Communications Earth & Environment (Dec 2023)

Exceptional eruptive CO2 emissions from intra-plate alkaline magmatism in the Canary volcanic archipelago

  • Mike Burton,
  • Alessandro Aiuppa,
  • Patrick Allard,
  • María Asensio-Ramos,
  • Ana Pardo Cofrades,
  • Alessandro La Spina,
  • Emma J. Nicholson,
  • Vittorio Zanon,
  • José Barrancos,
  • Marcello Bitetto,
  • Margaret Hartley,
  • Jorge E. Romero,
  • Emma Waters,
  • Alex Stewart,
  • Pedro A. Hernández,
  • João Pedro Lages,
  • Eleazar Padrón,
  • Kieran Wood,
  • Benjamin Esse,
  • Catherine Hayer,
  • Klaudia Cyrzan,
  • Estelle F. Rose-Koga,
  • Federica Schiavi,
  • Luca D’Auria,
  • Nemesio M. Pérez

DOI
https://doi.org/10.1038/s43247-023-01103-x
Journal volume & issue
Vol. 4, no. 1
pp. 1 – 10

Abstract

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Abstract Alkaline mafic magmas forming intra-plate oceanic islands are believed to be strongly enriched in CO2 due to low-degree partial melting of enriched mantle sources. However, until now, such CO2 enhancement has not been verified by measuring CO2 degassing during a subaerial eruption. Here, we provide evidence of highly CO2-rich gas emissions during the 86-day 2021 Tajogaite eruption of Cumbre Vieja volcano on La Palma Island, in the Canary archipelago. Our results reveal sustained high plume CO2/SO2 ratios, which, when combined with SO2 fluxes, melt inclusion volatile contents and magma production rates at explosive and effusive vents, imply a magmatic CO2 content of 4.5 ± 1.5 wt%. The amount of CO2 released during the 2021 eruptive activity was 28 ± 14 Mt CO2. Extrapolating to the volume of alkaline mafic magmas forming La Palma alone (estimated as 4000 km3 erupted over 11 Ma), we infer a maximum CO2 emission into the ocean and atmosphere of 1016 moles of CO2, equivalent to 20% of the eruptive CO2 emissions from a large igneous province eruption, suggesting that the formation of the Canary volcanic archipelago produced a CO2 emission of similar magnitude as a large igneous province.