@article{oai:kanazawa-u.repo.nii.ac.jp:00057348,
 author = {Arai, Shoji and 荒井, 章司},
 issue = {3},
 journal = {地質学雑誌, The Journal of the Geological Society of Japan},
 month = {Mar},
 note = {筆者の研究を中心として，マントル岩由来の砕屑物（特に砕屑性クロムスピネル）の解析法およびその意義を総括した．マントル岩由来の砕屑物は機械的・化学的性質が特異であり，独特の意義を有する．クロムスピネルは岩石学的に重要ないくつかの元素を主要成分として含み，かんらん岩の成因を解釈する上で重要な鉱物である．その組成は，関与したマグマの組成の違いおよびサブソリダスでの冷却・変成により変化する．侵食・運搬・堆積・続成過程では化学組成の変化はなく，後背地の解析のよいツールとなる．砕屑性クロムスピネルはオマーン・オフィオライトマントル部のようなかんらん岩体の性質を概観するのに有効である．また，蛇紋岩メランジュのマトリックスのように強く破砕されたかんらん岩体の性質を理解するのに威力を発揮する．かんらん岩体を，相伴う砕屑性粒子と合わせて解析できればさらに有効である．環伊豆地塊蛇紋岩帯はよい適用例を示す．, Detrital materials supplied from mantle-derived rocks have peculiar mechanical and chemical characteristics that make them excellent sedimentological and tectonic markers. Chromian spinels are well known and favored petrogenetic indicators because they contain several important cations, including Mg2+, Fe2+, Cr3+, Al3+, and Fe3+, as their main components. The Mg/(Mg + Fe2+) ratio (= Mg#), Cr/(Cr + Al) ratio (= Cr#), and Ti concentration are important parameters that are commonly analyzed to petrologically characterize chromian spinels. The main hosts in the chromian spinels of mantle peridotites (harzburgite and lherzolite) and their serpentinized equivalents are Mg# and Cr#, which are controlled by the equilibrium temperature (degree of subsolidus cooling) and degree of melt extraction, respectively. The chromian spinels in detritus materials are chemically stable during sedimentation processes, and can thus serve as powerful indicators of the tectonic and geologic history of the hinterland. The derivation of detrital chromian spinels, peridotites (serpentinites), chromitites, or volcanics can be partially identified by analyzing their Mg#, Cr#, and Ti concentrations in combination with their textures. The petrologic character of highly sheared serpentinite, such as the matrix of a serpentinite mélange complex, sometimes yields an inconclusive geodynamic history, but this can potentially be inferred from detrital chromian spinels in nearby sediments. Detrital chromian spinels from modern sediments are also useful for obtaining a general view of large peridotite bodies, such as the mantle section of the Oman ophiolite. When we compare the detrital spinels with those from in situ rocks, we should note that the host rocks containing the detritus material have already been eroded. If we analyze the serpentinite sandstones together with their closely associated peridotite bodies, we can possibly obtain information on the petrologic heterogeneity of the upper mantle. Our petrographic investigation of the Circum-Izu Massif Serpentinite Belt, central Japan, provides a good example of such a combined analysis of these peridotite-serpentinite sandstone pairs., 金沢大学理工研究域自然システム学系},
 pages = {153--169},
 title = {マントル岩起源砕屑物の解析},
 volume = {124},
 year = {2018}
}