日本地球惑星科学連合2015年大会

講演情報

口頭発表

セッション記号 M (領域外・複数領域) » M-ZZ その他

[M-ZZ45] 地球科学の科学史・科学哲学・科学技術社会論

2015年5月24日(日) 14:15 〜 15:00 203 (2F)

コンビーナ:*矢島 道子(東京医科歯科大学教養部)、青木 滋之(会津大学文化研究センター)、山田 俊弘(千葉県立船橋高等学校)、吉田 茂生(九州大学大学院理学研究院地球惑星科学部門)、座長:青木 滋之(会津大学文化研究センター)、吉田 茂生(九州大学大学院理学研究院地球惑星科学部門)

14:48 〜 14:51

[MZZ45-P02] だまし絵としての日本海―日本海拡大論の系譜―

ポスター講演3分口頭発表枠

*眞島 英壽1 (1.明治大学黒耀石研究センター)

キーワード:日本海, 拡大テクトニクス, 理論負荷性, パラダイム

The opening tectonics of the Sea of Japan is a classic geological issue of Japanese geology. There are two extreme models proposed for this issue, the double-door opening (DDO) model and the pull-apart model, respectively. The pull-apart model could logically explain geological features of the Sea of Japan, such as structural features of the Tsushima basin and the Tsuhima-Goto Fault, even paleomagnetic declinations if strike-slip components of earthquake vibration caused by strong mechanical coupling between the oceanic plates and Japan arcs are took into account. Nevertheless, the DDO model was predominantly adopted by Japanese geologists to use as a basic assumption to explain Cenozoic Japanese tectonics, even magmatism and seismicity.
The present DDO model was proposed based on paleomagnetic declinations in SW Japan (e.g. Otofuji & Matsuda, 1983, 1984). Geological test of the model, however, is insufficient. For example, the DDO model advocators regard that the Pre-Cambrian Hida Zone in SW Japan is the northeastern extension of the Okchon Belt in Korea. Ichikawa (1972), however, had pointed out that it is the northern maximum of the reconstruction to regard the Oki (Hida) zone as an extension of the the Yeongnam Massif at the south of the Okchon Belt, since there is no Pre-Cambrian zone at the south of the Hida Zone. Ichikawa (1972) also mentioned that Matsumoto (1967) had implied that the Okchon Belt would not constitute to Japan. The DDO model advocators, however, did not pay any attention to these suggestions.
In fact, geological relationship between north Kyushu and SE Korea indicates that SW Japan did not significantly rotate with respect to fixed Korea. Faults oriented to NNE-SSW strike both in the Sangun granites in north Kyushu and in the Bulguksa granite in SE Korea (e.g. Inoue, 1982), which indicating that north Kyushu did not meaningfully rotate with respect to SE Korea. Pre-Cretaceous strata show arraignment oriented to E-W both in north Kyushu and in western Chugoku district (Matsumoto, 1951), which indicate that north Kyushu did not rotate against Honshu. Thus, SW Japan did not significantly rotate with respect to fixed Korea.
In spite of its geological incompleteness, why did Japanese geologists so predominantly adopt the DDO model? In fact, the present DDO model is a revival of the model originally proposed by Koto (1906) based on a rhomboidal shape of the Sea of Japan. Koto (1906) related bending of Honshu with the crotch of the Korean Peninsula and proposed southeastward migration of Japanese Arcs. Terada (1927) inherited this hypothesis in the context of the continental drift. Kobayashi (1941) also did. The model perpetuated as a paradigm by Japanese geologists, then was embroidered with paleomagnetic data in 1980's. There is theory-ladenness, when researchers consider the opening tectonic of the Sea of Japan, since Koto is the authority at the earlier stage of Japanese geological community.
Matsumoto (1949) pointed out that geologists tend to give weight to geologic phenomena observed their living place. In other word, geologists tend to depreciate geologic phenomena at unfamiliar places. This would be applicable to the adaptation of the DDO model. In the current plume debate, plume skeptics pointed of theory-ladenness and disparagement of geology for plume advocators (e.g Anderson and Natland, 2005). The debate of the opening tectonics of the Sea of Japan, therefore, can be regard as a typical geological controversy.