[ALLEN R.G., PEREIRA L.S., RAES D., and SMITH M., 1998: Crop Evapotranspiration. Rome, 300 pp.]Search in Google Scholar
[ALPAT‵EV A.M., 1954: Water Cycle of Plants. (In Russian.) Leningrad, Gidrometeoizdat, 246 pp.]Search in Google Scholar
[BUDAGOVSKIY A.I., 1964: Evaporation of soil moisture. (In Russian.) Moscow, Nauka, 243 pp.]Search in Google Scholar
[BUDAGOVSKIY A.I., SHUMOVA N.A., 1976: Methods of analyzing an evapotranspiration structure and estimating the efficiency of its regulation. (In Russian.) Wat. Resour., No 6, pp. 83-98.]Search in Google Scholar
[BUDYKO M.I., 1971: The Climate and life. (In Russian.) Leningrad, Gidrometeoizdat, 472 pp.]Search in Google Scholar
[CARTER T.R., PARRY M.L., NISHIOKA S., HARASAWA H., 1994: Technical Guidelines for Assessing Climate Change Impacts and Adaptation. IPCC, WMO, Geneva, Switzerland, 28 pp.]Search in Google Scholar
[GUSEV Y., NOVÁK V., 2007: Soil water - main water resources for terrestrial ecosystems of the biosphere. J. Hydrol. Hydromech., 55, 1, p. 3-15.]Search in Google Scholar
[HANKS R.J., and HILL R.W., 1980: Modeling crop responses to irrigation in relation to soils, climate and salinity. Int. Irrig. Inform. Center, Publ. No. 6, Bet Dagan, Israel, 57 p.]Search in Google Scholar
[KHARCHENKO S.I., 1968: Hydrology of Irrigated Lands. (In Russian.) Leningrad, Gidrometeoizdat, 374 pp.]Search in Google Scholar
[KIRILICHEVA K.V., 1967: Development of notions of water supply as an index of spring wheat crop yield. (In Russian.) Proceedings of USSR Hydrometeorological Center, No 9, pp. 23-35.]Search in Google Scholar
[KONSTANTINOV A.R., ASTAKHOVA N.I., and LEVENKO A.A., 1971: Methods of Calculating Evaporation from Agricultural Fields. (In Russian.) Leningrad, Gidrometeoizdat, 127 pp.]Search in Google Scholar
[MESHCHANINOVA N.B., 1971: Agrometeorological Basis of Grain Crop Irrigation. (In Russian.) Leningrad: Gidrometeoizdat, 128 pp.]Search in Google Scholar
[NOVÁK, V., HAVRILA, J. 2006. Method to estimate the critical soil water content of limited availability for plants. Biologia, 61/Suppl. 19, 289-293.]Search in Google Scholar
[NOVÁK V., VAN GENUCHTEN M.TH., 2008: Using the Transpiration Regime to Estimate Biomass Production. Soil Sci., vol. 176, 1-7.]Search in Google Scholar
[PROTSEROV A.V., 1955: Agrometeorological Conditions for Growth of Spring Wheat and Industrial Crops in the Stalingrad, Rostov, and Astrakhan regions and calculation of their irrigation norms. Proceedings of Central Prognoses Institute, No 41, 68, pp. 21-30.]Search in Google Scholar
[SELYANINOV G.T., 1958: Principles of Agroclimatic Zoning in the USSR. (In Russian.) In: Problems of Agroclimatic Zoning in the USSR. Moscow: Agricultural Ministry of USSR, pp. 7-14.]Search in Google Scholar
[SHASHKO D.I., 1967: Agroclimatic Zoning in the USSR. (In Russian.) Moscow, Kolos, 336 pp.]Search in Google Scholar
[SHUMOVA N.A., 1994: The Leaf Area Index and Evapotran-spiration from Spring Wheat Crops. J. Hydrol. Hydromech., Vol. 42, No 4-5, pp. 297-314.]Search in Google Scholar
[SHUMOVA N.A., 2000: Approach and Evaluation of Soil Water Resources in an Arid Region of the European Steppe Zone Territory. J. Hydrol. Hydromech., Vol. 48, No 6, pp. 381-398.]Search in Google Scholar
[SHUMOVA N.A., 2003: Estimation of the Accuracy of a Model for Calculation of Soil Water Storage Dynamics. (In Russian.) Meteorology and Hydrology, No 10, pp. 97-106.]Search in Google Scholar
[VIDOVIČ J., NOVÁK V., 1987: The relation between maize yield and canopy evapotranspiration. (In Slovak with English summary.) Rostlinní výroba, 33, 6, 663-670.]Search in Google Scholar