Large-scale landslides in Toyama Prefecture, central Japan, and their probable relationship with earthquakes

详细信息    查看全文

• 作者：Satoru Kojima (1)
  Tamotsu Nozaki (2)
  Hidehisa Nagata (3)
  Ryota Tanahashi (1)
  Ryoich Kondo (1)
  Noriaki Okamura (1)
  Kazuhiro Suzuki (4)
  Akiko Ikeda (4)
  Toshio Nakamura (4)
  Tomoyuki Ohtani (1)
  
• 关键词：Landslide ; 14C ages ; Active fault ; Earthquake ; Japan
• 刊名：Environmental Earth Sciences
• 出版年：2014
• 出版时间：March 2014
• 年：2014
• 卷：71
• 期：6
• 页码：2753-2763
• 全文大小：2,564 KB
• 参考文献：1. Bish DL, Boak JM (2001) Clinoptilolite-heulandite nomenclature. In: Bish DL, Ming DW (eds) Natural zeolites: occurrence, properties, applications. Rev Mineral Geochem, vol 45, Mineralogical Society of America, Washington, DC, pp 207鈥?16
  2. Cencetti C, De Rosa P, Minelli A (2011) A sensitivity analysis on main factors involved in the landslide dam phenomena. Italian J Eng Geol Environ Spec Issue 1:61鈥?1. doi:10.4408/IJEGE.2011-01.S-05
  3. Chigira M, Yagi H (2006) Geological and geomorphological characteristics of landslides triggered by the 2004 Mid Niigta prefecture earthquake in Japan. Eng Geol 82:202鈥?21. doi:10.1016/j.enggeo.2005.10.006 CrossRef
  4. Chigira M, Wu X, Inokuchi T, Wang G (2010) Landslides induced by the 2008 Wenchuan earthquake, Sichuan, China. Geomorphology 118:225鈥?38. doi:10.1016/j.geomorph.2010.01.003 CrossRef
  5. Costa JE, Schuster RL (1988) The formation and failure of natural dams. Geol Soc Am Bull 100:1054鈥?068 CrossRef
  6. Costa JE, Schuster RL (1991) Documented historical landslide dams from around the world. USGS Open-file Rep 91-239
  7. Cruden DM, Varnes DJ (1996) Landslide types and processes. In: Turner AK, Schuster RL (eds) Landslides investigation and mitigation. Transportation Research Board, National Research Council, National Academy Science, Washington, DC, Spec Pap 247, pp 36鈥?5
  8. Editorial Board of History of Unohana Village (1951) History of Unohana Village. Unohana Village Office, Toyama (in Japanese)
  9. Ermini L, Casagli N (2003) Prediction of the behaviour of landslide dams using a geomorphological dimensionless index. Earth Surf Process Landf 28:31鈥?7. doi:10.1002/esp.424 CrossRef
  10. Fukuda F, Ochiai H (1993) Landslides caused by the 1993, Hokkaido Nansei-oki Earthquake. J Jpn Soc Eros Control Eng 46:62鈥?3 (in Japanese)
  11. Ikeda A, Niu E, Nakamura T, Suzuki K (2002) ¹⁴C dating of buried tree trunks found in lake sediments in Kamiyahagi-cho, Gifu Prefecture. Summ Res Using AMS Nagoya Univ 13:147鈥?50 (in Japanese with English abstract)
  12. Inokuchi T, Oyagi N, Shimizu F, Doshida S, Uchiyama S (2011) Large-scale landslides on the basis of the landslide mapping in Japan. Abstr Symp Kanto Branch Landslide Soc Jpn 18鈥?4 (in Japanese)
  13. Japan Landslide Society (2012) Earthquake-induced landslides. Jpn Landslide Soc, Tokyo (in Japanese)
  14. Jibson RW (1996) Use of landslides for paleoseismic analysis. Eng Geol 43:291鈥?23 CrossRef
  15. Koide H (1955) Landslide of Japan. Tokyo-keizai Shinposha, Tokyo (in Japanese)
  16. Kojima S, Nishio Y, Xu S, Nagasawa C, Goto H, Ohtani T, Yairi K (2006a) Lithologic characters and ¹⁴C ages of dammed-lake sediments along the Anegawa River, eastern Shiga Prefecture, central Japan. J Jpn Soc Eng Geol 47:196鈥?07 (in Japanese with English abstract) CrossRef
  17. Kojima S, Nishioka T, Yairi K (2006b) Geological factors of present-day large landslides in subduction-accretion complex area: examples from the Mino terrane, central Japan. J Geol Soc Thail Spec Issue 1:91鈥?00
  18. Korup O (2004) Geomorphometric characteristics of New Zealand landslide dams. Eng Geol 73:13鈥?5 CrossRef
  19. Kurita T, Annaka T, Takahashi S, Shimada M, Suehiro T (2005) Effect of irregular topography on strong ground motion amplification. J Jpn Assoc Earthq Eng 5(3):1鈥?1 CrossRef
  20. Nagata H (2008) Eject induced by 2007 Central Mie Prefecture Earthquake and topographical amplification of ground motion. In: Proceedings of the international conference on management of landslide hazard in the Asia-Pacific region, Sendai, pp 273鈥?81
  21. Nakamura T, Miyahara H, Masuda K, Menjo H, Kuwana K, Kimura K, Okuno M, Minami M, Oda H, Rakowski A, Ohta T, Ikeda A, Niu E (2007) High precision measurements and wiggle-match dating of tree rings at Nagoya University. Nucl Instrum Method Phys Res B 259:408鈥?13. doi:10.1016/j.nimb.2007.02.005 CrossRef
  22. National Astronomical Observatory (1994) Chronological scientific tables. Maruzen, Tokyo (in Japanese)
  23. Ochiai H (1997) Characteristics and mechanism of slope movement induced by earthquake. In: Hokkaido Branch of Japan Landslide Society (ed) Landslides induced by the 1993鈥?994 earthquakes in Hokkaido. Hokkaido Univ Press, Sapporo, pp 3鈥?2 (in Japanese)
  24. Ochiai H, Kitahara H, Sammori T, Abe K (1996) Landslides triggered by the 1995 Hyogo-Ken Nanbu Earthquake in the Rokko mountains. In: Senneset K (ed) Landslides. Balkema, Rotterdam, pp 1007鈥?012
  25. Okuda S, Okunishi K, Suwa H, Yokoyama K, Yoshioka R (1985) Restoration of motion of debris avalanche at Mt. Ontake in 1984 and some discussions on its moving state. Kyoto Univ Disaster Prev Res Inst Annu 28(B-1): 491鈥?04 (in Japanese with English abstract)
  26. Ramsey CB (2001) Development of the radiocarbon calibration program OxCal. Radiocarb 43:355鈥?63
  27. Ramsey CB (2009) Bayesian analysis of radiocarbon dates. Radiocarbon 51:337鈥?60
  28. Reimer PJ, Baillie MGL, Bard E, Bayliss A, Beck JW, Blackwell PG, Bronk RC, Buck CE, Burr GS, Edwards RL, Friedrich M, Grootes PM, Guilderson TP, Hajdas I, Heaton TJ, Hogg AG, Hughen KA, Kaiser KF, Kromer B, McCormac FG, Manning SW, Reimer RW, Richards DA, Southon JR, Talamo S, Turney CSM, van der Plicht J, Weyhenmeyer CE (2009) IntCal09 and Marine09 radiocarbon age calibration curves, 0鈥?0,000聽years聽cal BP. Radiocarbon 51:1111鈥?150
  29. Research Group for the Atotsugawa Fault, Okada A, Takeuchi A, Tsukuda T, Ikeda Y, Watanabe M, Hirano S, Matsumoto S, Takehana Y, Okumura K, Kamishima (Takemura) T, Kobayashi T, Ando M (1989) Trenching study of the Atotsugawa fault at Nokubi, Miyagawa Village, Gifu Prefecture, central Japan. J Geogr (Tokyo) 98:62鈥?5 (in Japanese with English abstract)
  30. Rodriguez CE, Bommer JJ, Chandler RJ (1999) Earthquake-induced landslides: 1980鈥?997. Soil Dyn Earthq Eng 18:325鈥?46 CrossRef
  31. Sakamoto T, Nozawa T (1960) Geological sheet map of Yatsuo (scale 1:50,000) and its explanatory text. Geol Surv Jpn Tsukuba (in Japanese with English abstract)
  32. Sato H, Amano K (1991) Relationship between tectonics, volcanism, sedimentation and basin development, late Cenozoic, central part of Northern Honshu, Japan. Sediment Geol 74:323鈥?43 CrossRef
  33. Schuster RL (1986) A perspective on landslide dams. In: Schuster RL (ed) Landslide dams: processes, risks, and mitigation. Geotech Spec Publ no. 3, American Society of Civil Engineers, New York, pp 1鈥?0
  34. Shibata K (1973) K-Ar ages of volcanic rocks from the Hokuriku Group. Mem Geol Soc Jpn 8:143鈥?49 (in Japanese with English abstract)
  35. Shuzui H (2001) Process of slip-surface development and formation of slip-surface clay in landslides in Tertiary volcanic rocks, Japan. Eng Geol 61:199鈥?19 CrossRef
  36. Swanson FJ, Oyagi N, Tominaga M (1986) Landslide dams in Japan. In: Schuster RL (ed) Landslide dams: processes, risks, and mitigation. Geotech Spec Publ no. 3, American Society of Civil Engineers, New York, pp 131鈥?45
  37. Tabata S, Mizuyama T, Inoue K (2002) Landslide dams and disasters. Kokonshoin, Tokyo (in Japanese)
  38. Takahashi T, Shuto K (1999) Genesis of adakitic andesite, high-magnesian andesite, calc-alkaline andesite and tholeiitic andesite in the Miocene Iwaine Formation, southern part of Toyama Prefecture, Japan. J Geol Soc Jpn 105:789鈥?09 (in Japanese with English abstract) CrossRef
  39. Usami T (1987) List of hazardous earthquakes in Japan. Tokyo Univ Press, Tokyo (in Japanese)
  40. Varnes DJ (1978) Slope movement types and processes. In: Schuster RL, Krizek RJ (eds) Landslides: analysis and control. Transportation Research Board, National Research Council, National Academy Science, Washington, DC, Spec Rep no. 176, pp 11鈥?3
  41. Voight B, Sousa J (1994) Lessons from Ontake-san: a comparative analysis of debris avalanche dynamics. Eng Geol 38:261鈥?97 CrossRef
  42. Wieczorek GF (1996) Landslide triggering mechanisms. In: Turner AK, Schuster RL (eds) Landslides investigation and mitigation. Transportation Research Board, National Research Council, National Academy Science, Washington, DC, Spec Pap 247, pp 76鈥?0
  43. Yamashina S, Yamazaki T, Hashimoto J, Kasai S, Agatsuma T, Shibuya K (2009) Aratozawa landslide triggered by the Iwate-Miyagi Nairiku Earthquake in 2008. J Jpn Landslide Soc 45:392鈥?97 (in Japanese with English abstract) CrossRef
  
• 作者单位：Satoru Kojima (1)
  Tamotsu Nozaki (2)
  Hidehisa Nagata (3)
  Ryota Tanahashi (1)
  Ryoich Kondo (1)
  Noriaki Okamura (1)
  Kazuhiro Suzuki (4)
  Akiko Ikeda (4)
  Toshio Nakamura (4)
  Tomoyuki Ohtani (1)
  
  1. Department of Civil Engineering, Gifu University, Gifu, 501-1193, Japan
  2. Nozaki EG Consulting, Kawasaki, 212-0025, Japan
  3. Fusuido Ltd., Ohbu, 474-0022, Japan
  4. Center for Chronological Research, Nagoya University, Nagoya, 464-8602, Japan
  
• ISSN：1866-6299

文摘

Large-scale landslides along the Kubusu and Besso rivers in Toyama Prefecture are developed in the Miocene Iwaine Formation, which is composed of andesitic lava, tuff, and tuff breccia. In the middle member of this formation, the tuff is easily altered to montmorillonite-bearing rock, and subsequently plays an important role in the development of landslides events, which tend to be large-scale events, as the massive lava of the upper member forms a cap rock over the tuff. The Kiritani and Koinami basins, which are flat intermontane basins located along the Kubusu and Besso rivers, respectively, are interpreted as landslide-dammed lakes, later filled with sediment. Accelerator mass spectrometry 14C ages show that the landslides forming each dam occurred simultaneously, at approximately 2500 BP. These ages were measured from wood fragments embedded in the landslide material of Kiritani, and from an in situ stump drowned during the impoundment of Koinami. If the trigger of these landslides was an earthquake, it is most likely to have been the penultimate event along the Atotsugawa fault zone.