Reconstructing episodic and multi-vent, rhyolitic eruptions: The ∼ 1314 CE Kaharoa eruption of the Tarawera Dome Complex, Okataina Caldera (New Zealand)

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Andrea Todde, Jonathan N. Procter, Gabor Kereszturi
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引用次数: 0

Abstract

Detailed stratigraphic reconstructions and quantitative deposit characterisations of moderate to large-scale rhyolitic eruptions are limited. This hinders our ability to model the multiple eruptive phenomena and hazards associated with rhyolitic volcanism. To gain new perspectives on the patterns and behaviours of rhyolitic eruptions, we present a study on the explosive phases of the 1314 ± 12 CE Kaharoa eruption of Tarawera, New Zealand. The eruption occurred from multiple aligned vents within the Okataina Caldera and is the youngest rhyolitic eruption of the frequently active Taupō Volcanic Zone. We systematically quantify the deposit characteristics of the Kaharoa pyroclastic succession to provide new insights into the type of eruption sequence and eruptive style changes. Based on field evidence, stratigraphic correlations, grain size and componentry analyses, we subdivide the Kaharoa deposit into 24 units and identify 7 main deposit types, which are linked to different eruptive and depositional processes. The explosive activity was discontinuous, characterised by repeated discrete episodes of sustained magma discharge separated by short time breaks. The activity consisted mainly of repeated subplinian-type columns that gave way to fallout deposition and emplacement of numerous lapilli beds. This activity transitioned to a pyroclastic density current (PDC) dominated phase in response to lateral vent migration. Ash emission activity occurred within and towards the end of the explosive sequence, indicating declines in the eruptive intensity. Six main intra-eruption phases (A to F) of dominant eruptive styles are established to describe the temporal evolution of the eruption. Phases A, B and D are associated with the repeated subplinian-type activity. Phase C comprises the major PDC activity, while the final two Phases E and F are associated with ash emission during initiation of lava dome extrusion and to the final dome-building sequence. This study highlights the complex nature of episodic, multi-phase, and multi-vent, explosive to dome-forming rhyolitic eruptions, depicting a scenario of great relevance for future volcanic hazard studies at active rhyolitic volcanoes worldwide.

重建偶发性和多喷口流纹岩喷发:新西兰奥卡泰纳火山口塔拉韦拉圆顶复合体的 ~ 公元 1314 年卡哈罗亚火山爆发
对中度至大规模流纹岩喷发的详细地层重建和定量沉积特征描述十分有限。这阻碍了我们模拟与流纹岩火山活动相关的多种喷发现象和危害的能力。为了从新的角度了解流纹岩喷发的模式和行为,我们对新西兰塔拉韦拉(Tarawera)发生于公元 1314 ± 12 年的卡哈罗亚(Kaharoa)喷发的爆炸阶段进行了研究。这次喷发发生在奥卡泰纳火山口(Okataina Caldera)内多个排列整齐的喷口,是频繁活动的陶波火山带最年轻的一次流纹岩喷发。我们系统地量化了卡哈罗亚火山碎屑岩演替的沉积特征,为了解喷发序列的类型和喷发方式的变化提供了新的视角。根据实地证据、地层关联、粒度和成分分析,我们将卡哈罗亚沉积物细分为 24 个单元,并确定了 7 种主要沉积物类型,这些类型与不同的喷发和沉积过程有关。火山爆发活动是不连续的,其特点是反复出现持续的岩浆排出,中间有短暂的间歇。这种活动主要包括反复出现的亚火成岩柱,随后是岩屑沉积和大量青石岩床的形成。随着喷口的横向迁移,这种活动过渡到以火成碎屑密度流(PDC)为主的阶段。火山灰喷发活动发生在爆炸序列内和爆炸序列末期,表明喷发强度下降。为描述喷发的时间演变,确定了六个主要的喷发内部阶段(A 至 F)。A、B和D阶段与反复的亚浆状活动有关。C 阶段包括主要的 PDC 活动,而最后两个阶段 E 和 F 则与熔岩穹隆挤压开始时的火山灰喷发以及最后的穹隆建造过程有关。这项研究突出了偶发、多阶段、多喷口、爆炸到穹顶形成流纹岩喷发的复杂性,描绘了一种对全世界流纹岩活火山未来火山灾害研究具有重要意义的情景。
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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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