Development of a Conceptual Snow Sub-Model: Application in Meteorological Stations, Slovakia
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References
Abudu, S. - Cui, C. L. - Saydi, M. - King, J. P. (2012) Application of snowmelt runoff model (SRM) in mountainous watersheds: A review. Water Science and Engineering, 5(2), pp. 123-136. DOI: 10.3882/j.issn.1674-2370.2012.02.001Artimani, M. M. - Zeinivand, H. - Tahmasebpour, N. (2019) Performance evaluation of SRM and HBV model in simulation of snowmelt runoff in Bujin Basin . Iran-Water Resources Research, 15(2), pp. 228-241.Bergstr ö m, S. - Singh, V.P. (1995) The HBV Model ; Water Resources Publications: Highland Ranch, CO, USA, 1995; pp. 443–476.DeWalle, D. R. - Rango, A. (2008) Principles of snow hydrology . Cambridge University Press, 2008. ISBN 9780521823623Feng, X. - Sahoo, A. - Arsenault, K. - Houser, P. - Luo, Y. - Troy, T. J. (2008) The Impact of Snow Model Complexity at Three CLPX Sites . Journal of Hydrometeorology, 9(6), pp. 1464-1481. DOI: 10.1175/2008JHM860.1Gyawali, D. R. - B á rdossy, A. (2022) Development and parameter estimation of snowmelt models using spatial snow-cover observations from MODIS. Hydrology and Earth System Sciences, 26(12), pp. 3055-3077. DOI: 10.5194/hess-26-3055-2022He, Z. H. - Parajka, J. - Tian, F. Q. - Bl ö schl, G. (2014) Estimating degree-day factors from MODIS for snowmelt runoff modeling . Hydrology and Earth System Sciences, 18(12), pp. 4773-4789. DOI: 10.5194/hess-18-4773-2014Holko, L. - Danko, M. - Sleziak, P. (2021) Snowmelt characteristics in a pristine mountain catchment of the Jaloveck ý Creek, Slovakia, over the last three decades . Hydrological Processes, 35(4), e14128. DOI: 10.1002/hyp.14128Hussainzada, W. - Lee, H. S. - Vinayak, B. - Khpalwak, G. F. (2021) Sensitivity of snowmelt runoff modelling to the level of cloud coverage for snow cover extent from daily MODIS product collection 6 . Journal of Hydrology: Regional Studies, 36, 100835. DOI: 10.1016/j.ejrh.2021.100835Jonas, T. - Marty, C. - Magnusson, J. (2009) Estimating the snow water equivalent from snow depth measurements in the Swiss Alps. Journal of Hydrology, 378(1-2), 161-167. DOI: 10.1016/j.jhydrol.2009.09.021Kandera, M. – Výleta, R. (2023) Development and validation of an Approximate Redistributive Balance model to estimate the distribution of water resources using the WEAP: The lower Hron river basin, Slovakia , Acta Hydrolgica Slovaca, Volume 24, No. 1, 122-133Kandera, M. - Výleta, R. - Liová, A. - Danáčová, Z. - Lovasová, Ľ . (2021) Testing of water evaluation and planning (Weap) model for water resources management in the Hron river basin . Acta Hydrologica Slovaca, 22(1), pp. 30–39. DOI: 10.31577/ahs-2021-0022.01.0004Keszeliová, A. - Hlávčová, K. - Danáčová, M. - Danáčová, Z. -Szolgay, J. (2021) Detection of Changes in the Hydrological Balance in Seven River Basins Along the Western Carpathians in Slovakia . Slovak Journal of Civil Engineering, 29(4), pp. 49-60. DOI: 10.2478/sjce-2021-0027Martinec, J. - Rango, A. - Roberts, R. - Baumgartner, M. F. (1998) Snowmelt runoff model (SRM) user ’ s manual , p. 84. Berne: University of Berne, Department of GeographyOlofintoye, O. O. - Ayanshola, A. M. - Salami, A. W. - Idrissiou, A. - Iji, J. O. - Adeleke, O. O. (2022) A study on the applicability of a Swat model in predicting the water yield and water balance of the Upper Ou é m é catchment in the Republic of Benin . Slovak Journal of Civil Engineering, 30(1), pp. 57-66. DOI: 10.2478/sjce-2022-0007Rutter, N. - Essery, R. - Pomeroy, J. - Altimir, N. - … - Yamazaki, T. (2009) Evaluation of forest snow processes models (Snow-MIP2) , Journal of Geophysical Research: Atmospheres, 114(D6). DOI: 10.1029/2008JD011063Seibert, J. - Bergstr ö m, S. (2022) A retrospective on hydrological catchment modelling based on half a century with the HBV model , Hydrol. Earth Syst. Sci., 26, pp. 1371–1388, DOI: 10.5194/hess-26-1371-2022Sieber, J. - Purkey, D. (2015) Water Evaluation And Planning (WEAP) System user guide , Stockholm Environment Institute, Somerville, MA, USA.Slovak Hydrometeorological Institute (2021) Water resource balance of surface water quantity for 2020 , SHMÚ Bratislava, 399 pp.U.S. Army Corps of Engineers, (1998) Runoff from Snowmelt . Engineer Manual, 1110-2-1406, Washington, DC.Valent, P. (2014) Rainfall-runoff modeling for frequency analysis of flows . PhD thesis, Slovak Technical University in Bratislava, Faculty of Civil Engineering, 156 pp.Wagner, W. - Verhoest, N. E. C. - Ludwig, R. - Tedesco, M. (2009) Editorial: Remote sensing in hydrological sciences . Hydrology and Earth System Sciences, 13(6), pp. 813-817. DOI: 10.5194/hess-13-813-2009Yonus, M. - Hassan, S. A. (2022) The Impact of Climate Change on Stochastic Variations of the Hydrology of the Flow of the Indus River. Slovak Journal of Civil Engineering , 30(1), pp. 33-41. DOI: 10.2478/sjce-2022-0004Zhang, G. - Xie, H. - Yao, T. - Li, H. - Duan, S. (2014) Quantitative water resources assessment of Qinghai Lake basin using Snowmelt Runoff Model (SRM). Journal of Hydrology, 519, pp. 976-987. DOI: 10.1016/j.jhydrol.2014.08.022Zhou, G. - Cui, M. - Wan, J. - Zhang, S. (2021) A review on snow-melt models: progress and prospect. Sustainability, 13(20), 11485. DOI: 10.3390/su132011485
Language: English
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Published on: Sep 28, 2023
Published by: Slovak University of Technology
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© 2023 Miroslav Kandera, Roman Výleta, published by Slovak University of Technology
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