High spatial resolution radon measurements reveal hidden active faults on Mt. Etna

M Burton; M Neri; D Condarelli

doi:Artn L07618 10.1029/203gl019181

High spatial resolution radon measurements reveal hidden active faults on Mt. Etna

M Burton, M Neri, D Condarelli

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

Abstract

Radon emissions are frequently monitored in volcanically and tectonically active areas in order to reveal changes in soil degassing, as radon acts a tracer for the more abundant CO2 degassing commonly observed in such areas. Between July 2002 and May 2003 a series of discrete measurements of radon concentrations in soil were made with high spatial resolution (similar to5 - 100 m) in the Santa Venerina area on Mt. Etna. These measurements revealed well-defined linear anomalies that we interpret as being caused by active faults whose higher porosity than surrounding soils allows an increased CO2 flux, carrying radon from beneath. These faults were not visible at the surface and were therefore revealed at high spatial resolution by our radon survey. Our hypothesis that the positive anomalies are attributable to active faults was strengthened by the observation of concentrated damage along this geometry during the earthquakes that struck this area in late October 2003.

Original language	English
Journal	Geophysical Research Letters
Volume	31
Issue number	7
DOIs	https://doi.org/Artn L07618 10.1029/203gl019181
Publication status	Published - 2004

Keywords

volcanic-eruptions
gas emanations
mount-etna
co2
emissions
flank
indicators
nicaragua
vulcano

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

Artn L07618 10.1029/203gl019181

Cite this

@article{bf81260d0c3447a89276b2420eac6793,

title = "High spatial resolution radon measurements reveal hidden active faults on Mt. Etna",

abstract = "Radon emissions are frequently monitored in volcanically and tectonically active areas in order to reveal changes in soil degassing, as radon acts a tracer for the more abundant CO2 degassing commonly observed in such areas. Between July 2002 and May 2003 a series of discrete measurements of radon concentrations in soil were made with high spatial resolution (similar to5 - 100 m) in the Santa Venerina area on Mt. Etna. These measurements revealed well-defined linear anomalies that we interpret as being caused by active faults whose higher porosity than surrounding soils allows an increased CO2 flux, carrying radon from beneath. These faults were not visible at the surface and were therefore revealed at high spatial resolution by our radon survey. Our hypothesis that the positive anomalies are attributable to active faults was strengthened by the observation of concentrated damage along this geometry during the earthquakes that struck this area in late October 2003.",

keywords = "volcanic-eruptions, gas emanations, mount-etna, co2, emissions, flank, indicators, nicaragua, vulcano",

author = "M Burton and M Neri and D Condarelli",

note = "815xw Times Cited:51 Cited References Count:23",

year = "2004",

doi = "Artn L07618 10.1029/203gl019181",

language = "English",

volume = "31",

journal = "Geophysical Research Letters",

issn = "0094-8276",

publisher = "John Wiley & Sons Ltd",

number = "7",

}

TY - JOUR

T1 - High spatial resolution radon measurements reveal hidden active faults on Mt. Etna

AU - Burton, M

AU - Neri, M

AU - Condarelli, D

N1 - 815xw Times Cited:51 Cited References Count:23

PY - 2004

Y1 - 2004

N2 - Radon emissions are frequently monitored in volcanically and tectonically active areas in order to reveal changes in soil degassing, as radon acts a tracer for the more abundant CO2 degassing commonly observed in such areas. Between July 2002 and May 2003 a series of discrete measurements of radon concentrations in soil were made with high spatial resolution (similar to5 - 100 m) in the Santa Venerina area on Mt. Etna. These measurements revealed well-defined linear anomalies that we interpret as being caused by active faults whose higher porosity than surrounding soils allows an increased CO2 flux, carrying radon from beneath. These faults were not visible at the surface and were therefore revealed at high spatial resolution by our radon survey. Our hypothesis that the positive anomalies are attributable to active faults was strengthened by the observation of concentrated damage along this geometry during the earthquakes that struck this area in late October 2003.

AB - Radon emissions are frequently monitored in volcanically and tectonically active areas in order to reveal changes in soil degassing, as radon acts a tracer for the more abundant CO2 degassing commonly observed in such areas. Between July 2002 and May 2003 a series of discrete measurements of radon concentrations in soil were made with high spatial resolution (similar to5 - 100 m) in the Santa Venerina area on Mt. Etna. These measurements revealed well-defined linear anomalies that we interpret as being caused by active faults whose higher porosity than surrounding soils allows an increased CO2 flux, carrying radon from beneath. These faults were not visible at the surface and were therefore revealed at high spatial resolution by our radon survey. Our hypothesis that the positive anomalies are attributable to active faults was strengthened by the observation of concentrated damage along this geometry during the earthquakes that struck this area in late October 2003.

KW - volcanic-eruptions

KW - gas emanations

KW - mount-etna

KW - co2

KW - emissions

KW - flank

KW - indicators

KW - nicaragua

KW - vulcano

U2 - Artn L07618 10.1029/203gl019181

DO - Artn L07618 10.1029/203gl019181

M3 - Article

SN - 0094-8276

VL - 31

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 7

ER -

High spatial resolution radon measurements reveal hidden active faults on Mt. Etna

Abstract

Keywords

UN SDGs

Access to Document

Fingerprint

Cite this