A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua

A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua

Lava lakes provide a rare opportunity to study conduit flow processes through direct observation of the exposed magma surface. The recent lava lake activity at Masaya volcano (Nicaragua), which commenced in 2015, displayed several unusual phenomena. We report on the dynamics of this rapidly convecti...

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Main Authors: Tom D. Pering, Tehnuka Ilanko, Thomas C. Wilkes, Rebecca A. England, Siân R. Silcock, Leigh R. Stanger, Jon R. Willmott, Robert G. Bryant, Andrew J. S. McGonigle
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-02-01
Series:Frontiers in Earth Science
Subjects:
lava lake
sulfur dioxide emissions
spherical-cap bubble
rapid convection
multiparametric
lake velocity
Online Access:https://www.frontiersin.org/article/10.3389/feart.2018.00241/full
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spelling doaj-37555f0e6c2a445ba4a018a717eeafc02020-11-25T00:44:48ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632019-02-01610.3389/feart.2018.00241422942A Rapidly Convecting Lava Lake at Masaya Volcano, NicaraguaTom D. Pering0Tehnuka Ilanko1Thomas C. Wilkes2Rebecca A. England3Siân R. Silcock4Leigh R. Stanger5Jon R. Willmott6Robert G. Bryant7Andrew J. S. McGonigle8Andrew J. S. McGonigle9Department of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Electronic and Electrical Engineering, University of Sheffield, Sheffield, United KingdomDepartment of Electronic and Electrical Engineering, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomDepartment of Geography, University of Sheffield, Sheffield, United KingdomSchool of Geosciences, The University of Sydney, Sydney, NSW, AustraliaLava lakes provide a rare opportunity to study conduit flow processes through direct observation of the exposed magma surface. The recent lava lake activity at Masaya volcano (Nicaragua), which commenced in 2015, displayed several unusual phenomena. We report on the dynamics of this rapidly convecting lake, which, to the best of our knowledge manifested the highest lava flow velocities ever reported for a lava lake: 13.7–16.4 m s−1, in addition to unusual fluid dynamic behavior involving alteration in surface flow direction. We studied this system with multiparametric and high time resolution remote sensing measurements, performed during June 2017, including ultraviolet camera observations of SO2 emission rates, near infrared thermal camera measurements and video analyses of the lake surface. Median SO2 emission rates of 3.1 (±0.8) and 3.7 (±0.9) kg s−1 were found, which are lower than previously published estimates, and could represent challenging remote sensing conditions or a waning in lava lake activity. Video analyses enabled characterization of frequent bursts of approximately hemispherical spherical-cap bubbles on the surface with diameters ranging 0.6–8.5 m (median of 2.6 m), and calculation of individual bubble masses, which contribute to active bubble bursting values estimated at 1.9 to 3.9 kg s−1. We show that only a small fraction, 7–17%, of total emission volumes are contributed by these bubbles, based on estimated emission rates of 22.5 and 26.9 kg s−1. Furthermore, periodicity analysis reveals regular 200–300 s oscillations in SO2 emissions. These are not shared by any of our other datasets and particularly during the contemporaenously acquried thermal data, hence, we tentatively assign an atmospheric causal generation mechanism, driven by atmospheric transport and turbulence phenomena, such as eddying. Overall, we highlight the uniquely high velocity and fluid dynamic behavior of Masaya lava lake.https://www.frontiersin.org/article/10.3389/feart.2018.00241/fulllava lakesulfur dioxide emissionsspherical-cap bubblerapid convectionmultiparametriclake velocity
collection DOAJ
language English
format Article
sources DOAJ
author Tom D. Pering
Tehnuka Ilanko
Thomas C. Wilkes
Rebecca A. England
Siân R. Silcock
Leigh R. Stanger
Jon R. Willmott
Robert G. Bryant
Andrew J. S. McGonigle
Andrew J. S. McGonigle
spellingShingle Tom D. Pering
Tehnuka Ilanko
Thomas C. Wilkes
Rebecca A. England
Siân R. Silcock
Leigh R. Stanger
Jon R. Willmott
Robert G. Bryant
Andrew J. S. McGonigle
Andrew J. S. McGonigle
A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua
Frontiers in Earth Science
lava lake
sulfur dioxide emissions
spherical-cap bubble
rapid convection
multiparametric
lake velocity
author_facet Tom D. Pering
Tehnuka Ilanko
Thomas C. Wilkes
Rebecca A. England
Siân R. Silcock
Leigh R. Stanger
Jon R. Willmott
Robert G. Bryant
Andrew J. S. McGonigle
Andrew J. S. McGonigle
author_sort Tom D. Pering
title A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua
title_short A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua
title_full A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua
title_fullStr A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua
title_full_unstemmed A Rapidly Convecting Lava Lake at Masaya Volcano, Nicaragua
title_sort rapidly convecting lava lake at masaya volcano, nicaragua
publisher Frontiers Media S.A.
series Frontiers in Earth Science
issn 2296-6463
publishDate 2019-02-01
description Lava lakes provide a rare opportunity to study conduit flow processes through direct observation of the exposed magma surface. The recent lava lake activity at Masaya volcano (Nicaragua), which commenced in 2015, displayed several unusual phenomena. We report on the dynamics of this rapidly convecting lake, which, to the best of our knowledge manifested the highest lava flow velocities ever reported for a lava lake: 13.7–16.4 m s−1, in addition to unusual fluid dynamic behavior involving alteration in surface flow direction. We studied this system with multiparametric and high time resolution remote sensing measurements, performed during June 2017, including ultraviolet camera observations of SO2 emission rates, near infrared thermal camera measurements and video analyses of the lake surface. Median SO2 emission rates of 3.1 (±0.8) and 3.7 (±0.9) kg s−1 were found, which are lower than previously published estimates, and could represent challenging remote sensing conditions or a waning in lava lake activity. Video analyses enabled characterization of frequent bursts of approximately hemispherical spherical-cap bubbles on the surface with diameters ranging 0.6–8.5 m (median of 2.6 m), and calculation of individual bubble masses, which contribute to active bubble bursting values estimated at 1.9 to 3.9 kg s−1. We show that only a small fraction, 7–17%, of total emission volumes are contributed by these bubbles, based on estimated emission rates of 22.5 and 26.9 kg s−1. Furthermore, periodicity analysis reveals regular 200–300 s oscillations in SO2 emissions. These are not shared by any of our other datasets and particularly during the contemporaenously acquried thermal data, hence, we tentatively assign an atmospheric causal generation mechanism, driven by atmospheric transport and turbulence phenomena, such as eddying. Overall, we highlight the uniquely high velocity and fluid dynamic behavior of Masaya lava lake.
topic lava lake
sulfur dioxide emissions
spherical-cap bubble
rapid convection
multiparametric
lake velocity
url https://www.frontiersin.org/article/10.3389/feart.2018.00241/full
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