Construction of the Crustal Stress Map in the Kanto Region, central Japan

  • Imanishi Kazutoshi
    AIST, Geological Survey of Japan, Research Institute of Earthquake and Volcano Geology
  • Uchide Takahiko
    AIST, Geological Survey of Japan, Research Institute of Earthquake and Volcano Geology
  • Ohtani Makiko
    AIST, Geological Survey of Japan, Research Institute of Earthquake and Volcano Geology
  • Matsushita Reiken
    AIST, Geological Survey of Japan, Research Institute of Earthquake and Volcano Geology
  • Nakai Misato
    AIST, Geological Survey of Japan, Research Institute of Earthquake and Volcano Geology

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Other Title
  • 関東地域の地殻内応力マップの作成
  • カントウ チイキ ノ チカク ナイオウリョク マップ ノ サクセイ

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Abstract

<p>We constructed a crustal stress map of the Kanto region, central Japan, from earthquake focal mechanism solutions. In order to increase the spatial resolution of the stress map, we included more data than the routine catalog by determining focal mechanisms of small earthquakes down to magnitude 1.5 in approximately the past 14 years. We obtained 1142 well-constrained solutions using P-wave polarity data as well as body wave amplitudes, which successfully filled the gap in the stress fields left by previous studies.</p><p>We merged our focal mechanism catalog with the Japan Meteorological Agency earthquake catalog and that of our previous studies, which have become a source of information on the stress map. For each earthquake, we estimated the direction of the maximum horizontal compressive stress (SHmax) based on plunge angle of the P-, B-, and T-axes. The type of stress field was also determined using rake angles, which provide a single scalar value on a continuous scale varying from −1 (normal faulting) to 0 (strike-slip faulting) to +1 (reverse faulting). We then computed the mean SHmax and type of stress field on a mesh interval of 10 km, which we refer to as a stress map. Compared with previous stress maps in the present study area, our map succeeds in reducing the blank area of stress information and provides higher spatial resolution in stress fields. The stress map reveals a complex stress pattern, which includes sudden changes in the SHmax direction, clockwise SHmax rotation from the Izu Peninsula to its north area, the existence of multiple tectonic stress provinces in the spatial scale of a few 10 km, and normal-faulting stress fields prevailing in the coastal region of the Pacific Ocean. These features are important for understanding local tectonics and evaluating future earthquake risk in this area.</p>

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