Probabilistic Tsunami Hazard Assessment Considering the Sequence of the First and Second Earthquakes Along the Nankai Trough

IF 0.7 Q4 GEOSCIENCES, MULTIDISCIPLINARY Journal of Disaster Research Pub Date : 2023-12-01 DOI:10.20965/jdr.2023.p0839
Yuyu Jiao, N. Nojima
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Abstract

The Earthquake Research Committee (ERC) of the Headquarters for Earthquake Research Promotion conducted a probabilistic tsunami hazard assessment due to large earthquakes along the Nankai Trough for the next 30 years. Utilizing the basic data of earthquake source models and calculated maximum tsunami heights, the authors propose a method to evaluate the hazard curves of the first and second earthquakes separately, considering the sequence of earthquake occurrence in one cycle of large earthquake activities along the Nankai Trough. First, based on the relative weights allocated to the 176 occurrence patterns of 79 earthquake source regions, the weights for the 2,720 characterized earthquake fault models (CEFMs) are calculated. The hazard curve of the first earthquake is evaluated using the 2,720 sets of maximum tsunami heights and weights under the condition that one of the CEFMs causes an earthquake. Next, the conditional hazard curves for the possible second earthquakes conditional on each individual first earthquake are calculated. Finally, the hazard curve for the second earthquake is evaluated as a weighted average of the conditional hazard curves. Numerical examples are shown for 15 sites. The first earthquake accounts for about 60% or more of the total hazard evaluated by ERC, and its contribution increases with increasing maximum tsunami height. The first and second earthquakes account for 80%–90% of the total hazard.
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考虑南海海槽第一次和第二次地震顺序的海啸危害概率评估
地震研究促进总部地震研究委员会(ERC)对未来30年南开海槽大地震引发的海啸危险性进行了概率评估。利用震源模型的基本资料和计算出的最大海啸高度,考虑南开海槽一个大地震活动周期内地震发生的先后顺序,提出了一、二次地震危险性曲线分别评价的方法。首先,根据79个震源区176种发生模式的相对权重,计算出2720种特征地震断层模型(cefm)的权重。在其中一个cefm引起地震的情况下,利用2720组最大海啸高度和海啸权重对第一次地震的危险曲线进行了评价。接下来,计算以每个单独的第一次地震为条件的可能的第二次地震的条件危险曲线。最后,用条件危险性曲线的加权平均值来评价第二次地震的危险性曲线。给出了15个点的数值算例。第一次地震约占ERC评估的总灾害的60%以上,其贡献随着最大海啸高度的增加而增加。第一次和第二次地震占总灾害的80%-90%。
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来源期刊
Journal of Disaster Research
Journal of Disaster Research GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
1.60
自引率
37.50%
发文量
113
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