在危地马拉的Volcán de Fuego，使用次声阵列网络跟踪次级火山泥流路径并表征脉冲和涌流

IF 2.5 Q2 Earth and Planetary Sciences

Volcanica Pub Date : 2021-10-25 DOI:10.30909/vol.04.02.239256

A. Bosa, Jeffrey B. Johnson, S. De Angelis, J. Lyons, A. Roca, Jacob F. Anderson, A. Pineda

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引用次数: 7

摘要

火山泥流是许多火山的最大危险之一，包括Volcán de Fuego(危地马拉)。2018年12月1日危地马拉当地时间晚上8点(世界标准时间2:00:00)，沿拉斯拉哈斯海峡东南侧的两个永久地震声学站在Volcán de Fuego探测到一个长达一小时的火山泥流事件。为了确定火山泥流的时间、持续时间和速度，研究人员检查了次声阵列记录，以确定两个站点的震源方向和相关能量波动。研究人员还检查了位于同一位置的地震和声波信号，这些信号表明，在火山泥流记录中至少存在5种不同的能量脉冲。我们推断，在其中一个台站记录的声波和地震功率的明显波动表明泥沙负荷的变化和/或流速的变化。用次声研究这个特殊的事件可以让我们深入了解火山泥流是如何在Volcán de Fuego附近发生的。

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Tracking secondary lahar flow paths and characterizing pulses and surges using infrasound array networks at Volcán de Fuego, Guatemala

Lahars are one of the greatest hazards at many volcanoes, including Volcán de Fuego (Guatemala). On 1 December 2018 at 8:00pm local Guatemala time (2:00:00 UTC), an hour-long lahar event was detected at Volcán de Fuego by two permanent seismo-acoustic stations along the Las Lajas channel on the southeast side. To establish the timing, duration, and speed of the lahar, infrasound array records were examined to identify both the source direction(s) and the correlated energy fluctuations at the two stations. Co-located seismic and acoustic signals were also examined, which indicated at least 5 distinct energy pulses within the lahar record. We infer that varying sediment load and/or changes in flow velocity is shown by clear fluctuations in the acoustic and seismic power recorded at one of the stations. This particular event studied with infrasound provides insight into how lahars occur around Volcán de Fuego.

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来源期刊

Volcanica Earth and Planetary Sciences-Geology

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

21 weeks