2007
DOI: 10.1016/j.jhydrol.2007.03.010
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Radon in Chalk streams: Spatial and temporal variation of groundwater sources in the Pang and Lambourn catchments, UK

Abstract: and hydrological events. In the Lambourn, the radon budget is controlled by diffuse 10 groundwater inputs, supporting the hypothesis that the alluvial aquifer plays a greater 11 role during periods of high accretion. The Pang is more complex than the Lambourn 12 having a combination of diffuse and point source inputs, with spring inputs dominating 13 both flow and radon signatures in the lower part of the catchment. Significant temporal 14 and spatial variations were determined for C I in both catchments refle… Show more

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Cited by 78 publications
(81 citation statements)
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References 21 publications
(18 reference statements)
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“…Geochemical tracers including major ions, stable isotopes and radiogenic isotopes have been used to estimate groundwater fluxes in gaining rivers (Cartwright et al, 2008(Cartwright et al, , 2010Cook, 2012;Cook et al, 2003Cook et al, , 2006Durand et al, 1993;Genereux et al, 1993;Genereux and Hemond, 1990;Lamontagne et al, 2005Lamontagne et al, , 2008Lamontagne and Cook, 2007;Mullinger et al, 2007Mullinger et al, , 2009Négrel et al, 2003;Rhode, 1981;Ribolzi et al, 2000;Stellato et al, 2008). The utility of each of these tracers depends on a variety of factors including the difference between the concentration of the tracer in groundwater compared to surface water, its spatial and temporal variability, the accurate characterisation of its sources and sinks, and the potential for it to change by processes such as evaporation, precipitation, radioactive decay, degassing, or biogeochemical reactions.…”
Section: N P Unland Et Al: Investigating the Spatio-temporal Variamentioning
confidence: 99%
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“…Geochemical tracers including major ions, stable isotopes and radiogenic isotopes have been used to estimate groundwater fluxes in gaining rivers (Cartwright et al, 2008(Cartwright et al, , 2010Cook, 2012;Cook et al, 2003Cook et al, , 2006Durand et al, 1993;Genereux et al, 1993;Genereux and Hemond, 1990;Lamontagne et al, 2005Lamontagne et al, , 2008Lamontagne and Cook, 2007;Mullinger et al, 2007Mullinger et al, , 2009Négrel et al, 2003;Rhode, 1981;Ribolzi et al, 2000;Stellato et al, 2008). The utility of each of these tracers depends on a variety of factors including the difference between the concentration of the tracer in groundwater compared to surface water, its spatial and temporal variability, the accurate characterisation of its sources and sinks, and the potential for it to change by processes such as evaporation, precipitation, radioactive decay, degassing, or biogeochemical reactions.…”
Section: N P Unland Et Al: Investigating the Spatio-temporal Variamentioning
confidence: 99%
“…Cook, 2012;Cook et al, 2006). The use of 222 Rn as a groundwater tracer has increased over the last two decades as methods for its measurement in the field have improved Cartwright et al, 2011;Cook et al, 2003;Ellins et al, 1990;Genereux and Hemond, 1990;Gilfedder et al, 2012;Hofmann et al, 2011;Mullinger et al, 2007Mullinger et al, , 2009Santos and Eyre, 2011). The short half-life (3.82 days) and degassing of 222 Rn from surface water makes it a particularly valuable groundwater tracer, as elevated 222 Rn activities will only occur close to zones of groundwater discharge.…”
Section: N P Unland Et Al: Investigating the Spatio-temporal Variamentioning
confidence: 99%
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