[Abbott, M. B., Barthurst J. C., Cunge J. A., O'Connell P. E., Rasmussen J. (1986). An introduction to the European Hydrologic System—Système Hydrologique Européen "SHE". Pt. 2: Structure of physically based, distributed modelling system. J. Hydrol., 87, 61-77.10.1016/0022-1694(86)90115-0]Search in Google Scholar
[Apsīte, E., Kokorīte, I., Zīverts, A., Kļaviņš, M. (2005). Pierīgas mazo upju raksturojums. LU 63. Zinātniskā conference, 2005. gada 4. februārī. Ģeogrāfijas sekcijas tēzes. Rīga, 11. lpp.10.22364/ggvz.2005.01]Search in Google Scholar
[Bergström, S. (1976). Development and application of a conceptual runoff model for Scandinavian catchments. SMHI (Swedish Meteorologicaland Hydrological Institute) Report, No. RHO7.]Search in Google Scholar
[Bergström, S. (1991). Principles and confidence in hydrological modelling. Nordic Hydrology, 22, 123-136.10.2166/nh.1991.0009]Search in Google Scholar
[Bergström, S. (1992). The HBV model—Its structure and applications. SMHI Reports Hydrology, No. 4, 33.]Search in Google Scholar
[Bergström, S., Carlsson, B., Graham, L. P. (1996). Modelling the water balance of the Baltic Basin—preliminary results. In Proceedings of XIX Nordic Hydrology Conference, 13-15 August 2006, Akureyri, Iceland, August (pp. 446-455).]Search in Google Scholar
[Beven, K. J. (2001). Rainfall-Runoff Modelling. The Primer. New York: John Wiley & Sons Ltd. 360 pp.]Search in Google Scholar
[Bilaletdin, Ä., Frisk, T., Kaipainen, H., Paananen, A., Perttula, H., Klavins, M., Apsite, E., Ziverts A. (2004). Water protection project of Lake Burtnieks. The Finnish Environment, Tampere, No. 670, 92.]Search in Google Scholar
[Braun, L. N., Renner, C. B. (1992). Application of conceptual runoff model in different physiographic regions of Switzerland. Hydrol. Sci. J., 37(3), 217-231.10.1080/02626669209492583]Search in Google Scholar
[Crawford, N. H., Linsley R. K. (1966) Digital simulation in hydrology: Stanford Watershed Model IV. Technical Report No. 39, Department of Civil Engineering, Stanford University, CA.]Search in Google Scholar
[Fleming, G. (1975). Computer Simulation Techniques in Hydrology. New York: Elsevier. 333 pp.]Search in Google Scholar
[Golubovskis, Ē. (1993). Noteku un upju regulēto gultņu hidraulikas un noturības problēmas [Problems of Hydraulics and Stability on Small Regulated Riverbeds]. Jelgava: LLU. 30 lpp.]Search in Google Scholar
[Götzinger, J., Bárdossy, A. (2007). Comparison of four regionalisation methods for a distributed hydrological model. J. Hydrol., 333, 374-384.10.1016/j.jhydrol.2006.09.008]Search in Google Scholar
[Hughes, D. A. (1989) Estimation of the parameters of an isolated event conceptual model from physical catchment characteristics. Hydrol. Sci. J., 34(5), 539-557.10.1080/02626668909491361]Search in Google Scholar
[Ibrahim, A. B., Cordery, I. (1995). Estimation of recharge and runoff volumes from ungauged catchments in eastern Australia. Hydrol. Sci. J., 40(4), 499-515.10.1080/02626669509491435]Search in Google Scholar
[Merz, R., Blöschl, G. (2004). Regionalisation of catchment model parameters. J. Hydrol., 287, 95-123.10.1016/j.jhydrol.2003.09.028]Search in Google Scholar
[Parajka, J., Merz, R., Blöschl, G. (2005). A comparison of regionalisation methods for catchment model parameters. Hydrol. Earth Sci., 9, 157-171.10.5194/hess-9-157-2005]Search in Google Scholar
[Rodinovs, V., Kļaviņš, M. (1993). Salacas upes hidroķīmiskais raksturojums [Hydrochemical characteristics of the River Salaca]. Vides aizsardzība Latvijā, Rīga, 51.-56. lpp. (in Latvian).]Search in Google Scholar
[Seibert, J. (1999). Regionalization of parameters for a conceptual rain-fall-runoff model. Agricultural Forest Meteorol., No. 98/99, 279-293.10.1016/S0168-1923(99)00105-7]Search in Google Scholar
[Servat, E., Dezetter, A. (1993). Rainfall-runoff modelling and water resources assessment in northwestern Ivory Coast. Tentative extension to ungauged catchments. J. Hydrol., 148, 231-248.10.1016/0022-1694(93)90262-8]Search in Google Scholar
[Singh, V. P. (1995). Computer models of watershed hydrology. Highlands Ranch, CO: Water Resource Publications. 1130 pp.]Search in Google Scholar
[Tidriķis, A. (1995). Burtnieks [Lake Burtnieks]. Grām.: Latvija un Latvieši (enciklopēdija). 5. sēj. Latvijas Daba. Rīga: Preses nams, 174.-175 lpp. (in Latvian).]Search in Google Scholar
[Uhlenbrook, S., Seibert, J., Leibundgut, C., Rodhe, A. (1999). Prediction uncertainty of conceptual rainfall-runoff models caused by problems in identifying model parameters and structure. Hydrol. Sci. J., 44(5), 779-797.10.1080/02626669909492273]Search in Google Scholar
[Zelčs, V. (1995) Burtnieka līdzenums [Lake Burtnieks Plain]. Grām.: Latvija un Latvieši (enciklopēdija). 5. sēj. Latvijas Daba. Rīga: Preses nams, 174.-175 lpp. (in Latvian).]Search in Google Scholar
[Zelčs, V., Dreimanis, A. (1997) Morphology, Internal Structure and Genesis of the Burtnieks Drumlin Field, Northern Vidzeme, Latvia. J. Sedimentary Geol., 111(1-4), pp. 73-90.10.1016/S0037-0738(97)00007-9]Search in Google Scholar
[Zīverts, A., Jauja, I. (1996) Konceptuālais matemātiskais modelis METQ96 ikdienas caurplūdumu aprēķināšanai, izmantojot meteorologiskos novērojumus [Conceptual mathematical model METQ96 for the calculation of daily discharge using meteorological observations]. LLU Raksti, 6, 126-133 (in Latvian).]Search in Google Scholar
[Ziverts, A., Jauja, I. (1999) Mathematical model of hydrological processes METQ98 and its applications. Nordic Hydrology, 30(2), 109-128.10.2166/nh.1999.0006]Search in Google Scholar
[Ziverts, A., Apsite, E. (2001) Watershed modelling of the Lake Burtnieks in the present conditions and considering the effect of climate change. In Proceedings of the 9th International Conference on the Conservation and Management of Lakes, 12-16 November 2001 (pp. 292-295). Biwako, Japan.]Search in Google Scholar
[Zīverts, A., Apsīte, E. (2001). Noteces matemātiskā modelēšana Burtnieka un Lubāna ezera sateces baseiniem [Mathematical modelling of the runoff for the Lake Burtnieks and Lake Lubāns watersheds]. Ģeogrāfiski raksti (Follia Geographica), Rīga, 9, 11-19 (in Latvian).]Search in Google Scholar
[Ziverts, A., Apsite, E. (2005). Simulation of daily runoff and water level for the Lake Burtnieks. In Proceedings of the 19th European Conference on Modelling and Simulation ECMS 2005, Simulation in Wider Europe, 1-4 June (pp. 633-637). Merkuryev, Y., Zobel, R., Kerckhoffs, E. (eds.). Riga.]Search in Google Scholar
[Jansons, V., Vagstad, N., Sudars, R., Deelstra, J., Dzalbe, I., Kirsteina D. (2002). Nutrient losses from point and diffuse agricultural sources in Latvia. Landbauforschung Völkenrode, 1(52), 9-17.]Search in Google Scholar
[Kite, G. W., Kouwen, N. (1992). Watershed modelling using land classifications. Water Resources Res., 28(12), 3193-3200.10.1029/92WR01819]Search in Google Scholar
[Krams, M., Ziverts, A. (1993). Experiments of conceptual mathematical groundwater dynamics and runoff modelling in Latvia. Nordic Hydrol., 24, 243-262.10.2166/nh.1993.0006]Search in Google Scholar
[Nash, J. E., Sutcliffe, J. V. (1970). River flow forecasting through conceptual models. Pt. IA discussion of principles. J. Hydrol., 10, 282-290.10.1016/0022-1694(70)90255-6]Search in Google Scholar