HYDROGEOLOGICAL ACTION OF DRAINAGE AND DRAINAGE SYSTEMS OF POLISSІA ZONE IN CHANGING CLIMATIC CONDITIONS
DOI:
https://doi.org/10.17721/1728-2713.91.11Keywords:
hydrogeological action of drainage, drainage systems, changing climatic conditionsAbstract
We have analyzed various methods and models for determining and calculating drainage module. The drainage module is an important indicator of the hydrogeological effect of drainage and soil drainage. For the calculation of the drainage calculation module, an empirical, analytical, water-balance method is used, or it is accepted on the recommendations without sufficient economic and environmental justification. This does not meet the modern requirements for the creation and operation of such objects. Traditionally, the designs and parameters of agricultural drainage are determined by the drainage module. It provides the necessary conditions for the removal of excess moisture of the active soil layer in the spring (as the main calculation) and corresponds to a certain level of the calculated security of the formation of the runoff hydrograph. According to the generalized results of the research, in the calculation of drainage parameters, the values of drainage modules were taken within: for mineral soils – 0.4… 0.6 l/sꞏha, for peat soils 0.2… 0.6 l/sꞏha. These recommended values are not correct because then the defined drainage parameters take into account only the technological conditions of its operation. But this does not take into account the conditions of formation of economic and environmental effect within the system, and they are not economically and environmentally optimal for the calculation of the drainage system and its elements. We have performed research and evaluation of the hydrogeological effect of the drainage and drainage systems. The results of these researches showed the variability of values of drainage modules in time and space. We have also identified many influencing factors and confirmed their difference with the calculated value. A new evaluation of the effectiveness of drainage systems and the calculation of drainage modules are proposed. This evaluation includes the yield criterion for variable natural (climatic) and agricultural conditions. New optimal values of drainage modules are proposed. These values are also presented for critical conditions (maximum daily rainfall of different levels of probability).
References
Antonov, A.D. (1974). Research of a sowing line of the northwest of Ukraine. Extended abstract of Candidate's thesis (Tech. Sci.). Rivne. [in Russian]
DBN V.2.4-1-99. (1999).Reclamation systems and structures. Kyiv. [in Ukrainian]
Engelsmann, R. (1978). Drainage guide. Moscow. [in Russian]
Geytman, V.G., Pisarkov, K.A. (1955). Drainage of agricultural land. Moscow: Selhoizdat. [in Russian]
Hadzalo, Ya.M., Stashuk, V.A., Rokochinskiy, A.M. (Edc.). (2017). Reclamation and arrangement of Ukrainian Polissya. В. 1. Kherson: Oldi plus. [in Ukrainian]
Ivitskiy, A.I. (1981). Establishing Drain Distance. Supplement No.1 to the Design Guide for Agricultural Drainage Systems. Minsk: Uradzhay. [in Russian]
Kostyakov, A.N (1960). Fundamentalsoflandreclamation. Moscow: Gos. ed. agricultural. literature. [in Russian]
Kozhushko, L.F. (2001). Improvement of drainage systems. Rivne. [in Ukrainian]
Kudakas, V., Pocienė, A., Urbonas, R. (1998). Klimatinių veiksnių įtaka dirvožemio drėgmei ir drenažo nuotėkiui [The effect of climatic factors on soil moisture and drainage flow]. Žemės ūkio mokslai, 2, 61–65.
Lazarchuk, M.O., Rokochinskiy, A.M., Muranov, V.G. (2000). Optimization of parameters of the main elements of drainage systems by economic and mathematical method. Bulletin of Rivne State Technical University, 4(6), 66– 72. [in Ukrainian]
Lihatsevich, A.P. (2001). Land reclamation of the lands of Belarus. Minsk: BelNIIMiL. [in Russian]
Lukianas, A., Ruminaitė, R. (2009). Periodiškai šlapių žemių sausinimo drenažu įtaka upių nuotėkiui. Journal of environmental engineering and landscape management, 17(4), 226–235.
Lukianas, A.D. (1975). The experience of land drainage by closed drainage. Moscow. [in Russian]
Miseckaite, O.,Gurklys, V. (2011). The trends of drainage runoff change in loam soils during a multi-year period. Environmental engineering,8th International Conference, May 19–20. Vilnius, Lithuania, 625–629.
Morkūnas, V.; Ramoška, E. (2001). Drenažo nuotėkio reguliavimo tyrimai [Drainage run-off regulatory investigations]. Vandens ūkio inžinerija, 16 (38), 53–59.
Oleynik, A.Ya., Polyakov, V.L. (1987). Waterlogged land drainage. Kyiv: Naukova dumka. [in Russian]
Rokochinskiy A., Volk P. et al. (2019, a). Forecaste destimation of the efficiency of agricultural drainage on drained lands. Journal of Water and Land Development, 40, Issue 1, 149–153. DOI:https://doi.org/10.2478/jwld2019-0016.
Rokochinskiy A., Volk P. et al. (2019, b). Evaluation of climat echangesand their accounting for developing the reclamation measures in Western Ukraine. Scientific Review Engineering and Environmental Sciences, 28, Issue 1 (83), 3–13. DOI:10.22630/PNIKS.2019.28.1.1.
Rokochinskiy, A.M. (2010). Scientific and practical aspects of optimization of water regulation of drained lands on ecological and economic principles. Rivne. [in Ukrainian]
Rokochinskiy, A.M., Halik, O.I., Stashuk, V.A., et al. (2008). Manual to DBN B.2.4-1-99 "Reclamation systems and structures" (Section 3. Drainage systems). Meteorological support of engineering and reclamation calculations in projects of construction and reconstruction of drainage systems. Rivne. [in Ukrainian]
Rokochinskiy, A.M., Stashuk, V.A., Dupliak, V.D., Frolenkova, N.A. et al. (2011). Interim recommendations on the forecast assessment of the water regime and technologies of water regulation of drained lands in projects of construction and reconstruction of reclamation systems. Rivne. [in Ukrainian]
Rokochinskiy, A.M., Volk, P.P. et al. (2013). Scientific and methodical recommendations for substantiation of optimal parameters of agricultural drainage on drained lands according to economic and ecological requirements. Rivne. [in Ukrainian]
Schultz, B., De Wrachien, D. (2002). Irrigation and Drainage systems research and development in the 21st century. Irrigation and drainage, 51, 311–327.
Shevchenko, A.L., Osadchiy, V.I., Nesterovsky, V.A. (2019). Regime, water exchange and groundwater resources of Polesia and Forest-Steppe in the context of global climate change. Mater. IV International.scientificpractical conf. "Actual problems of Earth sciences. Studies of cross-border regions", September 12–14, 2019, Brest, 1, 33–37.
Shkinkis, Ts.N. (1981). Hydrological drainage action. Leningrad : Gidrometeoizdat. [in Russian]
Shreyder, V.A. (1970). Land drainage by closed drainage. Moscow. [in Russian]
Šileika, A.S.; Gužys, S. (2003). Drainage runoff and migration of mineral elements in organic and conventional cropping systems. Agronomic, 23, 633–641.
Tumas, R.A. (1975). Water-balance calculations of drainage on loamy soils of the Lithuanian SSR. Extended abstract of Doctor's thesis (Agri. Sci.) Kaunas. [in Russian]
Volk, P.P., Rokochinskiy, A.M. et al. (2011). Substantiation of the drainage runoff module in optimization calculations of agricultural drainage on ecological and economic bases. NUWEE Bulletin, 2(54), 3–10. [in Ukrainian]
Wesstrom, I., Messing, I., Linner, H., Lindstrom, J. (2001). Controlled drainage – effects on drain outflow and water quality. Agricultural Water Management, 47, 85–100.
Yanhol, A.M. (1970). Two-way humidity control for drainage. Moscow. [in Russian]
Žemės, L. (1995). Hidrometrinis metraštis. Drenažo ir paviršiaus nuotėkis [Hydrometer year book. Drain age and surface runoff]. Kaunas-Noreikiškės.
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