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THE INFLUENCE OF LONG-TERM APPLICATION OF FERTILIZERS ON THE SUGARINESS OF BEET IN THE CONDITIONS OF INSUFFICIENT WATERING OF THE WESTERN CISCAUCASIA  [2016]

Bershatskaya S. I. Neshchadim N. N. Garkusha S. V. Dereka F. I. "North Kuban Agricultural Experimental Station" P.P. Lukyanenko Research Institute of Agriculture [Corporate Author] Kuban State Agrarian University [Corporate Author] All-Russian Research Institute of Rice [Corporate Author]

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This article presents the experimental material obtained from long-term stationary experiment of GNU "Severokubanskaya agricultural experimental station" in P.P. Lukyanenko Krasnodar Agricultural Research Institute. Stationary experience was founded in 1978. It had two ten-course crop rotations and combined graingrass tilled. The ordinary black soil, low-humic, heavy loamy in mechanical composition. The capacity of humus horizon is 113-116 cm with a total content of humus on the date of the experience beginning is 3.88%. Arable (0-30cm) layer was characterized by the following parameters: total nitrogen content - 0.22-0.24, mineral -10,0-10,5mg / kg of soil, total phosphorus-0,16- 0,19%, labile phosphorus - 12,2-12,9mg / kg soil total potassium -1,7-2,0%, exchange potassium- 386mg / kg soil. The degree of saturation of bases is 80-90%. The amount of absorbed bases is 30-40 m ekvg/ 100 g of soil. The reaction of the soil solution is weakly alkaline (PH water 8.0-8.2). The predecessor is winter wheat. General Agrotechnics is recommended for a given soil and climate of region. Solid mineral fertilizer were applied as mineral fertilizers in combination with organic fertilizer in the form of half-decomposed cattle manure. According to agro-climatic zonation the northern zone of the Krasnodar region, where the research was conducted, is related to the zone of insufficient watering with hydrothermal coefficient 0.7-0.9 with an annual rainfall of 350.5 to 899.8 mm
. During the autumn and winter period, which determines the accumulation of water in the soil, from 150.3 to 426.8 mm of rain falls or 30,4-68,9% of the annual amount. During the vegetation of sugar beet from germination to harvest -112,0- 588,9mm of rain falls, with an average daily temperature of the air 16,5-20,000С, including the period of the greatest growth of roots and accumulation of sugar from 3.2 to 557.1 of rain falls with air temperature 19,5-28,800С. Hydrothermal index is 0,01-2,83. During the years of the research 19% of years have been characterized as unfavorable (hydrothermal index 0.67), 44% of years as moderate on moisture supply and temperature conditions (hydrothermal index 0.99) and 37% of years as favorable (hydrothermal index 1.05). The generalization of the research results obtained by us in the long-term stationary experiment, allowed us to estimate the impact of different standards and systems of fertilizer on the productivity of sugar beet and sugar content in the roots. On average, during the years of research, the root harvest under the influence of fertilizer amounted to 36,7-45,6 t / ha per unit area with the addition to the control variant, that isn’t manurable, amounted from 6.6 to 15.5 t / ha. The highest yield of root is 43,0-45,6 t / ha which was obtained with systems of fertilizer with complete mineral nutrition

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Polythematic Online Scientific Journal of Kuban State Agrarian University

ISSN : 1990-4665