GIS-based Approach to Estimate Surface Runoff in Small Catchments: A Case Study

Adornado H.A., Yoshida M., 2010. GIS-based watershed analysis and surface run-off estimation using curve number (CN) value. Journal of Environmental Hydrology 18: 1–10.Search in Google Scholar

Agarwal R., Garg P.K., Garg R.D., 2013. Remote Sensing and GIS Based Approach for Identification of Artificial Recharge Sites. Water Resources Management 27: 2671–2689.10.1007/s11269-013-0310-7Search in Google Scholar

Chow V.T., 1964. Handbook of Applied Hydrology. McGraw-Hill Book Company, New York.Search in Google Scholar

Chow V.T., Maidment D.R., Mays L.W., 1988. A text book of applied hydrology. Tata McGraw Hill publications, New Delhi.Search in Google Scholar

Costache R., Fontanine I., Corodescu E., 2014. Assessment of surface runoff depth changes in Sărătel River basin, Romania using GIS techniques. Central European Journal of Geosciences 6: 363–372.10.2478/s13533-012-0181-0Search in Google Scholar

Cronshey R., McCuen R.H., Miller N., Rawls W., Robbins S., Woodward D., 1986. Urban Hydrology for Small Watersheds (TR-55). Natural Resources Conservation Service, WashingtonSearch in Google Scholar

Desmet P.J.J., 1997. Effects of Interpolation Errors on the Analysis of DEMs. Earth Surface Processes and Landforms 22: 563–580.10.1002/(SICI)1096-9837(199706)22:6<563::AID-ESP713>3.0.CO;2-3Search in Google Scholar

Dubcová A., Lauko V., Tolmáči L., Cimra J., Kramáreková H., Krogmann A., Nemčíková M., Némethová J., Oremusová D., Gurňák D., Križan F., 2008. Geografia Slovenska (Geography of Slovakia). Univerzita Konštantína Filozofa v Nitre, Nitra.Search in Google Scholar

Hengl T., 2006. Finding the right pixel. Computers & Geosciences 32: 1283–1298.10.1016/j.cageo.2005.11.008Search in Google Scholar

Hjelmfelt A.T. Jr., 1991. Investigation of curve number procedure. Journal of Hydraulic Engineering (ASCE) 117: 725–737.10.1061/(ASCE)0733-9429(1991)117:6(725)Search in Google Scholar

Holman I.P., Hollis J.M., Bramley M.E., Thompson T.R.E., 2003. The contribution of soil structural degradation to catchment flooding: a preliminary investigation of the 2000 floods in England and Wales. Hydrology and Earth System Sciences 7: 755–766.10.5194/hess-7-755-2003Search in Google Scholar

Hutchinson M.F., 1988. Calculation of hydrologically sound digital elevation models. In: Third International Symposium on Spatial Data Handling. International Geographical Union, Sydney: 117–133.Search in Google Scholar

Ivanička J., Polák M., Hók J., Határ J., Greguš J., Vozár J., Nagy A., Fordinál K., Pristaš J., Konečný V., Šimon L., 1998. Geologická mapa Tribeča 1 : 50 000 (Geological map of Tribeč 1 : 50 000). Geologická služba SR, Bratislava.Search in Google Scholar

Lapin M., Faško P., Melo M., Šťastný P., Tomlain J., 2002. Klimatické oblasti 1 : 1 000 000. Atlas krajiny Slovenskej republiky (Climate areas 1 : 1 000 000. Landscape Atlas of the Slovak Republic). MŽP SR, Bratislava, SAŽP, Banská Bystrica.Search in Google Scholar

Makeľ M., Turbek J., Podolinská J., Škoda P., 2003. Stanovenie N-ročných prietokov a N-ročných prietokových vĺn na väčších tokoch (Odvetvová technická norma MŽP SR 3112-1:03) (Determination of N-year discharges and N-year discharge waves at greater watercourses (Technical standard of the Ministry of Environment of the Slovak Republic 3112–1:03)).Search in Google Scholar

McCuen R.H., 1982. A Guide to Hydrologic Analysis Using SCS Methods. Prentice-Hall, New Jersey.Search in Google Scholar

Mishra S.K., Singh V.P., 2003. Soil Conservation Service Curve Number (SCS-CN) Methodology. Kluwer Academic Publishers, Dodrecht.10.1007/978-94-017-0147-1Search in Google Scholar

Mishra S.K., Singh V.P., 2004. Long-term hydrological simulation based on the soil conservation service curve number. Hydrological Processes 18: 1291–1313.10.1002/hyp.1344Search in Google Scholar

Mitková V., Kohnová S., Pekárová P., 2004. Porovnanie odhadov maximálnych sezónnych prietokov v profile Dunaj – Bratislava (Comparison of the estimates of seasonal maximum discharges on Danube River in Bratislava). Acta Hydrologica Slovaca 5: 34–41.Search in Google Scholar

Moretti G., Montanari A., 2008. Inferring the flood frequency distribution for an ungauged basin using a spatially distributed rainfall-runoff model. Hydrology and Earth System Sciences 12: 1141–1152.10.5194/hess-12-1141-2008Search in Google Scholar

Munteanu C., Kuemmerle T., Boltižiar M., Butsic V., Gimmi U., Halada L., Kaim D., Király G., Konkoly-Gyuró É., Kozak J., Lieskovský J., Mojses M., Müller D., Ostafin K., Ostapowicz K., Shandra O., Štych P., Walker S., Radeloff V.C., 2014. Forest and agricultural land change in the Carpathian region-A meta-analysis of long-term patterns and drivers of change. Land Use Policy 38: 685–697.10.1016/j.landusepol.2014.01.012Search in Google Scholar

Nagarajan M., Basil G., 2014. Remote sensing- and GIS-based runoff modeling with the effect of land-use changes (a case study of Cochin corporation). Natural Hazards 73: 2023–2039.10.1007/s11069-014-1173-9Search in Google Scholar

Oláhová J., Vojtek M., Boltižiar M., 2013. Application of Geoinformation Technologies for the Assessment of Landscape Structure Using Landscape-Ecological Indexes (Case Study of the Handlová Landslide). Tájökológiai Lapok 11: 351–366.10.56617/tl.3761Search in Google Scholar

Patil J.P., Sarangi A., Singh O.P., Singh A.K., Ahmad T., 2008. Development of a GIS Interface for Estimation of Runoff from Watersheds. Water Resources Management 22: 1221–1239.10.1007/s11269-007-9222-8Search in Google Scholar

Romero P., Castro G., Gomez J.A., Fereres E., 2007. Curve number values for olive orchards under different soil management. Soil Science Society of America Journal 71: 1758–1769.10.2136/sssaj2007.0034Search in Google Scholar

Schäuble H., 2003. HydroTools 1.0 for ArcView 3.x (terracs.de; accessed: 12 August 2016).Search in Google Scholar

Solín Ľ., 2005. Povodne – odhad ich veľkosti pre malé povodia Slovenska metódou regionálnej frekvenčnej analýzy (Floods: size estimates for small basins of Slovakia by the method of regional frequency analysis). Geografický časopis 57: 287–307.Search in Google Scholar

Soulis K.X., Dercas N., 2007. Development of a GIS-based spatially distributed continuous hydrological model and its first application. Water International 32: 177–192.10.1080/02508060708691974Search in Google Scholar

Soulis K.X., Valiantzas J.D., 2011. SCS-CN parameter determination using rainfall-runoff data in heterogeneous watersheds. The two-CN system approach. Hydrology and Earth System Sciences Discussions 8: 8963–9004.10.5194/hessd-8-8963-2011Search in Google Scholar

Šúri M., Cebecauer T., Hofierka J., 2003. Digitálne modely reliéfu a ich aplikácie v životnom prostredí (Digital terrain models and their environmental applications). Životné prostredie 37: 30–35.Search in Google Scholar

Tedela N.H., McCutcheon S.C., Rasmussen T.C., Hawkins R.H., Swank W.T., Campbell J.L., Adams M.B., Jackson R., Tollner E.W., 2012. Runoff Curve Numbers for 10 Small Forested Watersheds in the Mountains of the Eastern United States. Journal of Hydrologic Engineering (ASCE) 17: 1188–1198.10.1061/(ASCE)HE.1943-5584.0000436Search in Google Scholar

US Army Corps of Engineers, 2002. HEC-GeoHMS 10 for ArcGIS 10.0. Hydrologic Engineering Center, Davis, California.Search in Google Scholar

Vojtek M., 2014. Estimation of N-Year Maximum Discharges for the Vyčoma Stream (Hájovňa Slače Profile). In: Scientia iuvenis: Book of Scientific Papers. CPU, Nitra: 279–288.Search in Google Scholar

Yu B., 1998. Theoretical justification of SCS-CN method for runoff estimation. Journal of Irrigation Drainage Division (ASCE) 124: 306–310.10.1061/(ASCE)0733-9437(1998)124:6(306)Search in Google Scholar

Wilcox B.P., Rawls W.J., Brakensiek D.L., Wight J.R., 1990. Predicting runoff from rangeland catchments: A comparison of two models. Water Resources Research 26: 2401–2410.10.1029/WR026i010p02401Search in Google Scholar

Zhan X.Y., Huang M.L., 2004. ArcCN-Runoff: An ArcGIS tool for generating curve number and runoff maps. Environmental Modelling & Software 19: 875–879.10.1016/j.envsoft.2004.03.001Search in Google Scholar