The 2019 pumice raft forming eruption of Volcano-F (Volcano 0403–091) and implications for hazards posed by submerged calderas

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of Volcanology and Geothermal Research Pub Date : 2024-08-03 DOI:10.1016/j.jvolgeores.2024.108160
Isobel A. Yeo , Iona M. McIntosh , Scott E. Bryan , Kenichiro Tani , Matthew Dunbabin , Katherine J. Dobson , Samuel J. Mitchell , Patrick C. Collins , Michael A. Clare , Henrietta Cathey , Isikeli Duwai , Philipp A. Brandl , Karen Stone , Mele S. Manu
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Abstract

Low volcanic explosivity index (VEI) eruptions are common occurrences in the Southwest Pacific but, as demonstrated by the 2021/2022 eruption of Hunga Volcano, submerged calderas in the region are also capable of producing much larger and more hazardous eruptions. As such, characterising smaller events from potentially hazardous systems is essential. The 2019 eruption of Volcano-F, a submerged caldera, would likely have gone totally undetected had it not produced a pumice raft that inundated beaches in Fiji and eventually washed up in Australia. New data, acquired 5 months after the eruption, reveal the development of a new vent and the accumulation of at least 3.1*107 m3 bulk volume (dense rock equivalent of 5.6*106 m3) of material on the seafloor. Between 30 and 70% of erupted material entered the raft, while the rest remained near to or was dispersed down-current of the vent. This previously unaccounted for material increases the volume estimate for the eruption, confirming it as a VEI 3 event and highlights the importance of considering not just the floating component of a pumice raft forming eruption for VEI estimation. Geochemical analysis reveals the eruption comprised a homogenous batch of dacitic magma, with compositional characteristics similar to that erupted from the same volcano in 2001, and an until-now-unidentified pumice raft in the Coral Sea in 1964. Volcano-F therefore appears to have had at least three explosive eruptions in the last 60 years, indicating it is significantly at unrest. Repeated eruptions of similar composition and low crystal content magma over decadal to centennial scales indicate the existence of a melt-dominant magma body beneath the volcano. Submerged calderas, like Volcano-F, are common in the wider Southwest Pacific region, with many such calderas producing regular eruptions, implicating active magmatic recharge. Our findings motivate a need to carefully monitor and characterise even apparently small eruptions at this volcano, and others along the Tonga-Kermadec Arc. This is because such eruptions have the potential to subsequently prime or trigger more explosive eruptions and provide critical geochemical evidence about the plumbing system and evolution of the volcano, essential for understanding the diverse hazards they pose.

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2019 年火山 F(0403-091 号火山)浮石筏喷发及其对淹没式火山口造成的危害的影响
低火山爆发指数(VEI)喷发是西南太平洋地区的常见现象,但正如 2021/2022 年洪加火山喷发所证明的那样,该地区的淹没火山口也能够产生更大、更危险的喷发。因此,对来自潜在危险系统的较小事件进行定性至关重要。如果不是火山喷发产生的浮石筏淹没了斐济的海滩并最终冲到了澳大利亚,2019 年的火山喷发-F(一个淹没的破火山口)很可能完全不会被发现。火山喷发 5 个月后获得的新数据显示,火山喷发形成了一个新的喷口,并在海底堆积了至少 3.1*107 立方米体积(相当于 5.6*106 立方米的致密岩石)的物质。30%到 70% 的喷发物质进入了筏式结构,其余的则留在喷口附近或分散在喷口的下游。这些以前未计算在内的物质增加了这次喷发的体积估计值,证实了它是 VEI 3 事件,并强调了在估计 VEI 时不仅要考虑浮石筏喷发的漂浮部分的重要性。地球化学分析表明,这次火山喷发由一批同质的白云岩岩浆组成,其成分特征与 2001 年同一火山喷发的岩浆以及 1964 年珊瑚海至今仍未确定的浮石筏相似。因此,F 火山在过去 60 年中似乎至少爆发过三次,这表明它处于严重的动荡之中。类似成分和低晶体含量的岩浆在十年到百年尺度上的反复喷发表明,火山下方存在一个以熔融为主的岩浆体。像F火山这样的淹没式火山口在更广泛的西南太平洋地区很常见,许多这样的火山口会定期喷发,这意味着岩浆补给活跃。我们的研究结果表明,有必要对这座火山以及汤加-克马德克弧沿线的其他火山进行仔细监测,即使是表面上看起来很小的喷发,也要对其特征进行描述。这是因为这些喷发有可能随后促成或引发更多的爆炸性喷发,并提供有关火山的管道系统和演变的重要地球化学证据,这对了解它们造成的各种危害至关重要。
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来源期刊
CiteScore
5.90
自引率
13.80%
发文量
183
审稿时长
19.7 weeks
期刊介绍: An international research journal with focus on volcanic and geothermal processes and their impact on the environment and society. Submission of papers covering the following aspects of volcanology and geothermal research are encouraged: (1) Geological aspects of volcanic systems: volcano stratigraphy, structure and tectonic influence; eruptive history; evolution of volcanic landforms; eruption style and progress; dispersal patterns of lava and ash; analysis of real-time eruption observations. (2) Geochemical and petrological aspects of volcanic rocks: magma genesis and evolution; crystallization; volatile compositions, solubility, and degassing; volcanic petrography and textural analysis. (3) Hydrology, geochemistry and measurement of volcanic and hydrothermal fluids: volcanic gas emissions; fumaroles and springs; crater lakes; hydrothermal mineralization. (4) Geophysical aspects of volcanic systems: physical properties of volcanic rocks and magmas; heat flow studies; volcano seismology, geodesy and remote sensing. (5) Computational modeling and experimental simulation of magmatic and hydrothermal processes: eruption dynamics; magma transport and storage; plume dynamics and ash dispersal; lava flow dynamics; hydrothermal fluid flow; thermodynamics of aqueous fluids and melts. (6) Volcano hazard and risk research: hazard zonation methodology, development of forecasting tools; assessment techniques for vulnerability and impact.
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