KnE Life Sciences

ISSN: 2413-0877

The latest conference proceedings on life sciences, medicine and pharmacology.

Efficiency of Cultivating Corn for Grain under Irrigation in the Prialeyskaya Steppe

Published date: Nov 25 2019

Journal Title: KnE Life Sciences

Issue title: International Scientific and Practical Conference “AgroSMART – Smart Solutions for Agriculture”

Pages: 1222–1231

DOI: 10.18502/kls.v4i14.5720

Authors:
Abstract:

To assess the effectiveness of irrigation when cultivating corn for grain in the conditions of the arid Prialeyskaya steppe of the Altai Territory, an irrigation regime was developed to maintain pre-irrigation moisture at 60 and 70 % minimum moisture-holding capacity in the soil layer – 0.5 m. Water with irrigation was used mineralization of 0.3 g/l, it lacked toxic salts. In 2015, the irrigation norm with an irrigation regime of 60 % minimum moisture-holding capacity was 2650 m3/ha, with a regime of 70 % minimum moisture-holding capacity – 2850 m3/ha. In 2016, irrigation norms for irrigation regimes were 60 and 70 % minimum moisture-holding capacity of 2250 and 2450 m3/ha, respectively. In 2017, at the 60 % minimum moisture-holding capacity option, 7 irrigations were carried out, the irrigation rate was 2700 m3/ha. On the irrigation variant of 70 % of the minimum moisture-holding capacity, 8 irrigations were carried out, the irrigation rate was 2900 m3/ha. The highest yield of corn grain was obtained while maintaining a humidity level of at least 70 % minimum moisture-holding capacity. The maximum yield in 2015 was 6.7 t/ha, in the control – 3.8 t/ha. The yield increases on this option were significant in comparison not only with the control without irrigation, but also in comparison with the 60 % minimum moisture-holding capacity. To identify the economic efficiency of cultivating corn with irrigation, the costs of irrigation and the cost of the resulting crop were considered. The highest net income and profitability were obtained in 2016 with an irrigation regime of 70 % minimum moisture-holding capacity. Net income was 63.31 thousand rubles/ha, profitability level 370.45 %. In all years of research, the economic indicators for irrigation options were significantly superior to those for the non-irrigation option.

References:

[1] Burlakova, L.M., Tatarintsev, L.M., Rassypnov, V.A. Soils of the Altai Territory. Textbook.

[2] Agroclimatic resources of the Altai Territory. (1971). Leningrad: Gidrometeoizdat.

[3] Davydov, A.S., Ermakova, K.C., Tyurin, M.K. (2018). Assessment of the reclamation state of irrigated lands in Altai Krai. XIII International Scientific and Practical Conference ``Agricultural science -- to agriculture'': collection of articles in 3 books, book 2 (15–16 February 2018). Barnaul: RIO Altai GAU, pp. 33–35.

[4] Aidarov, I.P., Golovanov, A.I., Mamaev, M.G. (1982). Irrigation land reclamation. Moscow: Kolos.

[5] Wu, K. (2013). Differentiation and Transformation of Agricultural Reclamation Economy. In: Du W. (eds) Informatics and Management Science IV. Lecture Notes in Electrical Engineering, vol 207. London: Springer, pp. 507–513. Retrieved from: https://doi.org/10.1007/978-1-4471-4793-0_63

[6] Sheptalov, V.B. (2011). Wastewater treatment and irrigation regime of crops in the forest-steppe zone of the Chelyabinsk region. PhD dissertation thesis. Barnaul, 16 p.

[7] Zaykova, N.I. (2014). Irrigation regimes of beet in the conditions of the Altai Ob region. PhD dissertation thesis. Barnaul, 18 p.

[8] Kolotova, Yu.I. (2018). The regime of irrigation and water consumption of buckwheat on meadow chernozem soils in the conditions of the Middle Amur Region. PhD dissertation thesis. Volgograd, 20 p.

[9] Ovchinnikov, A.S. Chamurliev, G.O. (2015). Irrigation regime and water consumption of soybeans under various methods of primary tillage. Bulletin of the Lower Volga Agro-University Complex, no. 2, pp. 13–18. Volgograd: FROM.

[10] Poddubsky, A.A., Shuravilin, A.V. (2016). The productivity of grain and vegetable crops in the Moscow region, depending on the water and thermal conditions. The successes of modern science, no. 4, pp. 88--93. FROM.

[11] Ermakova, K.C., Davydov, A.S., Tyurin, M.K. (2017). Qualitative assessment of irrigation and drainage water in the Aleysk irrigation system. XII International Scientific and Practical Conference ``Agricultural science -- to agriculture'': collection of articles in 3 books, book 2 (7–8 February 2017). Barnaul: RIO Altai GAU, pp. 450–452.

[12] Kostyakov, A.N. (1960). Fundamentals of Land Reclamation. Moscow: State Publishing House.

[13] Armor, B.A. (1985). The methodology of field experience (with the basics of statistical processing of research results). Moscow: Kolos.

[14] Shumakov, B.A. (1957). Studying crop water consumption is the basis for designing an irrigation regime. Biological basis of irrigated agriculture. Moscow.

[15] Dembek, W. (2015). New Vision of the Role of Land Reclamation Systems in Nature Protection and Water Management. In: Ignar, S., Grygoruk, M. Wetlands and Water Framework Directive. GeoPlanet: Earth and Planetary Sciences. Springer, Cham. pp. 91–103. Retrieved from: https://doi.org/10.1007/978-3-319-13764-3_6 [16] Agro-industrial portal. Retrieved from: http://agro-portal24.ru/agronomiya/180- kukuruza-biologicheskie-osobennosti.html

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