2021 年 Fukutoku-Oka-no-Ba 海底火山喷发时产生的无法沉没、长期漂移、毫米大小的浮石

IF 3.5 3区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Shingo Takeuchi, Kosuke Ishige, Shimpei Uesawa, Yukiko Suwa
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引用次数: 0

摘要

从火山爆发动力学、物质循环、生物和环境影响以及海洋危害的角度来看,了解浮石形成与在海水中长期漂浮性之间的关系正变得越来越重要。2021 年,远离日本列岛的太平洋福德大化之场海底火山喷发时产生了浮石筏。浮石筏在喷发后约两个月到达奄美大岛和冲绳岛,并继续覆盖多个海湾和港口的海面,为研究浮石筏的特性提供了一个绝佳的机会。对漂浮浮石的筛分分析表明,浮石筏的特征是含有数毫米大小的颗粒,峰值为 2-4 毫米。这一证据提出了一个重要问题,即为什么毫米大小的 Fukutoku-Oka-no-Ba 2021 浮石颗粒能够漂浮两个多月,超过了以往研究显示的漂浮时间。为了回答这个问题,我们建立了毫米到厘米大小浮石颗粒的孔隙度测量技术,并将其应用于福德-大冈之场 2021 年喷发期间喷出的漂浮浮石。获得了漂浮浮石和下沉浮石颗粒的总孔隙度、连通孔隙度和孤立孔隙度(包括误差)。正如对过去海底喷发的漂浮浮石所做的研究一样,大多数漂浮浮石颗粒都含有大量的孤立孔隙度(30%),因此即使浮石尺寸为毫米级,也不会沉没。这项研究强调,骨架密度是测定浮石可浮性(可沉或不可沉)的有用指标。随着粒度的减小,浮石颗粒中的晶体会逐渐消失,这表明浮石的粒度受其岩石学性质(晶体含量和粒度)的影响。通过与亚航空喷发产生的天然浮石和岩浆减压实验产生的实验浮石进行比较,发现福德-大冈之巴 2021 浮石含有丰富的孤立孔隙,这是由于在海水中淬火抑制了碎裂后的膨胀,岩浆中相对较低至中等的晶体含量(< 17 vol%)可能是产生丰富的、毫米大小的不沉浮石的有利条件。由于具有丰富的孤立孔隙度(30 Vol%),大多数漂浮浮石的饱和密度低于海水,因此,即使浮石的尺寸达到毫米级,也是不沉的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Unsinkable, long-drifting, millimeter-sized pumice of the 2021 eruption of Fukutoku-Oka-no-Ba submarine volcano

Unsinkable, long-drifting, millimeter-sized pumice of the 2021 eruption of Fukutoku-Oka-no-Ba submarine volcano

Understanding the relationship between pumice formation and long-term floatability in seawater is becoming increasingly important in terms of eruption dynamics, material cycles, biological and environmental effects, and ocean hazards. Pumice rafts were produced during the 2021 eruption of the Fukutoku-Oka-no-Ba submarine volcano in the Pacific Ocean, far from the Japanese archipelago. The pumice rafts reached the Amami-Ōshima and Okinawa Islands approximately two months after the eruption and continued to cover the sea surface at several bays and ports, providing a great opportunity to study the characteristics of raft pumices. Sieve analysis of the floating pumice indicated that the pumice rafts characteristically contained several millimeter-sized particles with a peak at 2–4 mm. This evidence raises an important question why the millimeter-sized, Fukutoku-Oka-no-Ba 2021 pumice particles were able to float for over two months, which exceeds the floatation time shown in previous studies. To answer this question, a porosity measurement technique for millimeter-to-centimeter-sized pumice particles was established and applied to drifting pumice that erupted during the Fukutoku-Oka-no-Ba 2021 eruption. The total, connected, and isolated porosities (including errors) were acquired for floating and sunken pumice particles. As studied for the floating pumice from past submarine eruptions, most floating pumice particles contain a high amount of isolated porosity (> 30 vol%) and are thus unsinkable even when the pumice size is in the millimeter scale. This study emphasizes that skeletal density is a useful measure for the determination of pumice floatability (sinkable or unsinkable). As the particle size decreases, crystals are lost from the floating pumice particles, suggesting that the particle size of the floating pumice is affected by its petrological properties (crystal content and size). A comparison with natural pumices from subaerial eruptions and experimental pumices from magma decompression experiments suggests that the Fukutoku-Oka-no-Ba 2021 pumices contain abundant isolated pores due to the suppression of expansion after fragmentation by quenching in seawater, and that the relatively low to moderate crystal content in the magma (< 17 vol%) may contribute to favorable conditions to produce abundant, millimeter-sized, unsinkable pumice.

Most floating pumices have lower saturation density than seawater due to abundant isolated porosity (> 30 vol%) and are thus unsinkable even when the pumice size is in the millimeter scale.

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来源期刊
Progress in Earth and Planetary Science
Progress in Earth and Planetary Science Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
6.50
自引率
5.10%
发文量
59
审稿时长
31 weeks
期刊介绍: Progress in Earth and Planetary Science (PEPS), a peer-reviewed open access e-journal, was launched by the Japan Geoscience Union (JpGU) in 2014. This international journal is devoted to high-quality original articles, reviews and papers with full data attached in the research fields of space and planetary sciences, atmospheric and hydrospheric sciences, human geosciences, solid earth sciences, and biogeosciences. PEPS promotes excellent review articles and welcomes articles with electronic attachments including videos, animations, and large original data files. PEPS also encourages papers with full data attached: papers with full data attached are scientific articles that preserve the full detailed raw research data and metadata which were gathered in their preparation and make these data freely available to the research community for further analysis.
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