2011
DOI: 10.1016/j.coldregions.2011.06.003
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Upward-looking ground-penetrating radar for measuring wet-snow properties

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Cited by 57 publications
(83 citation statements)
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“…Relevant traditional techniques include dielectric (Denoth, 1994) or "hand" tests (Fierz et al, 2009) of snow liquid water contents, lysimeter measurements of discharge, temperature and pH and electrical conductivity of bulk meltwaters (Campbell et al, 2006;Williams et al, 2010) and manual observation or measurement of snow density and grain size (Fierz et al, 2009). Even cutting-edge upward-looking radar measurements of snowpack structure and liquid water content (Heilig et al, 2010;Mitterer et al, 2011;Schmid et al, 2014) compare unfavourably with model predictions of wetting front propagation (Wever et al, 2014), attributed to inherent limitations of the 1-D approach in capturing preferential flow.…”
Section: S S Thompson Et Al: Bulk Meltwater Flow and Liquid Watermentioning
confidence: 99%
See 1 more Smart Citation
“…Relevant traditional techniques include dielectric (Denoth, 1994) or "hand" tests (Fierz et al, 2009) of snow liquid water contents, lysimeter measurements of discharge, temperature and pH and electrical conductivity of bulk meltwaters (Campbell et al, 2006;Williams et al, 2010) and manual observation or measurement of snow density and grain size (Fierz et al, 2009). Even cutting-edge upward-looking radar measurements of snowpack structure and liquid water content (Heilig et al, 2010;Mitterer et al, 2011;Schmid et al, 2014) compare unfavourably with model predictions of wetting front propagation (Wever et al, 2014), attributed to inherent limitations of the 1-D approach in capturing preferential flow.…”
Section: S S Thompson Et Al: Bulk Meltwater Flow and Liquid Watermentioning
confidence: 99%
“…Snow, and runoff from snow, are also major resources for the hydroelectric, tourism and inland fishery industries, and furthermore represent hazards from flooding and avalanches (Mitterer et al, 2011). The availability of snow models constrained by a reliable observational basis, for the forecasting of snow hydrological properties and processes in climate, resource and hazard applications is therefore of considerable socio-economic significance (Wever et al, 2014).…”
Section: Introductionmentioning
confidence: 99%
“…While many applications of TR are described in the current literature, these are mainly aimed at determining qualitative snow cover properties (snow water equivalent, grain sizes or snow layering), rather than snow depth on a regional scale (e.g. Sundström et al, 2012;Previatia et al, 2011;Mitterer et al, 2011;Heilig et al, 2008). 11.07.2016…”
Section:  Terrestrial Techniques For Determining Hs Include Terrestmentioning
confidence: 99%
“…The spatial variability in snow depth and the temporal evolution in snowpack stratigraphy have been analyzed utilizing GPR technology as well (e.g. Machguth et al, 2006;Heilig et al, 2009;Mitterer et al, 2011).…”
Section: Ground Penetrating Radarmentioning
confidence: 99%