Magma mingling during the 1959 eruption of Kīlauea Iki, Hawaiʻi

IF 3.6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Bulletin of Volcanology Pub Date : 2024-05-28 DOI:10.1007/s00445-024-01748-2
Jennifer Marsh, Marie Edmonds, Bruce Houghton, Iris Buisman, Richard Herd
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Abstract

Magma mingling and mixing are common processes at basaltic volcanoes and play a fundamental role in magma petrogenesis and eruption dynamics. Mingling occurs most commonly when hot primitive magma is introduced into cooler magma. Here, we investigate a scenario whereby cool, partially degassed lava is drained back into a conduit, where it mingles with hotter, less degassed magma. The 1959 eruption of Kīlauea Iki, Hawaiʻi involved 16 high fountaining episodes. During each episode, fountains fed a lava lake in a pit crater, which then partially drained back into the conduit during and after each episode. We infer highly crystalline tachylite inclusions and streaks in the erupted crystal-poor scoria to be the result of the recycling of this drain-back lava. The crystal phases present are dendrites of plagioclase, augite and magnetite/ilmenite, at sizes of up to 10 µm. Host sideromelane glass contains 7–8 wt% MgO and the tachylite glass (up to 0.5% by area) contains 2.5–6 wt% MgO. The vesicle population in the tachylite is depleted in the smallest size classes (< 0.5 mm) and has overall lower vesicle number densities and a higher degree of vesicle coalescence than the sideromelane component. The tachylite exhibits increasingly complex ‘stretching and folding’ mingling textures through the episodes, with discrete blocky tachylite inclusions in episodes 1 and 3 giving way to complex, folded, thin filaments of tachylite in pyroclasts erupted in episodes 15 and 16. We calculate that a lava lake crust 8–35 cm thick may have formed in the repose times between episodes, and then foundered and been entrained into the conduit during drain-back. The recycled fragments of crust would have been reheated in the conduit, inducing glass devitrification and crystallisation of pyroxene, magnetite and plagioclase dendrites and eventually undergoing ductile flow as the temperature of the fragments approached the host magma temperature. We use simple models of magma mingling to establish that stretching and folding of recycled, ductile lava could involve thinning of the clasts by up to a factor of 10 during the timescale of the eruption, consistent with observations of streaks and filaments of tachylite erupted during episodes 15 and 16, which may have undergone multiple cycles of eruption, drain-back and reheating.

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1959 年夏威夷基劳埃亚伊基火山爆发期间的岩浆混合现象
岩浆交融和混合是玄武岩火山的常见过程,在岩浆岩石成因和喷发动力学中发挥着重要作用。当炙热的原始岩浆进入较冷的岩浆时,最常发生混合。在这里,我们研究了一种情况,即冷的、部分脱气的熔岩被排回导管,在那里与较热、脱气较少的岩浆混合。1959 年夏威夷基劳埃亚伊基火山的喷发涉及 16 次高喷泉喷发。在每次喷发过程中,喷泉都会为坑状火山口的熔岩湖注入岩浆,然后在每次喷发过程中和之后,熔岩湖的部分岩浆又被排回导管。我们推断,喷发出的晶体贫乏的灼烧岩中高度结晶的塔氏石包裹体和条纹就是这些回流熔岩循环利用的结果。存在的晶相是斜长石、辉石和磁铁矿/钛铁矿的树枝状晶体,大小可达 10 微米。寄主菱锰矿玻璃含有 7-8 wt%的氧化镁,塔氏玻璃(面积达 0.5%)含有 2.5-6 wt%的氧化镁。与菱镁矿成分相比,水帘石中的囊泡数量密度总体较低,囊泡凝聚程度较高。在各事件中,辉绿岩呈现出越来越复杂的 "拉伸和折叠 "混合纹理,从第 1 和第 3 事件中的离散块状辉绿岩包裹体,到第 15 和第 16 事件中喷发的火成岩中的复杂、折叠、细丝状的辉绿岩。根据我们的计算,8-35 厘米厚的熔岩湖地壳可能是在两期之间的休止期形成的,然后在回泄过程中形成并卷入导管。回收的结壳碎片会在导管中重新加热,诱发玻璃脱硝以及辉石、磁铁矿和斜长石枝晶的结晶,并在碎片温度接近主岩浆温度时最终发生韧性流动。我们使用简单的岩浆混合模型来确定,循环、韧性熔岩的拉伸和褶皱可能会使碎屑在喷发期间变薄达 10 倍,这与第 15 和第 16 次喷发期间观察到的条状和丝状黝帘石是一致的,它们可能经历了喷发、回流和再加热的多个循环。
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来源期刊
Bulletin of Volcanology
Bulletin of Volcanology 地学-地球科学综合
CiteScore
6.40
自引率
20.00%
发文量
89
审稿时长
4-8 weeks
期刊介绍: Bulletin of Volcanology was founded in 1922, as Bulletin Volcanologique, and is the official journal of the International Association of Volcanology and Chemistry of the Earth’s Interior (IAVCEI). The Bulletin of Volcanology publishes papers on volcanoes, their products, their eruptive behavior, and their hazards. Papers aimed at understanding the deeper structure of volcanoes, and the evolution of magmatic systems using geochemical, petrological, and geophysical techniques are also published. Material is published in four sections: Review Articles; Research Articles; Short Scientific Communications; and a Forum that provides for discussion of controversial issues and for comment and reply on previously published Articles and Communications.
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