Present weather sensor tests for measuring drifting snow

In Antarctica, blowing snow accounts for a major component of the surface mass balance near the coast. Measurements of precipitation and blowing snow are scarce, and therefore collecting data would allow testing numerical models on mass flux over this region. A present weather station (PWS), Biral V...

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Bibliographic Details
Main Authors: Bellot, H., Trouvilliez, A., Naaim-Bouvet, F., Genthon, C., Gallée, H.
Other Authors: CEMAGREF GRENOBLE ETGR, UNIVERSITE DE GRENOBLE I CNRS LGGE FRA
Format: Article in Journal/Newspaper
Language:English
Published: 2011
Subjects:
NEIGE AEROSOL
TRANSPORT DE NEIGE PAR LE VENT
BILAN DE MASSE
PRECIPITATION ATMOSPHERIQUE
BLOWING SNOW
DRIFTING SNOW
PRESENT WEATHER SENSOR
SNOW PARTICULE COUNTER
ATMOSPHERIC PRECIPITATION
WEIGHT BREAKDOWN
Dumont d'Urville
Dumont-d'Urville
Lac Blanc
Antarc*
Antarctica
Antarctique*
Online Access:https://irsteadoc.irstea.fr/cemoa/PUB00032346
Description
Summary:In Antarctica, blowing snow accounts for a major component of the surface mass balance near the coast. Measurements of precipitation and blowing snow are scarce, and therefore collecting data would allow testing numerical models on mass flux over this region. A present weather station (PWS), Biral VPF730, was set up at the coast in Cap Prud'homme station, 5 km from Dumont D'Urville (DDU), principally to quantify precipitation. Since we expected to be able to determine blowing snow fluxes from the PWS data, we first chose to test this device on our experimental site, the Lac Blanc Pass. An empirical calibration was made with a snow particle counter (SPC). Although the physics of the phenomenon was not well captured, the flux outputs were better than those from FlowCapts. The first data from Antarctica were re-analyzed. The new calibration seems to be accurate for estimating the high blowing snow flux with an interrogation of the precipitation effects.

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