National Research Institute for Earth Science and Disaster Prevention, Tsukuba, Ibaraki, Japan. mail:
Proc Natl Acad Sci U S A. 2012 Sep 18;109(38):15157-61. doi: 10.1073/pnas.1202709109. Epub 2012 Sep 4.
Slow slip events (SSEs) are another mode of fault deformation than the fast faulting of regular earthquakes. Such transient episodes have been observed at plate boundaries in a number of subduction zones around the globe. The SSEs near the Boso Peninsula, central Japan, are among the most documented SSEs, with the longest repeating history, of almost 30 y, and have a recurrence interval of 5 to 7 y. A remarkable characteristic of the slow slip episodes is the accompanying earthquake swarm activity. Our stable, long-term seismic observations enable us to detect SSEs using the recorded earthquake catalog, by considering an earthquake swarm as a proxy for a slow slip episode. Six recurrent episodes are identified in this way since 1982. The average duration of the SSE interoccurrence interval is 68 mo; however, there are significant fluctuations from this mean. While a regular cycle can be explained using a simple physical model, the mechanisms that are responsible for the observed fluctuations are poorly known. Here we show that the latest SSE in the Boso Peninsula was likely hastened by the stress transfer from the March 11, 2011 great Tohoku earthquake. Moreover, a similar mechanism accounts for the delay of an SSE in 1990 by a nearby earthquake. The low stress buildups and drops during the SSE cycle can explain the strong sensitivity of these SSEs to stress transfer from external sources.
慢滑事件 (SSEs) 是一种不同于常规地震快速断层变形的模式。在全球许多俯冲带的板块边界都观察到了这种短暂的事件。日本本州中部房总半岛附近的 SSEs 是记录最详细的 SSEs 之一,具有近 30 年的最长重复历史,复发间隔为 5 至 7 年。慢滑事件的一个显著特征是伴随的地震群活动。我们稳定的长期地震观测使我们能够通过考虑地震群作为慢滑事件的代理,使用记录的地震目录来检测 SSEs。自 1982 年以来,以这种方式确定了六个重现的事件。SSE 事件之间的平均持续时间为 68 个月;然而,从平均值来看,存在显著的波动。虽然可以使用简单的物理模型来解释常规周期,但导致观察到的波动的机制知之甚少。在这里,我们表明,2011 年 3 月 11 日日本东北地区发生的大地震导致的应力传递可能加速了房总半岛的最新 SSE。此外,附近地震导致的 1990 年 SSE 的延迟也可以用类似的机制来解释。SSE 周期中的低应力累积和下降可以解释这些 SSE 对外部来源的应力传递的强烈敏感性。