Ash production by attrition in volcanic conduits and plumes

Ash production by attrition in volcanic conduits and plumes

Tephra deposits result from explosive volcanic eruption and serve as indirect probes into fragmentation processes operating in subsurface volcanic conduits. Primary magmatic fragmentation creates a population of pyroclasts through volatile-driven decompression during conduit ascent. In this study, w...

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Published in:Scientific reports Vol. 7; no. 1; pp. 5538 - 12
Main Authors: Jones, T. J., Russell, J. K.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 17-07-2017
Nature Publishing Group
Nature Portfolio
Subjects:
704/2151/598
704/4111
Conduits
Decompression
Dispersal
Entropy
Grain size
Humanities and Social Sciences
multidisciplinary
Particle size
Plumes
Science
Science (multidisciplinary)
Volcanic eruptions
Volcanoes
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Abstract Tephra deposits result from explosive volcanic eruption and serve as indirect probes into fragmentation processes operating in subsurface volcanic conduits. Primary magmatic fragmentation creates a population of pyroclasts through volatile-driven decompression during conduit ascent. In this study, we explore the role that secondary fragmentation, specifically attrition, has in transforming primary pyroclasts upon transport in volcanic conduits and plumes. We utilize total grain size distributions from a suite of natural and experimentally produced tephra to show that attrition is likely to occur in all explosive volcanic eruptions. Our experimental results indicate that fine ash production and surface area generation is fast (<15 min) thereby rapidly raising the fractal dimension of tephra deposits. Furthermore, a new metric, the Entropy of Information, is introduced to quantify the degree of attrition (secondary fragmentation) from grain size data. Attrition elevates fine ash production which, in turn, has consequences for eruption column stability, tephra dispersal, aggregation, volcanic lightening generation, and has concomitant effects on aviation safety and Earth’s climate.
AbstractList Tephra deposits result from explosive volcanic eruption and serve as indirect probes into fragmentation processes operating in subsurface volcanic conduits. Primary magmatic fragmentation creates a population of pyroclasts through volatile-driven decompression during conduit ascent. In this study, we explore the role that secondary fragmentation, specifically attrition, has in transforming primary pyroclasts upon transport in volcanic conduits and plumes. We utilize total grain size distributions from a suite of natural and experimentally produced tephra to show that attrition is likely to occur in all explosive volcanic eruptions. Our experimental results indicate that fine ash production and surface area generation is fast (<15 min) thereby rapidly raising the fractal dimension of tephra deposits. Furthermore, a new metric, the Entropy of Information, is introduced to quantify the degree of attrition (secondary fragmentation) from grain size data. Attrition elevates fine ash production which, in turn, has consequences for eruption column stability, tephra dispersal, aggregation, volcanic lightening generation, and has concomitant effects on aviation safety and Earth’s climate.
Abstract Tephra deposits result from explosive volcanic eruption and serve as indirect probes into fragmentation processes operating in subsurface volcanic conduits. Primary magmatic fragmentation creates a population of pyroclasts through volatile-driven decompression during conduit ascent. In this study, we explore the role that secondary fragmentation, specifically attrition, has in transforming primary pyroclasts upon transport in volcanic conduits and plumes. We utilize total grain size distributions from a suite of natural and experimentally produced tephra to show that attrition is likely to occur in all explosive volcanic eruptions. Our experimental results indicate that fine ash production and surface area generation is fast (<15 min) thereby rapidly raising the fractal dimension of tephra deposits. Furthermore, a new metric, the Entropy of Information, is introduced to quantify the degree of attrition (secondary fragmentation) from grain size data. Attrition elevates fine ash production which, in turn, has consequences for eruption column stability, tephra dispersal, aggregation, volcanic lightening generation, and has concomitant effects on aviation safety and Earth’s climate.
Tephra deposits result from explosive volcanic eruption and serve as indirect probes into fragmentation processes operating in subsurface volcanic conduits. Primary magmatic fragmentation creates a population of pyroclasts through volatile-driven decompression during conduit ascent. In this study, we explore the role that secondary fragmentation, specifically attrition, has in transforming primary pyroclasts upon transport in volcanic conduits and plumes. We utilize total grain size distributions from a suite of natural and experimentally produced tephra to show that attrition is likely to occur in all explosive volcanic eruptions. Our experimental results indicate that fine ash production and surface area generation is fast (&lt;15 min) thereby rapidly raising the fractal dimension of tephra deposits. Furthermore, a new metric, the Entropy of Information, is introduced to quantify the degree of attrition (secondary fragmentation) from grain size data. Attrition elevates fine ash production which, in turn, has consequences for eruption column stability, tephra dispersal, aggregation, volcanic lightening generation, and has concomitant effects on aviation safety and Earth's climate.
ArticleNumber 5538
Author Jones, T. J.
Russell, J. K.
Author_xml – sequence: 1
  givenname: T. J.
  orcidid: 0000-0003-4981-5131
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  fullname: Jones, T. J.
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  organization: Department of Earth Sciences, Durham University
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  orcidid: 0000-0002-2062-3155
  surname: Russell
  fullname: Russell, J. K.
  organization: Department of Earth, Ocean & Atmospheric Sciences, University of British Columbia
BackLink https://www.ncbi.nlm.nih.gov/pubmed/28717134$$D View this record in MEDLINE/PubMed
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Snippet Tephra deposits result from explosive volcanic eruption and serve as indirect probes into fragmentation processes operating in subsurface volcanic conduits....
Abstract Tephra deposits result from explosive volcanic eruption and serve as indirect probes into fragmentation processes operating in subsurface volcanic...
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SourceType Open Website
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Aggregation Database
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StartPage 5538
SubjectTerms 704/2151/598
704/4111
Conduits
Decompression
Dispersal
Entropy
Grain size
Humanities and Social Sciences
multidisciplinary
Particle size
Plumes
Science
Science (multidisciplinary)
Volcanic eruptions
Volcanoes
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Title Ash production by attrition in volcanic conduits and plumes
URI https://link.springer.com/article/10.1038/s41598-017-05450-6
https://www.ncbi.nlm.nih.gov/pubmed/28717134
https://www.proquest.com/docview/1956168946
https://search.proquest.com/docview/1921136860
https://pubmed.ncbi.nlm.nih.gov/PMC5514120
https://doaj.org/article/85a38ec9ae294d46a7dfcb1af26f63ae
Volume 7
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