STRUCTURE OF COSTS AND EXPENDITURES IN AGRO TECHNOLOGIES OF DIFFERENT INTENSITY LEVELS
Abstract
As a result of the analysis and generalization of the obtained data average structures of prime costs and expenditures in grain crop cultivation technologies were defined. They testify the nonequivalence of the impact of different techniques on the prime costs and expenditures depending on the application of extensive, basic, and intensive agro technologies. Thus, for extensive grain cultivation technologies the most costly in terms of economy and energy expenditures is sowing, which is connected mainly with heavy seeding of most small grain crops. Therefore, the main trend in cost-effective use of resources for extensive grain crop cultivation technologies is application of resource saving elements while sowing. Another way for the cost-effective use of resources can be the reduction of used recourses during harvesting and soil preparation. Using basic grain crop cultivation technologies in addition to the already mentioned common for extensive technologies trends in resource-saving scientifically grounded use of the system of fertilizers and crop protection products can be involved; they amount to 1/3 – 1/2 of overall costs and expenditures in agro technologies of this type. In intensive agro technologies the proportion of costs of plant protection products and fertilizers further increases and the proportion of costs for sowing decreases. Therefore, the main trend in intensive grain crops cultivation is scientifically-grounded use of fertilizers and protection products. Hence, with the increase of the technology intensification level the impact of such agro technological elements as tillage, sowing and harvesting decreases. It is connected mostly with the fact that for extensive technologies these elements are the most costly ones and correspondingly, their values significantly impact the total values of the overall costs of the applied technologies. On the other hand, along with the increase of the technology intensity level the role of mineral fertilizers and plant protection products increases since these elements facilitate quantitative and qualitative improvement of the cultivated crops capacity.
References
Cherkasov, G.N., Pykhtin, I.G., Gostev, A.V., & etc, (2012). Teoreticheskiye osnovy formirovaniya agrotekhnologicheskoy politiki primeneniya nulevykh i poverkhnostnykh obrabotok pochvy pod zernovyye kultury dlya modernizatsii zemledeliya (Theoretical bases of formation of the agricultural technology policy the application of the zero and the surface treatments of the soil under cereals for modernization of agriculture). Kursk, Russia: VNIIZiZPE.
Pykhtin I.G., (2012). Produktivnost zernovyih kultur v zavisimosti ot intensivnosti tehnologiy (Productivity of grain crops depending on the intensity of technology). Zemledeliye, 8, 21-23.
Pykhtin, I.G., & Gostev, A.V. (2007). The potential of individual technologies of grain crops cultivation on chernozems of CCZ (The potential of individual technologies of grain crops cultivation on chernozems of the Central black earth region). Dostizheniya nauki i tekhniki APK, 4, 40-42.
Orsik, L.S. (2001). Ekonomicheskaya effektivnost tekhnologiy vozdelyvaniya i uborki selskokhozyaystvennykh kultur (Economic efficiency of technologies of cultivation and harvesting of crops). Moscow, Russia: Efes.
Nikiforov, A.N. (1995). Metodika energeticheskogo analiza tekhnologicheskikh protsessov v selskokhozyaystvennom proizvodstve (The technique of energy analysis of technological processes in agricultural production). Moscow, Russia: VIM.
Cherkasov, G.N., Pykhtin, I.G., & etc, (2013). Registr tekhnologiy vozdelyvaniya zernovykh kultur dlya Tsentralnogo Chernozemia (The case of the technologies of cultivation of grain crops for the Central Chernozem region). Kursk, Russia: VNIIZiZPE.
Gostev, A.V., Pykhtin, A.I., & Nitchenko, L.B. The influence of technologies on productivity of grain crops in conditions of central region of Russia. U: 17th International Multidisciplinary Scientific GeoConference SGEM 2017. 625-630.