Low sulfur emissions from the 2022 Hunga eruption due to seawater-magma interactions

Tue, 01 Apr 2025 00:00:00 GMT

Title: Low sulfur emissions from the 2022 Hunga eruption due to seawater-magma interactions Authors: Jie Wu; Shane J. Cronin; Marco Brenna; Park, Sung Hyun; Alessio Pontesilli; Ingrid A. Ukstins; David Adams; Joali Paredes-Marino; Kyle Hamilton; Mila Huebsch; Diego Gonzalez-Garcia; Chris Firth; James D. L. White; Alexander R. L. Nichols; Terry Plank; Jitraporn Vongsvivut; Annaleise Klein; Frank Ramos; Folauhola Latu’ila; Taaniela Kula Abstract: The explosive January 2022 Hunga submarine eruption in Tonga injected unprecedented water volumes into the upper atmosphere, generating widespread climatic impacts. However, it ejected anomalously little sulfur compared with other eruptions of similar volume. We explain the missing sulfur with volatile budgets calculated from volcanic ash samples spanning the eruption. We show that magma was stored in a weakly stratified reservoir at 2.1 km to >5.6 km depth. Magma rose within <3 min and fragmented at 400？ 1,000 m below sea level. This preserves microscale chemical mingling including ~1 wt% contrasts in magmatic water concentrations. The 11-h erup tion released a total of 319 Tg of magmatic water, which is <10% of that derived from magmatic seawater interaction. Comparing magmatic and residual glass sulfur concentrations shows a total release of 9.4 TgS, but >93% of this entered the ocean during submarine magma fragmentation. These results raise the concern that satellite SO2 monitoring underestimates the magma output of submarine explosions and they are probably near invisible in ice-core records, despite their climate influence caused by water injection into the upper atmosphere.

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Low sulfur emissions from the 2022 Hunga eruption due to seawater-magma interactions