T41B-2895
Uplift rates of the marine terraces in the south coast of Japan deduced from in situ cosmogenic 10Be and 26Al

Thursday, 17 December 2015
Poster Hall (Moscone South)
Gen Nagano1, Yusuke Yokoyama2, Atsunori Nakamura2, Hideaki Maemoku3, Yosuke Miyairi2 and Hiroyuki Matsuzaki4, (1)Atmosphere and Ocean Research Institute University of Tokyo, Tokyo, Japan, (2)AORI, The University of Tokyo, Kashiwa-Shi, Chiba, Japan, (3)Hosei University, Chiyoda, Japan, (4)University of Tokyo, Bunkyo-ku, Japan
Abstract:
Marine terraces are low-relief platforms located along coastal areas. They are formed by waves action with the changes in the relative sea level (RSL) that is affected by combined effects of the eustatic sea level (ESL) and the tectonic movements (e.g. uplift, subsidence and isostatic effect). Therefore, determining the ages and the elevations of the marine terraces allows us to reconstruct the ESL and/or the tectonic history of the study area.

The Kii Peninsula and the southern coast of the Shikoku Island are located along the Nankai Trough where the Philippine Sea Plate is subducting under the Eurasian plate. There exist relatively well-preserved marine terraces along the coastal line with the elevation of ca. 50 –100 m. Because of this unique tectonic setting, the terraces are regarded as the suitable counterparts to reconstruct uplift history of the south coast of Japan. However, the ages of these terraces are poorly understood due to the lack of the ash layers that is suitable for the tephrochronology. In this study, we determine the age of the marine terraces using terrestrial in-situ cosmogenic radionuclides (TCN), 10Be and 26Al. This is the first age estimation of the marine terraces in Japan using TCN, allowing us to determine the uplift rates and the seismic history of the region.