Structural Growth Rate of the Eastern Margin of the Suzuka Range during Quaternary.

Accession number;99A0960528
Title;Structural Growth Rate of the Eastern Margin of the Suzuka Range during Quaternary.
Author; ISHIYAMA TATSUYA (Kyoto Univ., Grad. Sch.) TAKEMURA KEIJI (Kyoto Univ., Grad. Sch.) OKADA ATSUMASA (Kyoto Univ., Grad. Sch.)
Journal Title;Journal of the Seismological Society of Japan. Second Series
Journal Code:G0931A
ISSN:0037-1114
VOL.52;NO.2;PAGE.229-240(1999)
Figure&Table&Reference;FIG.9, TBL.1, REF.27
Pub. Country;Japan
Language;Japanese
Abstract;A seismic reflection profile implies that foothills and terrace surfaces in the eastern margin of the Suzuka Range are underlain by an east-facing monocline. Based on the stratigraphy of the late Pliocene-middle Pleistocene Tokai Group and a drill core of 500 m deep, we correlated distinct seismic reflectors to the boundaries between the Komeno Formation and the Oizumi Formation of the Tokai Group. Analysis of growth strata demonstrates that monoclinal uplift of the Tokai Group and Paleozoic rocks began since the beginning of the deposition of the lowermost part of the Tokai Group (ca. 3.0 Ma). Total vertical growth and shortening of the bottom of the Tokai Group during the deposition of the growth strata are estimated to more than 1,800 m and 1,000 m, respectively. Using an age of 2.9.+-.0.2 Ma for the Ichinohara volcanic ash, which overlies near the bottom of the Tokai Group, based on fission track method, uplift rate since late Pliocene is >0.58-0.68 mm/yr, and horizontal shortening rate is >0.30-0.37 mm/yr. The resulting long-term structural growth rates are comparable to those of the Fumotomura fault during late Quaternary based on previous geomorphic studies, which suggests that the Fumotomura fault is responsible for the growth of the monocline. If so, the fact that terraces are deformed more narrowly than the Tokai Group implies that the monocline and the warping of terrace surfaces is fault-propagation fold.
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