Initiation of the Unazuki Belt, Southwest Japan, during the Carboniferous as an island arc system along the North China Craton

IF 1.8 3区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

International Journal of Earth Sciences Pub Date : 2024-05-13 DOI:10.1007/s00531-024-02422-w

Chang Whan Oh, Kenta Kawaguchi, Bo Young Lee, Seung Hwan Lee, Takeshi Imayama

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Abstract

The Unazuki Belt, Southwest Japan, is a part of the Hida Belt, which is characterized as a plutono-metamorphic complex with a continental affinity formed between the late Paleozoic and early Mesozoic. The Unazuki Belt is known to be an important tectonic unit for the tectonic correlation between the proto-Japan and East Asian continents as it records Permo–Triassic tectono-thermal events, however, comprehensive chronology of the Unazuki Belt including the timing of the initiation of this Belt is yet unclear. The present study reveals certain Carboniferous magmatic and sedimentation events from the Unazuki Belt and their tectonic implications for the first time as follows. Zircon U–Pb age dating results and whole-rock geochemical compositions show that the protoliths of metagranite and metatrachyandesite in the Unazuki Belt formed at 328.2 ± 4.4 Ma and 332.8 ± 2.2 Ma, respectively, in an arc tectonic setting. Most metasedimentary rocks of the Unazuki Belt have the youngest detrital zircon grains of ~ 300 Ma with the Carboniferous single cluster at ~ 340–300 Ma without any Pre-360 Ma detrital zircon grains. However, one metasedimentary rock with Precambrian detrital zircons (~ 20%) has the youngest detrital zircon age of ~ 252 Ma, and ~ 66% of detrital zircons show a Permian age. Most of the ε_Hf(t) values of zircon grains from all the studied Unazuki Belt samples, including the metasedimentary and metaigneous rocks with Carboniferous ages (~ 360–300 Ma) are positive (+ 6– + 18), whereas those of the zircon grains with Permian ages (~ 280–260 Ma) show wide variations between + 16 and -23. The whole-rock geochemical compositions of the ~ 300 Ma metasedimentary rocks of the Unazuki Belt show an island arc tectonic setting, whereas those of ~ 252 Ma metasedimentary rock have a continental arc affinity. These new data suggest that (1) igneous and sedimentary rocks in the Unazuki Belt formed in the island arc tectonic setting separated from the margin of continental crust during the Carboniferous but shifted to the continental arc tectonic setting during the latest Permian, (2) the collision between the island arc and continental arc may have caused the intermediate-P/T metamorphism during the Permian in the Unazuki Belt. The Carboniferous island arc tectonic setting in the Unazuki Belt indicates that the Hida Belt, including the Unazuki Belt, formed not at the margin of the South China Craton where Carboniferous subduction is absent but on the continuous subduction zone located along the eastern margin of the North China Craton, including the eastern margin of the northern Korean Peninsula where Carboniferous subduction occurred.

Graphical Abstract

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日本西南部宇奈月带（Unazuki Belt）在石炭纪时期作为华北克拉通沿岸的岛弧系统开始形成

日本西南部的宇奈月带（Unazuki Belt）是飞驒带（Hida Belt）的一部分，飞驒带的特征是在古生代晚期和中生代早期之间形成的具有大陆亲缘关系的增生变质复合带。宇奈月带记录了二叠三叠世构造热事件，是原日本大陆和东亚大陆构造关联的重要构造单元，但宇奈月带的全面年代学，包括该带的起始时间尚不清楚。本研究首次揭示了宇奈月带的某些石炭纪岩浆和沉积事件及其构造影响，具体如下。锆石U-Pb年龄测定结果和全岩地球化学成分显示，宇奈月带的偏闪长岩和偏闪长岩的原岩分别形成于328.2±4.4Ma和332.8±2.2Ma的弧构造环境中。宇奈月带大多数变质岩最年轻的锆英石碎屑约为300 Ma，石炭纪单个岩群的锆英石碎屑约为340-300 Ma，没有任何360 Ma以前的锆英石碎屑。然而，一块含有前寒武纪锆石的变质岩（约20%）的最年轻锆石年龄为约252 Ma，约66%的锆石显示为二叠纪年龄。在所有研究的宇奈月带样品中，包括石炭纪（约 360-300 Ma）的变质岩和元成岩的锆石颗粒的εHf(t)值大多为正值（+ 6- + 18），而二叠纪（约 280-260 Ma）的锆石颗粒的εHf(t)值则在 + 16 和 -23 之间变化很大。宇奈月带〜300Ma变质岩的全岩地球化学成分显示了岛弧构造背景，而〜252Ma变质岩的全岩地球化学成分则与大陆弧有亲缘关系。这些新数据表明：(1)宇奈月带的火成岩和沉积岩在石炭纪形成于与大陆地壳边缘分离的岛弧构造环境中，但在二叠纪晚期转变为大陆弧构造环境；(2)岛弧与大陆弧的碰撞可能导致了宇奈月带二叠纪中期的P/T变质作用。宇奈月带的石炭纪岛弧构造背景表明，包括宇奈月带在内的飞驒带不是形成于没有石炭纪俯冲的华南克拉通边缘，而是形成于华北克拉通东缘的连续俯冲带，包括发生石炭纪俯冲的朝鲜半岛北部东缘。

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来源期刊

International Journal of Earth Sciences 地学-地球科学综合

CiteScore

4.60

自引率

4.30%

发文量

120

审稿时长

4-8 weeks

期刊介绍： The International Journal of Earth Sciences publishes process-oriented original and review papers on the history of the earth, including - Dynamics of the lithosphere - Tectonics and volcanology - Sedimentology - Evolution of life - Marine and continental ecosystems - Global dynamics of physicochemical cycles - Mineral deposits and hydrocarbons - Surface processes.