释放裂缝:脆性行为对富含晶体的岩浆中气体滞留的影响

IF 3.6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Thomas G. Herbst, Alan G. Whittington, Mattia Pistone, James D. Schiffbauer, Tara Selly
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引用次数: 0

摘要

富含晶体的硅质熔岩通常从危险的熔岩穹顶形成的火山中喷发,其特点是喷出和爆炸性喷发。岩浆的爆炸性在本质上取决于其储存加压气体的能力,这些气体可以通过裂缝或连通气泡等渗透途径释放出来,然而在富晶体系统中,晶体在调节气体逸出方面所起的作用还没有得到很好的研究。我们通过对晶体体积分数(\({\phi }_{x}\))在0.5和0.8之间的水成英安岩样品进行实验性气泡化,探索了富晶体岩浆的气体储存能力和放气效率。随着结晶度的增加,最大非连接气体体积(孤立孔隙度)呈指数下降。我们利用开放系统脱气(排气)过程中孤立熔体孔隙率的变化来量化作为 \({\phi }_{x}\) 函数的相对排气效率。当 \({\phi }_{x}\) = 0.5 时,平均分离孔隙率从排气开始时的 ~ 0.33 增加到排气结束时的 ~ 0.67,其截留气泡增加了一倍。当 \({\phi }_{x}\) = 0.7 时,孤立孔隙率从 ~ 0.1 增加到 ~ 0.2,这意味着气体保留和排气效率与结晶度密切相关。当 \({\phi }_{x}\) ≥ 0.7 时,气体通过孔隙率 < 0.1 的断裂迅速排出。在 \({\phi }_{x}\) = 0.5 时,由于粘弹性变形导致孤立孔隙率增加,断裂和气泡凝聚都是低效的排气机制。在 \({\phi }_{x}\) 为 0.5 和 0.7 之间,样品的孤立孔隙度相差三倍,这意味着富含晶体的岩浆的气体保留和喷发行为可能受控于裂缝主导的排气的开始和效率,并且可以通过相对较小的结晶度变化来调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Release the crackin': The influence of brittle behavior on gas retention in crystal-rich magma

Release the crackin': The influence of brittle behavior on gas retention in crystal-rich magma

Crystal-rich silicic lavas commonly erupt from hazardous lava dome-forming volcanoes, characterized by both effusive and explosive eruptions. Magma explosivity is inherently dependent on its ability to store pressurized gas, which can be released through permeable pathways like fractures or connected bubbles, yet the role crystals play in regulating gas escape is poorly constrained in crystal-rich systems. We explored the gas storage capacity and outgassing efficiency of crystal-rich magmas through experimental vesiculation of hydrous dacite samples containing crystal volume fractions (\({\phi }_{x}\)) between 0.5 and 0.8. The maximum unconnected gas volume (isolated porosity) decreases exponentially with increasing crystallinity. We quantify the relative outgassing efficiency as a function of \({\phi }_{x}\) using changes in isolated melt porosity during open-system degassing (outgassing). Mean isolated porosity, for \({\phi }_{x}\) = 0.5, increases from ~ 0.33 at the start of outgassing to ~ 0.67 by the end, doubling its trapped bubbles. For \({\phi }_{x}\) = 0.7, isolated porosity increases from ~ 0.1 to ~ 0.2, implying gas retention and outgassing efficiency are strongly dependent on crystallinity. Outgassing occurs rapidly via fracturing at porosities < 0.1 when \({\phi }_{x}\) ≥ 0.7. Fracturing and bubble coalescence are both inefficient outgassing mechanisms at \({\phi }_{x}\) = 0.5 due to viscoelastoplastic deformation, which leads to an increase of isolated porosity. Between \({\phi }_{x}\) of 0.5 and 0.7, samples sustained a three-fold difference in isolated porosity, implying that gas retention and eruptive behavior of crystal-rich magmas may be controlled by the onset and efficacy of crack-dominated outgassing and can be modulated by relatively small changes in crystallinity.

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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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