Occurrence of blowing snow events at an alpine site over a 10-year period: Observations and modelling

Occurrence of blowing snow events at an alpine site over a 10-year period: Observations and modelling

► We build a unique 10-year database of blowing snow events at an alpine site. ► Snow transport is observed at least 10.5% of the time in winter. ► Snow particles counters show potential improvements for the database. ► The Crocus snowpack model simulates satisfactorily the occurrence of blowing sno...

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Veröffentlicht in:Advances in water resources 2013-05, Vol.55, p.53-63
Hauptverfasser: Vionnet, V., Guyomarc’h, G., Naaim Bouvet, F., Martin, E., Durand, Y., Bellot, H., Bel, C., Puglièse, P.
Format: Artikel
Sprache:eng
Schlagworte:
Alpine site
Blowing
Blowing snow
Blowing snow events
Computer simulation
Crocus
Crocus snowpack model
Environmental Sciences
Falling
Fluxes
Snow
Snowpack
Transport
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container_end_page 63
container_issue
container_start_page 53
container_title Advances in water resources
container_volume 55
creator Vionnet, V.
Guyomarc’h, G.
Naaim Bouvet, F.
Martin, E.
Durand, Y.
Bellot, H.
Bel, C.
Puglièse, P.
description ► We build a unique 10-year database of blowing snow events at an alpine site. ► Snow transport is observed at least 10.5% of the time in winter. ► Snow particles counters show potential improvements for the database. ► The Crocus snowpack model simulates satisfactorily the occurrence of blowing snow events. ► Wind effects on snow grains control the evolution of the modelled threshold wind speed. Blowing snow events control the evolution of the snow pack in mountainous areas and cause inhomogeneous snow distribution. The goal of this study is to identify the main features of blowing snow events at an alpine site and assess the ability of the detailed snowpack model Crocus to reproduce the occurrence of these events in a 1D configuration. We created a database of blowing snow events observed over 10years at our experimental site. Occurrences of blowing snow events were divided into cases with and without concurrent falling snow. Overall, snow transport is observed during 10.5% of the time in winter and occurs with concurrent falling snow 37.3% of the time. Wind speed and snow age control the frequency of occurrence. Model results illustrate the necessity of taking the wind-dependence of falling snow grain characteristics into account to simulate periods of snow transport and mass fluxes satisfactorily during those periods. The high rate of false alarms produced by the model is investigated in detail for winter 2010/2011 using measurements from snow particle counters.
doi_str_mv 10.1016/j.advwatres.2012.05.004
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1872-9657
language eng
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source Elsevier ScienceDirect Journals
subjects Alpine site
Blowing
Blowing snow
Blowing snow events
Computer simulation
Crocus
Crocus snowpack model
Environmental Sciences
Falling
Fluxes
Snow
Snowpack
Transport
title Occurrence of blowing snow events at an alpine site over a 10-year period: Observations and modelling
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