Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions

The global mid-ocean ridge system is the most extensive magmatic system on our planet and is the site of 75 per cent of Earth’s volcanism. The vertical extent of mid-ocean-ridge magmatic systems has been considered to be restricted: even at the ultraslow- spreading Gakkel mid-ocean ridge under the A...

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Published in:	Nature
Main Authors:	Bennett, Emma, Jenner, Frances, Millet, Marc-Alban, Cashman, K V, Lissenberg, C J
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2019
Subjects:	Arctic Arctic Ocean
Online Access:	https://oro.open.ac.uk/66145/ https://oro.open.ac.uk/66145/1/Nature%202019%20Bennett.pdf https://oro.open.ac.uk/66145/2/Manuscript_DeepRoots_Bennett.docx https://oro.open.ac.uk/66145/9/66145_1.pdf https://doi.org/10.1038/s41586-019-1448-0

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spelling	ftopenunivgb:oai:oro.open.ac.uk:66145 2023-06-11T04:09:43+02:00 Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions Bennett, Emma Jenner, Frances Millet, Marc-Alban Cashman, K V Lissenberg, C J 2019-08-08 application/pdf application/vnd.openxmlformats-officedocument.wordprocessingml.document https://oro.open.ac.uk/66145/ https://oro.open.ac.uk/66145/1/Nature%202019%20Bennett.pdf https://oro.open.ac.uk/66145/2/Manuscript_DeepRoots_Bennett.docx https://oro.open.ac.uk/66145/9/66145_1.pdf https://doi.org/10.1038/s41586-019-1448-0 unknown https://oro.open.ac.uk/66145/1/Nature%202019%20Bennett.pdf https://oro.open.ac.uk/66145/2/Manuscript_DeepRoots_Bennett.docx https://oro.open.ac.uk/66145/9/66145_1.pdf Bennett, Emma; Jenner, Frances <http://oro.open.ac.uk/view/person/fej25.html>; Millet, Marc-Alban; Cashman, K V and Lissenberg, C J (2019). Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions. Nature, 572 pp. 235–239. Journal Item Public PeerReviewed 2019 ftopenunivgb https://doi.org/10.1038/s41586-019-1448-0 2023-05-28T06:02:03Z The global mid-ocean ridge system is the most extensive magmatic system on our planet and is the site of 75 per cent of Earth’s volcanism. The vertical extent of mid-ocean-ridge magmatic systems has been considered to be restricted: even at the ultraslow- spreading Gakkel mid-ocean ridge under the Arctic Ocean, where the lithosphere is thickest, crystallization depths of magmas that feed eruptions are thought to be less than nine kilometres. These depths were determined using the volatile-element contents of melt inclusions, which are small volumes of magma that become trapped within crystallizing minerals. In studies of basaltic magmatic systems, olivine is the mineral of choice for this approach. However, pressures derived from olivine-hosted melt inclusions are at odds with pressures derived from basalt major-element barometers and geophysical measurements of lithospheric thickness. Here we present a comparative study of olivine- and plagioclase-hosted melt inclusions from the Gakkel mid-ocean ridge. We show that the volatile contents of plagioclase-hosted melt inclusions correspond to much higher crystallization pressures (with a mean value of 270 megapascals) than olivine-hosted melt inclusions (with a mean value of 145 megapascals). The highest recorded pressure that we find equates to a depth 16.4 kilometres below the seafloor. Such higher depths are consistent with both the thickness of the Gakkel mid-ocean ridge lithosphere and with pressures reconstructed from glass compositions. In contrast to previous studies using olivine-hosted melt inclusions, our results demonstrate that mid-ocean-ridge volcanoes may have magmatic roots deep in the lithospheric mantle, at least at ultraslow-spreading ridges. Article in Journal/Newspaper Arctic Arctic Ocean The Open University: Open Research Online (ORO) Arctic Arctic Ocean Nature 572 7768 235 239
institution	Open Polar
collection	The Open University: Open Research Online (ORO)
op_collection_id	ftopenunivgb
language	unknown
description	The global mid-ocean ridge system is the most extensive magmatic system on our planet and is the site of 75 per cent of Earth’s volcanism. The vertical extent of mid-ocean-ridge magmatic systems has been considered to be restricted: even at the ultraslow- spreading Gakkel mid-ocean ridge under the Arctic Ocean, where the lithosphere is thickest, crystallization depths of magmas that feed eruptions are thought to be less than nine kilometres. These depths were determined using the volatile-element contents of melt inclusions, which are small volumes of magma that become trapped within crystallizing minerals. In studies of basaltic magmatic systems, olivine is the mineral of choice for this approach. However, pressures derived from olivine-hosted melt inclusions are at odds with pressures derived from basalt major-element barometers and geophysical measurements of lithospheric thickness. Here we present a comparative study of olivine- and plagioclase-hosted melt inclusions from the Gakkel mid-ocean ridge. We show that the volatile contents of plagioclase-hosted melt inclusions correspond to much higher crystallization pressures (with a mean value of 270 megapascals) than olivine-hosted melt inclusions (with a mean value of 145 megapascals). The highest recorded pressure that we find equates to a depth 16.4 kilometres below the seafloor. Such higher depths are consistent with both the thickness of the Gakkel mid-ocean ridge lithosphere and with pressures reconstructed from glass compositions. In contrast to previous studies using olivine-hosted melt inclusions, our results demonstrate that mid-ocean-ridge volcanoes may have magmatic roots deep in the lithospheric mantle, at least at ultraslow-spreading ridges.
format	Article in Journal/Newspaper
author	Bennett, Emma Jenner, Frances Millet, Marc-Alban Cashman, K V Lissenberg, C J
spellingShingle	Bennett, Emma Jenner, Frances Millet, Marc-Alban Cashman, K V Lissenberg, C J Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions
author_facet	Bennett, Emma Jenner, Frances Millet, Marc-Alban Cashman, K V Lissenberg, C J
author_sort	Bennett, Emma
title	Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions
title_short	Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions
title_full	Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions
title_fullStr	Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions
title_full_unstemmed	Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions
title_sort	deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions
publishDate	2019
url	https://oro.open.ac.uk/66145/ https://oro.open.ac.uk/66145/1/Nature%202019%20Bennett.pdf https://oro.open.ac.uk/66145/2/Manuscript_DeepRoots_Bennett.docx https://oro.open.ac.uk/66145/9/66145_1.pdf https://doi.org/10.1038/s41586-019-1448-0
geographic	Arctic Arctic Ocean
geographic_facet	Arctic Arctic Ocean
genre	Arctic Arctic Ocean
genre_facet	Arctic Arctic Ocean
op_relation	https://oro.open.ac.uk/66145/1/Nature%202019%20Bennett.pdf https://oro.open.ac.uk/66145/2/Manuscript_DeepRoots_Bennett.docx https://oro.open.ac.uk/66145/9/66145_1.pdf Bennett, Emma; Jenner, Frances <http://oro.open.ac.uk/view/person/fej25.html>; Millet, Marc-Alban; Cashman, K V and Lissenberg, C J (2019). Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions. Nature, 572 pp. 235–239.
op_doi	https://doi.org/10.1038/s41586-019-1448-0
container_title	Nature
container_volume	572
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Deep roots for mid-ocean-ridge volcanoes revealed by plagioclase-hosted melt inclusions

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