[Al-Zahrani MA (2018) Assessing the impacts of rainfall intensity and urbanization on storm runoff in an arid catchment. Arabian Journal of Geosciences 11: 208.10.1007/s12517-018-3569-4]Search in Google Scholar
[Apel H, Thieken AH, Merz B, Blöschl G (2006) A Probabilistic Modelling System for Assessing Flood Risks. Natural Hazards 38: 79−100.10.1007/s11069-005-8603-7]Search in Google Scholar
[Bracken LJ, Croke J (2007) The concept of hydrological connectivity and its contribution to understanding runoff-dominated geomorphic systems. Hydrological Processes 21(13): 1749−1763.10.1002/hyp.6313]Search in Google Scholar
[CENIA. Půdní mapa ČR 1:250 000 − klasifikace dle TKSP a WRB. <http://geoportal.gov.cz/ArcGIS/services/CENIA/cenia_typy_pud/mapserver/WMSServer?>]Search in Google Scholar
[CPD-74 A (2016) Hydrologic Modeling System HEC-HMS. User´s Manual, US Army Corps of Enginners, Hydrologic Engineering Center, Davis.]Search in Google Scholar
[European Environment Agency. CLC 2012, <https://land.discomap.eea.europa.eu/arcgis/services> IT4Innovations. Floreon+ Web Client <https://floreon.vsb.cz/mapa>]Search in Google Scholar
[Janeček, M. et al. (2012) Ochrana zemědělské půdy před erozí. Česká zemědělská univerzita, Praha.]Search in Google Scholar
[Ministerstvo zemědělství (2019) Veřejná služba BPEJ (updated monthly, hosted on ArcGIS online). <http://services7.arcgis.com/xQldfwn7vL7z10wM/arcgis/rest/services/BPEJ/FeatureServer>]Search in Google Scholar
[National Engineering Handbook (1972) Estimation of direct runoff from storm rainfall. Section 4 Hydrology, Chapter 10, Soil Conservation Service, Washington.]Search in Google Scholar
[National Engineering Handbook (2004) Hydrologic Soil-Cover Complexes. Part 630 Hydrology, Chapter 9, United States Department of Agriculture, Washington.]Search in Google Scholar
[Novotný I, Vopravil J, Kohoutová L ... Žížala D (2013) Metodika mapování a aktualizace bonitovaných půdně ekologických jed-notek. Výzkumný ústav meliorací a ochrany půdy, Praha.]Search in Google Scholar
[Panagos P, Imeson A, Meusburger K, Borrelli P, Poesen J, Alewell C (2016) Soil Conservation in Europe: Wish or Reality?. Land Degradation and Development 27(6): 1547−1551.10.1002/ldr.2538]Search in Google Scholar
[Řehánek T (2008) Povodeň v Jeseníkách v září 2007. In: Hydrologická ročenka ČR 2007. Český hydrometeorologický ústav, Praha, pp. 142–146.]Search in Google Scholar
[Šercl P (2009) Vliv fyzickogeografických faktorů na charakteristiky teoretických návrhových povodňových vln. In: Sborník prací ČHMÚ 54, Český hydrometeorologický ústav, Praha.]Search in Google Scholar
[Shakti PC, Nakatani T, Misumi R (2017) Hydrological Simulation of Small River Basins in Northern Kyushu, Japan, During the Extreme Rainfall Event of July 5-6, 2017. Journal of Disaster Research 13(2): 396−409.10.20965/jdr.2018.p0396]Search in Google Scholar
[Soulis KX, Valiantzas JD (2012) SCS-CN parameter determination using rainfall-runoff data in heterogeneous watersheds – the two-CN system approach. Hydrology & Earth System Sciences 16: 1001–1015.10.5194/hess-16-1001-2012]Search in Google Scholar
[Svatoň V et al. (2018) Floreon+: A Web-Based Platform for Flood Prediction, Hydrologic Modelling and Dynamic Data Analysis. In: Ivan I, Horák J, Inspektor T (eds) Dynamics in GIscience. GIS OS-TRAVA 2017. Lecture Notes in Geoinformation and Cartography. Springer, Cham.10.1007/978-3-319-61297-3_30]Search in Google Scholar
[Technical report No. 40 (2000) CORINE land cover technical guide – Addendum 2000. European Environment Agency, Copenhagen.]Search in Google Scholar
[Younis SMZ, Ammar A (2018) Quantification of impact of changes in land use-land cover on hydrology in the upper Indus Basin, Pakistan. The Egyptian Journal of Remote Sensing and Space Sciences 21(3): 255–263.10.1016/j.ejrs.2017.11.001]Search in Google Scholar