Petrol., 1999, vol. 40, pp. 1579–1611.

Pearce, J.A., Kempton, P.D., and Gill, J.B., Hf-Nd Evidence for the Origin and Distribution of Mantle Domains in the SW Pacific, Earth Planet. Sci. Lett., 2007, vol. 260, pp. 98–114.

Peate, D.W., Hawkesworth, C.J., Mantovani, M.M.S., Rogers, N.W., and Turner, S.P., Petrogenesis and Stratigraphy of the High-Ti/Y Urubici Magma Type in the Parana Flood Basalt Province and Implications for the Nature of ‘Dupal’-Type Mantle in the South Atlantic Region, J. Petrol., 1999, vol. 40, pp. 451–473.

Plank, T. and Langmuir, C.H., The Chemical Composition of Subducting Sediment and Its Consequences for the Crust and Mantle, Chem. Geol., 1998, vol. 145, pp. 325–94.

Plank, T., Kelley, K.A., Murray, R.W., and Stern, L.Q., Chemical Composition of Sediments Subducting at the Izu-Bonin Trench, Geochem. Geophys. Geosyst., 2007, vol. 8. doi: 10.1029/2006GC001444.

Podvodnyi vulkanizm i zonal’nost’ Kuril’skoi ostrovnoi dugi (Submarine Volcanism and Zoning of the Kuril Island Arc), Moscow: Nauka, 1992.

Pouclet, A. and Bellon, H., Geochemistry and Isotopic Composition of Volcanic Rocks from the Yamato Basin: Hole 794D, Sea of Japan, Proc. Ocean Drilling Program. Sci. Res, Tamaki, K., Suyehiro, K., Allan, K., and McWilliams, M., Eds., 1992, pp. 779–789.

Rehkämper, M. and Hofmann, A.W., Recycled Oceanic Crust and Sediment in Indian Ocean MORB, Earth Planet. Sci. Lett., 1997, vol. 147, pp. 93–106.

Ryan, J.G., Morris, J., Tera, F., Leeman, W.P., and Tsvetkov, A., Cross-Arc Geochemical Variations in the Kurile Arc as a Function of Slab Depth, Science, 1995, vol. 270, pp. 625–627.

Straub, S.M., Goldstein, S.L., Class, C., and Schmidt, A., Mid-Ocean-Ridge Basalt of Indian Type in the Northwest Pacific Ocean Basin, Nature Geoscience, 2009, vol. 2. doi: 10.1038/NGE0471.

Syracuse, E.M. and Albers, G.A., Global Compilation of Variations in Slab Depth beneath Arc Volcanoes and Implications, Geochem. Geophys. Geosyst, 2006, vol. 7. doi: 10.1029/2005GC001045.

Tararin, I.A., Lelikov, E.P., and Itaya, T., Pleistocene Submarine Volcanism in the Eastern Kuril Basin, Sea of Okhotsk, Dokl. Earth Sci., 2000, vol. 371, pp. 494–498.

Woodhead, J.D., Hergt, J.M., Davidson, J.P., and Eggins, S.M., Hafnium Isotope Evidence for “Conservative” Element Mobility during Subduction Zone Processes, Earth Planet. Sci. Lett., 2001, vol. 192, pp. 331–346.

Zlobin, T.K., Piskunov, V.N., and Frolova, T.I., New Data on the Structure of the Earth’s Crust in the Central Part of the Kuril Island Arc, Dokl. Akad. Nauk SSSR, 1987, vol. 293, pp. 185–187.

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Petrology

Tập 20 Số 1

93-100

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