Robin Campion scite author profile

Abstract. Sulphur dioxide (SO2) fluxes of active degassing volcanoes are routinely measured with ground-based equipment to characterize and monitor volcanic activity. SO2 of unmonitored volcanoes or from explosive volcanic eruptions, can be measured with satellites. However, remote-sensing methods based on absorption spectroscopy generally provide integrated amounts of already dispersed plumes of SO2 and satellite derived flux estimates are rarely reported. Here we review a number of different techniques to derive volcanic SO2 fluxes using satellite measurements of plumes of SO2 and investigate the temporal evolution of the total emissions of SO2 for three very different volcanic events in 2011: Puyehue-Cordón Caulle (Chile), Nyamulagira (DR Congo) and Nabro (Eritrea). High spectral resolution satellite instruments operating both in the ultraviolet-visible (OMI/Aura and GOME-2/MetOp-A) and thermal infrared (IASI/MetOp-A) spectral ranges, and multispectral satellite instruments operating in the thermal infrared (MODIS/Terra-Aqua) are used. We show that satellite data can provide fluxes with a sampling of a day or less (few hours in the best case). Generally the flux results from the different methods are consistent, and we discuss the advantages and weaknesses of each technique. Although the primary objective of this study is the calculation of SO2 fluxes, it also enables us to assess the consistency of the SO2 products from the different sensors used.

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Space- and ground-based measurements of sulphur dioxide emissions from Turrialba Volcano (Costa Rica)

Campion

Martínez-Cruz²,

Lecocq

et al. 2012

Bull Volcanol

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Remotely sensed measurements of sulphur dioxide (SO 2 ) emitted by Turrialba Volcano (Costa Rica) are reported for the period September 2009-January 2011. These measurements were obtained using images from Advanced Spaceborne Thermal Emission and Reflexion radiometer, Ozone Monitoring Instrument and a ground-based UV camera. These three very different instruments provide flux measurements in good agreement with each other, which demonstrate that they can be integrated for monitoring SO 2 fluxes. Fluxes from Turrialba increased fourfold in January 2010, following a phreatic explosion that formed a degassing vent in the W crater of Turrialba. Since then, the SO 2 flux has remained high (30-50 kg/s) but seems to be showing a slowly decreasing trend. We interpret this evolution as the start of open vent degassing from a recently intruded magma body. The opening of the degassing vent decreased the confining pressure of the magma body and allowed the gases to bypass the hydrothermal system.

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Intercomparison of SO 2 camera systems for imaging volcanic gas plumes

Kern

Lübcke

Bobrowski

et al. 2015

Journal of Volcanology and Geothermal Research

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Image-based correction of the light dilution effect for SO 2 camera measurements

Campion

Delgado-Granados

Mori

2015

Journal of Volcanology and Geothermal Research

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Volcanic SO<sub>2</sub> fluxes derived from satellite data: a survey using OMI, GOME-2, IASI and MODIS

Theys¹,

Campion²,

Clarisse³

et al. 2012

Preprint

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Sulphur dioxide (SO₂) fluxes of active degassing volcanoes are routinely measured with ground-based equipment to characterize and monitor volcanic activity. SO₂ of unmonitored volcanoes or from explosive volcanic eruptions, can be measured with satellites. However, remote-sensing methods based on absorption spectroscopy generally provide integrated amounts of already dispersed plumes of SO₂ and satellite derived flux estimates are rarely reported.

Here we review a number of different techniques to derive volcanic SO₂ fluxes using satellite measurements of dispersed and large-scale plumes of SO₂ and investigate the temporal evolution of the total emissions of SO₂ for three very different volcanic events in 2011: Puyehue-Cordón Caulle (Chile), Nyamulagira (DR Congo) and Nabro (Eritrea). High spectral resolution satellite instruments operating both in the UV-visible (OMI/Aura and GOME-2/MetOp-A) and thermal infrared (IASI/MetOp-A) spectral ranges, and multispectral satellite instruments operating in the thermal infrared (MODIS/Terra-Aqua) are used. We show that satellite data can provide fluxes with a sampling of a day or less (few hours in the best case). Generally the flux results from the different methods are consistent, and we discuss the advantages and weaknesses of each technique. Although the primary objective of this study is the calculation of SO₂ fluxes, it also enables to assess the consistency of the SO₂ products from the different sensors used

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Robin Campion

Volcanic SO<sub>2</sub> fluxes derived from satellite data: a survey using OMI, GOME-2, IASI and MODIS

Space- and ground-based measurements of sulphur dioxide emissions from Turrialba Volcano (Costa Rica)

Intercomparison of SO 2 camera systems for imaging volcanic gas plumes

Image-based correction of the light dilution effect for SO 2 camera measurements

Volcanic SO<sub>2</sub> fluxes derived from satellite data: a survey using OMI, GOME-2, IASI and MODIS

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Robin Campion

Volcanic SO&lt;sub&gt;2&lt;/sub&gt; fluxes derived from satellite data: a survey using OMI, GOME-2, IASI and MODIS

Space- and ground-based measurements of sulphur dioxide emissions from Turrialba Volcano (Costa Rica)

Intercomparison of SO 2 camera systems for imaging volcanic gas plumes

Image-based correction of the light dilution effect for SO 2 camera measurements

Volcanic SO&lt;sub&gt;2&lt;/sub&gt; fluxes derived from satellite data: a survey using OMI, GOME-2, IASI and MODIS

Contact Info

Product

Resources

About

Volcanic SO<sub>2</sub> fluxes derived from satellite data: a survey using OMI, GOME-2, IASI and MODIS

Volcanic SO<sub>2</sub> fluxes derived from satellite data: a survey using OMI, GOME-2, IASI and MODIS