Crystals reveal magma convection and melt transport in dyke-fed eruptions

Crystals reveal magma convection and melt transport in dyke-fed eruptions

The processes and ranges of intensive variables that control magma transport and dyke propagation through the crust are poorly understood. Here we show that textural and compositional data of olivine crystals (Mg/Fe, Ni and P) from the tephra of the first months of Paricutin volcano monogenetic erup...

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Veröffentlicht in:Scientific reports 2020-07, Vol.10 (1), p.11632-11632, Article 11632
Hauptverfasser: Albert, Helena, Larrea, Patricia, Costa, Fidel, Widom, Elisabeth, Siebe, Claus
Format: Artikel
Sprache:eng
Schlagworte:
704/2151/209
704/2151/431
704/2151/598
Convection
Crystals
Earth Sciences
Eruptions
Humanities and Social Sciences
Lava
Magma
multidisciplinary
Science
Science (multidisciplinary)
Sciences of the Universe
Stratigraphy
Volcanic eruptions
Volcanoes
Volcanology
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Zusammenfassung:The processes and ranges of intensive variables that control magma transport and dyke propagation through the crust are poorly understood. Here we show that textural and compositional data of olivine crystals (Mg/Fe, Ni and P) from the tephra of the first months of Paricutin volcano monogenetic eruption (Mexico, 1943–1952) record fast growth and large temperature and oxygen fugacity gradients. We interpret that these gradients are due to convective magma transport in a propagating dyke to the Earth’s surface in less than a few days. The shortest time we have obtained is 0.1 day, and more than 50% of the calculated timescales are 
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-68421-4