Influences of across-strike heterogeneous viscosity on the earthquake cycle in a three-dimensional strike-slip fault model

Peng Zhai , Feng Li , Jinshui Huang
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Abstract

Geodetic observations have shown that there exist large differences in the viscosity of the deep lithosphere across many large strike-slip faults. Heterogeneity in lithospheric viscosity structure can influence the efficiency of stress transfer and thus may have a significant effect on the earthquake cycle. Until now, how the lateral viscosity variation across strike-slip faults affects the earthquake cycles is still not well understood. Here, we investigate the effects of across-strike viscosity variation on long-term earthquake behaviors with a three-dimensional strike-slip fault model. Our model is a quasi-static model which is controlled by the slip-weakening friction law and power-law rheology. By comparing with the reference case, we find that low viscosity on one side of the fault results in a smaller rupture area but with a higher Coulomb stress drop on the ruptured fault region. In addition, low viscosity also leads to a small Coulomb stress accumulation rate. These combined effects increase the earthquake recurrence interval by approximately 10% and the earthquake moments by about 30% when the low viscosity is related to a geothermal gradient of 30 ​K/km. In addition, across-strike viscosity variation causes asymmetric interseismic ground surface deformation rate. As the viscosity contrast increases, the difference in the interseismic ground surface deformation rate between the two sides of the fault gradually increases, although the asymmetric feature is not pronounced. This asymmetry of interseismic ground deformation rate across a strike-slip fault is supposed to result in asymmetric coseismic deformation if the long-term plate motion velocity is invariant. As a result, this kind of asymmetry of interseismic deformation may influence the evaluation of potential earthquake hazards along large strike-slip faults with lateral viscosity contrast.

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三维走滑断层模型中跨走向非均质黏度对地震旋回的影响
大地测量观测表明,许多大型走滑断层的深部岩石圈粘度存在很大差异。岩石圈粘性结构的不均匀性会影响应力传递的效率,从而可能对地震循环产生重大影响。到目前为止,走滑断层的横向粘度变化如何影响地震周期仍不清楚。在这里,我们用三维走滑断层模型研究了跨走向粘度变化对长期地震行为的影响。我们的模型是一个准静态模型,受滑移弱化摩擦定律和幂律流变学的控制。通过与参考情况的比较,我们发现断层一侧的低粘度导致破裂面积较小,但破裂断层区域的库仑应力降较高。此外,低粘度也导致较小的库仑应力累积率。当低粘度与30的地热梯度有关时,这些综合效应使地震重现期增加了约10%,地震矩增加了约30%​K/km。此外,跨走向粘度的变化导致地震间地表变形率不对称。随着粘度对比度的增加,断层两侧的震间地表变形率差异逐渐增大,尽管不对称特征并不明显。如果长期板块运动速度不变,则走滑断层地震间地面变形率的这种不对称性被认为会导致非对称的同震变形。因此,这种震间变形的不对称性可能会影响具有横向粘性对比的大型走滑断层沿线潜在地震危险性的评估。
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