Online Climate-Irrigation System
Information technologies are more and more introduced into our life. They are also applied in agriculture under the growing conditions of this industry. It is especially important to manage agricultural processes influenced by rapid changes of climate, limitation of various resources. To overcome diverse uncertainty, it is efficient to use information technologies providing forecast information for high-quality management. The developed online system allows optimizing the economic activity on irrigated lands under the changing climate. Its distinctive feature is the scope of coverage of a considerable territory of the European part of Russia and duration of meteorological observations.
 Borodychev, V.V., Lytov, M.N. (2015). Solution algorithm of managing soil water regime in irrigation of crops. Melioration and water management, vol. 1, pp. 8–11.
 Cheremisinov, A.A., Radtsevich, G.A., Cheremisinov, A.Yu., Tolstykh, A.A. (2018). Information system of climatic influence on the development of irrigation for the European part of the Russian Federation. Bulletin of Voronezh State Agricultural University, vol. 4(59), pp. 59–70.
 Olgarenko, I.V., Selyukov, V.I. (2011). Software of water use planning in irrigating systems. Environmental Engineering, vol. 4, pp. 38–40.
 Ostapchik, V.P., Kostromin, V.A., Venkel, K.O., Maye, H.V. (1981). Automated online help for operational planning of irrigation. Hydraulic engineering and melioration, vol. 3, pp. 60–65.
 Ross, S.S. (1981). Automated Control System (ACS) of agricultural fields. Modern problems of hydrology of irrigated lands, vol. 1, pp. 141–157.
 Rankova, E.Ya., Gruza, G.V. (1998). Indicators of climatic changes in Russia. Meteorology and hydrology, vol. 1, pp. 5–18.
 Cheremisinov, A.Yu., Burlakin, S.P., Zemlyanukhin, I.P. (2013). Calculation of water consumption of crops under irrigation in the conditions of the Chernozem zone. Melioration, water supply and geodesy, pp. 37–42.
 Izrael, Yu.A., Sirotenko, O.D. (2003). Modeling of impact of climate changes on agricultural efficiency in Russia. Meteorology and hydrology, vol. 6, pp. 5–17.
 Moiseev, Yu., Nosov, S., Rodina, N. (1997). Global climate change: production of food. International agricultural journal, vol. 5, pp. 30–34.
 Krivenko, V.G. (2003). Forecast of climate changes in Eurasia from the perspective of its cyclic dynamics. World conference on climate change: theses of reports, pp. 514–515.
 Meleshko, V.P., Golitsyn, G.S., Govorkova, V.A. (2004). Possible climate changes in Russia in the 21st century: estimates on the ensemble of climatic models. Meteorology and hydrology, vol. 4, pp. 38–49.
 Semyonov, S.M., Anisimov, O.A., Anokhin, Yu.A. et al. (2008). Estimated report on climate changes and their consequences in the territory of the Russian Federation, vol. 2. Consequence of climate changes, pp. 288.