Sulfur isotopic variations in the products of the 1895 CE eruption at Zao volcano (NE Japan): Implications for connecting eruption source and syn-eruptive magmatic-hydrothermal processes

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of Volcanology and Geothermal Research Pub Date : 2024-06-14 DOI:10.1016/j.jvolgeores.2024.108127
Takumi Imura , Tsukasa Ohba , Ryohei Takahashi , Pearlyn Manalo , Hinako Sato , Masao Ban , Aoi Hirata , Antonio M. Álvarez-Valero
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Abstract

Sulfur isotopic ratio in sulfate and sulfide in subvolcanic hydrothermal systems is a valuable tracer to study the magmatic-hydrothermal processes from the magma source through to volcanic eruptions. Zao volcano is among the most active volcanoes in NE Japan, with historical explosive eruptions occurring during the last thousand years and unrest episodes since 2013. This necessitates a detailed assessment of the potential risk of future volcanic hazards. We investigated the magmatic-hydrothermal processes that occurred during the 1895 CE eruption sequence at Zao volcano by conducting mineralogical and sulfur isotope analyses in the exposed well: (i) six volcanic units (Layers 1–6) of the 1895 CE eruption products (clayish ash deposits with andesitic bombs, lapilli of scoria, and minor altered lithic fragments) deposited on the rim of Okama crater lake; and (ii) clay-altered and silicified rocks from the Nigorikawa alteration zone (NGA) surrounding the Goshikidake cone. Mineralogical data show that the samples mainly consist of alunite, pyrite, and gypsum. Alunite and pyrite occur as fine crystal mixtures associated with mineral assemblages of both advanced argillic alteration (i.e., those of cristobalite and kaolinite) and silicification (i.e., those of cristobalite, tridymite and native sulfur). Gypsum typically appears as isolated euhedral crystals of several millimeters in size. Samples of the 1895 CE eruption products have a narrow range of δ34S values from +3 ‰ to +5 ‰ for gypsum, from +9 ‰ to +13 ‰ for alunite, and approximately −10 ‰ for pyrite. For the NGA samples, the δ34Sgypsum, δ34Snative sulfur, and δ34Spyrite values range from −12 ‰ to −9 ‰, whereas for alunite, these range from +8 ‰ to +18 ‰. This indicates that alunite and pyrite in the 1895 CE eruption products were derived from the advanced argillic alteration and silicification zones that developed under Okama crater, which is exposed as the NGA. Estimated alteration temperatures based on the sulfur isotopic equilibrium between alunite and pyrite pairs are 200 °C–300 °C. By contrast, δ34Sgypsum values in the 1895 CE products are significantly higher than those in the NGA (which are derived from oxidation of pyrite or H2S, or both), ranging between an estimated parental fluid of δ34Sbulk-initial = ca. +1 ‰ and the Quaternary volcanic rocks of the Japan arc. This suggests that gypsum in the 1895 CE eruption products derived from magmatic vapor condensate (anhydrite) formed in the volcanic conduit during the eruption, thus becoming replacement of anhydrite by gypsum after or during the tephra deposition on the Zao summit surface. Our results on sulfur-bearing minerals provide new clues for better understanding (and monitoring) the syn-eruptive processes of volcanic eruptions focused on subvolcanic hydrothermal systems.

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西元 1895 年藏王火山(日本东北部)喷发产物中硫同位素的变化:连接喷发源和同步爆发岩浆热液过程的意义
火山下热液系统中硫酸盐和硫化物的硫同位素比值是研究从岩浆源到火山喷发的岩浆-热液过程的重要示踪剂。藏王火山是日本东北部最活跃的火山之一,在过去的一千年中曾发生过历史性的爆炸性喷发,自 2013 年以来还发生过动乱。因此有必要对未来火山灾害的潜在风险进行详细评估。我们通过对暴露井进行矿物学和硫同位素分析,研究了藏王火山公元 1895 年喷发序列期间发生的岩浆-热液过程:(i) 沉积在冈山火山口湖边缘的西元 1895 年火山喷发产物(含安山岩弹的粘土状火山灰沉积物、灼烧岩和少量蚀变碎石)的六个火山岩单元(第 1-6 层);以及 (ii) 来自越智岳圆锥周围的 Nigorikawa 蚀变带 (NGA) 的粘土蚀变和硅化岩石。矿物学数据显示,样本主要由矾土、黄铁矿和石膏组成。褐铁矿和黄铁矿以细小晶体混合物的形式出现,与晚期箭石蚀变(即霞石和高岭石蚀变)和硅化(即霞石、三迭石和原生硫蚀变)的矿物组合相关联。石膏通常呈孤立的八面体晶体,大小为几毫米。西元 1895 年喷发产物样本的δ34S 值范围很窄,石膏为 +3 ‰ 至 +5 ‰,明矾石为 +9 ‰ 至 +13 ‰,黄铁矿约为 -10‰。在 NGA 样品中,δ34S 石膏、δ34S 正硫和δ34黄铁矿的值范围为 -12 ‰ 至 -9‰,而铝矾土的值范围为 +8 ‰ 至 +18‰。这表明,西元 1895 年喷发产物中的矾土和黄铁矿来自冈山火山口下的高级箭状蚀变和硅化带,而这些蚀变和硅化带是作为 NGA 暴露出来的。根据白云石和黄铁矿对之间的硫同位素平衡,估计蚀变温度为 200 ℃-300 ℃。相比之下,西元 1895 年产物中的δ34S 石膏值明显高于 NGA 中的δ34S 石膏值(后者来自黄铁矿或 H2S 的氧化作用,或两者兼而有之),介于 δ34Sbulk-initial = ca.+1 ‰和日本弧第四纪火山岩之间。这表明西元 1895 年喷发产物中的石膏来自喷发过程中在火山导管中形成的岩浆蒸汽冷凝物(无水石膏),因此在藏王山顶表面的火山碎屑沉积之后或期间,石膏取代了无水石膏。我们对含硫矿物的研究结果为更好地理解(和监测)火山喷发的同步爆发过程提供了新的线索,其重点是火山下热液系统。
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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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