2017
DOI: 10.5194/essd-2017-3
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Snow observations in Mount-Lebanon (2011–2016)

Abstract: Abstract. We present a unique meteorological and snow observational dataset in Mount-Lebanon, a mountainous region with a Mediterranean climate, where snowmelt is an essential water resource. The study region covers the recharge area of three karstic river basins (total area of 1092 km2 and an elevation up to 3088 m). The dataset consists of: (1) continuous meteorological and snow height observations; (2) snowpack field measurements; and (3) medium resolution satellite snow cover data. The continuous meteorolo… Show more

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Cited by 7 publications
(6 citation statements)
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“…We used the following input meteorological variables: precipitation (LAQ, MZA), air temperature (LAQ, MZA, CED), air relative humidity (LAQ, MZA, CED), wind speed and direction (LAQ, MZA, CED). No observations were available for LAQ AWS during snow season 2013-2014 (Fayad et al, 2017b). We did not use the shortwave radiation measurements because of the large data gaps.…”
Section: Model Setupmentioning
confidence: 99%
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“…We used the following input meteorological variables: precipitation (LAQ, MZA), air temperature (LAQ, MZA, CED), air relative humidity (LAQ, MZA, CED), wind speed and direction (LAQ, MZA, CED). No observations were available for LAQ AWS during snow season 2013-2014 (Fayad et al, 2017b). We did not use the shortwave radiation measurements because of the large data gaps.…”
Section: Model Setupmentioning
confidence: 99%
“…The validation dataset includes (1) half-hourly snow height (HS), snow albedo and incoming shortwave radiation collected at the AWS from W1314 to W1516, (2) bi-weekly manual snow density measurements collected near the AWS during the snow seasons of W1415 and W1516, and (3) daily snow cover area (SCA) observations from MODIS from W1314 to W1516. All these data are fully described in Fayad et al (2017b) and are available as open data in a public repository (Fayad et al, 2017c).…”
Section: Model Evaluationmentioning
confidence: 99%
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“…As incidence angle increases, the ground backscattering coefficient decreases and the total backscatter reflects the volume contributions. The plots are done for a 0.476 g/cm 3 snow density which will be used in the application of the snow depth inversion algorithm because the median seasonal snow density in Lebanon over the 2-year period (2014-2016) was 0.476 g/cm 3 [13].…”
Section: Backscattering Behavior Of Dry Snowmentioning
confidence: 99%
“…In semi-arid and Mediterranean mountains like the High Atlas, the snow accumulates during winter in the high elevation areas of the catchments, where the terrain complexity enhances the variability of the climatic conditions [5]. Spatial variability in near-surface meteorological variables like precipitation, air temperature, wind speed, solar radiation result in heterogeneous snow accumulation and ablation patterns, which influence the spatio-temporal dynamics of the melting rates and streamflow [6,7].…”
Section: Introductionmentioning
confidence: 99%