A variation model of additive tectonics stress caused by celestial tide-generating force is put forward to explain its relationship with seismic fault sliding. Based on the model, the temperature data from National Ce...A variation model of additive tectonics stress caused by celestial tide-generating force is put forward to explain its relationship with seismic fault sliding. Based on the model, the temperature data from National Center for Environmental Prediction (NCEP) before and after the earthquake in Jiujiang (China) on Nov.26, 2005 are studied. The figure of the temperature variation describes the effect of celestial tide-generating force on fault plane. The variation'of temperature is not only associated with the seismic deformation but also in step with the evolution of fi'iction of rock under the stress. The abnormal change of temperature can be used in the studies of short- impending earthquakes.展开更多
基金Supported by the National Natural Science Foundation of China (No.40172101) and China Postdoctoral Science Foundation (No. 20090460403)
文摘A variation model of additive tectonics stress caused by celestial tide-generating force is put forward to explain its relationship with seismic fault sliding. Based on the model, the temperature data from National Center for Environmental Prediction (NCEP) before and after the earthquake in Jiujiang (China) on Nov.26, 2005 are studied. The figure of the temperature variation describes the effect of celestial tide-generating force on fault plane. The variation'of temperature is not only associated with the seismic deformation but also in step with the evolution of fi'iction of rock under the stress. The abnormal change of temperature can be used in the studies of short- impending earthquakes.
