Monitoring subglacial volcanic eruption using ground-based C-band radar imagery

Frank Silvio Marzano; Stefano Barbieri; Errico Picciotti; Sigrùn Karlsdóttir

doi:10.1109/TGRS.2009.2024933

Monitoring subglacial volcanic eruption using ground-based C-band radar imagery

Frank Silvio Marzano
, Stefano Barbieri
, Errico Picciotti
, Sigrùn Karlsdóttir

Faculty of Industrial Engineering, Mechanical Engineering and Computer Science

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

The microphysical and dynamical features of volcanic clouds, due to Plinian and sub-Plinian eruptions, can be quantitatively monitored by using ground-based microwave weather radars. In order to demonstrate the unique potential of this remote sensing technique, a case study of a subglacial volcanic eruption, occurred in Iceland in November 2004, is described and analyzed. Volume data, acquired by a C-band ground-based weather radar, are processed to automatically classify and estimate ash particle concentration. The ash retrieval physical-statistical algorithm is based on a backscattering microphysical model of fine, coarse, and lapilli ash particles, used within a Bayesian classification and optimal regression algorithm. A sensitivity analysis is carried out to evaluate the overall error budget and the possible impact of nonprecipitating liquid and ice cloud droplets when mixed with ash particles. The evolution of the Icelandic eruption is discussed in terms of radar measurements and products, pointing out the unique features, the current limitations, and future improvements of radar remote sensing of volcanic plumes.

Original language	English
Article number	5238524
Pages (from-to)	403-414
Number of pages	12
Journal	IEEE Transactions on Geoscience and Remote Sensing
Volume	48
Issue number	1
DOIs	https://doi.org/10.1109/TGRS.2009.2024933
Publication status	Published - Jan 2010

Bibliographical note

Funding Information: Manuscript received June 3, 2008; revised March 2, 2009 and April 20, 2009. First published September 15, 2009; current version published December 23, 2009. This work was supported in part by the University “La Sapienza” of Rome, Rome, Italy, and in part by the Italian Department of Civil Protection, Rome, Italy.

Other keywords

Ash retrieval
Inversion methods
Microwave weather radars
Radar meteorology
Volcanic eruption clouds

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10.1109/TGRS.2009.2024933

Cite this

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title = "Monitoring subglacial volcanic eruption using ground-based C-band radar imagery",

abstract = "The microphysical and dynamical features of volcanic clouds, due to Plinian and sub-Plinian eruptions, can be quantitatively monitored by using ground-based microwave weather radars. In order to demonstrate the unique potential of this remote sensing technique, a case study of a subglacial volcanic eruption, occurred in Iceland in November 2004, is described and analyzed. Volume data, acquired by a C-band ground-based weather radar, are processed to automatically classify and estimate ash particle concentration. The ash retrieval physical-statistical algorithm is based on a backscattering microphysical model of fine, coarse, and lapilli ash particles, used within a Bayesian classification and optimal regression algorithm. A sensitivity analysis is carried out to evaluate the overall error budget and the possible impact of nonprecipitating liquid and ice cloud droplets when mixed with ash particles. The evolution of the Icelandic eruption is discussed in terms of radar measurements and products, pointing out the unique features, the current limitations, and future improvements of radar remote sensing of volcanic plumes.",

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note = "Funding Information: Manuscript received June 3, 2008; revised March 2, 2009 and April 20, 2009. First published September 15, 2009; current version published December 23, 2009. This work was supported in part by the University “La Sapienza” of Rome, Rome, Italy, and in part by the Italian Department of Civil Protection, Rome, Italy.",

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N1 - Funding Information: Manuscript received June 3, 2008; revised March 2, 2009 and April 20, 2009. First published September 15, 2009; current version published December 23, 2009. This work was supported in part by the University “La Sapienza” of Rome, Rome, Italy, and in part by the Italian Department of Civil Protection, Rome, Italy.

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N2 - The microphysical and dynamical features of volcanic clouds, due to Plinian and sub-Plinian eruptions, can be quantitatively monitored by using ground-based microwave weather radars. In order to demonstrate the unique potential of this remote sensing technique, a case study of a subglacial volcanic eruption, occurred in Iceland in November 2004, is described and analyzed. Volume data, acquired by a C-band ground-based weather radar, are processed to automatically classify and estimate ash particle concentration. The ash retrieval physical-statistical algorithm is based on a backscattering microphysical model of fine, coarse, and lapilli ash particles, used within a Bayesian classification and optimal regression algorithm. A sensitivity analysis is carried out to evaluate the overall error budget and the possible impact of nonprecipitating liquid and ice cloud droplets when mixed with ash particles. The evolution of the Icelandic eruption is discussed in terms of radar measurements and products, pointing out the unique features, the current limitations, and future improvements of radar remote sensing of volcanic plumes.

AB - The microphysical and dynamical features of volcanic clouds, due to Plinian and sub-Plinian eruptions, can be quantitatively monitored by using ground-based microwave weather radars. In order to demonstrate the unique potential of this remote sensing technique, a case study of a subglacial volcanic eruption, occurred in Iceland in November 2004, is described and analyzed. Volume data, acquired by a C-band ground-based weather radar, are processed to automatically classify and estimate ash particle concentration. The ash retrieval physical-statistical algorithm is based on a backscattering microphysical model of fine, coarse, and lapilli ash particles, used within a Bayesian classification and optimal regression algorithm. A sensitivity analysis is carried out to evaluate the overall error budget and the possible impact of nonprecipitating liquid and ice cloud droplets when mixed with ash particles. The evolution of the Icelandic eruption is discussed in terms of radar measurements and products, pointing out the unique features, the current limitations, and future improvements of radar remote sensing of volcanic plumes.

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KW - Inversion methods

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KW - Radar meteorology

KW - Volcanic eruption clouds

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Monitoring subglacial volcanic eruption using ground-based C-band radar imagery

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Bibliographical note

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