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REFERENCES American Rivers, 2016. http://www.americanrivers.org/initiatives/floods/flood-protection/ Accessed 29 March 2016 Asenkerschbaumer, M., Skublics, D., Rutschmann, P., 2012. Verzögerung und Abschätzung von Hochwasserwellen entlang der bayerischen Donau. [Estimation and delay of flood hydrographs at the bavarain Danube]. Technische Universität München, Munich. (In German.) Bauer, C., 2004. Bestimmung der Retentionspotenziale naturnaher Maßnahmen in Gewässer und Aue mit hydraulischen Methoden. [Determination of the retention potential of near nature

References Baker, V.R., 1993. Flood hazards-Learning from the past. Nature, 361, 402-403. Bel, M., 1735. Notitia Hvngariae Novae Historico- Geographica: Divisa In Partes Qvatvor, Qvarvm Prima, Hvngariam Cis-Danvbianam; Altera, Trans-Danubianam; Tertia, Cis-Tibiscanam; Qvarta, Trans-Tibiscanam: Vniuersim XLVIII. Tomus Primus. Blöschl, G., Merz, R., 2008. Bestimmung von Bemessungshochwässern Gegebener Jährlichkeit - Aspekte Einer Zeitgemäßen Strategie (Estimating design floods of a given return period - Facets of a contemporary strategy). Wasser- Wirtschaft, 98

References [1] Zeleňáková, M. (2010). Geographical approach to flood risk analysis. In Proc. from International scientific conference: People, buildings and environment 2010. Brno: CERM, pp. 442-447. [2] Thieken, A., Müller, M., Kreibich, H. & Merz, B. (2005). Flood damage and influencing factors: New insights from the August 2002 flood in Germany. Water resources research, 41, 1-16. DOI 10.1029/2005WR004177. [3] Mercz, B., Kreibich, H., Schwarze, R. & Thieken, A. (2010). Review article “Assessment of economic flood damage”. Nat. Hazards Earth Syst. Sci., 10

References Bogdanowicz E., Marcinkowski M., Nadolna A., Nowicka B. (Polish ver. eds), 2013, Jeziora europejskie pod wpływem stresorow środowiskowych. Tom 1: Charakterystyka jezior i ich wspołczesnych wrażliwości (European lakes under environmental stressors. Vol. 1: Lakes characterisation and present vulnerabilities), IMGW, Warszawa, pp. 56 (in Polish). Directive 2007/60/WE of the European Parliament and of the Council of 23 October 2007 on the assessment and management of flood risks, OJ L 288, 6.11.2007: 27-34. Dumieński G., Michalik M., Pasiecznik-Dominiak A

REFERENCES Achanta, R., Shaji, A., Smith, K., Lucchi, A., Fua, P., Süsstrunk, S., 2010. SLIC Superpixels, EPFL-REPORT-149300. Available online at http://bit.ly/2b599VY . Last accessed: July 2016. Amarnath, G., Rajah, A., 2015. An evaluation of flood inundation mapping from MODIS and ALOS satellites for Pakistan. Geomatics, Natural Hazards and Risk, 7, 5, 1526–1537. Bessisa, J.L., Béquignonb, J., Mahmoodc, A., 2004. The International Charter “Space and Major Disasters” initiative. Acta Astronautica, 54, 3, 183–190. Brakenridge, G., Anderson, E., Nghiem, S

REFERENCES AghaKouchak, A., 2014. Entropy-copula in hydrology and climatology. Journal of Hydrometeorology, 15, 2176–2189. doi:10.1175/JHM-D-13-0207.1. Bačová Mitková, V., 2012. Vzájomný vzťah objemu a dĺžky trvania povodňových vĺn. [The relationship between volume of the flood wave and the time duration of flood events]. Acta Hydrologica Slovaca, 13, 1, 165–174. (In Slovak.) Bačová Mitková, V., Halmová, D., 2014. Joint modeling of flood peak discharges, volume and duration: a case study of the Danube River in Bratislava. Journal of Hydrology and Hydromechanics

REFERENCES Angelini, H., 1955. Danube flood in July 1954, Bratislava. Hydrological Study. HMI Department of Hydrology, Bratislava, Slovak Republic, 34 p. (In Slovak.) Bardossy, A., Molnar, Z., 2004. Statistical and geostatistical investigations into the effects of the Gabcikovo hydropower plant on the groundwater resources of northwest Hungary. Hydrol. Sci. J., 49, 4, 611–623. Blaškovičová, L., Danáčová, Z., Lovasová, L., Simor, V., Škoda, P., 2013. Evolution of selected hydrological characteristics of the Danube at Bratislava. Hydrological Final Report. Slovak

information systems II: 173–183. CHUCHRO M., PIĘTA A., DWORNIK M., LEŚNIAK A. 2016. Big Data processing strategy for hybrid interpretation of flood embankment multisensor data. Geology, Geophysics and Environment 42, 3: 269-278. DWORNIK M., FRANCZYK A., LEŚNIAK A., KRAWIEC K. 2016. Influence of initial water saturation in earthen levees on results of numerical modelling of infiltration processes. Proceedings of CGW Workshop’16: 23-24. DWORNIK M., FRANCZYK A., LEŚNIAK A., KRAWIEC K. 2017. Influence of initial water saturation in earthen levees on results of numerical

References Aubrecht C., Kostl M., Knoflacher M., Steinnocher K., 2009. The importance of active public communication - settlement systems and land use patterns seen from a disaster perspective REAL CORP 2009. In: M. Schrenk, V. Popovich, D. Engelke, P. Elisei (eds), 14th International Conference on Urban Planning, Regional Development and Information Society, Strategies, Concepts and Technologies For Planning the Urban Future. Sitiges: 895-900. Aubrecht C., Steinnocher K., Kostl M., 2011. Regional flood impact assessment based on local land use patterns and sample

REFERENCES 1. Adikari Y., Yoshitani J.: Global trend in water-related disasters — an insight for policymakers . Paris: UNESCO; 2009. 2. Alexander M., Priest S., Mees H.: A framework for evaluating flood risk governance , in: Environmental Science & Policy, 64 (2016), 38–47. 3. Bielecka E., Ciołkosz A.: Flood susceptibility of the Odra valley; its relation to land use changes . Archiwum Fotogrametrii, Kartografii i Teledetekcji, 10 (2000), 26.1-26.8 4. Buzin V.A. Formation factors and forecast of ice dams on rivers of the north of the European territory of