2006
DOI: 10.1016/j.jenvrad.2005.09.004
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Analysis of temperature influences on the amplitude–frequency characteristics of Rn gas concentration

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Cited by 40 publications
(21 citation statements)
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“…It is assumed that the temporal patterns of Rn in the geogas phase are owing to processes affecting its exhalation from the country rock and/or gas transfer processes in the complex consisting of rock porosity and subsurface air space. Environmental influences, particularly atmospheric pressure and temperature, have been proposed for the origin of the periodic signals observed in Rn time series [1][2][3][4]. However, other studies indicate that a consistent meteorological influence cannot be identified as giving rise to variability in Rn time series and suggest gravitational tides as an influencing factor on Rn variability [5][6][7][8][9].…”
Section: Introductionmentioning
confidence: 99%
“…It is assumed that the temporal patterns of Rn in the geogas phase are owing to processes affecting its exhalation from the country rock and/or gas transfer processes in the complex consisting of rock porosity and subsurface air space. Environmental influences, particularly atmospheric pressure and temperature, have been proposed for the origin of the periodic signals observed in Rn time series [1][2][3][4]. However, other studies indicate that a consistent meteorological influence cannot be identified as giving rise to variability in Rn time series and suggest gravitational tides as an influencing factor on Rn variability [5][6][7][8][9].…”
Section: Introductionmentioning
confidence: 99%
“…It is assumed that the temporal patterns of 222 Rn in the geogas phase are due to processes affecting its exhalation from the country rock and/ or gas transfer processes in the complex consisting of rock porosity and subsurface air space. Environmental influences, particularly atmospheric pressure and temperature, have been proposed for the origin of the periodic signals observed in 222 Rn time series (Shapiro et al, 1985;Ball et al, 1991;Pinault and Baubron, 1997;Finkelstein et al, 2006). However, other studies (Aumento, 2002;GrovesKirby et al, 2006;Crockett et al, 2006;Weinlich et al, 2006) indicate that a consistent meteorological influence cannot be identified as giving rise to variability in 222 Rn time series, and suggest gravitational tides as an influencing factor on 222 Rn variability, since both earth tides and ocean tidal loading may drive periodic 222 Rn exhalation via crustal expansion/compression and geophysically-driven groundwater level variations.…”
Section: Introductionmentioning
confidence: 99%
“…Environmental influences, particularly atmospheric pressure and temperature, have been proposed for the origin of the periodic signals observed in radon time series (Shapiro et al, 1985;Ball et al, 1991;Pinault and Baubron, 1997;Finkelstein et al, 2006). However, other studies (Aumento, 2002;Groves-Kirby et al, 2006;Crocket et al, 2006;Weinlich et al, 2006) indicate that a consistent meteorological influence cannot be identified as giving rise to variability in radon time series, and suggest gravitational tides as an influencing factor on radon variability, since both earth tides and ocean tidal loading may drive periodic radon exhalation via crustal expansion/compression and geophysically driven groundwater level variations.…”
Section: Introductionmentioning
confidence: 99%