Physicochemical hazard assessment of ash and dome rock from the 2021 eruption of La Soufrière, St Vincent, for the assessment of respiratory health impacts and water contamination
Physicochemical hazard assessment of ash and dome rock from the 2021 eruption of La Soufrière, St Vincent, for the assessment of respiratory health impacts and water contamination
La Soufrière, St Vincent, began an extrusive eruption on 27 December 2020. The lava dome was destroyed, along with much of the pre-existing 1979 dome, in explosive eruptions from 9 to 22 April 2021. Lava domes generate crystalline silica – inhalation of which can cause silicosis in occupational settings – which can become hazardous when dome material is incorporated into volcanic ash. La Soufrière ash (17 samples) was analysed, according to IVHHN protocols, to rapidly quantify crystalline silica and test for other health-relevant properties. The basaltic andesitic ash contained,5 wt% crystalline silica, which agrees with previous analyses of ash of similar compositions and mirrors the low quantities mea-sured in dome samples (2 area %). It contained substantial inhalable material (7–21 vol%,10 µm). Few fibre-like particles were observed, reducing concern about particle shape. Leaching assays found low concentrations of potentially toxic elements, which indicates low potential to impact health, contaminate drinking-water sources or harm grazing animals through ingestion. Collectively, these data indicate that the primary health concern from this eruption was the potential for fine-grained ash to increase ambient particulate matter, an environmental risk factor for respiratory and cardiovascular morbidity and mortality. Precautionary measures were advised to minimize exposure.
311-329
Horwell, C.J.
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Damby, D.E.
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Stewart, C.
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Joseph, E.P.
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Barclay, J.
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Davies, B.V.
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Mangler, M.F.
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Marvin, L.G.
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Najorka, J.
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Peek, S.
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Tunstall, N.
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5 January 2024
Horwell, C.J.
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Damby, D.E.
c5538ded-e143-47ae-bd5f-2d1f2d6a672d
Stewart, C.
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Joseph, E.P.
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Barclay, J.
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Davies, B.V.
6e780cb2-dea1-43a7-8ac5-d0241271895e
Mangler, M.F.
189cd602-9908-4684-ac4b-94e8344eec11
Marvin, L.G.
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Najorka, J.
234f3d79-28f1-4db3-b87c-5af5badd095e
Peek, S.
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Tunstall, N.
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Horwell, C.J., Damby, D.E., Stewart, C., Joseph, E.P., Barclay, J., Davies, B.V., Mangler, M.F., Marvin, L.G., Najorka, J., Peek, S. and Tunstall, N.
(2024)
Physicochemical hazard assessment of ash and dome rock from the 2021 eruption of La Soufrière, St Vincent, for the assessment of respiratory health impacts and water contamination.
Geological Society Special Publication, 539, .
(doi:10.1144/SP539-2023-46).
Abstract
La Soufrière, St Vincent, began an extrusive eruption on 27 December 2020. The lava dome was destroyed, along with much of the pre-existing 1979 dome, in explosive eruptions from 9 to 22 April 2021. Lava domes generate crystalline silica – inhalation of which can cause silicosis in occupational settings – which can become hazardous when dome material is incorporated into volcanic ash. La Soufrière ash (17 samples) was analysed, according to IVHHN protocols, to rapidly quantify crystalline silica and test for other health-relevant properties. The basaltic andesitic ash contained,5 wt% crystalline silica, which agrees with previous analyses of ash of similar compositions and mirrors the low quantities mea-sured in dome samples (2 area %). It contained substantial inhalable material (7–21 vol%,10 µm). Few fibre-like particles were observed, reducing concern about particle shape. Leaching assays found low concentrations of potentially toxic elements, which indicates low potential to impact health, contaminate drinking-water sources or harm grazing animals through ingestion. Collectively, these data indicate that the primary health concern from this eruption was the potential for fine-grained ash to increase ambient particulate matter, an environmental risk factor for respiratory and cardiovascular morbidity and mortality. Precautionary measures were advised to minimize exposure.
Text
horwell-et-al-2023-physicochemical-hazard-assessment-of-ash-and-dome-rock-from-the-2021-eruption-of-la-soufrière-st
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Accepted/In Press date: 12 July 2023
e-pub ahead of print date: 23 August 2023
Published date: 5 January 2024
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Local EPrints ID: 499478
URI: http://eprints.soton.ac.uk/id/eprint/499478
ISSN: 0305-8719
PURE UUID: 301783dc-52af-4bce-82a5-3856202c2295
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Date deposited: 20 Mar 2025 18:23
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
C.J. Horwell
Author:
D.E. Damby
Author:
C. Stewart
Author:
E.P. Joseph
Author:
J. Barclay
Author:
B.V. Davies
Author:
M.F. Mangler
Author:
L.G. Marvin
Author:
J. Najorka
Author:
S. Peek
Author:
N. Tunstall
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