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ARAI Shoji 様の なかよし論文データベース

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+(A list of literatures under single or joint authorship with "ARAI Shoji")

共著回数と共著者名 (a list of the joint author(s))

  1. ARAI Shoji
  2. MORISHITA Tomoaki
  3. ABE Natsue, ISHIDA Yoshito, TAMURA Akihiro
  4. ISHIMARU Satoko
  5. HISADA Ken-ichiro
  6. YURIMOTO Hisayoshi
  7. SHIMIZU Yohei
  8. KADOSHIMA Kazuyuki
  9. MATSUMOTO Takuya, YAMAMOTO Junji
  10. AHMED Ahmed H., GERVILLA Fernando, HIRAI Hisatoshi, KIDA Megumi, MATSUKAGE Kyoko, NAKAI Shun'ichi, TAKAHASHI Natsuko
  11. AHMED Ahmed Hassan, ANDAL Eric S., HASEBE Noriko, YOSHIKAWA Masako
  12. HIRAI Hisako, KANEOKA Ichiro, MATSUDA Jun-ichi
  13. CEULENEER Georges, CHARUSIRI Punya, CHEN Yuelong, GAHLAN Hisham A., GREEN David H., HISADA Ken-Ichiro, KAGI Hiroyuki, KHEDR Mohamed Zaki, KUMAGAI Hidenori, LEE Yong Il, NINOMIYA Atusi, OKRUGIN Victor M., PRIKHOD'KO Vladimir S., PYTHON Marie, SETA Akihiro, SHIRASAKA Miki, TAKEBE Masamichi, YAMAMOTO Koshi
  14. CHUTAKOSITKANON Vichai, GOTO Kiyoshi, HIRANO Naoto, ITO Kazumi, KIM Taehoon, KOBAYASHI Yasuko, MICHIBAYASHI Katsuyoshi, MUROTA Yuichi, NINOMIYA Atsusi, NISHIO Yoshiro, OKAMURA Hidenobu, SHIBATA Tomoyuki, SUGIYAMA Masaaki, SUMINO Hirochika, SUZUKI Kenji, TAKASHIMA Shizuka, UENO Katsumi
  15. ABBOU-KEBIR Khadidja, ABDEL-AZIZ Yaser M., AHMED Hasan, AIHARA Keiko, AKIZAWA Norikatsu, ALI Murad, ALI Murad A., ARATAKE Koji, ATTIA Abdel Kader, BARRAT Jean-Alix, CARTER Andrew, CHAROENTITIRAT Titima, CHARUSI Punya, CLARKE D. BARRIE, CLARKE D. Barrie, CURTICE Joshua M, DICK Henry J.B., FRANCIS Donald M., FUJIOKA Toshiyuki, GANZAWA Yoshihiro, GERVILLA Fernand, GHATAS Sabah N. Boulis, GOTO Shusaku, HANGHOJ Karen, HARA Kaori, HART Stanley R., HATTORI H. Keiko, HATTORI Keiko, HATTORI Keiko H., HELMY Hassan M., HELMY Hassan Mohamed, HIRAUCHI Ken-ichi, HISADA Ken'ichiro, HISADA Ken-ichi, HURFORD Anthony J., IGO Hisayoshi, IKEHATA Kei, IKENNE Moha, INAGAKI Yuka, ISHIHARA Takashi, ISHII Takako, ISHIWATARI Akira, ISMAIL Sabah A., ISOBE Eiichi, Jr., KASHIWAYA Kenji, KELEMEN Peter B., KIJI Michio, KINUGASA Seiichiro, KODERA Tadahiro, KURZ Mark D, LAI Yong, LEE Yong-Il, MAEDA Jinichiro, MAKITA Mitsuo, MAKITA Muneaki, MARUOKA Teruyuki, MARUYAMA Tomoyo, MASUDA Jun-ichi, MATSUMOTO Ichiro, MATSUZAWA Maki, MIYASHITA Sumio, MOGI Noriko, NAEINI Tahmineh Pirnia, NAKAMURA Kentaro, NAKAMURA Masaru, NAKAZAWA Emi, NEGORO Asako, NEO Natsuki, NINOMIYA Atsushi, NINOMIYA Chima, NISHIMURA Koshi, NOTSU Kenji, OBATA Masaaki, OHTOMO Yukiko, OKINO Kyoko, OKUMURA Tasuku, OKUNO Masayuki, OKUZAWA Koichi, OOHARA Tatsuya, OYAMA Takahiro, PAYOT Bechaida D., PAYOT Betchaida, PAYOT Betchaida D., PIRNIA Tahmineh, PRIKHOD'KO Vladmir S., PRIKOH'KO Vladimir S., RAHIMI Abdellatif, RAJESH V.J., RYTHON Marie, SAEKI Yasuhiro, SASHIDA Katsuo, SATISH-KUMAR M., SATO Keiko, SATSUKAWA Takako, SAWAGUCHI Takashi, SHIMODA Gen, SHUKUNO Hiroshi, SINNO Isamu, SMITH Douglas, SUMITA Ryosuke, SUZUKI Yukari, TAKADA Shuichi, TAKAI Ken, TAKAMI Masao, TAKAZAWA Eiichi, TAKEMOTO Yoshitoshi, TAKEUCHI Miyuki, TAMAYO Jr. Rodolfo A., TANAKA Chima, TERADA Kentaro, TORABI Ghodrat, TORAMARU Atsushi, UESUGI Jiro, UTO Kozo, VYSOTSKIY Sergei, YAGI Nobuyuki, YAMAGUCHI Haruka, YAMAGUCHI Takako, YAMAMOTO Masayoshi, YAMASAKI Toru, YASUDA Atsushi, YOSHITAKE Naoya, YUMUL G.P., YUMUL G.P.Jr., YUMUL Jr Graciano P., YUMUL Jr. G.P.

発行年とタイトル (Title and year of the issue(s))

  1. Compositional Variation of Olivines in Rocks of the Tari Misaka Ultramafic Complex and its Interpretation [search@G] [search@A]
  2. Contact Metamorphosed Dunite Harzburgite Complex in the Chugoku District, Western Japan [search@G] [search@A]
  3. A Massive Chromitite Nodule in Alkali Olivine Basalt from Takashima, Southwestern Japan [search@G] [search@A]
  4. Chromian Spinel Lamellae in Olivin from the Iwanai dake Peridotite Mass, Hokkaido, Japan [search@G] [search@A]
  5. Polygenetic Olivines in Chromitite from the Tari Misaka Ultramafic Complex, Western Japan [search@G] [search@A]
  6. Dunite Harzburgite Chromitite Complexes as Refractory Residue in the Sangun Yamaguchi Zone, Western Japan [search@G] [search@A]
  7. Ultramafic Mafic Inclusions from Sannomegata Crater, Oga Peninsula, Japan, with Special Reference to the Petrographical Difference from the Ichinomegata Inclusions [search@G] [search@A]
  8. Frequency of ultramafic rocks as inclusions in some alkali basalts from southwestern Japan and its bearing on the constitution of the upper mantle [search@G] [search@A]
  9. Unusual olivine in peridotite from Ochiai Hokubo ultramafic complex, western Japan [search@G] [search@A]
  10. Petrographical notes on deep seated and related rocks (1) Mantle peridotites from Kurose and Noyamadake alkali basalts, southwestern Japan [search@G] [search@A]
  11. Finding of Nepheline in some Alkali Basalts from Southwestern Japan [search@G] [search@A]
  12. Igneous Mineral Equilibria in Some Alpine Type Peridotites in Japan [search@G] [search@A]
  13. Petrographical notes on deep seated and related rocks (2) Carbonate bearing iron rich lherzolite xenolith in alkali basalt from Takashima, southwestern Japan [search@G] [search@A]
  14. Petrographical notes on deep seated and related rocks (3) Ultramafic and mafic xenoliths in alkali basalt from Mejika Yama, Sera Plateau, south western Japan [search@G] [search@A]
  15. Pressure temperature dependent compositional variation of phlogopitic micas in upper mantle peridotites [search@G] [search@A]
  16. Application of a total system of 200kV analytical electron microscope to the study of fine texture of minerals and rocks [search@G] [search@A]
  17. Compositional variation calcic amphiboles in Mineoka metabasites, central Japan, and its bearing on the actinolite horblende miscibility relationship [search@G] [search@A]
  18. Formation of Analcime and Phillipsite in Hydrous Basanites from Southwestern Japan [search@G] [search@A]
  19. Iron meteorite paragenesis, a new group of mineral inclusions in diamond [search@G] [search@A]
  20. K/Na Variation in Philogopite and Amphibole of Upper Mantle Peridotites due to Fractionation of the Metasomatizing Fluids [search@G] [search@A]
  21. Nickeloan manganoan subcalcic actinolite in a metachert from the Mineoka belt, central Japan [search@G] [search@A]
  22. Electron petrography of relic fluid inclusions in olivines from solid intrusive peridotites [search@G] [search@A]
  23. K Ar ages of carbonate and mantle nodule bearing lamprophyre dikes from Shingu, central Shikoku, Southwest Japan [search@G] [search@A]
  24. Petrographical notes on deep seated and related rocks (5) Compositional relationships between olivine and chromian spinel in some volcanic rocks from Iwate and Rishiri volcanos, NE Japanese Arc [search@G] [search@A]
  25. Petrology of Peridotite Xenoliths in Lamprophyre from Shingu, Southwestern Japan: Implications for Origin of Fe rich Mantle Peridotites [search@G] [search@A]
  26. Phlogopites in the solid intrusive periotites: their modes of occurrence and chemical characteristics [search@G] [search@A]
  27. Petrographical notes on deep seated and related rocks (6) Petrological characteristics of primary peridotites from the Uenzaru complex, the Hidaka belt, Hokkaido, Japan [search@G] [search@A]
  28. Compositional Variation of Phlogopites from the Uenzaru Peridotite Mass of the Hidaka Belt, Hokkaido, Japan [search@G] [search@A]
  29. Formation and compositional variation of phlogopites in the Horoman peridotite complex, Hokkaido, northern Japan : implications for origin and fractination of metasomatic fluids in the upper mantle [search@G] [search@A]
  30. Itsukaichi Serpentinites in the Kanto Mountains, Central Japan Possibility of Eastern Extension of Kurosegawa Tectonic Zone [search@G] [search@A]
  31. Petrological Characteristics of the Upper Mantle Peridotites Beneath the Japan Island Arcs [search@G] [search@A]
  32. Textural and chemical features of chromian spinel pyroxene symplectites in the Horoman peridotites, Hokkaido, Japan [search@G] [search@A]
  33. Chemical Compositions of Chromian Spinel and Olivine in Some Alkaline Basalts from Japan [search@G] [search@A]
  34. The Circum Izu Massif Periodotite, Central Japan, as Back Arc Mantle Fragments of the Izu Bonin Arc System [search@G] [search@A]
  35. Chemistry of chromain spinel in volcanic rocks as a potential guide to magma chemistry [search@G] [search@A]
  36. Mesozoic Melanges and Associated Rocks in the Kanto Mountains (C10) [search@G] [search@A]
  37. Origin of Podiform Chromitites from Southwest Japan as a Melt Mantle Interaction (I 3 38 P 1) [search@G] [search@A]
  38. Variations of siderophile and chalcophile trace elements among mantle derived sulphides detected by in situ micro PIXE analysis (V41B 8) [search@G] [search@A]
  39. Origin of the sub cratonic harzburgite [search@G] [search@A]
  40. Petrographical characteristics of ultramafic xenoliths from Megata volcano, the Northeast Japan arc [search@G] [search@A]
  41. Sedimentary origin of ophicalcite in the Sambagawa metamorphic rocks, Kanto Mountains, central Japan [search@G] [search@A]
  42. Textural characteristics of olivine crystals in the Oshima Oshima picrite basalt and their genetical implications [search@G] [search@A]
  43. The mantle processes beneath the Island arc: Implications from peridotite xenoliths from the Megata volcano, Japan [search@G] [search@A]
  44. Characterization of spinel peridotites by olivine spinel compositional relationships: Review and interpretation [search@G] [search@A]
  45. Compositional variation of olivine chromian spinel in Mg rich magmas as a guide to their residual spinel peridoties [search@G] [search@A]
  46. Occurrence of detrial chromian spinels from the end Permian sedimentary complex, Shikoku, and its implications for the tectonic setting of the Kurosegawa landmass [search@G] [search@A]
  47. Podiform Chromitites of the Tari Misaka Ultramafic Complex, Southwestern Japan, as Mantle Melt Interaction Products [search@G] [search@A]
  48. Reaction of peridotite xenoliths with host magmas as an analogue of mantle melt interaction: microscopic characteristics [search@G] [search@A]
  49. Serpentinite protruded into fore arc region: implications of detrital chromian spinels in Cretaceous sandstones of the Kanto Mountains, Japan [search@G] [search@A]
  50. Cretaceous serpentinite protrusion along eastern border of Asian continent deduced from detrital chromian spinels [search@G] [search@A]
  51. Occurrence of detrital chromian spinels and its implication: tectonic setting of Matsugadaira Motai belt, NE Japan [search@G] [search@A]
  52. Petrology of the Uppermost Mantle beneath the Island Arc and Its Relationship with Arc Magmatism [search@G] [search@A]
  53. Possible sub arc origin of podiform chromitites [search@G] [search@A]
  54. Reaction of orthopyroxene in peridotite xenoliths with alkali basalt melt and its implication for genesis of alpine type chromitite [search@G] [search@A]
  55. Textural characteristics of olivine crystals in the Oshima Oshima picrite basalt and their genetical implications [search@G] [search@A]
  56. Classification of peridotite xenoliths in calc lakaline andesite from Iraya volcano, Batan Island, the Philippines, and its genetical implicaitons [search@G] [search@A]
  57. Detrital Minerals in Surface Sediments from Hess Deep, Equatorial Pacific: Implications for the Lithologic Spread of Mafic Ultramafic Rocks [search@G] [search@A]
  58. Mode of occurrence of plagioclase rich segregation in the Horoman peridotite [search@G] [search@A]
  59. Occurrence and its tectonic significance of chromian spinels from the Kanmon Group, SW Japan [search@G] [search@A]
  60. Petrology of Ultramafic Xenoliths from Batan Island, The Philippines : Implications for the Deep Process beneath a Young Arc [search@G] [search@A]
  61. Petrology of Ultramafic Xenoliths from Batan Island, the Philippines: Implications for the Deep Process beneath a Young Arc [search@G] [search@A]
  62. The occurrence of symplectites produced by a reaction between olivine and plagioclase in the Magarisawa peridotite body of the Hidaka metamorphic belt, Hokkaido, Japan [search@G] [search@A]
  63. Transformation from plagioclase peridotite to spinel peridotite in the Horoman peridotite complex of the Hidaka belt, Hokkaido, Japan: as an indicator of the latest P T conditions for the mantle diapir [search@G] [search@A]
  64. Concentration of incompatible elements in oceanic mantle: Effect of melt/wall interaction in stagnant or failed melt conduits within peridotite [search@G] [search@A]
  65. Corrections to Vesicle layering in solidified intrusive magma bodies: a newly recognized type of igneous structure [search@G] [search@A]
  66. Detrital chromian spinels from the Tobigamori and Karaumedate Formations in the Mt. Tobigamori area, South Kitakami Mountains, NE Japan [search@G] [search@A]
  67. Mesozonic Peridotite Protrusion in the Joetsu Belt, Central Japan [search@G] [search@A]
  68. Detrital Chromian Spinels from Site 960 in the Cote D'ivoire Ghana Transform Margin [search@G] [search@A]
  69. Diversity of carbonate occurrences at the Fizh massif in the northern part of the Oman ophiolite; a preliminary report [search@G] [search@A]
  70. Geochemical Charactaristics of the Wedge Mantle: Implications from Petrology of Arc Peridotite Xenoliths (V41A 7) [search@G] [search@A]
  71. Geochemical characteristics of the uppermost mantle beneath the Japan island arcs: implications for upper mantle evolution [search@G] [search@A]
  72. Jadeite, albite and nepheline as inclusions in spinel of chromitite from Hess Deep, equatorial Pacific their genesis and implications for serpentinite diapir formation [search@G] [search@A]
  73. Petrology of a chromitite micropod from Hess Deep, equatorial Pacific: a comparison between abyssal and alpine type podiform chromitites [search@G] [search@A]
  74. Detrital Chromian Spinels from the Nam Duk Formation: A Key to Elucidate the Tectonic Evolution of Central Mainland Southeast Asia and the Loei Suture Zone in Thailand [search@G] [search@A]
  75. Gondwana marginal subduction zone deduced from the chemistry of chromian spinels in Upper Devonian sandstone, Japan [search@G] [search@A]
  76. Morphological variations of chromian spinel in dunite and harzburgite from the Sangun zone, Southwest Japan, as a market of melt/peridotite reaction [search@G] [search@A]
  77. Origin of Highly Refractory Peridotites: Implications for Diversity of High Mg Andesite Magma Genesis [search@G] [search@A]
  78. Tectonic Significance of Detrital Chromian Spinels from the Early Cretaceous Jinju Formation, SE Korea [search@G] [search@A]
  79. Tectonic implication of Lower Cretaceous chromian spinel bearing sandstones in Japan and Korea [search@G] [search@A]
  80. Three dimensional textural characteristics of symplectite from the Horoman peridotite, Hokkaido, Japan [search@G] [search@A]
  81. Detrital chromian spinels from the Nam Maholan Formation, Loei area, northeastern Thailand [search@G] [search@A]
  82. Origin of fine grained peridotite xenoliths from Iraya volcano of Batan lslsnd, Philippines: deserpentinization or metasomatism at the wedge mantle beneath an incipient arc ? [search@G] [search@A]
  83. 40Ar 39Ar analysis of phlogopite in the Horoman Peridotite Complex, Hokkaido, Japan and implications for its origin [search@G] [search@A]
  84. A Relic of Planetary like He 3/He 4 Ratio in Archean Komatiite [search@G] [search@A]
  85. Chemical analysis of detrital chromian spinels from the Lizard area, Cornwall, England: an attempt for lithological and petrological survey of the Lizard peridotite [search@G] [search@A]
  86. Geological, petrographical and petrological characteristics of ultramafic mafic xenoliths in Kurose and Takashima, northern Kyushu, southwest Japan [search@G] [search@A]
  87. Helium in the Archaean komatiites revisited: significantly high 3He/4He ratios revealed by fractional crushing gas extraction [search@G] [search@A]
  88. High pressure aluminous mafic rocks from the Ronda peridotite massif, southern Spain: significance of sapphirine and corundum bearing mineral assemblages [search@G] [search@A]
  89. Petrogenesis of Corundum Bearing Mafic Rock in the Horoman Peridotite Complex, Japan [search@G] [search@A]
  90. Petrological and geochemical characteristics of the lherzolite harzburgite suite in the northern Oman ophiolite: implications for evolutional processes of the upper mantle [search@G] [search@A]
  91. Petrological characteristics of podiform chromitites and associated peridotites of the Pan Afirincan Proterozoic ophiolite complexes of Egypt [search@G] [search@A]
  92. Petrology of peridotite xenoliths in alkali basalt (11 Ma) from Boun, Korea: an insight into the upper mantle beneath in the East Asian continental margin [search@G] [search@A]
  93. The upper crustal podiform chromitite from the northern Oman ophiolite as the stratigraphically shallowest chromitite in ophiolite, and its implication for Cr concentration [search@G] [search@A]
  94. Two contrasting melting styles of mantle peridotite in the northern Oman ophiolite: An indication of a switch of their tectonic setting [search@G] [search@A]
  95. Fossil pressures of fluid inclusions in mantle xenoliths exhibiting rheology of mantle minerals: implications for the geobarometry of mantle minerals using micro Raman spectroscopy [search@G] [search@A]
  96. Helium in the Archean komatiites revisited: significantly high 3He/4He ratios revealed by fractional crushing gas extraction [search@G] [search@A]
  97. Li Sr Nd isotopic systematics of mantle xenoliths from plate convergent areas [search@G] [search@A]
  98. Possible platinum group element (PGE) oxides in the PGE mineralized chromitite from the Northern Oman Ophiolite [search@G] [search@A]
  99. Selenium, Tellurium, Arsenic and Antimony Contents of Primary Mantle Sulfides [search@G] [search@A]
  100. Closed system geochemical recycling of crustal materials in alpine type peridotite [search@G] [search@A]
  101. Evolution of Low Al Orthopyroxene in the Horoman Peridotite, Japan: an Unusual Indicator of Metasomatizing Fluids [search@G] [search@A]
  102. Evolution of spinel pyroxene symplectite in spinel lherzolites from the Horoman Complex, Japan [search@G] [search@A]
  103. Felsic Veins in Peridotite Xenoliths from Arc: Implications for Behavior of Silicic Melts within Mantle Wedge [search@G] [search@A]
  104. Helium Isotope Signatures of Peridotites and Basalts from Atlantis Bank, Indian Ocean (V11E 0540) [search@G] [search@A]
  105. Metasomatized harzburgite xenoliths from Avacha volcano as fragments of mantle wedge of the Kamchatka arc: Implication for the metasomatic agent [search@G] [search@A]
  106. Overview of Platinum Group Elements (PGE) Concentrations in the Mantle Section of the Proterozoic Ophiolite, Egypt, and Phanerozoic Ophiolite, Oman(37 3) [search@G] [search@A]
  107. Petrological Characteristics of Peridotite Xenoliths from Arcs: An Insight into Wedge Mantle Processes (V06/30A/A05 006) [search@G] [search@A]
  108. Petrological feature of spinel lherzolite xenolith from Oki Dogo Island: An implication for variety of the upper mantle peridotite beneath southwestern Japan [search@G] [search@A]
  109. Petrology of an apatite rich layer in the Finero phlogopite peridotite, Italian Western Alps; implications for evolution of a metasomatising agent [search@G] [search@A]
  110. Platinum Group Minerals in Podiform Chromitites of the Oman Ophiolite [search@G] [search@A]
  111. Quartz diorite veins in a peridotite xenolith from Tallante, Spain: implications for reaction and survival of slab derived SiO2 oversaturated melt in the upper mantle [search@G] [search@A]
  112. Reconstruction of tectonic evolution of the Sa Kaeo Chanthaburi accretionary complex, eastern Thailand Detrital chromian spinel studies [search@G] [search@A]
  113. Evidence for subduction related components in the subcontinental mantle from low 3He/4He and 40Ar/36Ar ratio in mantle xenoliths from Far Eastern Russia [search@G] [search@A]
  114. Inhomogeneous spinel in chromitite from the Iwatani dake peridotite complex, Hokkaido, Japan: variations of spinel unmixing texture and chemical composition [search@G] [search@A]
  115. Lithium isotopic systematics of the mantle derived ultramafic xenoliths: implications for EM1 origin [search@G] [search@A]
  116. Lithological Mapping of the Sub Arc Uppermost Mantle: Implications from Petrology and Mineral Chemistry of the Peridotite Xenoliths [search@G] [search@A]
  117. Major Minor and Trace Elements of the Cretaceous Kaolins, Egypt [search@G] [search@A]
  118. Missing ophiolitic rocks along the Mae Yuam Fault as the Gondwana Tethys divide in north west Thailand [search@G] [search@A]
  119. Petrochemical characteristics of felsic veins in mantle xenoliths from Tallante (SE Spain): an insight into activity of silicic melt within the mantle wedge [search@G] [search@A]
  120. Petrology of Peridotite Xenoliths from Iraya Volcano, Philippines, and its Implication for Dynamic Mantle Wedge Processes [search@G] [search@A]
  121. Possible Non melted Remnants of Subducted Lithosphere: Experimental and Geochemical Evidence from Corundum Bearing Mafic Rocks in the Horoman Peridotite Complex. Japan [search@G] [search@A]
  122. Simultaneous in situ multi element analysis of minerals on thin section using LA ICP MS [search@G] [search@A]
  123. Complete mantle section of a slow spreading ridge derived ophiolite: An example from the Isabela ophiolite in the Philippines [search@G] [search@A]
  124. Determination of Multiple Trace Element Compositions in Thin (< 30 my m) Layers of NIST SRM 614 and 616 Using Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA ICP MS) [search@G] [search@A]
  125. Detrital chromian spinels from the Minokuchi and Uzuhiki Formations in the Itsukaichi area of the Kanto Mountains, central Japan [search@G] [search@A]
  126. Li isotopic analysis with MC ICP MS and its application to mantle xenoliths from Avacha volcano, the Kamchatka arc [search@G] [search@A]
  127. Noble gases in the Finero phlogopite peridotites, western Italian Alps [search@G] [search@A]
  128. Petrochemical characteristics of felsic veins in mantle xenoliths from Tallante (SE Spain): an insight into activity of silicic melt within the mantle wedge [search@G] [search@A]
  129. Role of dunite in genesis of primitive MORB [search@G] [search@A]
  130. Simultaneous determination of multiple trace element compositions in thin (<30 my m) layers of BCR 2G by193 nm ArF excimer laser ablation ICP MS: implications for matrix effect and elemental fractionation on quantitative analysis [search@G] [search@A]
  131. Unmixed spinel in chromitite from the Iwanai dake peridotite complex, Hokkaido, Japan: A reaction between peridotite and highly oxidized magma in the mantle wedge [search@G] [search@A]
  132. A new type of orthopyroxenite xenolith from Takashima, Southwest Japan: silica enrichment of the mantle by evolved alkali basalt [search@G] [search@A]
  133. Corundum bearing mafic granulites in the Horoman (Japan) and Ronda (Spain) Peridotite Massifs: Possible remnants of recycled crustal materials in the mantle [search@G] [search@A]
  134. Dunite Wehrlite Olivine Clinopyroxenite Series Rocks from the North Fiji Basin as Deep Seated Rocks from the Backarc Basin [search@G] [search@A]
  135. Evidence for primitive magmatism at segment end on ultraslow spreading ridges: A case study from the Atlantis II Fracture Zone, Southwest Indian Ridge [search@G] [search@A]
  136. Fertile peridotites from the Isabela Ophiolite: fragments of the lower part of a Cretaceous oceanic lithosphere [search@G] [search@A]
  137. Geochemical and petrological features of fine grained peridotite xenoliths from Avacha volcano, the southern Kamchatka [search@G] [search@A]
  138. Geochemistry of Clinopyroxene in Peridotites from the Nukabira Complex, northern Japan: Residues of Multi Stage Melting [search@G] [search@A]
  139. Geochemistry of clinopyroxene in peridotites from the Nukabira complex, Kamuikotan zone, Hokkaido, Japan : a LA ICP MS study [search@G] [search@A]
  140. Harzburgite dunite orthopyroxenite suite as a record of supra subduction zone setting for the Oman ophiolite mantle [search@G] [search@A]
  141. Hydrous metasomatic overprinting in mantle section of the Isabela ophiolite, Philippines [search@G] [search@A]
  142. Isotopic compositions of noble gas and carbon in the Archean carbonatites from the Sillinjarvi mine, central Finland [search@G] [search@A]
  143. Late intrusive rocks in the Oman ophiolite as a peridotite/melt reaction product [search@G] [search@A]
  144. Li isotopic composition of mantle xenoliths from Avacha volcano, the Kamchatka arc : its relationship to subduction related mantle metasomatism [search@G] [search@A]
  145. Origin of magnetite veins in serpentinite from the Late Proterozoic Bou Azzer ophiolite, Anti Atlas, Morocco: An implication for mobility of iron during serpentinization [search@G] [search@A]
  146. Origin of orthopyroxenite in the Horoman peridotite complex, Japan: A natural example of products after partial melting of heterogeneous mantle materials [search@G] [search@A]
  147. Osmium isitope systematics of the Proterozoic and Phanerozoic ophiolitic chromitites: In situ ion probe analysis of primary Os rich PGM [search@G] [search@A]
  148. Petrological Feature of Mantle Xenoliths From Bir Ali Area, Yemen: An Implication For Mantle Processes Related to The Rifted Continental Margin [search@G] [search@A]
  149. Petrological feature of crust and mantle xenoliths in petit spot volcano: Implications for the structure of the old oceanic plate(V31D 0607) [search@G] [search@A]
  150. Petrological structure of the uppermost mantle beneath a mid ocean ridge: an example from Wadi Rajmi, northern Oman ophiolite [search@G] [search@A]
  151. Petrology and geochemistry of mantle xenoliths from petit spot volcano, NW Pacific Plate [search@G] [search@A]
  152. Podiform chromitites in the lherzolite dominant mantle section of the Isabela ophiiolite, the Philippines [search@G] [search@A]
  153. Radiation damage or chemical composition? Raman spectroscopy of zircon [search@G] [search@A]
  154. The Geochemistry of Volatile Species in Olivine Hosted Melt Inclusions from Izu Oshima Volcano, Japan (V41A 19) [search@G] [search@A]
  155. The Properties of the Mantle of the Japan Sea and Its Importance: Towards an Explanation of the Formation of the Japan Sea [search@G] [search@A]
  156. Trace element mineral chemistry of peridotite xenoliths, Green Knobs [search@G] [search@A]
  157. What is the Upper Mantle Peridotite of Back arc Basin? [search@G] [search@A]
  158. Clinopyroxene rich lherzolite xenoliths from Bir Ali, Yemen possible product of peridotite/melt reactions [search@G] [search@A]
  159. Genesis of peculiarly zoned Co, Zn and Mn rich chromian spinel in serpentinite of Bou Azzer ophiolite, Anti Atlas, Morocco [search@G] [search@A]
  160. Mantle peridotites from the Western Pacific [search@G] [search@A]
  161. Melting and Multi stage Metasomatism in the Mantle Wedge beneath a Frontal Arc Inferred from Highly Depleted Peridotite Xenoliths from the Avacha Volcano, Southern Kamchatka [search@G] [search@A]
  162. Occurrence and chemical composition of amphiboles and related minerals in corundum bearing mafic rock from the Horoman Peridotite Complex, Japan [search@G] [search@A]
  163. Oman diopsidites: a new lithology diagnostic of very high temperature hydrothermal circulation in mantle peridotite below oceanic spreading centres [search@G] [search@A]
  164. Trace element compositions of jadeite (+omphacite) in jadeitites from the Itoigawa Ohmi district, Japan: Implications for fluid processes in subduction zones [search@G] [search@A]
  165. Trace element heterogeneity in hydrothermal diopside: evidence for Ti depletion and Sr Eu LREE enrichment during hydrothermal metamorphism of mantle harzburgite [search@G] [search@A]
  166. U series Disequilibrium Dating applied to Zircons from Unzen volcano(11 P 24) [search@G] [search@A]
  167. Arsenide in a metasomatized peridotite xenolith as a constraint on arsenic behavior in the mantle wedge [search@G] [search@A]
  168. Chromian spinels in mafic ultramafic mantle dykes: Evidence for a two stage melt production during the evolution of the Oman ophiolite [search@G] [search@A]
  169. Comparison of calibration methods to estimate chemical concentrations using Laser Ablation Inductively Coupled Plasma Mass Spectrometer (LA ICP MS); mean count rate vs integrated signal intensity [search@G] [search@A]
  170. Corona structure from arc mafic ultramafic cumulates: The role and chemical characteristics of late magmatic hydrous liquids [search@G] [search@A]
  171. Early Cretaceous paleogeography of Korea and Southwest Japan inferred from occurrence of detrital chromian spinels [search@G] [search@A]
  172. Fertile abyssal peridotites within the Franciscan subduction complex, central California: Possible origin as detached remnants of oceanic fracture zones located close to a slow spreading ridge [search@G] [search@A]
  173. Geochemistry of apatite rich layers in the Finero phlogopite peridotite massif (Italian Western Alps) and ion microprobe dating of apatite [search@G] [search@A]
  174. Insights into Petrological Characteristics of the Lithosphere of Mantle Wedge beneath Arcs through Peridotite Xenoliths: a Review [search@G] [search@A]
  175. Magmatic unmixing in spinel from late Precambrian concentrically zoned mafic ultramafic intrusions, Eastern Desert, Egypt [search@G] [search@A]
  176. Nickel enrichment in mantle olivine beneath a volcanic front [search@G] [search@A]
  177. Origin and significance of spinel pyroxene symplectite in lherzolite xenoliths from Tallante, SE Spain [search@G] [search@A]
  178. Origin of Moho from the Oman Ophiolite: Foreseeing of the Mohole Result? [search@G] [search@A]
  179. Petrology and geochemistry of peridotites from IODP Site U1309 at Atlantis Massif, MAR 30 degrees N: micro and macro scale melt penetrations into peridotites [search@G] [search@A]
  180. Petrology of the Yugu peridotites in the Gyeonggi Massif, South Korea: Implications for its origin and hydration process [search@G] [search@A]
  181. The Avacah peridotite xenolith suite from Kamachatka arc as a window to sub volcanic front mantle processes [search@G] [search@A]
  182. Carbonate orthopyroxenite lenses from the Neoproterozoic Gerf ophiolite, South Eastern Desert, Egypt: The first record in the Arabian Nubian Shield ophiolites [search@G] [search@A]
  183. Chromitite and peridotite from Rayat, northeastern Iraq, as fragments of a Tethyan ophiolite [search@G] [search@A]
  184. Constraints on the evolutionary history of aluminous mafic rocks in the Ronda peridotite massif (Spain) from trace element compositions of clinopyroxene and garnet [search@G] [search@A]
  185. Geochemical characteristics of chloritization of mafic crust from the northern Oman ophiolite: Implications for estimating the chemical budget of hydrothermal alteration of the oceanic lithosphere [search@G] [search@A]
  186. Geochemistry of metasomatized peridotites above subducting slab: a case study of hydrous metaperidotites from Happo O'ne complex, central Japan [search@G] [search@A]
  187. Highly silicic glasses in peridotite xenoliths from Avacha volcano, Kamchatka arc; implications for melting and metasomatism within the sub arc mantle [search@G] [search@A]
  188. Igneous, Alteration and Exhumation Processes Recorded in Abyssal Peridotites and Related Fault Rocks from an Oceanic Core Complex along the Central Indian Ridge [search@G] [search@A]
  189. Intergranular trace elements in mantle xenoliths from Russian Far East: Example for mantle metasomatism by hydrous melt [search@G] [search@A]
  190. LA ICP MS analysis of pressed powder pellets to luminescence geochronology [search@G] [search@A]
  191. Melt impregnated plagioclase lherzolites of the Nain me lange, central Iran, as a recorder of continental rifting [search@G] [search@A]
  192. Metal saturated peridotite in the mantle wedge inferred from metal bearing peridotite xenoliths from Avacha volcano, Kamchatka [search@G] [search@A]
  193. Mineralogy and Paragenesis of the Co Ni Arsenide Ores of Bou Azzer, Anti Atlas, Morocco [search@G] [search@A]
  194. Origin of graphite in glimmerite and spinellite in Achankovil Shear Zone, southern India [search@G] [search@A]
  195. Petrologic profile of peridotite layers under a possible Moho in the northern Oman ophiolite: an example from Wadi Fizh [search@G] [search@A]
  196. Rock seismic anisotropy of the low velocity zone beneath the volcanic front in the mantle wedge [search@G] [search@A]
  197. Subarc magmatic and hydration processes inferred from a hornblende peridotite xenolith in spessartite from Kyoto, Japan [search@G] [search@A]
  198. The effect of chemical etching on LA ICP MS analysis in determining uranium concentration for fission track chronometry [search@G] [search@A]
  199. Unusual ultra depleted dunite from Sibuyan Island (the Philippines): a residue for ultra depleted MORB? [search@G] [search@A]
  200. Clinopyroxenes in high P metaperidotites from Happo O'ne, central Japan: Implications for wedge transversal chemical change of slab derived fluids [search@G] [search@A]
  201. Origin of spinel free dunites associated with podiform chromitites from northern Oman ophiolite [search@G] [search@A]
  202. Petrology and chemistry of rodingite dykes in the mantle section of the Oman ophiolite(SCG086 P15) [search@G] [search@A]
  203. Petrology and geochemistry of prograde peridotites from Happo O'ne, Japan : evidence of element mobility during deserpentinization [search@G] [search@A]
  204. Possible recycled origin for ultrahigh pressure chromitites in ophiolites [search@G] [search@A]
  205. Post deformational impregnation of depleted MORB in Nain lherzolite (Central Iran) [search@G] [search@A]
  206. Trace element and Sr Nd isotopic features of ultramafic xenoliths from Kurose, Southwest Japan [search@G] [search@A]
  207. Understanding the nature of the lower arc crust: The Calaton Hill complex vis a vis the Ichinomegata crustal xenoliths(SIT038 P15) [search@G] [search@A]
  208. Unraveling sub arc melt peridotite reactions in the Sibuyan Ultramafics, Romblon, Central Philippines [search@G] [search@A]
  209. Chemical characteristics of chromian spinel in plutonic rocks: Implications for deep magma processes and discrimination of tectonic setting [search@G] [search@A]
  210. Peculiar Mg Ca Si metasomatism along a shear zone within the mantle wedge: inference from fine grained xenoliths from Avacha volcano, Kamchatka [search@G] [search@A]
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