Jifu Liu, Yongsheng Zhou. Predicting Earthquakes: The Mw9.0 Tohoku Earthquake and Historical Earthquakes in Northeastern Japan[J]. International Journal of Disaster Risk Science, 2012, 3(3): 155-162. doi: 10.1007/s13753-012-0016-0
Citation: Jifu Liu, Yongsheng Zhou. Predicting Earthquakes: The Mw9.0 Tohoku Earthquake and Historical Earthquakes in Northeastern Japan[J]. International Journal of Disaster Risk Science, 2012, 3(3): 155-162. doi: 10.1007/s13753-012-0016-0

Predicting Earthquakes: The Mw9.0 Tohoku Earthquake and Historical Earthquakes in Northeastern Japan

doi: 10.1007/s13753-012-0016-0
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This research was supported by the State Key Laboratory of Earth Surface Processes and Resource Ecology of Beijing Normal University, State Key Laboratory of Earthquake Dynamics (Grant No. LED2009A01), the Key Project of the National Natural Science Foundation of China (91024024), and the 12th Five-Year Science and Technology Support Program of the Ministry of Science and Technology, China (2012BAK10B03).

  • Available Online: 2021-04-26
  • A magnitude 7.3 foreshock occurred two days before the magnitude 9.0 Tohoku Earthquake. The energy release of earthquakes within two days after the M7.3 earthquake is obviously different from the aftershocks of the Mw9.0 earthquake. But guided by historical earthquake experience, seismologists regarded the M7.3 earthquake as the main shock rather than a foreshock of another greater earthquake. Based on the analysis of historical earthquakes in coastal areas of northeastern Japan, the recurrence time of earthquakes is in quasi-periods of decadal or centennial scale. These quasi-periods are related to fault rupture along subduction zones located in marine environments adjacent to the coast. The probabilistic prediction for future earthquakes made by Japanese seismologists using historical earthquake data is based on a decadal scale quasi-period. It is difficult, however, to make relatively reliable predictions about the recurrence interval of rare great earthquakes based on historical earthquakes due to the very long intervals between large magnitude quakes and the limited historical and scientific records about their characteristics.
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  • CEA (China Earthquake Administration). 2011. Earthquake Catalogues of China and Adjacent Areas (Internal Document) (in Chinese).
    Chen, Y. T. 2009. Earthquake Prediction:Retrospect and Prospect. Science of China 39(12):1633-1658 (in Chinese).
    Geller, R. S., D. D. Jackson, Y. Y. Kagan, and F. Mulargia. 1997. Earthquakes Cannot Be Predicted. Science 275(5306):1616-1617.
    Helmholtz-Centre Potsdam-German Research Centre for Geosciences (GFZ). 2011. GFZ Seismological Data (Exchange Data).
    He, C. R., Y. S. Zhou, and J. Ma. 2011. Tohoku Off-Pacific-Coast Megaquake:Another Lesson from Nature to Mankind. Chinese Journal of Nature 33(2):63-69 (in Chinese).
    Imoto, M., S. Wiemer, and T. Matsuzawa. 2006. Asperity, Repeating Earthquakes and Probabilistic Prediction:New Aspects of Seismic Activity in Kanto Tokai, Japan. Tectonophysics 417(1-2):1-3.
    Ma, S., and C. He. 2001. Period Doubling as a Result of Slip Complexities in Sliding Surfaces with Strength Heterogeneity. Tectonophysics 337(1):135-145.
    Ma, J., and K. Y. Wang. 2008. Earthquake Type and Earthquake Precursor. http://www.hyey.com/Health/sxzt/dizhen/gydz/200805/129118.html (in Chinese).
    Marzocchi, W., and J. D. Zechar. 2011. Earthquake Forecasting and Earthquake Prediction:Different Approaches for Obtaining the Best Model. Seismological Research Letters 82(3):442-448.
    Okada, Y. 2011. Preliminary Report of the 2011 off the Pacific Coast of Tohoku Earthquake. http://www.bosai.go.jp/e/pdf/Preliminary_report110328.pdf.
    Ozawa, S., T. Nishimura, H. Suito, T. Kobayashi, M. Tobita, and T. Imakiire. 2011. Coseismic and Postseismic Slip of the 2011 Magnitude-9 Tohoku-Oki Earthquake. Nature 475(7356):373-376.
    Ran, Y. k., L. C. Chen, J. Chen, H. Wang, G. H. Chen, J. H. Yin, X. Shi, C. X. Li, and X. W. Xu. 2010. Paleoseismic Evidence and Repeat Time of Large Earthquakes at Three Sites along the Longmenshan Fault Zone. Tectonophysics 491(1-4):141-153.
    Sykes, L. R., B. E. Shaw, and C. H. Scholz. 1999. Rethinking Earthquake Prediction. Pure and Applied Geophysics 155(2):207-232.
    Wang, P. D. 2009. Discussion on the Policy for Improving Earthquake Forecast. Recent Developments in World Seismology 2:1-8 (in Chinese).
    Wen, X. Z., F. Du, P. Z. Zhang, and F. Long. 2011. Correlation of Major Earthquake Sequences on the Northern and Eastern Boundaries of the Bayan Har Block, and Its Relation to the 2008 Wenchuan Earthquake. Chinese Journal of Geophysics 54(3):706-716 (in Chinese).
    Wen, X. Z., S. L. Ma, X. W. Xu, and Y. N. He. 2008. Historical Pattern and Behavior of Earthquake Ruptures Along the Eastern Boundary of the Sichuan-Yunnan Faulted-Block, Southwestern China. Physics of the Earth and Planetary Interiors 168(1-2):16-36.
    Wen, X. Z., P. Z. Zhang, F. Du, and F. Long. 2009. The Background of Historical and Modern Seismic Activities of the Occurrence of the 2008 M8.0 Wenchuan, Sichuan, Earthquake. Chinese Journal of Geophysics 52(2):444-454 (in Chinese).
    Xu, S. X., B. Q. Wang, L. M. Jones, X. F. Ma, and P. W. Shen. 1982. The Foreshock Sequence of Haicheng Earthquake and Earthquake Swarm-The Use of Foreshock Sequences in Earthquake Prediction. Tectonophysics 85(1-2):91-105.
    Zhang, G. M., Z. X. Fu, and X. T. Gui. 2001. Introduction to Earthquake Prediction. Beijing:Science Press (in Chinese).
    Zhang, P. Z., X. W. Xu, X. Z. Wen, and Y. K. Ran. 2008. Slip Rates and Recurrence Intervals of the Longmen Shan Active Fault Zone, and Tectonic Implications for the Mechanism of the May 12 Wenchuan Earthquake, 2008, Sichuan, China. Chinese Journal of Geophysics 51(4):1066-1073 (in Chinese).
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