Snow production results in high volume of snow that is remaining on the low-elevation ski pistes after snowmelt of natural snow on the off-piste sites. The aim of this study was to identify snow/ice depth, snow density, and snow water equivalent of remaining ski piste snowpack to calculate and to compare snow ablation water volume with potential infiltration on the ski piste area at South-Central Slovak ski center Košútka (Inner Western Carpathians; temperate zone). Snow ablation water volume was calculated from manual snow depth and density measurements, which were performed at the end of five winter seasons 2010–2011 to 2015–2016, except for season 2013–2014. The laser diffraction analyzes were carried out to identify soil grain size and subsequently the hydraulic conductivity of soil to calculate the infiltration. The average rate of water movement through soil was seven times as high as five seasons’ average ablation rate of ski piste snowpack; nevertheless, the ski piste area was potentially able to infiltrate only 47% of snow ablation water volume on average. Limitation for infiltration was frozen soil and ice layers below the ski piste snowpack and low snow-free area at the beginning of the studied ablation period.
The paper presents the results of analysis of temporal and spatial changes of snow water equivalent (SWE) in the mountain basin of the upper Hron River over 40 hydrological years. Spatial distribution of SWE was simulated with the WaSiM model. Measured as well as simulated data indicated despite large temporal variations of SWE, the period since the mid-1980-ties seems to have less snow than the previous decades. Simulations indicated pronounced decrease of SWE in the southern part of the basin. Changes of SWE in the highest mountains were not so pronounced. The analysis of previous decades is considered to be the first step in the assessment of impacts of expected climate changes in the future. and Príspevok je venovaný analýze časových a priestorových zmien vodnej hodnoty snehovej pokrývky v povodí horného Hrona za obdobie 40 rokov (hydrologické roky 1962-2001). Priestorové rozdelenie vodnej hodnoty snehu bolo simulované modelom WaSiM. Napriek veľkej variabilite vodnej hodnoty merané aj simulované údaje ukazujú, že od polovice 80-tych rokov 20. storočia došlo v povodí k poklesu vodnej hodnoty snehu. Výsledky simulácie priestorového rozdelenia vodnej hodnoty poukazujú na výrazný pokles najmä v južnej časti povodia. Zmeny vodnej hodnoty v najvyšších častiach povodia v jeho severnej oblasti neboli také dramatické. Analýza časových a najmä priestorových zmien vodnej hodnoty snehu za posledné dekády je prvým krokom pri odhade dopadu možnej zmeny klímy na budúce zmeny snehovej pokrývky.
The aim of the investigation was assessment of spatial variability of the characteristics of snowpack, including the snow water equivalent (SWE) as the main hydrological characteristic of a seasonal snow cover. The study was performed in Khibiny Mountains (Russia), where snow density and snow cover stratigraphy were documented with the help of the SnowMicropen measurements, allowing to determine the exact position of the snow layers’ boundaries with accuracy of 0.1 cm. The study site was located at the geomorphologically and topographically uniform area with uniform vegetation cover. The measurement was conducted at maximum seasonal SWE on 27 March 2016. Twenty vertical profiles were measured along the 10 m long transect. Vertical resolution depended on the thickness of individual layers and was not less than 10 cm. The spatial variation of the measured snowpack characteristics was substantial even within such a homogeneous landscape. Bulk snow density variability was similar to the variability in snow height. The total variation of the snowpack SWE values along the transect was about 20%, which is more than the variability in snow height or snow density, and should be taken into account in analysis of the results of normally performed in operational hydrology snow course SWE estimations by snow tubes.
The study deals with the analyses of long-term snow measurements performed in the top-parts of the Jizera Mts. The homogenity of the measured data and the relationship between the snow cover parameters and elevation are tested. The main task is to determine the amount of snow sotrage in forest based on the measurements in open areas. It was proved that: i) the relationships can be defined by means of simple linear regression, ii) the resulting equations differ during the winter season depending on snow accumulation and snow melting periods respectively. The results re the first step in the research which will continue with analyses from other sites in Jizera mountains and new established measurements in the selected climatological stations. and Článek se zabývá analýzou sněhoměrných měření prováděných dlouhodobě ve vrcholových partiích Jizerských hor. Testována je homogenita naměřených dat a závislost parametrů sněhové pokrývky na nadmořské výšce. Jádrem práce je však zjišťování vztahů pro výpočet sněhových zásob v lesním prostředí na základě měření z volných prostranství. Bylo prokázáno, že i)tyto převodní vztahy lze odvodit pomocí jednoduché lineární regrese, ii)výsledné rovnice se liší během zimního období - pro období akumulace sněhové pokrývky jsou jiné než pro období tání. Výsledky jsou prvním krokem výzkumu, který bude pokračovat analýzami dalších profilů v Jizerských horách a nově zaváděných měření na souboru vybraných klimatických stanic.