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International Finance and Accounting

Abstract

The article outlines the reasons for the intensification of social, economic and ecological conditions in the country triggered by cotton productivity, area and irrigation, using systems approach.

References

1. Djanibekov, Nodir; Rudenko, Inna; Lamers, John; Bobojonov, I. “Pros and cons of cotton production in Uzbekistan”. Food Policy for Developing Countries: Food Production and Supply Policies, pp.13.2010. 2. Macdonald, S. United States Department of Agriculture. Retrieved from www.usda.gov/oce/forum. 2018. 3. Sirtioglu, I.Republic of Uzbekistan: Cotton and products annual report, 1–5. 2016. 4. Spoor, M. A. X. Transition to Market Economies in Former Soviet Central Asia Dependency. TheEuropeanJournalofDevelopmentResearch, 5-2, 142-158. 1993. 5. Glantz, M. H. “Aral Sea Basin: A Sea Dies, a Sea Also Rises”. AMBIO: A Journal of the Human Environment, 36(4), 323–327. 2007. 6. Bekchanov, M., Karimov, A., &Lamers, J. P. A. “Impact of water availability on land and water productivity: A temporal and spatial analysis of the case study region Khorezm, Uzbekistan”. Water (Switzerland), 2(3), 668–684. 2010. 7. Khasanov, B. S., &Djanibekov, N. Improving Cotton Production and Crop Diversification in Uzbekistan: Tradable Cotton Production Targets.Conference, Milan, Italy 211841, International Association of Agricultural Economists. August 9-14. 2015. 8. Rudenko, I., Lamers, J. P. A., & Grote, U. “Can uzbek farmers get more for their Cotton?” European Journal of Development Research, 21(2), 283–296. 2009. 9. Theodoridis, A., Hasanov, S., &Abruev, A. Efficiency and Productivity Change Analysis of Cotton Production in Uzbekistan. Outlook on Agriculture, 43(4), 259– 263. 2014. 10. Martínez-Moyano, I. J., & Richardson, G. P. “An expert view of the system dynamics modeling process: Concurrences and divergences searching for best practices in system dynamics modeling”. System Dynamics Review, 29(2), 102–123. 2013. 11. Sterman, J. Business Dynamics: Systems Thinking and Modeling for a Complex. McGraw-Hill/Irwin; 1 Edition.2000. 12. Pruyt, E. Small System Dynamics Models for Big Issues: Triple Jump towards Real-World Complexity. (1st ed.). TU Delft Library, Delft, The Netherlands.2013. 13. Costanza, R., & Sara, G. “Modelling ecological and economic systems with STELLA: Part II”. Ecological Modelling, 112(2–3), 81–84. 1998. 14. Costanza, R., &Voinov, A. “Modeling ecological and economic systems with STELLA: Part III”. Ecological Modelling, 143(1–2), 1–7. 2001. 15. Atzori, A. S., Ford, D., &Tedeschi, L. “Policy Modeling for Greenhouses Gas Emissions on Dairy Cattle Sector: The Importance of the Milk Production Improvement”. Proceedings of the 30th International Conference of the System Dynamics Society, 1–16.2012. 16. Flynn, H., & Ford, A. “A System Dynamics Study of Carbon Cycling and Electricity Generation from Energy Crops Background on WSU Research Organization of the Paper”. Science, 1–24.2003 17. Meadows, D. H. Thinking in Systems: A Primer. White River Junction: VT: Chelsea Green Pub.2008. 18. Richmond, B. M. “Systems Thinking: Critical Thinking Skills for the 1990s and beyond”. System Dynamics Review, 9(2), 113–133.1993. 19. Walters, J. P., &Javernick-Will, A. N. (2015). Long-Term Functionality of Rural Water Services in Developing Countries: A System Dynamics Approach to Understanding the Dynamic Interaction of Factors. Environmental Science & Technology, 49(8), 5035–5043. https://doi.org/10.1021/es505975h 20. Wolstenholme, E. F. “System Dynamics in Perspective”. The Journal of the Operational Research Society, 33(6), 547. 1982. 21. deGooyert, V., &Größler, A. “On the differences between theoretical and applied system dynamics modeling”. System Dynamics Review, 34(4), 575–583. 2018. 22. Walters, J. P., Archer, D. W., Sassenrath, G. F., Hendrickson, J. R., Hanson, J. D., Halloran, J. M., Alarcon, V. J. “Exploring agricultural production systems and their fundamental components with system dynamics modelling”. Ecological Modelling, 333, 51–65. 2016. 23. Ibragimov, A., Sidique, S. F., &Tey, Y. S. “Productivity for sustainable growth in Malaysian oil palm production: A system dynamics modeling approach”. Journal of Cleaner Production, 213, 1051–1062. 2019. 24. Mohammadi, S., Arshad, F. M., &Ibragimov, A. “Future prospects and policy implications for biodiesel production in Malaysia: A system dynamics approach”. Institutions and Economies, 8(4).2016.

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