著者
伊藤 弘志 植木 俊明 岡村 行信
出版者
海洋調査技術学会
雑誌
海洋調査技術 (ISSN:09152997)
巻号頁・発行日
vol.28, no.1, pp.p1-1-P1-6, 2016

To estimate the scale and feature of earthquake, the location and geometry of faults are important information. Japan Coast Guard conducted the seismic reflection survey in the focal area of the 1964 Niigata Earthquake in order to extract the location and geometry of faults in 2004, but tectonic geomorphological implications were not considered then. In this study the parameters of the multibeam echo sounder were estimated and the location and geometry of faults were extrapolated from the geographic map. They almost corresponded with the distribution of faults evaluated on the seismic reflection profile. More certain structural map was compiled from both results.
著者
井上 卓彦 村上 文敏 岡村 行信 池原 研
出版者
地震研究所
雑誌
東京大学地震研究所彙報 (ISSN:00408972)
巻号頁・発行日
vol.82, no.4, pp.301-312, 2007

The 2007 Noto Hanto Earthquake (MJMA 6.9) occurred on 25 March, 2007 at 37°13.2′N, 136°41.1′E, under the northwestern coast of Noto Peninsula, Ishikawa Prefecture. To clarify distribution and activity of active fault, a high-resolution multi-channel seismic survey was carried out in the source area using Boomer and a 12 channel streamer cable. Seismic profiles depict geologic structure up to 150 meters deep under sea floor. Sedimentary sequences ranging in age from Miocene to Holocene time are deformed by ENE-WSW to N-S trending folds and faults. The deformed sediments were truncated by erosional surfaces. The age of erosion is not clear in the offshore area, but the most remarkable erosion surface was formed at the Last Glacial Maximum (LGM) age. The surface is covered by Holocene sediments up to 40m thick. A NW downthrown fault continues in the ENE-WSW direction for more than 21 kilometers. The fault cuts Neogene sediments, but the deformation in the Holocene sediments is recognized as flexure. The fault is located near the northern margin of the aftershock area of the 2007 earthquake, supporting that the fault is connected to the source fault of the 2007 earthquake. The deformations in the Holocene sediments increase downward, indicating that the fault slipped repeatedly during the period of Holocene time. Comparison between the 3.5kHz SBP profiles obtained in 1988 and twelve channel seismic profiles after the earthquake suggests that the deformation during the 2007 earthquake occurred on the seafloor along the fault.
著者
岡村 行信
出版者
一般社団法人 日本地質学会
雑誌
地質学雑誌 (ISSN:00167630)
巻号頁・発行日
vol.116, no.11, pp.582-591, 2010
被引用文献数
14

日本海東縁で発生した大地震の震源域と地質構造とを比較すると,大部分の震源域は幅15~20 kmの非対称な背斜構造に重なる.傾斜30~45°前後の逆断層が厚さ10~15 kmの上部地殻を切ると,その幅が10~20 kmになることから,日本海東縁に広く分布する同じような幅を持った背斜構造は震源断層を含む逆断層全体の上盤の変形によって形成された可能性が高い.2004年中越地震の震源域では褶曲構造を断層関連褶曲であると仮定して推定した断層形状が,震源断層とよく一致することが示されたが,同じような関係が日本海東縁の他の背斜構造にも適用できるかどうか検討する必要がある.地質構造から震源断層の位置を推定することができれば,将来発生する地震による地震動の推定精度を向上させることができ,地震災害の軽減に貢献できる.
著者
岡村 行信
出版者
公益社団法人 日本地震学会
雑誌
地震 第2輯 (ISSN:00371114)
巻号頁・発行日
vol.71, pp.185-199, 2019
被引用文献数
5

<p>An active fault map of Japan Sea was compiled based mainly on bathymetric data and seismic profiles that cover shelves to slopes between 4 to 150 km from the coasts of Japan Islands. The seismic profiles using air guns as seismic sources revealed active faults that have slipped during the last 104 to 106 years. In addition, high-resolution seismic profiles using a boomer as the seismic source were obtained along seaward extensions of onshore active faults in shallow sea areas less than 150 m below sea-level, and activity of the faults during the last 104 years was identified. In northeastern Japan Sea, to the northeast of the Noto Peninsula, many reverse faults accompanying large hanging wall anticlines (>750 m uplift) are concentrated in two N-S trending fault zones along the Okushiri and Sado ridges. Earthquakes larger than M 7.5 in 1940, 1964, 1983 and 1993 occurred in these fault belts. Three NE-SW trending fault zones cross the N-S trending fault zones and disrupt the structure of the N-S fault zones. In the offshore area from the Noto Peninsula to the Tango Peninsula, active reverse faults accompanying smaller hanging anticlines (<375 m uplift) are identified in a zone trending subparallel to the coasts. In addition, NW-SE to N-S trending strike-slip and reverse faults extend from onshore to offshore. In the offshore area to the west of the Tango Peninsula, E-W and NW-SE trending active strike-slip faults are identified. The former faults developed in about 40 km wide zones sub-parallel to the coast, and the later faults are located landward of the E-W trending fault zones. Some of the later faults are extensions of onshore active faults. Unknown active faults may exist in shallow sea area along coasts where have not been thoroughly investigated. Displacements of the faults during the last 106 years are large in northeastern Japan Sea and decrease to the southwest, while slip rates of these faults during the last 104 years are inferred to have smaller differences. These faults have the potential of future earthquakes, while there is not enough data to evaluate the activities of these faults.</p>
著者
岡村 行信
出版者
国立研究開発法人 産業技術総合研究所
雑誌
Synthesiology (ISSN:18826229)
巻号頁・発行日
vol.5, no.4, pp.234-242, 2012
被引用文献数
7

歴史文書に記録されている西暦869年貞観地震を解明するため、地層に残された津波堆積物を詳細に調査し、津波の数値計算を組み合わせて津波規模を推定した。2011年東北地方太平洋沖地震は、その推定よりかなり大きかったが、津波堆積物が過去の巨大津波の証拠であり、巨大津波の警告であることを証明した。この貞観地震に関する研究成果は地震調査研究推進本部に提出され、2011年3月にはおよそ評価が終わっていたが、社会に周知する直前に地震が発生してしまった。このようなことを繰り返さないためにも、巨大地震に関する研究成果はできるだけ早く社会へ伝える必要がある。同時に、信頼できる研究を進めることも重要である。