Abstract: It is known from the paper (Ⅰ) that earthquakes, controlled by the plastic-flow waves, or called network waves, occur mainly in the wave-crest belts in which energy concentrates relatively. Based on the distribution of earthquake-released energy (Fig.1), the distribution of energy along the direction normal to wave-crest belts (Fig.2) and the attenuation of energy with propagation distance (Fig.3) are analyzed further in this paper. In addition, the distribution of earthquake occurrence probabilities is estimated in consideration of its relation to the seismic background energy. As a result, the distribution map of earthquake occurrence probabilities associated with the seismic energy background in the southeastern China region (Fig.4) is given as one of the supports for earthquake prediction. The distribution of relative values of earthquake released energy along the direction normal to wave-crest belt, p , is approximately shown as the Gaussian distribution (eq.1 and Fig.2), where ΔT=T-T_av, T_av is the average travel-time for the wave-crest belt, corresponding to the position of the belt's mid-line, S is the standard error in travel-time. The total energy for each wave-crest belt, ΣE, attenuates as an exponential function of its travel-time (Fig.3) and the tendency of the decrease in earthquake magnitude with increasing propagation distance can be expressed by the attenuation coefficient α . The distribution maps of wave-crest belts given in the paper (Ⅰ) and the seismic-energy-background map expressed by earthquake occurrence probabilities given in this paper show the propagation characteristics of the network waves originated from the Taiwan driving boundary in the southeastern China region. The former can be used as a basis for preliminarily determining the seismic energy background zones and the latter is one of the bases for the quantitative prediction of seismic risk regions. Both of them will be examined in the practice of earthquake prediction and revised progressively to approach the actual situation of the propagation of plastic-flow waves. As the "cloud chart" used for weather forecasting, showing the distribution of water necessary for precipitation, the seismic energy background map (Fig.4) provides an "energy chart" for earthquake prediction, showing the distribution of energy necessary for earthquakes. It is noteworthy that the seismic background "energy chart" can be established and used for earthquake prediction on the basis of the ideas of plastic-flow network and plastic-flow waves through other approaches, such as the inversions of ground deformation or other geophysical fields, in addition to the time-space distribution of earthquakes stated in this paper. It may be more effective to synthesize the results obtained from different approaches for improving the reliability of the seismic "energy map".

Key words: continental lithosphere, plastic-flow network, plastic-flow wave, seismic energy-background, probability of earthquake occurrence

摘要： 由文(Ⅰ)(王绳祖等,2003)已知,受网络波的控制,地震活动主要发生在能量相对聚集的波峰带内。文中根据地震释放的能量分布状况,进一步分析了能量沿波峰带法向的分布以及随传播距离的衰减,并基于发震概率与背景能量之间的对应关系,估计发震概率的分布状况。以此作为地震能量背景的概率表达和地震预测的依据之一,给出了中国东南地区与能量背景相关的发震概率分布图。

关键词: 大陆岩石圈, 塑性流动网络, 塑性流动波, 地震能量背景, 发震概率