1-Dimensional Model of Seismic Velocity after Tarutung Earthquake 1 October 2022 Mw 5.8

Journal of Applied Geospatial Information Pub Date : 2023-06-27 DOI:10.30871/jagi.v7i1.5662

Resa Idha, Endah P. Sari, Y. Asnawi, A. Simanjuntak, Syahrul Humaidi, U. Muksin

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Abstract

On October 1, 2022, an earthquake with a magnitude (M) of 5.8 occurred in the Tarutung region, Indonesia and was associated with an active fault at a depth of 10 km. The earthquake fault with dextral mechanism is suitable with the pattern of active fault movement in Sumatra in the Northeast - Southwest direction. A total of 170 aftershocks occurred within a week span with magnitude variations of 1.7 – 4.0. In addition, the Tarutung earthquake was felt by the local peoples with an intensity of IV - VI MMI and caused 1 fatality, 25 injuries, and around 900 houses were damaged. Therefore, this study studies the characteristics of seismicity and damage caused by finding an appropriate 1-Dimensional seismic velocity model. The obtained 1-Dimensional speed model has varying values at a depth of 10 km with a speed of ~5.5 km/s and 30 km with a speed of ~7 km/s. The 1-D velocity model obtained has a convergent and unique solution with an RMS value < 1.0. Based on ground motion analysis after relocation, it was found that the high PGA and PGV values were in Tarutung. The PGA results reveal a high percentage value of >10% in Tarutung. This is consistent with the damage data and at the same time confirms that Tarutung is in a seismically active area.

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2022 年 10 月 1 日塔鲁东 5.8 级地震后地震速度的一维模型

2022 年 10 月 1 日，印度尼西亚塔鲁东地区发生 5.8 级地震，震源深度为 10 千米。该地震断层具有右旋机制，与苏门答腊岛东北-西南方向的活动断层运动模式相吻合。一周内共发生 170 次余震，震级变化在 1.7 - 4.0 之间。此外，当地居民对 Tarutung 地震的震感强度为 IV - VI MMI，造成 1 人死亡，25 人受伤，约 900 间房屋受损。因此，本研究通过寻找合适的一维地震速度模型来研究地震特征和造成的破坏。所获得的一维速度模型在深度 10 千米和 30 千米处有不同的值，在深度 10 千米处速度约为 5.5 千米/秒，在深度 30 千米处速度约为 7 千米/秒。获得的一维速度模型具有收敛性和唯一解，均方根值小于 1.0。根据搬迁后的地面运动分析，发现塔鲁东的 PGA 和 PGV 值较高。PGA 结果显示，塔鲁东的百分比值很高，大于 10%。这与破坏数据一致，同时也证实了 Tarutung 位于地震活跃区。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Applied Geospatial Information

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