Influence of outer-rise faults on shallow décollement heterogeneity and sediment flux at the Japan trench

Emily Schottenfels, C. Regalla, Yasuyuki Nakamura
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Abstract

We investigate the impact of outer-rise normal fault subduction on the structural evolution of the décollement and frontal prism in a portion of the Japan trench that hosted the 2011 Tohoku earthquake. We use seismic reflection data to map the relative occurrence of sediment accretion, sediment subduction, and frontal tectonic erosion in the shallow portion of the subduction zone and correlate these deformation styles to the magnitude of outer-rise fault throw and incoming plate sediment thickness. These data reveal spatial heterogeneity in the modes of deformation over distances of 5-10 km that necessitate correlative heterogeneity in the geometry and composition of the shallow décollement over similar length-scales. We find that sediment accretion predominantly occurs in regions where incoming plate sediment thickness is greater than fault throw. In these areas, the décollement appears to be non-planar and compositionally homogenous. Conversely, frontal tectonic erosion and slope failures are predominantly observed in regions where fault throw is greater than sediment thickness. In these areas, the décollement may be planar but compositionally heterogeneous. Additionally, spatial variations in near trench slip appear to correlate with the dominant deformation modes, suggesting that both sediment thickness and outer-rise fault throw may be important controls on shallow megathrust behavior.
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外隆断层对日本海沟浅层地壳异质性和沉积通量的影响
我们研究了外隆正断层俯冲对 2011 年东北大地震发生地日本海沟部分的地壳和锋面棱柱构造演化的影响。我们利用地震反射数据绘制了俯冲带浅层部分沉积物吸积、沉积物俯冲和正面构造侵蚀的相对发生情况,并将这些变形方式与外隆断层抛掷量级和进入的板块沉积厚度相关联。这些数据揭示了 5-10 千米距离内变形模式的空间异质性,因此在类似的长度尺度上,浅层沉积物的几何形状和组成也必须具有相关的异质性。我们发现,沉积增生主要发生在板块沉积厚度大于断层抛掷厚度的区域。在这些地区,地壳似乎是非平面的,而且成分单一。相反,正面构造侵蚀和斜坡崩塌主要发生在断层抛掷厚度大于沉积厚度的区域。在这些地区,地壳可能是平面的,但成分是异质的。此外,近海沟滑动的空间变化似乎与主要的变形模式相关,这表明沉积厚度和外隆断层抛掷物可能是浅层大地壳行为的重要控制因素。
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