研究業績
<原著論文> [68] Kuritani, T. (2023) Geochemical constraints on the evolution of the magmatic system leading to catastrophic eruptions at Aira Caldera, Japan. Lithos 450-451, 107208.
[67] Oiwa, K., Kuritani, T., Nakagawa, M. and Yoshimura, S. (2023) Pre-eruption magmatic processes and magma plumbing system at Hachijo-Nishiyama volcano, Izu-Bonin arc, Japan. Earth, Planets and Space 75, 6.
[66] Wibowo, H. E., Nakagawa, M., Kuritani, T., Furukawa, R., Prambada, O. and Harijoko, A. (2022) Petrological and Geochemical Study of Sundoro Volcano, Central Java, Indonesia: Temporal Variations in Differentiation and Source Processes During the Growth of an Individual Volcano. Journal of Petrology 63, egac083.
[65] Liu, J., Tao, C., Zhou, J., Shimizu, K., Li, W., Liang, J., Liao, S., Kuritani, T., Deloule, E., Ushikubo, T., Nakagawa, M., Yang, W., Zhang. G., Liu, Y., Zhu, C., Sun, H. and Zhou, J. (2022) Water enrichment in the mid-ocean ridge by recycling of mantle wedge residue. Earth and Planetary Science Letters 584, 117455.
[64] Brahm, R., Zellmer, G. F., Kuritani, T., Sakamoto, N., Yurimoto, H., Nakagawa, M. and Sato, E. (2022) Olivine melt inclusion constraints on some intensive properties of subvolcanic crystal mushes and their evolution through boundary layer fractionation in northern Japan. Journal of Petrology, egac016.
[63] Shimizu, K., Ushikubo, T., Kuritani, T. and Yamashita, S. (2022) Modification for the matrix effect in SIMS-derived water contents of silicate glasses. Geochemical Journal, 56, 223-230.
[62] Asaah, A. N. E., Yokoyama, T., Iwamori, H., Aka, F. T., Tamen, J., Kuritani, T., Usui, T., Hasegawa, T. and Fozing, E. M. (2022) Geochemical composition of dykes along the Cameroon Line (CL): Petrogenesis and similarities with the Central Atlantic Magmatic Province. Geochemistry, 125865.
[61] Liu, J., Xia, Q. -K., Sun, H., Hanski, E., Kuritani, T., Gu, X.-Y. and Chen, H. (2022) Compositional variation of picrites in the Emeishan large igneous province modulated by water in the mantle plume. Journal of Geophysical Research: Solid Earth 127, e2021JB023584.
[60] Taniuchi, H., Kuritani, T. and Nakagawa, M. (2021) Na/K diversity of primary basaltic magmas induced by the separation of slab-derived supercritical liquid: Implications from alkali basaltic lavas from Rishiri Volcano, southern Kuril Arc. Journal of Petrology 62, 12, 1-22.
[59] Wang, P.-Y., Gu, X.-Y., Kuritani, T., Hanski, E. and Xia, Q.-K. (2021) Highly variable H2O/Ce ratios in the Hainan mantle plume. Lithos 406-407, 106516.
[58] Kuritani, T., Shimizu, K., Ushikubo, T., Xia, Q.-K., Liu, J., Nakagawa, M., Taniuchi, H., Sato, E. and Doi, N. (2021) Tracing the subducting Pacific slab to the mantle transition zone with hydrogen isotopes. Scientific Reports 11, 18755.
[57] Asaah, A. N. E., Yokoyama, T., Iwamori, H., Aka, F. T., Kuritani, T., Usui, T., Tamen, J., Gountie Dedzo, M., Chako-Tchamabe, B., Hasegawa, T., Nche, L. A. and Ohba, T. (2021) High-μ signature in lavas of Mt. Oku: implications for lithospheric and asthenospheric contributions to the magmatism of the Cameroon Volcanic Line (West Africa). Lithos 400-401, 106416.
[56] Kuritani, T., Sato, E., Wada, K., Matsumoto, A., Nakagawa, M., Zhao, D., Shimizu, K. and Ushikubo, T. (2021) Conditions of magma generation at the Me-akan volcano, northern Japan. Journal of Volcanology and Geothermal Research 417, 107323
[55] Toyomaki, H., Yabe, J., Nakayama, S. M. M., Yohannes, Y. B., Muzandu, K., Mufune, T., Nakata, H., Ikenaka, Y., Kuritani, T., Nakagawa, M., Choongo, K. and Ishizuka, M. (2021) Lead concentrations and isotope ratios in blood, breastmilk and feces: contribution of both lactation and soil/dust exposure to infants in a lead mining area, Kabwe, Zambia. Environmetal Pollution 286, 117456.
[54] Rai, L. K., Yoshida, K. and Kuritani, T. (2021) Reconstruction of the exhumation history of the eastern Nepal Himalaya based on provenance changes. Sedimentary Geology 420, 105920.
[53] Sas, M., Shane, P., Kuritani, T., Zellmer, G. F., Kent, A. J. R. and Nakagawa, M. (2021) Mush, melts and metasediments: a history of rhyolites from the Okataina Volcanic Centre, New Zealand, as captured in plagioclase. Journal of Petrology 62, 8, 1-26.
[52] Brahm, R., Zellmer, G. F., Kuritani, T., Coulthard Jr, D., Nakagawa, M., Sakamoto, N., Yurimoto, H. and Sato, E. (2021) MushPEC: Correcting post-entrapment processes affecting melt inclusions hosted in olivine antecrysts. Frontiers in Earth Science 8, 599726.
[51] Kimura, T., Ozawa, K., Kuritani, T., Iizuka, T. and Nakagawa, M. (2020) Thermal state of the upper mantle and the origin of the Cambrian-Ordovician ophiolite pulse: constraints from ultramafic dikes of the Hayachine-Miyamori Ophiolite. American Mineralogist 105, 1778-1801.
[50] Lormand, C., Zellmer, G. F., Kilgour, G. N., Nemeth, K., Palmer, A. S., Sakamoto, N., Yurimoto, H., Kuritani, T., Iizuka, Y. and Moebis, A. (2020) Slow ascent of unusually hot intermediate magmas triggering Strombolian to sub-Plinian eruptions. Journal of Petrology 61, egaa077.
[49] Ishii, C., Ikenaka, Y., Nakayama, S. M. M., Kuritani, T., Nakagawa, M., Saito, K., Watanabe, Y., Ogasawara, K., Onuma, M., Haga, A. and Ishizuka, M. (2020) Current situation regarding lead exposure in birds in Japan (2015-2018); lead exposure is still occurring. Journal of Veterinary Medical Science 82, 1118-1123.
[48] Taniuchi, H., Kuritani, T., Yokoyama, T., Nakamura, E. and Nakagawa, M. (2020) A new concept for the genesis of felsic magma: the separation of slab-derived supercritical liquid. Scientific Reports 10, 8698.
[47] Kuritani, T., Nakagawa, M. Nishimoto, J., Yokoyama, T. and Miyamoto, T. (2020) Magma plumbing system for the Millennium Eruption at Changbaishan volcano, China: constraints from whole-rock U-Th disequilibrium. Lithos 366-367, 105564.
[46] Toyomaki, H., Yabe, J., Nakayama, S. T., Yohannes, Y. B., Muzandu, K., Liazambi, A., Ikenaka, Y., Kuritani, T., Nakagawa, M. and Ishizuka, M. (2020) Factors associated with lead (Pb) exposure on dogs around a Pb mining area, Kabwe, Zambia. Chemosphere 247, 125884.
[45] Taniuchi, H., Kuritani, T. and Nakagawa, M. (2020) Generation of calc-alkaline andesite magma through crustal melting induced by emplacement of mantle-derived water-rich primary magma: evidence from Rishiri Volcano, southern Kuril Arc. Lithos 254-255, 105362.
[44] Asaah, A. N. E., Yokoyama, T., Aka, F. T., Iwamori, H., Kuritani, T., Usui, T., Gountie Dedzo, M., Tamen, J., Hasegawa, T., Fozing, E. M. Wirmvem, M. J. and Nche, A. L. (2020) Major/trace elements and Sr-Nd-Pb isotope systematics of lavas from Lakes Barombi Mbo and Barombi Koto in the Kumba graben, Cameroon Volcanic Line: Constraints on petrogenesis. Journal of African Earth Science 161, 103675.
[43] Kuritani, T., Kanai, C., Yamashita, S. and Nakagawa, M. (2019) Magma generation conditions at the Akita-Komagatake volcano, Northeast Japan arc: implications of across-arc variations in mantle melting parameters. Lithos 348-349, 105197.
[※] Kuritani, T., Kanai, C., Yamashita, S. and Nakagawa, M. (2020) Corrigendum to "Magma generation conditions at the Akita-Komagatake volcano, Northeast Japan arc: implications of across-arc variations in mantle melting parameters". Lithos 378-379, 105838.
[42] Nakayama, S. M. M., Nakata, H., Ikenaka, Y., Yabe, J., Oroszlany, B., Yohannes, Y. B., Bortey-Sam, N., Muzandu, K., Choongo, K., Kuritani, T., Nakagawa, M. and Ishizuka, M. (2019) One year exposure to Cd- and Pb-contaminated soil causes metal accumulation and alteration of global DNA methylation in rats. Environmental Pollution 252, 1267-1276.
[41] Kuritani, T., Xia, Q.-K., Kimura, J.-I., Liu, J., Shimizu, K., Ushikubo, T., Zhao, D., Nakagawa, M. and Yoshimura, S. (2019) Buoyant hydrous mantle plume from the mantle transition zone. Scientific Reports 9, 6549.
[40] Gu, X.-X., Wang, P.-Y., Kuritani, T., Hanski, E., Xia, Q.-K. and Wang, Q.-Y. (2019) Low water content in the mantle source of the Hainan plume as a factor inhibiting the formation of a large igneous province. Earth and Planetary Science Letters 515, 221-230.
[39] Yoshimura, S., Kuritani, T., Matsumoto, A. and Nakagawa, M. (2019) Fingerprint of silicic magma degassing visualised through chlorine microscopy. Scientific Reports 9, 786.
[38] Kuritani, T., Yamaguchi, A., Fukumitsu, S., Nakagawa, M., Matsumoto, A. and Yokoyama, T. (2018) Magma plumbing system at Izu-Oshima Volcano, Japan: constraints from petrological and geochemical analyses. Frontiers in Earth Science 6, 178 (invited paper).
[37] Yanagida, Y., Nakamura, M., Yasuda, A., Kuritani, T., Nakagawa, M. and Yoshida, T. (2018) Differentiation of a hydrous arc magma recorded in melt inclusions in deep crustal cumulate xenoliths from Ichinomegata maar, NE Japan. Geochemistry, Geophysics, Geosystems 19, 838-864.
[36] Ahmadi, P., Ghorbani, M. R., Coltorti, M., Kuritani, T., Cai, Y., Fioretti, A. M., Braschi, E., Giacomoni, P. P., Aghabazaz, F., Babazadeh, S. and Conticelli, S. (2017) High-Nb hawaiite-mugearite and high-Mg calc-alkaline lavas from northeastern Iran: Oligo-Miocene melts from modified mantle wedge. International Geology Review 61, 150-174.
[35] Liu, J., Xia, Q.-K., Kuritani, T., Hanski, E. and Yu, H.-R. (2017) Mantle hydration and the role of water in the generation of large igneous provinces. Nature Communications 8, 1824.
[34] Bergal-Kuvikas, O., Nakagawa, M., Kuritani, T., Muravyev, Y., Malik, N., Klimenko, E., Amma-Miyasaka, M., Matsumoto, A. and Shimada, S. (2017) A petrological and geochemical study on time-series samples from Klyuchevskoy volcano, Kamchatka arc. Contributions to Mineralogy and Petrology 172, 35.
[33] Kuritani, T., Sakuyama, T., Kamada, N., Yokoyama, T. and Nakagawa, M. (2017) Fluid-fluxed melting of mantle versus decompression melting of hydrous mantle plume as the cause of intraplate magmatism over a stagnant slab: implications from Fukue Volcano Group, SW Japan. Lithos 282-283, 98-110.
[32] Kuritani, T. and Nakagawa, M. (2016) Origin of ultra rear-arc magmatism at Rishiri Volcano, Kuril arc. Geochemistry, Geophysics, Geosystems 17, 4032-4050.
[31] Kuritani, T., Tanaka, M., Yokoyama, T., Nakagawa, M. and Matsumoto, A. (2016) Intensive hydration of the wedge mantle at the Kuril arc-NE Japan arc junction: implications from mafic lavas from Usu Volcano, northern Japan. Journal of Petrology 57, 1223-1240.
[30] Miyamoto, H., Niihara, T., Kuritani, T., Hong, P., Dohm, J. and Sugita, S. (2016) Cluster analysis on the bulk elemental compositions of Antarctic stony meteorites. Meteoritics & Planetary Science 51, 906-919.
[29] Asaah, A. N. E., Yokoyama, T., Aka, F. T., Usui, T., Kuritani, T., Wirmvem, M. J., Iwamori, H., Fozing, E. M., Tamen, J., Mofor, G. Z., Ohba, T., Tanyileke, G. and Hell, J. V. (2015) Geochemistry of lavas from maar-bearing volcanoes in the Oku Volcanic Group of the Cameroon Volcanic Line. Chemical Geology 406, 55-69.
[28] Kuritani, T., Yoshida, T., Kimura, J.-I., Takahashi, T., Hirahara, Y., Miyazaki, T., Senda, R., Chang, Q. and Ito, Y. (2014) Primary melt from Sannome-gata volcano, NE Japan arc: constraints on generation conditions of rear-arc magmas. Contributions to Mineralogy and Petrology 167, 969.
[27] Kuritani, T., Yoshida, T., Kimura, J.-I., Hirahara, Y. and Takahashi, T. (2014) Water content of low-K tholeiitic basalt from Iwate Volcano, NE Japan Arc: implications for differentiation mechanism of frontal-arc basalt magmas. Mineralogy and Petrology 108, 1-11.
[26] Kuritani, T., Kimura, J.-I., Ohtani, E., Miyamoto, H. and Furuyama, K. (2013) Transition zone origin of potassic basalts from Wudalianchi volcano, northeast China. Lithos 156-159, 1-12.
[25] Kuritani, T., Ohtani, E. and Kimura, J.-I. (2011) Intensive hydration of the mantle transition zone beneath China caused by ancient slab stagnation. Nature Geoscience 4, 713-716.
[24] Kuritani, T., Yokoyama, T., Kitagawa, H., Kobayashi, K. and Nakamura, E. (2011) Geochemical evolution of historical lavas from Askja Volcano, Iceland: implications for mechanisms and timescales of magmatic differentiation. Geochimica et Cosmochimica Acta 75, 570-587.
[23] Kuritani, T., Yoshida, T. and Nagahashi, Y. (2010) Internal differentiation of Kutsugata lava flow from Rishiri Volcano, Japan: processes and timescales of segregation structures formation. Journal of Volcanology and Geothermal Research 195, 57-68.
[22] Kuritani, T., Kimura, J.-I., Miyamoto, T., Wei, H., Shimano, T., Maeno, F., Jin, X. and Taniguchi, H. (2009) Intraplate magmatism related to deceleration of upweling asthenospheric mantle: implications from the Changbaishan shield basalts, northeast China. Lithos 112, 247-258.
[21] Kuritani, T. (2009) The relative roles of boundary layer fractionation and homogeneous fractionation in cooling basaltic magma chambers. Lithos 110, 247-261.
[20] Malaviarachchi, S. P. K., Makishima, A., Tanimoto, M., Kuritani, T. and Nakamura, E. (2008) Highly unradiogenic lead isotope ratios from the Horoman peridotite in Japan. Nature Geoscience 1, 859-863.
[19] Kuritani, T., Yokoyama, T. and Nakamura, E. (2008) Generation of rear-arc magmas induced by influx of slab-derived supercritical liquids: implications from alkali basalt lavas from Rishiri Volcano, Kurile Arc. Journal of Petrology 49, 1319-1342.
[18] Ishikawa, A., Kuritani, T., Makishima, A. and Nakamura, E. (2007) Ancient recycled crust beneath the Ontong Java Plateau: isotopic evidence from the garnet clinopyroxene xenoliths, Malaita, Solomon Islands. Earth and Planetary Science Letters 259, 134-148.
[17] Kuritani, T., Yokoyama, T. and Nakamura, E. (2007) Rates of thermal and chemical evolution of magmas in a cooling magma chamber: a chronological and theoretical study on basaltic and andesitic lavas from Rishiri Volcano, Japan. Journal of Petrology 48, 1295-1319.
[16] Kuritani, T., Usui, T., Yokoyama, T. and Nakamura, E. (2006) Accurate isotopic and concentration analyses of small amounts of Pb using isotope dilution coupled with the double spike technique. Geostandards and Geoanalytical Research 30, 209-220.
[15] Yokoyama, T., Kuritani, T., Kobayashi, K. and Nakamura, E. (2006) Geochemical evolution of a shallow magma plumbing system during the last 500 years, Miyakejima volcano, Japan: constraints from 238U-230Th-226Ra systematics. Geochimica et Cosmochimica Acta 70, 2885-2901.
[14] Kuritani, T. and Nakamura, E. (2006) Elemental fractionation in lavas during post-eruptive degassing: evidence from trachytic lavas, Rishiri Volcano, Japan. Journal of Volcanology and Geothermal Research 149, 124-138.
[13] Kuritani, T., Kitagawa, H. and Nakamura, E. (2005) Assimilation and fractional crystallization controlled by transport process of crustal melt: implications from an alkali basalt-dacite suite from Rishiri Volcano, Japan. Journal of Petrology 46, 1421-1442.
[12] Kuritani, T. (2004) Magmatic differentiation examined with a numerical model considering multicomponent thermodynamics and momentum, energy and species transport. Lithos 74, 117-130.
[11] Nakamura, E., Makishima, A., Moriguti, T., Kobayashi, K., Sakaguchi, C., Yokoyama, T., Tanaka, R., Kuritani, T. and Takei, H. (2003) Comprehensive geochemical analyses of small amounts (<100mg) of extraterrestrial samples for the analytical competition related to the sample return mission MUSES-C. The Institute of Space and Astronautical Science Report SP16, 49-101.
[10] Yokoyama, T., Kobayashi, K., Kuritani, T. and Nakamura, E. (2003) Mantle metasomatism and rapid ascent of slab components beneath island arcs: evidence from 238U-230Th-226Ra disequilibria of Miyakejima volcano, Izu arc, Japan. Journal of Geophysical Research 108, 2329.
[9] Kuritani, T. and Nakamura, E. (2003) Highly precise and accurate isotopic analysis of small amounts of Pb using 205Pb-204Pb and 207Pb-204Pb, two double spikes. Journal of Analytical Atomic Spectrometry 18, 1464-1470.
[8] Kuritani, T., Yokoyama, T., Kobayashi, K. and Nakamura, E. (2003) Shift and rotation of composition trends by magma mixing: 1983 eruption at Miyake-jima Volcano, Japan. Journal of Petrology 44, 1895-1916.
[7] Yokoyama, T., Nakamura, E., Kobayashi, K. and Kuritani, T. (2002) Timing and trigger of arc volcanism controlled by fluid flushing from subducting slab. Proceedings of the Japan Academy 78, 1-6.
[6] Kuritani, T. and Nakamura, E. (2002) Precise isotope analysis of nanogram-level Pb for natural rock samples without use of double spikes. Chemical Geology 186, 31-43.
[5] Kuritani, T. (2001) Replenishment of a mafic magma in a zoned felsic magma chamber beneath Rishiri Volcano, Japan. Bulletin of Volcanology 62, 533-548.
[4] Kuritani, T. (1999c) Boundary layer fractionation constrained by differential information from the Kutsugata lava flow, Rishiri Volcano, Japan. Journal of Geophysical Research 104, 29401-29417.
[3] Kuritani, T. (1999b) Thermal and compositional evolution of a cooling magma chamber by boundary layer fractionation: model and its application for primary magma estimation. Geophysical Research Letters 26, 2029-2032.
[2] Kuritani, T. (1999a) Phenocryst crystallization during ascent of alkali basalt magma at Rishiri Volcano, northern Japan. Journal of Volcanology and Geothermal Research 88, 77-97.
[1] Kuritani, T. (1998) Boundary layer crystallization in a basaltic magma chamber: evidence from Rishiri Volcano, northern Japan. Journal of Petrology 39, 1619-1640.
<総説・解説> [5] 栗谷 豪 (2021) 火山岩の全岩化学組成分析.火山 66: 147-156.
[4] 栗谷 豪 (2012) マントル遷移層と水.日本地球惑星科学連合ニュースレター 8: 9-11.
[3] 栗谷 豪 (2010) 中国北東部・新生代玄武岩マグマの成因:地球化学的研究のレビュー.東北アジア研究センター叢書 41: 53-69.
[2] 栗谷 豪 (2007) 水とマグマ.地学雑誌 116: 133-153.
[1] 栗谷 豪 (2007) ウラン系列短寿命核種を用いた地殻下におけるマグマ進化の時間スケールの解明:研究の現状と課題.火山 52: 71-78.
<学位論文> [#] Kuritani, T. (2000) Thermal and chemical evolution of a crustal magma chamber: constraints from differential information on erupted materials. Ph.D thesis, University of Tokyo (supervisor: Prof. H. Nagahara).
[#] Kuritani, T. (1997) Boundary layer crystallization in basaltic and andesitic magma chambers: evidence from alkali basalt and trachytic andesite from Rishiri Volcano. Master thesis, University of Tokyo (supervisor: Prof. K. Ozawa).
[#] Kuritani, T. (1995) Origin of alkali basalt and trachytic andesite from Rishiri Volcano. Graduate thesis, University of Tokyo (supervisor: Prof. K. Ozawa).