Magma fragmentation in highly explosive basaltic eruptions induced by rapid crystallization

Fabio Arzilli, Giuseppe La Spina, Mike R. Burton, Margherita Polacci, Nolwenn Le Gall, Margaret E. Hartley, Danilo Di Genova, Biao Cai, Nghia T. Vo, Emily C. Bamber, Sara Nonni, Robert Atwood, Edward W. Llewellin, Richard A. Brooker, Heidy M. Mader, Peter D. Lee

Research output: Contribution to journalArticlepeer-review

28 Citations (Scopus)
216 Downloads (Pure)


Basaltic eruptions are the most common form of volcanism on Earth and planetary bodies. The low viscosity of basaltic magmas inhibits fragmentation, which favours effusive and lava-fountaining activity, yet highly explosive, hazardous basaltic eruptions occur. The processes that promote fragmentation of basaltic magma remain unclear and are subject to debate. Here we used a numerical conduit model to show that a rapid magma ascent during explosive eruptions produces a large undercooling. In situ experiments revealed that undercooling drives exceptionally rapid (in minutes) crystallization, which induces a step change in viscosity that triggers magma fragmentation. The experimentally produced textures are consistent with basaltic Plinian eruption products. We applied a numerical model to investigate basaltic magma fragmentation over a wide parameter space and found that all basaltic volcanoes have the potential to produce highly explosive eruptions. The critical requirements are initial magma temperatures lower than 1,100 °C to reach a syn-eruptive crystal content of over 30 vol%, and thus a magma viscosity around 105 Pa s, which our results suggest is the minimum viscosity required for the fragmentation of fast ascending basaltic magmas. These temperature, crystal content and viscosity requirements reveal how typically effusive basaltic volcanoes can produce unexpected highly explosive and hazardous eruptions.
Original languageEnglish
Pages (from-to)1023-1028
JournalNature Geoscience
Issue number12
Publication statusPublished - 21 Oct 2019

ASJC Scopus subject areas

  • General Earth and Planetary Sciences


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