Assessment of factors affecting the volume of agricultural production in the regions of Russia

Iuliia Pinkovetskaia

doi:10.5281/zenodo.6481802

Autores/as

Iuliia Pinkovetskaia Department of Economic Analysis and State Management, Ulyanovsk State University Ulyanovsk, Russia. http://orcid.org/0000-0002-8224-9031

DOI:

https://doi.org/10.5281/zenodo.6481802

Palabras clave:

Función de producción, agricultura, inversiones en activos fijos, salarios, superficie de tierra cultivable, regiones de Rusia.

Resumen

El estudio se basó en el desarrollo de las funciones de producción que caracterizan las actividades de las empresas agrícolas en las regiones de Rusia. Se utilizó información estadística oficial sobre 65 regiones de Rusia para 2017 y 2018. La investigación realizada permitió identificar factores (inversiones en activos fijos, salarios de empleados y área de tierra cultivable) que afectan el volumen de producción en el sector agrícola en las regiones de Rusia y sugiere utilizar funciones de producción de tres factores de alta calidad para describir esta influencia. Está comprobado que la economía de las regiones del país no ha llegado a la saturación de productos agrícolas y existen importantes reservas para un mayor desarrollo de este sector. Las funciones de producción desarrolladas son herramientas de gestión efectivas que permiten evaluar el nivel de uso de los recursos financieros y laborales. Los nuevos conocimientos y herramientas adquiridos para evaluar las actividades agrícolas en las regiones rusas son de importancia científica y práctica. Pueden ser utilizados en la investigación del sector agrícola de la economía, el seguimiento de los volúmenes de producción, en la determinación de las necesidades de los recursos necesarios para el desarrollo de la agricultura, fundamentando los planes y programas para su desarrollo.

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Ahmetov, K., Madiev, G., Bekbossynova, A. (2019). “A Systematic assessement of the resource potential of agriculture based on correlation-regression analysis and modeling of production functions”, Problems of AgriMarket, No. 3, pp. 58-67.

Bessonov, V.A., Tsukhlo, S.V. (2002), Problems of constructing production functions in the Russian transitional economy. Analysis of the dynamics of the Russian transitional economy, Institute of Economics Transition period, Moscow, pp. 5-89. (in Russian).

Binghun, W., Zhou, E. (2021).Research of Total Factor Productivity and Agricultural Management Based on Malmquist-DEA Modeling. Hindawi. Mathematical Problems in Engineering, Vol. 2021, Article ID 2828061.

Charoenrat, T., Harvie, C. (2013). “Technical Efficiency of Thai Manufacturing SMEs: A Stochastic Frontier Analysis”. Australasian Accounting. Business and Finance Journal. Vol. 7, No. 1. pp. 97-122.

Czyzewski, B., Majchrzak, A. (2017). “Economic size of farms and adjustments of the total factor productivity to the business cycle in polish agriculture”. Agricultural Economics (Zemědělská ekonomika). No. 63. pp. 93–102.

Federal State Statistics Service. (2021). https://rosstat.gov.ru/ (accessed: 15.10.2021). (in Russian).

Gavrilenkov, Е.Е. (2000), Economic growth and long-term development strategy of Russia. The Russian Economy: the experience of transformation of the 1990s and development prospects, Higher School of Economics, Moscow, pp. 55-78.

Germanova, О.Е., Rudaya, Y.N. (2017). Dynamics of parameters and type of technological progress in agriculture. Regional economy. South of Russia. Vol. 3, No. 17. pp. 158-172. (in Russian).

Ghoshal, P., Goswami, B. (2017). “Cobb-Douglas Production Function For Measuring Efficiency in Indian Agriculture: A Region-wise Analysis”. Economic Affairs, Vol. 62, No. 4, pp. 573-579.

Granberg, А.G. (1988). Modeling of the socialist economy. Ekonomika, Moscow. (in Russian).

International Labour Conference, 104th Session. (2015). Report IV Small and medium-sized enterprises and decent and productive employment creation. International Labour Office (ILO), Geneva.

Kea, S., Li, H., Pich, L. (2016). “Technical Efficiency and Its Determinants of Rice Production in Cambodia”. Economies. Vol. 4, No. 4. pp. 1-17.

Kutenkov, R.P. (2020). “Methodology and results of factor forecasting of the dynamics of gross output and labor productivity in agriculture of the regions of the Russian Federation using production functions”. Ostrovsky readings. No. 1, pp. 99-103. (in Russian).

Margono, H., Sharma, S.C. (2004). Technical Efficiency and Productivity Analysis in Indonesian Provincial Economies. Discussion Papers, Paper 26, Southern Illinois University. Carbondale USA.

Naumov, I.V. (2017). “Problems of forecasting gross output in the regional socio-economic system”. Journal of Economic Theory. No. 4, pp. 68-83. (in Russian).

Nowak, A., Kijek, T., Domaсska, K. (2015). “Technical efficiency and its determinants in the European Union”. Agricultural Economics. Vol. 61. pp. 275–283. doi: 10.17221/200/2014-AGRICECON.

Parlinska, M., Dareev, G. (2011). “The agricultural production in mathematical models”. Problems of World Agriculture (Problemy Rolnictwa Światowego), Warsaw University of Life Sciences. Vol. 11, No. 26, pp. 1-5.

Petrick, M., Kloss, M. (2018). Identifying factor productivity from micro-data: The case of EU agriculture, Discussion Paper, No. 171, Leibniz Institute of Agricultural Development in Transition Economies (IAMO), Halle (Saale), http://nbn-resolving.de/urn:nbn:de:gbv:3:2-90157 (access date 10.10.2021).

Petrikov, А.V. (2020). “The necessity and main features of the new agrarian policy in Russia”. APC: Economics, management. No. 12, pp. 24-34. (in Russian).

Pindyck, R., Rubinfeld, D. (2013). Microeconomics. Pearson, New York.

Potapov, А.P. (2020). “Estimation of agricultural production volumes depending on the structure of resource costs”. Economic Sciences. Vol. 6, No. 187, pp. 74-79, doi: 10.14451/1.187.74

Prager, D.L., Foltz, J.D., Barham, B.L. (2015). “Making time for agricultural and life science research: technical change and productivity gains”. American Journal of Agricultural Economics. Vol. 97, No. 3, pp. 743-761. doi: http://dx.doi.org/10.1093/ajae/aau089

Rezitis, A.N., Kalantzi, M.A. (2016). “Investigating technical efficiency and its determinants by data envelopment analysis: an application in the greek food and beverages manufacturing industry”. Agribusiness. Vol. 32, No. 2, pp. 254–271.

Shestakov, R.B., Yakovlev, N.A. (2020). Analysis of production potential in agriculture based on production function modelling. Bulletin of Rural Development and Social Policy. Vol. 3, No. 27. pp. 9-12. (in Russian).

Tolmachev, М.N. (2011). Problems of building production functions in Russian agriculture. Accounting and statistics. Vol. 4, No. 24. pp. 88-94. (in Russian).

Zhang, D., Xie, J., Ermanno, A. (2017). An Efficiency and Productivity Analysis of the Agricultural Sector in Alabama. International Journal of Applied Economics, Vol. 14, No. 2, pp. 19-36.

Zhilyaskova, N.P. (2008). Production function in agriculture. Economic Bulletin of Rostov State University, Vol. 6, No. 4, pp. 63-67. (in Russian).

Zyukin, D.A., Zhilin, V.V. (2014). Cobb-Douglas function when assessing the development of agriculture of Kursk area. Current directions of scientific research of the XXI century: theory and practice. Vol. 4-2, No. 9-2, pp. 299-302. (in Russian).

Evaluación de los factores que afectan el volumen de la producción agrícola en las regiones de Rusia

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