The grain market in Kazakhstan: An economic analysis of exports and domestic consumption
Abstract
This study aimed to identify contemporary trends in Kazakhstan’s grain market functioning. The analysis focused on production, consumption, export, and import indicators, price dynamics, and the self-sufficiency rate of grain in Kazakhstan during 2019-2023. The research utilised official statistical data on Kazakhstan’s agricultural sector and grain market performance. A comprehensive analysis of the grain market was conducted. The statistical data analysis revealed both positive and negative trends that significantly influenced the grain market in Kazakhstan from 2019 to 2023, as well as the country’s food self-sufficiency. The findings indicated a 1.7% decline in production rates and a 16.7% reduction in industrial grain consumption, accompanied by an increase in grain usage for seeding purposes. Annual personal consumption by the population did not exceed 1.1% of the total grain utilisation in the country. A 3.9% increase in sown areas did not result in higher yields, which decreased by 9.6%. The highest yields were observed in the Qyzylorda Region, where wheat cultivation dominated. Although imports did not surpass exports, they increased more than sevenfold over time. During the study period, grain reserves in the country grew by 9%, accompanied by a significant rise in market prices. These indicators did not prevent Kazakhstan from maintaining a high level of grain self-sufficiency, enabling further development of grain exports. This research contributed new insights into the future development of the grain market in Kazakhstan, demonstrating that an export-oriented strategy combined with increased production could be a viable pathway for successful sectoral growth. This approach could mitigate the risk of a food crisis while preserving the country’s high self-sufficiency in grain
Keywords
production; sown area; self-sufficiency level; resource balance; price index
[1] Ardan, M.C., Marzaman, A.P., & Deni, S. (2023). The Russian-Ukrainian war effects on global food trade: A review. Journal of Political Science and International Relations, 6(2), 54-63. doi: 10.11648/j.jpsir.20230602.14.
[2] Babets, I., Vlasenko, L., Fleychuk, M., Nakonechna, N., & Salamin, O. (2024). The impact of Ukrainian imports on the food security of its trade partners. Ekonomika APK, 31(5), 10-19. doi: 10.32317/ekon.apk/5.2024.10.
[3] Balkhausen, O., & Vogel, S. (2012). The market for cereals and oilseeds. German Journal of Agricultural Economics, 61, 13-26.
[4] Bulgakov, V., Nikolaenko, S., Holovach, I., Adamchuk, V., Kiurchev, S., Ivanovs, S., & Olt, J. (2020). Theory of grain mixture particle motion during aspiration separation. Agronomy Research, 18(1), 18-37. doi: 10.15159/ AR.20.057.
[5] Bureau of National Statistics. (2023a). Gross harvest of major crops by farm category. Retrieved from https://stat. gov.kz/api/iblock/element/119387/file/ru/.
[6] Bureau of National Statistics. (2023b). Population of the Republic of Kazakhstan by sex and type of locality (as of 1 January 2023). Retrieved from http://surl.li/eirjxz.
[7] Bureau of National Statistics. (2024a). Structure of GDP by production method. Retrieved from https://stat.gov. kz/api/iblock/element/4442/file/ru/.
[8] Bureau of National Statistics. (2024b). Specified sown area of main agricultural crops. Cereals (including rice) and legumes. Retrieved from https://stat.gov.kz/api/iblock/element/8154/file/ru/.
[9] Bureau of National Statistics. (2024d). Yields of major agricultural crops. Cereals (including rice) and legumes. Retrieved from https://stat.gov.kz/api/iblock/element/8166/file/ru/.
[10] Bureau of National Statistics. (2024e). Gross harvest of main agricultural crops. Cereals (including rice) and legumes. Retrieved from https://stat.gov.kz/api/iblock/element/8160/file/ru/.
[11] Bureau of National Statistics. (2024f). Balance of resources and utilisation of main agricultural products of the Republic of Kazakhstan 2019-2023. Retrieved from https://stat.gov.kz/api/iblock/element/183457/file/ru/.
[12] Bureau of National Statistics. (2024g). Exports and imports of crop products. Retrieved from https://stat.gov.kz/ api/iblock/element/4099/file/ru/.
[13] Bureau of National Statistics. (2024h). Producer price index for certain types of agricultural products. Retrieved from https://stat.gov.kz/api/iblock/element/1644/file/ru/.
[14] Bureau of National Statistics. (2024j). Employed population by FEA. Retrieved from http://surl.li/kvrmbh.
[15] Bureau of National Statistics. (2024с). Specified sown area of main crops (total sown area). Retrieved from https:// stat.gov.kz/api/iblock/element/8152/file/ru/.
[16] Chen, K.Z., & Mao, R. (2020). Fire lines as fault lines: Increased trade barriers during the COVID-19 pandemic further shatter the global food system. Food Security, 12(4), 735-738. doi: 10.1007/s12571-020-01075-2.
[17] Elleby, C., Domínguez, I.P., Adenauer, M., & Genovese, G. (2019). Impacts of the COVID-19 pandemic on the global agricultural markets. Environmental and Resource Economics, 76(4), 1067-1079. doi: 10.1007/s10640020-00473-6.
[18] Falkendal, T., Otto, C., Schewe, J., Jägermeyr, J., Konar, M., Kummu, M., Watkins, B., & Puma, M.J. (2021). Grain export restrictions during COVID-19 risk food insecurity in many low- and middle-income countries. Nature Food, 2(1), 11-14. doi: 10.1038/s43016-020-00211-7.
[19] Food and Agriculture Organization. (2024). Food price index. Retrieved from http://surl.li/mjihhe.
[20] Giap, M.B. (2020). COVID-19 pandemic impacts on food security in central and West Asia: Key issues and strategic options. Mandaluyong: Asian Development Bank. doi: 10.22617/WPS200360-2.
[21] Grote, U., Fasse, A., Nguyen, T.T., & Erenstein, O. (2021). Food security and the dynamics of wheat and maize value chains in Africa and Asia. Frontiers in Sustainable Food Systems, 4, article number 617009. doi: 10.3389/ fsufs.2020.617009.
[22] Habib-ur-Rahman, M., Ahmad, A., Raza, A., Hasnain, M.U., Alharby, H.F., Alzahrani, Y.M., Bamagoos, A.A., Hakeem, K.R., Ahmad, S., Nasim, W., Ali, S., Mansour, F., & Sabagh, A.E. (2022). Impact of climate change on agricultural production; Issues, challenges, and opportunities in Asia. Frontiers in Plant Science, 13, article number 925548. doi: 10.3389/fpls.2022.925548.
[23] Hartmane, I., Biyashev, B., Getman, A.P., Yaroshenko, O.M., & Anisimova, H.V. (2024). Impacts of war on Ukrainian nature. International Journal of Environmental Studies, 81(1), 455-462. doi: 10.1080/00207233.2024.2314856.
[24] Hassen, T.B., & Bilali, H.E. (2022). Impacts of the Russia-Ukraine war on global food security: Towards more sustainable and resilient food systems? Foods, 11(15), article number 2301. doi: 10.3390/foods11152301.
[25] Havryliuk, I., & Kovalyshyna, H. (2024). Characteristics of soft winter wheat varieties by crop structure and grain quality indicators. Ukrainian Black Sea Region Agrarian Science, 2024(4), 68-84. doi: 10.56407/ bs.agrarian/4.2024.68.
[26] Jia, M., Zhen, L., & Xiao, Y. (2022). Changing food consumption and nutrition intake in Kazakhstan. Nutrients, 14(2), article number 326. doi: 10.3390/nu14020326.
[27] Kim, K., Kim, S., & Park, C.Y. (2020). Food security in Asia and the Pacific amid the COVID-19 pandemic. doi: 10.22617/BRF200176-2.
[28] Kim, S.-C., Chung, J.-K., Trusova, N., Akhmetova, Z., & Musayeva, N. (2024). Simulating global supply chain reverberations from Ukrainian grain shipment interruptions. Revista Iberoamericana de Viticultura Agroindustria y Ruralidad, 12(34), 192-207. doi: 10.35588/3c9rjg57.
[29] Kubitza, C., Krishna, V.V., Schulthess, U., & Jain, M. (2020). Estimating adoption and impacts of agricultural management practices in developing countries using satellite data. A scoping review. Agronomy for Sustainable Development, 40(3), article number 16. doi: 10.1007/s13593-020-0610-2.
[30] Liu, L., Wang, W., Yan, X., Shen, M., & Chen, H. (2023). The cascade influence of grain trade shocks on countries in the context of the Russia-Ukraine conflict. Humanities and Social Sciences Communications, 10(1), article number 449. doi: 10.1057/s41599-023-01944-z.
[31] Minfin. (2024). World oil prices (Brent). Retrieved from https://index.minfin.com.ua/markets/oil/brent/2023-12/.
[32] Nasir, M.A., Nugroho, A.D., & Lakner, Z. (2022). Impact of the Russian-Ukrainian conflict on global food crops. Foods, 11(19), article number 2979. doi: 10.3390/foods11192979.
[33] NatStat: Production of fodder crops in Kazakhstan in 2022 increased by 23%. (2022). Retrieved from https:// margin.kz/news/11134/natsstat-proizvodstvo-kormovyh-kyltyr-v-kazahstane-v-2022-gody-vyroslo-na-23/.
[34] Petryshyn, L.P. (2016). Price trends at the global and national markets of cereals, legumes and oilseeds. Uzhorod National University Herald. Series: International Economic Relations and World Economy, 8(2), 50-53.
[35] Sendhil, R., Kumari, B., Khandoker, S., Jalali, S., Acharya, K.K., Gopalareddy, K., Singh, G.P., & Joshi, A.K. (2022). Wheat in Asia: Trends, challenges and research priorities. In P.L. Kashyap, V. Gupta, O.P. Gupta, R. Sendhil, K. Gopalareddy, P. Jasrotia & G.P. Singh (Eds.), New horizons in wheat and barley research: Global trends, breeding and quality enhancement (pp. 33-61). Singapore: Springer. doi: 10.1007/978-981-16-4449-8_3.
[36] Stathers, T., Holcroft, D., Kitinoja, L., Mvumi, B.M., English, A., Omotilewa, O., Kocher, M., Ault, J., & Torero, M. (2020). A scoping review of interventions for crop postharvest loss reduction in sub-Saharan Africa and South Asia. Nature Sustainability, 3(10), 821-835. doi: 10.1038/s41893-020-00622-1.
[37] Statista. (2023). Kazakhstan: Gross domestic product (GDP) in current prices from 1998 to 2028 (in billion U.S. dollars). Retrieved from https://www.statista.com/statistics/436143/gross-domestic-product-gdp-in-kazakhstan/.
[38] Tanaka, T., & Guo, J. (2020). How does the self-sufficiency rate affect international price volatility transmissions in the wheat sector? Evidence from wheat-exporting countries. Humanities and Social Sciences Communications, 7, 26. doi: 10.1057/s41599-020-0510-8.
[39] The Economist. (2018). Global Food Security Index 2018: Building Resilience in the Face of Rising Food-security Risks. London: The Economist.
[40] The Economist. (2021). Global Food Security Index 2021. The 10-year Anniversary. London: The Economist.
[41] Tokenova, S., Kadrinov, M., & Alpyssova, V. (2019). Progress of grain production development in Kazakhstan and Mongolia. Earth and Environmental Science, 341, article number 012207. doi: 10.1088/1755-1315/341/1/012207.
[42] Wang, M., & Wei, F. (2021). Dynamic evolution and regional differences of grain production efficiency in Kazakhstan. Journal of Natural Resources, 36(3), 594-605. doi: 10.31497/zrzyxb.20210305.
[43] Wang, Y., Huang, P., Khan, Z.A., & Wei, F. (2022). Potential of Kazakhstan’s grain export trade. Ciência Rural, 52(1). doi: 10.1590/0103-8478cr20210199.
[44] Wei, T., Zhang, T., Cui, X., Glomsrød, S., & Liu, Y. (2019). Potential influence of climate change on grain self-sufficiency at the country level considering adaptation measures. Earth’s Future, 7(10), 1152-1166. doi: 10.1029/2019EF001213.
[45] Yaheliuk, S., Fomych, М., & Rechun, O. (2024). Global market trends of grain and industrial crops. Commodity Bulletin, 17(1), 134-145. doi: 10.62763/ef/1.2024.134.
[46] Yu, X., Luo, H., Wang, H., & Feil, J.H. (2020). Climate change and agricultural trade in central Asia: Evidence from Kazakhstan. Ecosystem Health and Sustainability, 6(1), article number 1766380. doi: 10.1080/20964129.2020.1766380.
[47] Zhao, Y., Zhang, Y., Li, X., & Qian, C. (2022). Assessment on land-water resources carrying capacity of countries in Central Asia from the perspective of self-supplied agricultural products. Land, 11(2), article number 278. doi: 10.3390/land11020278.