Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna

Volcanic gas emission measurements inform predictions of hazard and atmospheric impacts. For these measurements, Multi-Gas sensors provide low-cost in situ monitoring of gas composition but to date have lacked the ability to detect halogens. Here, two Multi-Gas instruments characterized passive outg...

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Autores principales: Roberts, T. J., Lurton, T., Giudice, G., Liuzzo, M., Aiuppa, A., Coltelli, M., Vignelles, D., Salerno, G., Couté, B., Chartier, M., Baron, R., Saffell, J. R., Scaillet, B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6979509/
https://www.ncbi.nlm.nih.gov/pubmed/32025075
http://dx.doi.org/10.1007/s00445-017-1114-z
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author Roberts, T. J.
Lurton, T.
Giudice, G.
Liuzzo, M.
Aiuppa, A.
Coltelli, M.
Vignelles, D.
Salerno, G.
Couté, B.
Chartier, M.
Baron, R.
Saffell, J. R.
Scaillet, B.
author_facet Roberts, T. J.
Lurton, T.
Giudice, G.
Liuzzo, M.
Aiuppa, A.
Coltelli, M.
Vignelles, D.
Salerno, G.
Couté, B.
Chartier, M.
Baron, R.
Saffell, J. R.
Scaillet, B.
author_sort Roberts, T. J.
collection PubMed
description Volcanic gas emission measurements inform predictions of hazard and atmospheric impacts. For these measurements, Multi-Gas sensors provide low-cost in situ monitoring of gas composition but to date have lacked the ability to detect halogens. Here, two Multi-Gas instruments characterized passive outgassing emissions from Mt. Etna’s (Italy) three summit craters, Voragine (VOR), North-east Crater (NEC) and Bocca Nuova (BN) on 2 October 2013. Signal processing (Sensor Response Model, SRM) approaches are used to analyse H(2)S/SO(2) and HCl/SO(2) ratios. A new ability to monitor volcanic HCl using miniature electrochemical sensors is here demonstrated. A “direct-exposure” Multi-Gas instrument contained SO(2), H(2)S and HCl sensors, whose sensitivities, cross-sensitivities and response times were characterized by laboratory calibration. SRM analysis of the field data yields H(2)S/SO(2) and HCl/SO(2) molar ratios, finding H(2)S/SO(2) = 0.02 (0.01–0.03), with distinct HCl/SO(2) for the VOR, NEC and BN crater emissions of 0.41 (0.38–0.43), 0.58 (0.54–0.60) and 0.20 (0.17–0.33). A second Multi-Gas instrument provided CO(2)/SO(2) and H(2)O/SO(2) and enabled cross-comparison of SO(2). The Multi-Gas-measured SO(2)-HCl-H(2)S-CO(2)-H(2)O compositions provide insights into volcanic outgassing. H(2)S/SO(2) ratios indicate gas equilibration at slightly below magmatic temperatures, assuming that the magmatic redox state is preserved. Low SO(2)/HCl alongside low CO(2)/SO(2) indicates a partially outgassed magma source. We highlight the potential for low-cost HCl sensing of H(2)S-poor HCl-rich volcanic emissions elsewhere. Further tests are needed for H(2)S-rich plumes and for long-term monitoring. Our study brings two new advances to volcano hazard monitoring: real-time in situ measurement of HCl and improved Multi-Gas SRM measurements of gas ratios. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00445-017-1114-z) contains supplementary material, which is available to authorized users.
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spelling pubmed-69795092020-02-03 Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna Roberts, T. J. Lurton, T. Giudice, G. Liuzzo, M. Aiuppa, A. Coltelli, M. Vignelles, D. Salerno, G. Couté, B. Chartier, M. Baron, R. Saffell, J. R. Scaillet, B. Bull Volcanol Research Article Volcanic gas emission measurements inform predictions of hazard and atmospheric impacts. For these measurements, Multi-Gas sensors provide low-cost in situ monitoring of gas composition but to date have lacked the ability to detect halogens. Here, two Multi-Gas instruments characterized passive outgassing emissions from Mt. Etna’s (Italy) three summit craters, Voragine (VOR), North-east Crater (NEC) and Bocca Nuova (BN) on 2 October 2013. Signal processing (Sensor Response Model, SRM) approaches are used to analyse H(2)S/SO(2) and HCl/SO(2) ratios. A new ability to monitor volcanic HCl using miniature electrochemical sensors is here demonstrated. A “direct-exposure” Multi-Gas instrument contained SO(2), H(2)S and HCl sensors, whose sensitivities, cross-sensitivities and response times were characterized by laboratory calibration. SRM analysis of the field data yields H(2)S/SO(2) and HCl/SO(2) molar ratios, finding H(2)S/SO(2) = 0.02 (0.01–0.03), with distinct HCl/SO(2) for the VOR, NEC and BN crater emissions of 0.41 (0.38–0.43), 0.58 (0.54–0.60) and 0.20 (0.17–0.33). A second Multi-Gas instrument provided CO(2)/SO(2) and H(2)O/SO(2) and enabled cross-comparison of SO(2). The Multi-Gas-measured SO(2)-HCl-H(2)S-CO(2)-H(2)O compositions provide insights into volcanic outgassing. H(2)S/SO(2) ratios indicate gas equilibration at slightly below magmatic temperatures, assuming that the magmatic redox state is preserved. Low SO(2)/HCl alongside low CO(2)/SO(2) indicates a partially outgassed magma source. We highlight the potential for low-cost HCl sensing of H(2)S-poor HCl-rich volcanic emissions elsewhere. Further tests are needed for H(2)S-rich plumes and for long-term monitoring. Our study brings two new advances to volcano hazard monitoring: real-time in situ measurement of HCl and improved Multi-Gas SRM measurements of gas ratios. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00445-017-1114-z) contains supplementary material, which is available to authorized users. Springer Berlin Heidelberg 2017-04-17 2017 /pmc/articles/PMC6979509/ /pubmed/32025075 http://dx.doi.org/10.1007/s00445-017-1114-z Text en © The Author(s) 2017 Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
spellingShingle Research Article
Roberts, T. J.
Lurton, T.
Giudice, G.
Liuzzo, M.
Aiuppa, A.
Coltelli, M.
Vignelles, D.
Salerno, G.
Couté, B.
Chartier, M.
Baron, R.
Saffell, J. R.
Scaillet, B.
Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna
title Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna
title_full Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna
title_fullStr Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna
title_full_unstemmed Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna
title_short Validation of a novel Multi-Gas sensor for volcanic HCl alongside H(2)S and SO(2) at Mt. Etna
title_sort validation of a novel multi-gas sensor for volcanic hcl alongside h(2)s and so(2) at mt. etna
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6979509/
https://www.ncbi.nlm.nih.gov/pubmed/32025075
http://dx.doi.org/10.1007/s00445-017-1114-z
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