利用光纤大地测量法研究冰岛周期性岩脉侵入的分钟尺度动力学。
Minute-scale dynamics of recurrent dike intrusions in Iceland with fiber-optic geodesy.
作者信息
Li Jiaxuan, Biondi Ettore, Heimisson Elías Rafn, Puel Simone, Zhai Qiushi, Zhang Shane, Hjörleifsdóttir Vala, Wei Xiaozhuo, Bird Elijah, Klesh Andy, Kamalov Valey, Gunnarsson Theodór, Geirsson Halldór, Zhan Zhongwen
机构信息
Seismological Laboratory, California Institute of Technology, Pasadena, CA, USA.
Department of Earth and Atmospheric Sciences, University of Houston, Houston, TX, USA.
出版信息
Science. 2025 Jun 12;388(6752):1189-1193. doi: 10.1126/science.adu0225. Epub 2025 Apr 24.
Continuous geodetic measurements near volcanic systems can image magma transport dynamics, yet resolving dike intrusions with high spatiotemporal resolution remains challenging. We introduce fiber-optic geodesy, leveraging low-frequency distributed acoustic sensing (LFDAS) recordings along a telecommunication fiber-optic cable, to track dike intrusions near Grindavík, Iceland, on a minute timescale. LFDAS revealed distinct strain responses from nine intrusive events, six resulting in fissure eruptions. Geodetic inversion of LFDAS strain reveals detailed magmatic intrusions, with inferred dike volume rate peaking systematically 15 to 22 min before the onset of each eruption. Our results demonstrate DAS's potential for a dense strainmeter array, enabling high-resolution, nearly real-time imaging of subsurface quasistatic deformations. In active volcanic regions, LFDAS recordings can offer critical insights into magmatic evolution, eruption forecasting, and hazard assessment.
在火山系统附近进行连续大地测量可以成像岩浆运移动力学,但以高时空分辨率解析岩脉侵入仍然具有挑战性。我们引入了光纤大地测量技术,利用沿电信光纤电缆的低频分布式声学传感(LFDAS)记录,在分钟时间尺度上追踪冰岛格林达维克附近的岩脉侵入。LFDAS揭示了九次侵入事件的不同应变响应,其中六次导致了裂隙喷发。对LFDAS应变进行大地测量反演揭示了详细的岩浆侵入情况,推断出的岩脉体积率在每次喷发开始前15至22分钟有系统地达到峰值。我们的结果证明了DAS作为密集应变计阵列的潜力,能够对地下准静态变形进行高分辨率、近实时成像。在活火山地区,LFDAS记录可以为岩浆演化、喷发预测和灾害评估提供关键见解。
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