KnE Life Sciences
ISSN: 2413-0877
The latest conference proceedings on life sciences, medicine and pharmacology.
Use of Glauconite in Potato Cultivation Technology
Published date: Nov 25 2019
Journal Title: KnE Life Sciences
Issue title: International Scientific and Practical Conference “AgroSMART – Smart Solutions for Agriculture”
Pages: 912–919
Authors:
Abstract:
In intensive technologies of cultivation of potatoes, the need for trace elements is increasing. The concentration of trace elements in plants is very small, but the importance of these elements in biochemical processes is difficult to overestimate. The deficiency of trace elements is the root cause of many functional disorders. Trace elements in plants are part of enzymes, stimulate and accelerate plant development, increase resistance to adverse environmental conditions, etc. Also, with their shortage, crop productivity decreases. The use of natural minerals, such as glauconite, containing trace elements, allows improving comprehensive nutrition and increase productivity. Getting early production of high quality potatoes in the summer is important and relevant in the modern world. The use of glauconite in the conditions of the Moscow region, along with fertilizers and irrigation, allows obtaining high-quality products and increasing productivity by 6.3... 29.0%.
References:
[1] Lisitsyn, A.B. et al. (2009). Conceptual Approaches to the Creation of a Food Safety System. Food industry, no. 12, pp. 39–41.
[2] Lisitsyn A.B. et al. (2007). Organic product. Moscow: VNIIMP them. V.M. Gorbatov, 131 p.
[3] Kulakovskaya, T.N. (1990). Optimization of the agrochemical system of soil nutrition of plants. Moscow: Agropromizdat, 218 p.
[4] Birch, G.F., Willis, J.P., and Rickard, R.S. (1976). An electron microprobe study of glauconites from the continental margin off the west coast of South Africa. Marine Geology, vol. 22, pp. 271–283.
[5] Blott, S.J. (2000). GRADISTAT (Version 4): A Grain Size Distribution and Statistics Package for the Analysis of Unconsolidated Sediments by Sieving or Laser Granulometer. Retrieved from: http://www.kpal.co.uk/gradistat_abstract.htm; last accessed 26 July 2007).
[6] Bornhold, B.D., Giressse, P. (1984). Glauconitic sediments on the continental shelf off Vancouver Island, British Columbia, Canada. Journal of Sedimentary Petrology, vol. 55, pp. 653–664.
[7] Levchenko, M.L. (2008). Features of glauconite from the Bondarsky deposit in the Tambov region. VGU Bulletin, Series Geology, no. 1. pp. 65–69.
[8] Degefie, D.T., Fleischer, E., Klemm, O., Soromotin, A.V., Soromotina, O.V., Tolstikov, A.V., Abramov, N.V. (2014) Climate Extremes in South Western Siberia: Past and Stochastic Environmental Research and Risk Assessment, vol. 28, no. 8, pp. 2161–2173.
[9] Eremin, D., Eremina, D. (2016). Influence of Granulometric Composition Structure of Anthropogenic-Reformed Soil on Ecology of Infrastructure. Procedia Engineering, vol. 165. pp. 788–793.
[10] Dyikanova, M.E., et al. (2019) The cultivation of early potatoes -- a training manual. Moscow: Publishing House of the Russian State Autonomy and Agricultural Academy named after K.A. Timiryazev, 172 p.
[11] Popkova, K.V., Kutsamanova, I.N. (1999). Methods of improvement of potatoes from viral diseases. Proceedings of the Scientific Conference of Young Scientists and Specialists. Moscow: Publishing house of ICCA, pp. 49–54.
[12] Levshin, A.G. (2019). Constructive Features of the Device to Remove the Apical Shoots of Potatoes. 18th International Scientific Conference ``Engineering for Rural Development'' (22--24.05.2019 Jelgava, LATVIA), pp. 532–537. Retrieved from: www.tf.llu.lv/conference/proceedings 2019
[13] Pisarev, B.A. (1986). Production of early potatoes. Moscow: Rosselkhoznadzor, 287 p.
[14] Gasparyan, I.N. (2018). Biology with basics of ecology. Moscow: Publishing house RGAU-MSHA named after K.A. Timiryazev, 331 p.
[15] Soloviev, A.M., et al. (2014). Application of fertilizers in the cultivation of crops with high technology. Moscow: Publishing house RGAU-MSHA named after K.A. Timiryazev, 132 p.