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Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland

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Zeitschriftentitel: Journal of Geophysical Research: Solid Earth
Personen und Körperschaften: Edwards, B., Magnússon, E., Thordarson, T., Guđmundsson, M. T., Höskuldsson, A., Oddsson, B., Haklar, J.
In: Journal of Geophysical Research: Solid Earth, 117, 2012, B4
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Geophysical Union (AGU)
Schlagwörter:
Paleontology
Space and Planetary Science
Earth and Planetary Sciences (miscellaneous)
Atmospheric Science
Earth-Surface Processes
Geochemistry and Petrology
Soil Science
Water Science and Technology
Ecology
Aquatic Science
Forestry
Oceanography
Geophysics
author_facet Edwards, B.
Magnússon, E.
Thordarson, T.
Guđmundsson, M. T.
Höskuldsson, A.
Oddsson, B.
Haklar, J.
Edwards, B.
Magnússon, E.
Thordarson, T.
Guđmundsson, M. T.
Höskuldsson, A.
Oddsson, B.
Haklar, J.
author Edwards, B.
Magnússon, E.
Thordarson, T.
Guđmundsson, M. T.
Höskuldsson, A.
Oddsson, B.
Haklar, J.
spellingShingle Edwards, B.
Magnússon, E.
Thordarson, T.
Guđmundsson, M. T.
Höskuldsson, A.
Oddsson, B.
Haklar, J.
Journal of Geophysical Research: Solid Earth
Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
Paleontology
Space and Planetary Science
Earth and Planetary Sciences (miscellaneous)
Atmospheric Science
Earth-Surface Processes
Geochemistry and Petrology
Soil Science
Water Science and Technology
Ecology
Aquatic Science
Forestry
Oceanography
Geophysics
author_sort edwards, b.
spelling Edwards, B. Magnússon, E. Thordarson, T. Guđmundsson, M. T. Höskuldsson, A. Oddsson, B. Haklar, J. 0148-0227 American Geophysical Union (AGU) Paleontology Space and Planetary Science Earth and Planetary Sciences (miscellaneous) Atmospheric Science Earth-Surface Processes Geochemistry and Petrology Soil Science Water Science and Technology Ecology Aquatic Science Forestry Oceanography Geophysics http://dx.doi.org/10.1029/2011jb008985 <jats:p>The 20 March–12 April basaltic effusive eruption at Fimmvörðuháls, southern Iceland, was an important opportunity to directly observe interactions between lava and snow/ice. The eruption site has local perennial snowfields and snow covered ice, and at the time of eruption it was covered with an additional ∼1–3 m of seasonal snow. Syn‐eruption observations of interactions between lava and snow/ice are grouped into four categories: (1) lava advancing directly on top of snow, (2) lava advancing on top of tephra‐covered snow, (3) snow/ice melting at lava flow margins, and (4) lava flowing beneath snow. Based on syn‐ and post‐eruption observations in 2010/11, we conclude that the features seen in the lava flow field show only limited and localized evidence for the influence of snow/ice presence during the eruption. Estimated melting rates from radiant and conductive heating at the flow fronts are too slow (on the order of 5 m/hr) to allow for complete melting of snow/ice ahead of the advancing lava flows, at least during periods of observed rapid lava advance rates (15–55 m/hr). Thus we conclude that during those periods, which largely established the aerial extent of the lava flow field, lava advanced on top of snow; that this likely was the predominant mode of lava emplacement for much of the eruption is supported by many syn‐eruption field observations. Examination of the lava flows subsequent to the eruption has so far only found subtle evidence for interactions between lava and snow/ice; for example, locally lava flows have fractured and are collapsing, or have developed marginal rubble aprons from melting of snow banks that were partly covered by lava flow margins.</jats:p> Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland Journal of Geophysical Research: Solid Earth
doi_str_mv 10.1029/2011jb008985
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finc_class_facet Geologie und Paläontologie
Geographie
Chemie und Pharmazie
Land- und Forstwirtschaft, Gartenbau, Fischereiwirtschaft, Hauswirtschaft
Biologie
Allgemeine Naturwissenschaft
Physik
Technik
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title Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_unstemmed Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_full Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_fullStr Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_full_unstemmed Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_short Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_sort interactions between lava and snow/ice during the 2010 fimmvörðuháls eruption, south‐central iceland
topic Paleontology
Space and Planetary Science
Earth and Planetary Sciences (miscellaneous)
Atmospheric Science
Earth-Surface Processes
Geochemistry and Petrology
Soil Science
Water Science and Technology
Ecology
Aquatic Science
Forestry
Oceanography
Geophysics
url http://dx.doi.org/10.1029/2011jb008985
publishDate 2012
physical
description <jats:p>The 20 March–12 April basaltic effusive eruption at Fimmvörðuháls, southern Iceland, was an important opportunity to directly observe interactions between lava and snow/ice. The eruption site has local perennial snowfields and snow covered ice, and at the time of eruption it was covered with an additional ∼1–3 m of seasonal snow. Syn‐eruption observations of interactions between lava and snow/ice are grouped into four categories: (1) lava advancing directly on top of snow, (2) lava advancing on top of tephra‐covered snow, (3) snow/ice melting at lava flow margins, and (4) lava flowing beneath snow. Based on syn‐ and post‐eruption observations in 2010/11, we conclude that the features seen in the lava flow field show only limited and localized evidence for the influence of snow/ice presence during the eruption. Estimated melting rates from radiant and conductive heating at the flow fronts are too slow (on the order of 5 m/hr) to allow for complete melting of snow/ice ahead of the advancing lava flows, at least during periods of observed rapid lava advance rates (15–55 m/hr). Thus we conclude that during those periods, which largely established the aerial extent of the lava flow field, lava advanced on top of snow; that this likely was the predominant mode of lava emplacement for much of the eruption is supported by many syn‐eruption field observations. Examination of the lava flows subsequent to the eruption has so far only found subtle evidence for interactions between lava and snow/ice; for example, locally lava flows have fractured and are collapsing, or have developed marginal rubble aprons from melting of snow banks that were partly covered by lava flow margins.</jats:p>
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author Edwards, B., Magnússon, E., Thordarson, T., Guđmundsson, M. T., Höskuldsson, A., Oddsson, B., Haklar, J.
author_facet Edwards, B., Magnússon, E., Thordarson, T., Guđmundsson, M. T., Höskuldsson, A., Oddsson, B., Haklar, J., Edwards, B., Magnússon, E., Thordarson, T., Guđmundsson, M. T., Höskuldsson, A., Oddsson, B., Haklar, J.
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description <jats:p>The 20 March–12 April basaltic effusive eruption at Fimmvörðuháls, southern Iceland, was an important opportunity to directly observe interactions between lava and snow/ice. The eruption site has local perennial snowfields and snow covered ice, and at the time of eruption it was covered with an additional ∼1–3 m of seasonal snow. Syn‐eruption observations of interactions between lava and snow/ice are grouped into four categories: (1) lava advancing directly on top of snow, (2) lava advancing on top of tephra‐covered snow, (3) snow/ice melting at lava flow margins, and (4) lava flowing beneath snow. Based on syn‐ and post‐eruption observations in 2010/11, we conclude that the features seen in the lava flow field show only limited and localized evidence for the influence of snow/ice presence during the eruption. Estimated melting rates from radiant and conductive heating at the flow fronts are too slow (on the order of 5 m/hr) to allow for complete melting of snow/ice ahead of the advancing lava flows, at least during periods of observed rapid lava advance rates (15–55 m/hr). Thus we conclude that during those periods, which largely established the aerial extent of the lava flow field, lava advanced on top of snow; that this likely was the predominant mode of lava emplacement for much of the eruption is supported by many syn‐eruption field observations. Examination of the lava flows subsequent to the eruption has so far only found subtle evidence for interactions between lava and snow/ice; for example, locally lava flows have fractured and are collapsing, or have developed marginal rubble aprons from melting of snow banks that were partly covered by lava flow margins.</jats:p>
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spelling Edwards, B. Magnússon, E. Thordarson, T. Guđmundsson, M. T. Höskuldsson, A. Oddsson, B. Haklar, J. 0148-0227 American Geophysical Union (AGU) Paleontology Space and Planetary Science Earth and Planetary Sciences (miscellaneous) Atmospheric Science Earth-Surface Processes Geochemistry and Petrology Soil Science Water Science and Technology Ecology Aquatic Science Forestry Oceanography Geophysics http://dx.doi.org/10.1029/2011jb008985 <jats:p>The 20 March–12 April basaltic effusive eruption at Fimmvörðuháls, southern Iceland, was an important opportunity to directly observe interactions between lava and snow/ice. The eruption site has local perennial snowfields and snow covered ice, and at the time of eruption it was covered with an additional ∼1–3 m of seasonal snow. Syn‐eruption observations of interactions between lava and snow/ice are grouped into four categories: (1) lava advancing directly on top of snow, (2) lava advancing on top of tephra‐covered snow, (3) snow/ice melting at lava flow margins, and (4) lava flowing beneath snow. Based on syn‐ and post‐eruption observations in 2010/11, we conclude that the features seen in the lava flow field show only limited and localized evidence for the influence of snow/ice presence during the eruption. Estimated melting rates from radiant and conductive heating at the flow fronts are too slow (on the order of 5 m/hr) to allow for complete melting of snow/ice ahead of the advancing lava flows, at least during periods of observed rapid lava advance rates (15–55 m/hr). Thus we conclude that during those periods, which largely established the aerial extent of the lava flow field, lava advanced on top of snow; that this likely was the predominant mode of lava emplacement for much of the eruption is supported by many syn‐eruption field observations. Examination of the lava flows subsequent to the eruption has so far only found subtle evidence for interactions between lava and snow/ice; for example, locally lava flows have fractured and are collapsing, or have developed marginal rubble aprons from melting of snow banks that were partly covered by lava flow margins.</jats:p> Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland Journal of Geophysical Research: Solid Earth
spellingShingle Edwards, B., Magnússon, E., Thordarson, T., Guđmundsson, M. T., Höskuldsson, A., Oddsson, B., Haklar, J., Journal of Geophysical Research: Solid Earth, Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland, Paleontology, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous), Atmospheric Science, Earth-Surface Processes, Geochemistry and Petrology, Soil Science, Water Science and Technology, Ecology, Aquatic Science, Forestry, Oceanography, Geophysics
title Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_full Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_fullStr Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_full_unstemmed Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_short Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
title_sort interactions between lava and snow/ice during the 2010 fimmvörðuháls eruption, south‐central iceland
title_unstemmed Interactions between lava and snow/ice during the 2010 Fimmvörðuháls eruption, south‐central Iceland
topic Paleontology, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous), Atmospheric Science, Earth-Surface Processes, Geochemistry and Petrology, Soil Science, Water Science and Technology, Ecology, Aquatic Science, Forestry, Oceanography, Geophysics
url http://dx.doi.org/10.1029/2011jb008985