Abstract
The same term ‘seismic gaps’ has been used for different kinds of seismic gaps, resulting in some confusion. It is shown that there are two kinds of seismic gaps which are defined by two different features of seismic activity. One is a gap in the spatial distribution of rupture zones of the largest earthquakes in a seismic belt. This is termed a seismic gap of the first kind. A seismic gap of the first kind could be identified not only for great shallow earthquakes along plate boundaries, but also probably for smaller intra-plate earthquakes. The other is a gap in seismicity of smaller-magnitude earthquakes before larger earthquakes. This premonitory phenomenon is termed a seismic gap of the second kind. Focal regions of the largest earthquakes in an active seismic belt are frequently seismic gaps of both the first and the second kind. Some earthquakes, however, are not preceded by any appreciable premonitory gap (the second kind). This different feature in different cases may depend on the structural states of the earth’s crust, such as heterogeneity.
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References
Allen, C, Amand, P. St., Richter, C. and Nordquist, J. (1965), Relationship between seismicity and geologic structure in the southern California region, Bull. Seism. Soc. Amer. 55, 753–797.
Borovik, N., Misharina, L. and Treskov, A. (1971), On the possibility of strong earthquakes in Pribakalia in the future, Izv. Acad. Sei. USSR Phys. Solid Earth, Engl. Transi., No. 1, 13–16.
Fedotov, S. A. (1965), Regularities of the distribution of strong earthquakes in Kamchatka, the Kurile Islands, and northeastern Japan, Trudy Inst. Phys. Earth. Acad. Sei. USSR, No. 36, 66–93.
Goto, K. and Sakai, Y. (1965), Read at the annual meeting of the Seismological Society of Japan.
Gutenberg, B. and Richter, C. F., Seismicity of the Earth (2nd edit., Princeton Univ. Press, New Jersey, 310 pp. 1954).
Hagiwara, T. (1970), Distribution of seismic intensity of the 1854 Tokai earthquake, Rep. Coord. Comm. Earthq. Prediction 3, 51–52.
Hagiwara, T. (1974), Distribution of seismic intensity of the great earthquakes in 1854 and 1707, Rep. Coord. Comm. Earthq. Prediction 12, 143–145.
Hatori, T. (1976), Documents of tsunami and crustal deformation in Tokai district associated with the Ansei earthquake of Dec. 23, 1854, Bull. Earthq. Res. Inst., Univ. Tokyo 51, 13–28 (in Japanese).
Inouye, W. (1965), On the seismicity in epicentral region and its neighborhood before the Niigata earthquake, Quarterly J. Seism. 29, 31–36.
Ishibashi, K. (1977), Re-examination of a great earthquake expected in the Tokai district, Central Japan-Possibility of the ‘Suruga Bay Earthquake’, Rep. Coord. Comm. Earthq. Prediction 17, 126–132 (in Japanese).
Ishida, M. and Kanamori, H. (1977), Spatio-temporal variation of seismicity before the 1971 San Fernando Earthquake, Geophys. Res. Lett. 4, 345–346.
Kelleher, J., Sykes, L. and Oliver, J. (1973), Possible criteria for predicting earthquake locations and their application to major plate boundaries of the Pacific and the Caribbean, J. Geophys. Res. 78, 2547–2585.
Kelleher, J. and Savino, J. (1975), Distribution of seismicity before large strike slip and thrust-type earthquakes, J. Geophys. Res. 80, 260–271.
Kubodera, A. and Mitsunami, T. (1977), Recent seismic activity near Kumamoto City (abstract), Annual Meeting of Seism. Soc. Japan, No. 2, 239 (in Japanese).
Mizoue, M., Nakamura, M., Ishiketa, Y. and Seto, N. (1978), Earthquake prediction from micro-earthquake observation in the vicinity of Wakayama City, northwestern part of the Kii peninsula, Central Japan, J. Phys. Earth (in press).
Mogi, K. (1968a), Sequential occurrences of recent great earthquakes, J. Phys. Earth 16, 30–36.
Mogi, K. (1968b), Migration of seismic activity, Bull. Earthq. Res. Inst., Univ. Tokyo 46, 53–74.
Mogi, K. (1969), Some features of recent seismic activity in and near Japan (2), Activity before and after great earthquakes, Bull. Earthq. Res. Inst., Univ. Tokyo 47, 395–417.
Mogi, K. (1970), Recent horizontal deformation of the earth’s crust and tectonic activity in Japan (1), Bull. Earthq. Res. Inst., Univ. Tokyo 48, 413–430.
Mogi, K. (1974), Seismic activity in the Kanto region — before and after great shallow earthquakes, Rep. Coord. Comm. Earthq. Prediction 11, 74–78 (in Japanese).
Mogi, K. (1976), The great earthquakes, Mathematical Sei., No. 158, August, 46–52 (in Japanese).
Mogi, K. (1979), Recent seismic activity in the eastern Japan, Rep. Coord. Comm. Earthq. Prediction 21, 140–141 (in Japanese).
Nagumo, S. (1973), Activation mode of great submarine earthquakes along the Japanese Islands, Publication for the 50th Anniversary of the Great Kanto Earthquake, 1923, Earthq. Res, Inst., Univ. Tokyo 273–291 (in Japanese).
Observation Center for Earthquake Prediction, Tohoku Univ. (1978), On the Miyagi-oki earthquake of June 12, 1978, Abstracts, Seism. Soc. Japan, No. 2, 34 (in Japanese).
Ohtake, M., Matsumoto, T. and Latham, G. V. (1977), Seismicity gap near Oaxaca, southern Mexico as a probable precursor to a large earthquake, Pageoph 115, 375–385.
Oike, K. (1977), On the prediction of the seismic activity along the Yamasaki fault (abstract), Annual Meeting of Seism. Soc. Japank, No. 2, 236 (in Japanese).
Sato, H. (1977), Crustal movements in the Tokai district observed by geodetic survey, Rep. Sub-Comm., Coord, Comm. Earthq. Prediction 1, 19–27 (in Japanese).
Seno, T. (1978), Intraplate seismicity in Tohoku and Hokkaido, northern Japan, and a possibility of a large inter plate earthquake off the southern Sanriku coast, J. Phys. Earth (in press).
Sykes, R. (1971), Aftershock zones of great earthquakes, seismicity gaps, and earthquake prediction for Alaska and the Aleutians, J. Geophys. Res. 76, 8021–8041.
Thatcher, W., Hileman, J. A. and Hanks, T. (1975), Seismic slip distribution along the San Jacinto fault zone, southern California and its implication, Bull. Geol. Soc. Am. 86, 1140–1146, August.
Utsu, T. (1968), Seismic activity in Hokkaido and its vicinity, Geophys. Bull. Hokkaido Univ. 20, 51–75 (in Japanese).
Utsu, T. (1972), Large earthquakes near Hokkaido and the expectancy of the occurrence of a large earthquake off Nemuro, Rep. Coord. Comm. Earthq. Prediction 7, 7–13.
Utsu, T. (1979), Some remarks on a seismic gap off Miyagiprefecture, Rep. Coord. Comm. Earthq. Prediction 21, 44–46 (in Japanese).
Wei, G., Lin, Z., Zhu, X., Zhao, Y., Zhao, X. and Hou, H., (1978), On seismic gaps previous to certain great earthquakes occurred in North China, Acta Geophysica Sinica 21, 213–217.
Yamashina, K. and Inouye, Y. (1978), A dougnut-shaped pattern of seismic activity preceding the Shimane earthquake of 1978, Japan, (in press).
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© 1979 Springer Basel AG
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Mogi, K. (1979). Two Kinds of Seismic Gaps. In: Wyss, M. (eds) Earthquake Prediction and Seismicity Patterns. Contributions to Current Research in Geophysics. Birkhäuser, Basel. https://doi.org/10.1007/978-3-0348-6430-5_4
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DOI: https://doi.org/10.1007/978-3-0348-6430-5_4
Publisher Name: Birkhäuser, Basel
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