通过地震节点部署了解帕哈拉地震群附近的岩浆结构

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Helen Janiszewski, N. Bennington, Jade Wight
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引用次数: 0

摘要

2022 年夏季至秋季,在夏威夷岛帕哈拉地震群周围部署了 80 台三分量 SmartSolo IGU-BD3C-5 节点地震仪,目的是改进该地区地壳和上地幔的地震活动性目录和地震速度图像。帕哈拉地震群位于毛纳罗亚火山和基劳埃阿火山以南,多年来一直在 25-40 千米深处持续发生地震活动,2015 年和 2019 年的地震率都有数量级的增加。这种地震活动可能与岩浆从下面的地幔羽流输入有关,岩浆随后可能被输送到火山大厦。然而,这些过程仍然是个谜,部分原因是该地区缺乏精确的地震位置和地震速度模型。在此,我们将概述部署情况,评估所收集数据的质量,并讨论该数据集在当地地震定位、层析成像和远震接收器函数方面的可行性。通过与近距离永久性宽带和短周期仪器的比较,我们发现这些节点能够生成高质量的数据,尤其是在周期小于 5 秒时,尽管我们发现、记录并纠正了仪器增益和极性方面的差异。我们成功地记录了远震地震的信号,甚至在周期超过 5 秒(节点平坦响应的一角)时也是如此。我们还记录了局部地震,包括与震源特征有关的细节。这表明,这些数据可能有助于利用当地地震信号和远震信号进行调查,从而更好地了解夏威夷深层和浅层岩浆系统之间的联系。虽然这次部署只是时间上的一个缩影,但随着夏威夷火山系统在未来的继续演变,它的成功可能会为未来的研究提供一个有用的基准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Seismic Nodal Deployment to Understand Magmatic Structure in the Vicinity of the Pāhala Earthquake Swarm
In Summer–Fall 2022, 80 three-component SmartSolo IGU-BD3C-5 nodal seismometers were deployed surrounding the Pāhala seismic swarm on the Island of Hawai‘i, with the goal of improving seismicity catalogs and seismic velocity images of the crust and upper mantle in this region. The Pāhala swarm, located south of Mauna Loa and Kīlauea, has been the site of a multiyear sustained swarm of seismicity at the depths of ∼25–40 km, with order of magnitude increases in rate in 2015, and then again in 2019. This seismicity is possibly related to the input of magma from the mantle plume below, which may then be subsequently transported to volcanic edifices. However, these processes remain enigmatic, in part due to a lack of precise earthquake locations and seismic velocity models in this region. Here, we provide an overview of the deployment, an assessment of the quality of the collected data, and discuss the viability of the data set for local earthquake relocation, tomography, and teleseismic receiver functions. Through comparisons with proximal permanent broadband and short-period instruments, we find that the nodes produce high-quality data, particularly at periods shorter than 5 s, although we find, document, and correct discrepancies with the gain and polarities of the instruments. We successfully record signals from teleseismic earthquakes, even at periods longer than 5 s (the corner of the flat response of the nodes). We also record local earthquakes, including details related to source characteristics. This indicates that the data are likely to prove useful for investigations using both local and teleseismic earthquake signals to better understand the connections between the deep and shallow magmatic systems of Hawai‘i. Although this deployment provides a snapshot in time, its success may provide a useful benchmark for future studies as the volcanic systems of Hawai‘i continue to evolve in the future.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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