Influence of model structure on base flow estimation using Bilan, frier and HBV-light models / Vplyv štruktúry modelu na stanovenie veľkosti podzemného odtoku využitím modelov bilan, frier a hbv-light. j. hydrol. hydromech., 60, 2012, 4; 29 lit., 7 obr., 1 tab.

AKHTAR M., AHMAD N., BOOIJ M., 2008: The impact of climate change on the water resources of Hindukush-Karakorum-Himalaya region under different glacier coverage scenarios. J. Hydrol., 355, 1-4, 148-163.10.1016/j.jhydrol.2008.03.015Search in Google Scholar

BAČOVÁ-MITKOVÁ V., ONDERKA M., 2010: Analysis of extreme hydrological events on the Danube using the Peak Over Threshold method. J. Hydrol. Hydromech., 58, 2, 88-101.10.2478/v10098-010-0009-xSearch in Google Scholar

BERGSTRÖM S. 1992: The HBV model - its structure and applications. SMHI Reports RH, No. 4, Norrköping.Search in Google Scholar

BRAUN L., RENNER C., 1992: Application of a conceptual runoff model in different physiographic regions of Switzerland. Hydrological Sciences Journal - Journal des Sciences Hydrologiques, 37, 3, 217-231.10.1080/02626669209492583Search in Google Scholar

FENDEKOVÁ M., FENDEK M., 1999: Killeho metóda - teória a prax. (Method of Kille - theory and practice.) Podzemná voda, 5, 2, 77-87.Search in Google Scholar

FENDEKOVÁ M., FENDEK M., GREGOVÁ M., MACHLICA A., STOJKOVOVÁ M., 2008: Analýza veľkosti a časových zmien podzemného odtoku v hornej časti povodia Tople. (Analysis of groundwater runoff value and its changes in the upper part of the Topľa River catchment.) Podzemná voda, 14, 2, 129-138.Search in Google Scholar

HANEL M., VIZINA A., MACA P., PAVLASEK J., 2012: A multi-model assessment of climate change impact on hydrological regime in the Czech Republic. J. Hydrol. Hydromech., 60, 3, 152-161.10.2478/v10098-012-0013-4Search in Google Scholar

HOHENRAINER J., 2008: Propagation of drought through the hydrological cycle in two different climatic regions. Unpublished master's thesis, Freiburg University.Search in Google Scholar

HORÁČEK S., KAŠPÁREK L., NOVICKÝ O., 2008: Estimation of climate change impact on water resources by using Bilan water balance model. IOP Journal Conf. Series: Earth and Environmental Science, 4, 012023.Search in Google Scholar

HORÁČEK S., RAKOVEC O., KAŠPÁREK L., VIZINA A., 2009: Development of water balance model- BILAN, VTEI, vol. 51, No. I, 2-5.Search in Google Scholar

HORVÁT O., 2008: Description of The Rainfall-Runoff Model FRIER. Podzemná voda, 14, 1, 37 - 45.Search in Google Scholar

HORVÁT O., MACHLICA A., OOSTERWIJK J., FENDEKOVÁ M., 2010: Confrontation of three rainfall-runoff models in assessment of hydrological drought in the upper Nitra river basin in Slovakia, Geophysical Research Abstracts, Vol. 12, http://meetingorganizer.copernicus.org/EGU2010/EGU2010-10506-1.pdfSearch in Google Scholar

GREGOR M., 2011: Zmeny kvality povrchových a podzemných vôd v obdobiach nedostatku vody v povodí. (Changes in quality of surface and groundwater during water scarity in catchment.). [Disertation thesis.] Faculty of Natural Sciences, Comenius University in Bratislava, 163 p.Search in Google Scholar

KAŠPÁREK L., PELÁKOVÁ M., 2006: Modelling of Impacts of Climate Change on Hydrological Regime in the Czech Republic. Water Mangement, 7, 226-229.Search in Google Scholar

KILLE K., 1970: Das Verfahren MoMNQ, ein Beitrag zur Berechnung der mittleren langjährigen Grundwasserneubildung mit Hilfe der monatlichen Niedrigwasserabflüsse. Z. der Deutschen Gesellschaft für Geowissenschaften, Band Sonderba, 89-95.10.1127/zdgg/120/1970/89Search in Google Scholar

LIDEN R., HARLIN J., 2000: Analysis of conceptual rainfallrunoff modelling performance in different climates. J. Hydrol., 238, 3-4, 231-247.10.1016/S0022-1694(00)00330-9Search in Google Scholar

LINDSTROM G., JOHANSSON B., PERSSON M., GARDELIN M., BERGSTROM S., 1997: Development and test of the distributed HBV-96 hydrological model. J. Hydrol., 201, 1-4, 272-288.10.1016/S0022-1694(97)00041-3Search in Google Scholar

LIU Y., DE SMEDT F., 2003: WetSpa Extension, A GISbased Hydrological Model for Flood Prediction and Watershed Management. Documentation and user manual, Vrije Universiteit Brusel, Belgium, 118 p.Search in Google Scholar

MACHLICA A., HORVÁT O., 2009: Modeling of hydrogeological drought on runoff conditions. 10. Czech-Slovak International hydrogeological congress, Ostrava 2009, VŠB - Technical University in Ostrava, Ostrava, Esmedia DTP, 151-154.Search in Google Scholar

MACHLICA A., FENDEKOVÁ M., 2006: Separácia zložiek odtoku v povodí Chvojnice modelom BILAN. (The separation of runoff components by BILAN model in Chvojnica catchment.) Podzemná voda, 12, 2, 136-149.Search in Google Scholar

MACHLICA A., FENDEKOVÁ M., FENDEK M., 2010: Modeling of groundwater runoff parameters development in different geological conditions. Acta Geologica Slovaca (AGEOS), 2, 2 103-112.Search in Google Scholar

MACHLICA A., HORVÁT O., 2010: Influence of Meteorological Drought on Selected Components of Water Balance in Horna Nitra Area, Slovakia. BALWOIS 2010 - Ohrid, Republic of Macedonia, 25-29 May 2010.Search in Google Scholar

MENZEL L., BURGER G., 2002: Climate change scenarios and runoff response in the Mulde catchment (Southern Elbe, Germany). J. Hydrol., 27, 1-2, 53-64.10.1016/S0022-1694(02)00139-7Search in Google Scholar

NASH J., SUTCLIFFE J., 1970: River flow forecasting through conceptual models part I - A discussion of principles. J. Hydrol., 10, 3, 282-290.10.1016/0022-1694(70)90255-6Search in Google Scholar

OOSTERWIJK J., VAN LOON A. F., MACHLICA A., HORVÁT O., VAN LANEN H. A. J., FENDEKOVÁ M., 2009: Hydrological drought characteristics of the Nedožery sub catchment, Upper Nitra, Slovakia, based on HBV modeling. In: WATCH Technical report No. 20 (Ed.). http://www.eu-watch.org/nl/25222760-Technical_Reports.html.Search in Google Scholar

SEIBERT J., 2000: Multi-criteria calibration of a conceptual runoff model using a genetic algorithm. Hydrology and Earth System Sciences, 4, 2, 215-224.10.5194/hess-4-215-2000Search in Google Scholar

SEIBERT J., 2005: HBV light version 2, User's manual. In: Department of Physical Geography and Quaternary Geology (Ed.). Stockholm University, http://people.su.se/~jseib/HBV/HBV_manual_2005.pdf.Search in Google Scholar

STEELE-DUNNE S., LYNCH P., MCGRATH R., SEMMLER T., WANG S., HANAFIN J., NOLAN P., 2008: The impacts of climate change on hydrology in Ireland. J. Hydrol., 356, 1-2, 28-45.10.1016/j.jhydrol.2008.03.025Search in Google Scholar

TALLAKSEN L. M., VAN LANEN H. A. J., eds., 2004: Hydrological drought - processes and estimation methods for stream flow and groundwater. 1st. edition. Amsterdam, Elsevier, 579 p. ISBN 0-444-51688-3.Search in Google Scholar

VANOVA V., LANGHAMMER J., 2011: Modelling the impact of land cover changes on flood mitigation in the upper Lužnice basin. J. Hydrol. Hydromech., 59, 4, 262-274.10.2478/v10098-011-0022-8Search in Google Scholar

VIZINA A., HANEL M., NOVICKÝ O., TREML P., 2010: Experience from Simulation of Climate Impacts on Water Regime in Monthly and Daily Time Step, BALWOIS 2010 - Ohrid, Republic of Macedonia.Search in Google Scholar

VIZINA A., HORÁČEK S., 2009: Improved estimation of climate change impact on water resources by using scenarios based on ALADIN model simulations, VTEI, vol. 51, No. I, 5-8.Search in Google Scholar