Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events

Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events

<p>This study presents and discusses the results of soil radon monitoring at three different volcano sites and one reference site, from December 2007 to January 2009. This relates to the activity of the Popocatepetl Volcano and a radon survey and gamma-ray spectrometry in the area betw...

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Main Authors: Jose Antonio Lopez Cruz Abeyro, G. Urquiza Beltrán, Hector Roman Peréz Enríquez, Svetlana Koshevaya, Ana Gabriela Bravo Osuna, Vsevolod Yutsis, Vladimir Grimalsky, Anatoliy Kotsarenko, Carlos Valdés Gonzales
Format: Article
Language:English
Published: Istituto Nazionale di Geofisica e Vulcanologia (INGV) 2012-04-01
Series:Annals of Geophysics
Subjects:
Radon, volcano eruption, earthquake, precursory phenomena, atmosphere electricity, Litosphere-Atmosphere coupling
Online Access:http://www.annalsofgeophysics.eu/index.php/annals/article/view/5318
id doaj-44ed011e68814f7a8130d68c8eef4d65
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spelling doaj-44ed011e68814f7a8130d68c8eef4d652020-11-24T22:36:07ZengIstituto Nazionale di Geofisica e Vulcanologia (INGV)Annals of Geophysics1593-52132037-416X2012-04-0155110.4401/ag-5318Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic eventsJose Antonio Lopez Cruz AbeyroG. Urquiza BeltránHector Roman Peréz EnríquezSvetlana KoshevayaAna Gabriela Bravo OsunaVsevolod YutsisVladimir GrimalskyAnatoliy KotsarenkoCarlos Valdés Gonzales<p>This study presents and discusses the results of soil radon monitoring at three different volcano sites and one reference site, from December 2007 to January 2009. This relates to the activity of the Popocatepetl Volcano and a radon survey and gamma-ray spectrometry in the area between Paso de Cortes and Tlamacas Mountain, and in the adjacent regions. The results are applied to the aspects of atmosphere electricity and lithosphere-atmosphere coupling in relation to the forecasting of volcano and earthquake activity. The monitoring of radon release reveals a decrease in radon concentration (down to total suppression) with approaching moderate volcanic eruptions. The behavior of the radon activity at the Tlamacas site is more apparent, compared to other observational sites. The average level of radon release observed at the Tlamacas site is much higher, with some characteristic variations. Both the radon survey and gamma-ray spectrometry indicate intensive diffusion radon emission localized in the area of Tlamacas Mountain. The average radon concentration in the area of Tlamacas is about 10-20-fold greater than the background volcano values. The new concept of lithosphere-atmosphere coupling is presented: intensive radon release in high elevated areas shortens and modifies the Earth-to-thunderclouds electric circuit, which provokes microdischarges into the air close to the ground, attracting lightning discharges. This concept attempts to explain in a new way the noise-like geomagnetic emissions registered before major earthquakes, and it promotes interest for the study of thunderstorm activity in seismo-active zones, as a promising instrument for earthquake forecasting.</p>http://www.annalsofgeophysics.eu/index.php/annals/article/view/5318Radon, volcano eruption, earthquake, precursory phenomena, atmosphere electricity, Litosphere-Atmosphere coupling
collection DOAJ
language English
format Article
sources DOAJ
author Jose Antonio Lopez Cruz Abeyro
G. Urquiza Beltrán
Hector Roman Peréz Enríquez
Svetlana Koshevaya
Ana Gabriela Bravo Osuna
Vsevolod Yutsis
Vladimir Grimalsky
Anatoliy Kotsarenko
Carlos Valdés Gonzales
spellingShingle Jose Antonio Lopez Cruz Abeyro
G. Urquiza Beltrán
Hector Roman Peréz Enríquez
Svetlana Koshevaya
Ana Gabriela Bravo Osuna
Vsevolod Yutsis
Vladimir Grimalsky
Anatoliy Kotsarenko
Carlos Valdés Gonzales
Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events
Annals of Geophysics
Radon, volcano eruption, earthquake, precursory phenomena, atmosphere electricity, Litosphere-Atmosphere coupling
author_facet Jose Antonio Lopez Cruz Abeyro
G. Urquiza Beltrán
Hector Roman Peréz Enríquez
Svetlana Koshevaya
Ana Gabriela Bravo Osuna
Vsevolod Yutsis
Vladimir Grimalsky
Anatoliy Kotsarenko
Carlos Valdés Gonzales
author_sort Jose Antonio Lopez Cruz Abeyro
title Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events
title_short Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events
title_full Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events
title_fullStr Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events
title_full_unstemmed Experimental studies of anomalous radon activity in the Tlamacas Mountain, Popocatepetl Volcano area, México: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events
title_sort experimental studies of anomalous radon activity in the tlamacas mountain, popocatepetl volcano area, méxico: new tools to study lithosphere-atmosphere coupling for forecasting volcanic and seismic events
publisher Istituto Nazionale di Geofisica e Vulcanologia (INGV)
series Annals of Geophysics
issn 1593-5213
2037-416X
publishDate 2012-04-01
description <p>This study presents and discusses the results of soil radon monitoring at three different volcano sites and one reference site, from December 2007 to January 2009. This relates to the activity of the Popocatepetl Volcano and a radon survey and gamma-ray spectrometry in the area between Paso de Cortes and Tlamacas Mountain, and in the adjacent regions. The results are applied to the aspects of atmosphere electricity and lithosphere-atmosphere coupling in relation to the forecasting of volcano and earthquake activity. The monitoring of radon release reveals a decrease in radon concentration (down to total suppression) with approaching moderate volcanic eruptions. The behavior of the radon activity at the Tlamacas site is more apparent, compared to other observational sites. The average level of radon release observed at the Tlamacas site is much higher, with some characteristic variations. Both the radon survey and gamma-ray spectrometry indicate intensive diffusion radon emission localized in the area of Tlamacas Mountain. The average radon concentration in the area of Tlamacas is about 10-20-fold greater than the background volcano values. The new concept of lithosphere-atmosphere coupling is presented: intensive radon release in high elevated areas shortens and modifies the Earth-to-thunderclouds electric circuit, which provokes microdischarges into the air close to the ground, attracting lightning discharges. This concept attempts to explain in a new way the noise-like geomagnetic emissions registered before major earthquakes, and it promotes interest for the study of thunderstorm activity in seismo-active zones, as a promising instrument for earthquake forecasting.</p>
topic Radon, volcano eruption, earthquake, precursory phenomena, atmosphere electricity, Litosphere-Atmosphere coupling
url http://www.annalsofgeophysics.eu/index.php/annals/article/view/5318
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