Subaerial and subglacial seismic characteristics of the largest measured jökulhlaup from the eastern Skaftá cauldron, Iceland

IF 2.8 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL Earth Surface Dynamics Pub Date : 2023-10-05 DOI:10.5194/esurf-11-933-2023
Eva P. S. Eibl, Kristin S. Vogfjörd, Benedikt G. Ófeigsson, Matthew J. Roberts, Christopher J. Bean, Morgan T. Jones, Bergur H. Bergsson, Sebastian Heimann, Thoralf Dietrich
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Abstract

Abstract. Subglacial floods cause seismic tremors that can be located and tracked in space and time using a seismic array. Here, we shed light on the generating mechanisms of the seismic signals observed during the largest measured flood from the eastern Skaftá cauldron in the Vatnajökull ice cap, Iceland. We track the propagation of the flood in 2015 using two seismic arrays and a local seismic network in combination with GPS, hydrological, and geochemical data. We find that as the water drained from the subglacial lake beneath the cauldron, families of icequakes were generated in the area around the cauldron, while the glacier surface gradually subsided by more than 100 m. We detected a several-hours-long, non-harmonic tremor and high-frequency transient events migrating downglacier, following the subglacial flood front. We suggest that this tremor is composed of repeating, closely spaced icequakes that were generated as the glacier was being lifted, cracked, and deformed, thus enabling the subglacial water flow. When the lake had largely drained, the pressure within the underlying hydrothermal system dropped. At this time, we recorded minute-long tremor bursts emanating from the cauldron area, followed by an hour-long harmonic tremor each. We interpret these as being caused by hydrothermal explosions in the geothermal system within the cauldron and as being vigorous boiling in the crustal rocks, respectively, which is an interpretation corroborated by floodwater geochemical signals. Finally, the flood also led to detectable tremor due to more energetic flow in the rapids near Sveinstindur in the Skaftá river. We conclude that the flood generated five different seismic signal types that can be associated with five different geophysical processes, including the wide spectrum from brittle failure and explosions to boiling and turbulent flow.
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冰岛东部skaft cauldron测量到的最大地震的地面和冰下地震特征jökulhlaup
摘要冰下洪水引起的地震可以用地震阵列在空间和时间上定位和跟踪。在这里,我们阐明了在冰岛Vatnajökull冰帽的东部skaft釜中观测到的最大洪水期间观测到的地震信号的产生机制。我们利用两个地震阵列和一个当地地震网,结合GPS、水文和地球化学数据,跟踪了2015年洪水的传播。我们发现,随着水从大锅下的冰下湖流出,大锅周围地区产生了冰震家族,而冰川表面逐渐消退了100多m。我们探测到一个持续数小时的非谐波震颤和高频瞬态事件,随着冰下洪水锋面向下迁移。我们认为,这次地震是由重复的、间隔很近的冰震组成的,这些冰震是在冰川被抬升、破裂和变形时产生的,从而使冰下水流得以流动。当湖水大部分干涸后,地下热液系统的压力下降。此时,我们记录了从大锅区域发出的一分钟长的震动,随后是每次一小时的谐波震动。我们认为这是由大锅内地热系统的热液爆炸和地壳岩石的剧烈沸腾引起的,洪水地球化学信号证实了这一解释。最后,洪水还导致了可探测到的震颤,这是由于斯卡夫塔河Sveinstindur附近激流的能量更大。我们得出结论,洪水产生了五种不同的地震信号类型,这些信号类型可以与五种不同的地球物理过程相关联,包括从脆性破坏和爆炸到沸腾和湍流的广泛频谱。
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来源期刊
Earth Surface Dynamics
Earth Surface Dynamics GEOGRAPHY, PHYSICALGEOSCIENCES, MULTIDISCI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
5.40
自引率
5.90%
发文量
56
审稿时长
20 weeks
期刊介绍: Earth Surface Dynamics (ESurf) is an international scientific journal dedicated to the publication and discussion of high-quality research on the physical, chemical, and biological processes shaping Earth''s surface and their interactions on all scales.
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