Volatile metal emissions from volcanic degassing and lava–seawater interactions at Kīlauea Volcano, Hawai’i

Volatile metal emissions from volcanic degassing and lava–seawater interactions at Kīlauea Volcano, Hawai’i

Volcanoes represent one of the largest natural sources of metals to the Earth’s surface. Emissions of these metals can have important impacts on the biosphere as pollutants or nutrients. Here we use ground- and drone-based direct measurements to compare the gas and particulate chemistry of the magma...

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Veröffentlicht in:Communications earth & environment 2021-12, Vol.2 (1), Article 79
Hauptverfasser: Mason, Emily, Wieser, Penny E., Liu, Emma J., Edmonds, Marie, Ilyinskaya, Evgenia, Whitty, Rachel C. W., Mather, Tamsin A., Elias, Tamar, Nadeau, Patricia Amanda, Wilkes, Thomas C., McGonigle, Andrew J. S., Pering, Tom D., Mims, Forrest M., Kern, Christoph, Schneider, David J., Oppenheimer, Clive
Format: Artikel
Sprache:eng
Schlagworte:
Aquatic plants
Biosphere
Chlorides
Chlorine
Degassing
Earth surface
Emissions
Gas mixtures
Lava
Metal concentrations
Metalloids
Metals
Nutrients
Plumes
Pollutants
Seawater
Speciation
Vents
Volcanic activity
Volcanic eruptions
Volcanic vents
Volcanoes
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container_issue 1
container_start_page
container_title Communications earth & environment
container_volume 2
creator Mason, Emily
Wieser, Penny E.
Liu, Emma J.
Edmonds, Marie
Ilyinskaya, Evgenia
Whitty, Rachel C. W.
Mather, Tamsin A.
Elias, Tamar
Nadeau, Patricia Amanda
Wilkes, Thomas C.
McGonigle, Andrew J. S.
Pering, Tom D.
Mims, Forrest M.
Kern, Christoph
Schneider, David J.
Oppenheimer, Clive
description Volcanoes represent one of the largest natural sources of metals to the Earth’s surface. Emissions of these metals can have important impacts on the biosphere as pollutants or nutrients. Here we use ground- and drone-based direct measurements to compare the gas and particulate chemistry of the magmatic and lava–seawater interaction (laze) plumes from the 2018 eruption of Kīlauea, Hawai’i. We find that the magmatic plume contains abundant volatile metals and metalloids whereas the laze plume is further enriched in copper and seawater components, like chlorine, with volatile metals also elevated above seawater concentrations. Speciation modelling of magmatic gas mixtures highlights the importance of the S 2− ligand in highly volatile metal/metalloid degassing at the magmatic vent. In contrast, volatile metal enrichments in the laze plume can be explained by affinity for chloride complexation during late-stage degassing of distal lavas, which is potentially facilitated by the HCl gas formed as seawater boils.
doi_str_mv 10.1038/s43247-021-00145-3
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subjects Aquatic plants
Biosphere
Chlorides
Chlorine
Degassing
Earth surface
Emissions
Gas mixtures
Lava
Metal concentrations
Metalloids
Metals
Nutrients
Plumes
Pollutants
Seawater
Speciation
Vents
Volcanic activity
Volcanic eruptions
Volcanic vents
Volcanoes
title Volatile metal emissions from volcanic degassing and lava–seawater interactions at Kīlauea Volcano, Hawai’i
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