小山内康人 scite author profile

This paper reports on the laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) U-Pb dating of zircon and on the field emission electron probe microanalyzer (FE-EPMA) U-Th-Pb dating of monazite from pelitic granulites and the surrounding Itoshima granodiorite from the Mt. Ukidake area, Sefuri Mountains, northern Kyushu. Zircons from the Itoshima granodiorite give an age of Ma. Metamorphic domains within zircons from pelitic granulites yield a slightly older age of Ma, which is consistent with ages of-Ma obtained from analysis of monazite by U-Th-Pb dating using FE-EPMA. Analysis of inherited domains within zircons from the pelitic granulite gives a narrow range of ages from to Ma, with a youngest age of Ma. These ages are comparable with those of the Renge metamorphic rocks in north Kyushu, although the age and conditions of metamorphism at Renge are significantly different from the granulites analyzed here. Metamorphic ages for the granulites are nearly identical to the reheating age of the Higo metamorphic rocks in central Kyushu, as well as the main metamorphic age of the Ryoke metamorphic rocks in southwest Japan. However, the age distributions of detrital zircons from the Mt. Ukidake area are different from those of the Higo and Ryoke metamorphic rocks, implying a different provenance for each metamorphic rock unit.

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LA-ICP-MS zircon U-Pb geochronology of Paleozoic granitic rocks and related igneous rocks from the Kurosegawa tectonic belt in Kyushu, Southwest Japan

康人¹,

紋²,

伸彦³

et al. 2014

Japanese Magazine of Mineralogical and Petrological Sciences

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岩石鉱物科学 43, 71 99, 2014 九州・黒瀬川構造帯における古生代花崗岩類および関連火成岩類の LA ICP MS ジルコン U Pb 年代 LA ICP MS zircon U Pb geochronology of Paleozoic granitic rocks and related igneous rocks from the Kurosegawa tectonic belt in Kyushu, Southwest JapanThe Yatsushiro area in Kyushu Island, southwest Japan, forms the western tip of the Kurosegawa tectonic belt. This area is underlain by a serpentinite melange with complicated tectonic block assemblage of granitic rocks, high temperature (HT) type metagabbro (Grt Cpx granulite, Grt amphibolite and Cpx bearing amphibolite), and high pressure (HP) type metagabbro (Jd Gln rock and Gln bearing metagabbro). The granitic rocks and the gabbros are the protoliths of the HT type metagabbro (HT gabbro), and supposed to be derived from volcanic arc at an active continental margin based on their major, trace, and rare earth element (REE) chemistry, while geochemistry of the gabbro protoliths of the HP type metagabbro (HP gabbro) indicates mid oceanic ridge basalt (MORB) like precursors. The laser ablation inductively coupled plasma mass spectrometry (LA ICP MS) zircon U Pb dating of the granitic rocks and the HT gabbro gave the Ordovician magmatic ages (～ 450 Ma). On the other hand, the HP gabbro showed the igneous age of the Late Cambrian (～ 490 Ma). Similar rock suites collected from the Kurosegawa tectonic belt in Shikoku and in the Kii peninsula have the same chemical and age a‹nities according to their rock types. These results indicate the strong geological and tectonic similarities within the Kurosegawa tectonic belt. The similar assemblage is present in the South Kitakami belt suggesting similarities in their origin.

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P-T Conditions of Granulite-Facies Rocks From the Hidaka Metamorphic Belt, Hokkaido, Japan

康人¹,

一則²,

光隆³

1986

Jour. Geol. Soc. Japan

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Poly-metamorphism, anatexis and formation of granitic magma due to intrusion of the Niobetsu complex during Miocene, the Nozuka-dake area, Hidaka metamorphic belt, northern Japan

正明¹,

徹²,

康人³

et al. 2006

Jour. Geol. Soc. Japan

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