[BABIAKOVÁ G., 1978: Use of basic input data into the model of the snowpack accumulation and melting. (In Slovak.) J. Hydrol. Hydromech. 26, 4, 397-408.]Search in Google Scholar
[BERGSTRÖM S., 1975: The development of a snow routine for the HBV-2 model. Nordic Hydrol., 6, 73-92.10.2166/nh.1975.0006]Search in Google Scholar
[BERGSTRÖM S., FORSMAN A., 1973: Development of a conceptual deterministic rainfall-runoff model. Nordic Hydrol., 4, 3, 147-170.10.2166/nh.1973.0012]Search in Google Scholar
[BLŐSCHL G., KIRNBAUER R., JANSA J., PARAJKA J., MERZ R., HAAS P., 2005: Spatially distributed snow estimation in Austria. In Proc.: 10. stretnutie snehárov. ÚH SAV, 11-13. http://147.213.145.2/uh/sneh/Proceedings.pdf http://147.213.145.2/uh/sneh/Proceedings.pdf]Search in Google Scholar
[BOONE A., HABETS F., NOILHAN J., CLARK D., DIR-MEYER P., FOX S., GUSEV Y., HADDELAND I., KOSTER R., LOHMANN D., MAHANAMA S., MITCHELL K., NASONOVA O., NIU G.Y., PITMAN A., POLCHER J., SHMAKIN A.B., TANAKA K., VAN DEN HURK B., VÉRANT S., VERSEGHY D., VITERBO P., YANG Z.L., 2004: The Rhone-Aggregation Land Surface Scheme Inter-comparison Project: An Overview. J. Climate, 17, 187-208.10.1175/1520-0442(2004)017<0187:TRLSSI>2.0.CO;2]Search in Google Scholar
[BRULAND O., LISTON G.E., VONK J., SAND K., KILLINGTVEIT A., 2004: Modelling the snow distribution at two high arctic sites at Svalbard, Norway, and at an alpine site in central Norway. Nordic Hydrol., 35, 3, 191-208.10.2166/nh.2004.0014]Search in Google Scholar
[ELDER K., DOZIER J., MICHAELSEN J., 1991: Snow accumulation and distribution in an alpine watershed. Water Resources Research, 27, 7, 1541-1552.10.1029/91WR00506]Search in Google Scholar
[ETCHEVERS P., MARTIN E., BROWN R., FIERZ C., LEJEUNE Y., BAZILE E., BOONE A., DAI Y.J., ESSERY R., FERNANDEZ A., GUSEV Y., JORDAN R., KOREN V., KOWALCZYK E., NASONOVA N.O., PYLES R.D., SCHLOSSER A., SHMAKIN A.B., SMIRNOVA T.G., STRASSER U., VERSEGHY D., YAMAZAKI T., YANG Z.L., 2004: Validation of the energy budget of an alpine snowpack simulated by several snow models (SNOWMIP project). Annals of Glaciology, 38, 1, 150-158.10.3189/172756404781814825]Search in Google Scholar
[HLAVČOVÁ K., SZOLGAY J., KOHNOVÁ S., HLÁSNY T., 2008: Simulation of hydrological response to the future climate in the Hron River basin. J. Hydrol. Hydromech., 56, 3, 163-175.]Search in Google Scholar
[HLAVČOVÁ K., SZOLGAY J., KOHNOVÁ S., HORVÁT O., PAPÁNKOVÁ Z., 2006: Parametrization of land-use characteristics in distributed rainfall-runoff modelling. Meteorol. Journal (Slovakia), 9, 131-138.]Search in Google Scholar
[HOLKO L., KOSTKA Z., 2006: Hydrologický výkum vo vysokohorskom povodí Jaloveckého potoka (Hydrological research in a high-mountain catchment of the Jalovecky creek). J. Hydrol. Hydromech., 54, 2, 2006, 192-206.]Search in Google Scholar
[HOLKO L., KOSTKA Z., PECUŠOVÁ Z., 2005: Snow. In: Assessment of climate change impact on selected components of the hydrosphere and biosphere in Hron and Váh river basins. (In Slovak.) Bratislava, VEDA, 105-168.]Search in Google Scholar
[HOLKO L., PARAJKA J., KOSTKA Z., 2003: Distributed snow water equivalent modelling in a mountain catchment. (In Slovak.) J. Hydrol. Hydromech., 51, 1, 39-51.]Search in Google Scholar
[HOTTELET CH., BLAŽKOVÁ Š., BIČÍK M., 1994: Application of the ETH Snow Model to Three Basins of Different Character in Central Europe. Nordic Hydrol., 25, 1/2, 113-128.10.2166/nh.1994.0023]Search in Google Scholar
[HRÍBIK M., ŠKVARENINA J., 2007: Monitoring of snow properties in chosen mountain regions realized by Technical University in Zvolen. (In Slovak.) In Proc: Transport of water, chemicals and energy in the soil-crop canopy-atmosphere system: 15. Poster day. IH SAS. 174-181.]Search in Google Scholar
[HRÍBIK M., ŠKVARENINA J., KUNČA V., 2006: Changes of snow cover on the altitudinal transect of Kráľová Hoľa peak - Low Tatras in the winter's season 2005/2006. (In Slovak.) In Proc: Transport of water, chemicals and energy in the soil-crop canopy-atmosphere system: 14. Poster day. IH SAS, 178-183.]Search in Google Scholar
[KOMORNÍKOVÁ M., SZOLGAY J., SZÖKEOVÁ D., JURČÁK S., 2008: A hybrid modelling framework for forecasting. J. Hydrol. Hydromech., 56, 3, 145-162.]Search in Google Scholar
[LÓPEZ-MORENO J.I., VICENTE-SERRANO S., 2007: Atmospheric circulation influence on the interannual variability of snow pack in the Spanish Pyrenees during the second half of the 20th century. Nordic Hydrol., 38, 1, 33-44.10.2166/nh.2007.030]Search in Google Scholar
[MARTINEC J., 1985: Snowmelt-runoff models for operational forecasts. Nordic Hydrol., 16, 3, 129-136.10.2166/nh.1985.0010]Search in Google Scholar
[MENDEL O., MIKLÁNEK P., KONÍČEK A., 1993: Modelling of evaporation and evapotranspiration. (In Russian.) In: Modelling of hydrological cycle of river basins. Russian Academy of Sciences, Moscow, 86-94.]Search in Google Scholar
[MIKLÁNEK P., 1994: The application of a simple digital elevation model for the determination of areal evapotranspiration. IAHS Publ. No. 221, 103-108.]Search in Google Scholar
[MIKLÁNEK P., 1995: Annual course of potential evapotranspiration in different altitudes. J. Hydrol. Hydromech., 43, 4-5, 275-287.]Search in Google Scholar
[NĚMEC L., ZUSKOVÁ I., 2005: Changes in snow cover in the Czech Republic since the year 1926. (In Czech.) Meteorological Bulletin, 58, 5, 135-138.]Search in Google Scholar
[PECUŠOVÁ Z., HOLKO L., KOSTKA Z., 2004: Spatial and temporal distribution of snow cover in the upper Hron River basin in hydrological years 1962-2001. J. Hydrol. Hydromech., 52, 4, 267-278.]Search in Google Scholar
[PEKÁROVÁ P., KOHNOVÁ S., TRNAVSKÁ E., MIKLÁNEK P., SZOLGAY J., HLAVČOVÁ K., PAUEROVÁ I., 2006: On the determination of the 100-year specific peak flows in small catchments for flood risk mapping. Meteorological Journal, 9, 3-4, 157-164.]Search in Google Scholar
[PEKÁROVÁ P., KONÍČEK A., MIKLÁNEK P., 2005: The land use impact on runoff regime in small experimental basins. (In Slovak.) ISBN 80-224-0865-4, Veda, 215 pp.]Search in Google Scholar
[RANGO A., 1993: Snow hydrology processes and remote sensing. Hydrological Processes, 7, 2, 121-138.10.1002/hyp.3360070204]Search in Google Scholar
[RUTTER N., ESSERY R., 2006: Evaluation of forest snow processes models (SnowMIP2). Geophysical Research Abstracts, 8, SRef-ID: 1607-7962/gra/EGU06-A-05921.]Search in Google Scholar
[SEIBERT J., 1998: Users Manual. Uppsala, Sweden, 30 pp.]Search in Google Scholar
[SVOBODA A., 1983: Rainfall-Runoff Nonlinear Cascade Model and Its Use in Modelling Total Catchment Runoff. (In Slovak.) J. Hydrol. Hydromech., 31, 3-4, 288-296.]Search in Google Scholar
[SZOLGAY J., HLAVČOVÁ K., LAPIN M., PARAJKA J., KOHNOVÁ S., 2007: The impact of climate change on the runoff regime in Slovakia. (In Slovak.) Key Publishing, Ostrava, 158 pp.]Search in Google Scholar
[TURČAN J., 1978: Vertical gradient of the precipitation in the mathematical modelling of snow accumulation. (In Slovak.) J. Hydrol. Hydromech., 26, 4, 386-396.]Search in Google Scholar
[TURPIN O., FERGUSON R., JOHANSSON B., 1999: Use of remote sensing to test and update simulated snow cover in hydrological models. Hydrological Processes, 13, 12-13, 2067-2077.10.1002/(SICI)1099-1085(199909)13:12/13<2067::AID-HYP886>3.0.CO;2-X]Search in Google Scholar
[VIKHAMAR SCHULER D., BELDRING S., FORLAND E.J., ROALD L.A., ENGEN SKAUGEN T., 2006: Snow cover and snow water equivalent in Norway - current conditions (1961-1990) and scenarios for the future (2071-2100). Norwegian Meteorological Institute, Report No. 01/2006 Climate 34.]Search in Google Scholar