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引用次数: 0
摘要
地幔向夏威夷火山的岩浆供应率是地表喷发行为的重要控制因素。夏威夷地下 40 千米深处的 Pa ̄hala 山体复合体(Pa ̄hala Sill Complex)是一个含岩浆的致震结构集合体,它为阐明地幔中应力与岩浆输送过程之间的相互作用提供了一个机会。我们对山体地震的全力矩张量进行了反演,发现主要是剪切机制,同时存在拉伸断层成分。滑动发生在山体结构的平面内。压力轴围绕莫纳罗亚附近的一点呈放射状分布,与挠曲载荷产生的应力场相一致。这些观察结果表明,岩浆流经山体结构时会增加孔隙压力并促进滑动,从而产生地震。我们的研究结果表明,地幔结构中的应力变化可能使地表的岩浆供应率在短时间内发生波动。
Insights on the state of stress in the mantle beneath Pahala, Hawai‘i
Magma supply rates from the mantle to Hawaiian volcanoes serve as an important control on eruptive behavior at the surface. The Pa ̄hala Sill Complex, a collection of magma-bearing, seismogenic structures at 40 km depth beneath Hawai‘i, presents an opportunity to elucidate interactions between stress and magma transport processes in the mantle. We invert for full moment tensors of sill earthquakes and identify predominantly shear mechanisms with persistent tensile faulting components. Slip occurs in-plane with the sill structures. Pressure axes are radially oriented about a point near Mauna Loa, consistent with a stress field generated by a flexural load. Together, these observations suggest that magma flux through the sill structures generates seismicity by increasing pore pressure and promoting slip. Our results suggest that stress changes in mantle structures may enable fluctuations in magma supply rates to the surface over short timescales.
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