How Investment in Irrigation Promotes Agricultural Production in the Mekong Delta

Date Received: May 19, 2025

Date Accepted: Mar 24, 2026

Date Published: Jun 30, 2026

DOI: https://doi.org/10.31817/vjas.2026.9.2.09

Views

0

Download

0

Issue: Vol. 9 No. 2 (2026): Vietnam Journal of Agricultural Sciences

Section:

ECONOMICS, SOCIETY AND RURAL DEVELOPMENT

How to Cite:

Luong, N. (2026). How Investment in Irrigation Promotes Agricultural Production in the Mekong Delta. Vietnam Journal of Agricultural Sciences, 9(2), 3019–3030. https://doi.org/10.31817/vjas.2026.9.2.09

How Investment in Irrigation Promotes Agricultural Production in the Mekong Delta

Nguyen Thi Luong (*) 1

  • Corresponding author: [email protected]
  • 1 School of Economicss, Can Tho University, Can Tho 94100, Vietnam

    • Keywords

    Mekong Delta, irrigation investment, agricultural productivity, climate change

    Abstract


    The Mekong Delta—Vietnam’s agricultural heartland—is increasingly threatened by climate change, saline intrusion, and upstream dam construction, posing serious risks to its role as a major global rice supplier. This study examined how public investment in irrigation infrastructure affects agricultural output in the region, addressing a critical gap in understanding the role of water management in enhancing agricultural resilience. Using panel data from 13 provinces between 2009 and 2023, we applied a feasible generalized least squares (FGLS) model based on a Cobb-Douglas production function to estimate the determinants of the agricultural gross regional domestic product (GRDP). The results showed that irrigation investment significantly boosts agricultural productivity. While labor, capital, and land remain essential inputs, rainfall appeared to have little effect—highlighting the importance of regulated water infrastructure in mitigating climate variability. These findings align with previous regional studies and reflect the Delta’s reliance on labor-intensive rice farming supported by engineered water systems. By incorporating environmental factors and current climatic trends, the study provides new empirical evidence on the region’s agricultural dynamics. It underscores the vital role of irrigation in ensuring food security and economic sustainability, offering insights for climate adaptation and infrastructure policy in environmentally vulnerable regions.

    References

    Abioye E. A., Henshaw M. O., Okorie C. N. & Adeyemi S. B. (2022). Smart irrigation systems in agriculture: A systematic review. Agronomy. 13(2): 342.

    Barker R., Ringler C., Tien N. M. & Rosegrant M. (2004). Macro policies and investment priorities for irrigated agriculture in Vietnam. Comprehensive Assessment Research Report. 6: page numbers?.

    Bathla S., Kumar A., Joshi P. K. & Dastagiri M. B. (2021). Estimating efficiency of public investment in irrigation at the state level in India. Springer. DOI: 10.1007/978-981-16-2937-2_3.

    Berbel J., Gutiérrez-Martín C., Expósito A. & Mateos L. (2020). Does investment in irrigation technology necessarily generate rebound effects? Agricultural Water Management. 240: 106305.

    Burney J., Woltering L., Burke M. & Naylor R. (2021). The role of irrigation in enabling agricultural resilience to climate change. Nature Food. 2(8): 556-563.

    Dang T. D., Pham D. K., Tran V. T. & Nguyen H. T. (2022). Irrigation infrastructure and salinity management in the Mekong Delta: Challenges and opportunities. Journal of Environmental Management. 305: 114392. DOI: 10.1016/j.jenvman.2021.114392.

    Fan S., Zhang X. & Rao N. (2004). Public expenditure, growth, and poverty reduction in rural Uganda. IFPRI Discussion Paper: 67 pages.

    Grafton R. Q., Williams J., Perry C. J., Molle F., Ringler C., Steduto P., Udall B., Wheeler S. A., Wang Y., Garrick D. & Allen R. G. (2018). The paradox of irrigation efficiency. Science. 361(6404): 748-750. DOI: 10.1016/j.gloenvcha.2020.102165.

    Hanjra M. A. & Qureshi M. E. (2010). Global water crisis and future food security in an era of climate change. Food Policy. 35(5): 365-377.

    Hossain M. & Islam M. S. (2022). Socio-economic and environmental analyses of solar irrigation systems for sustainable agricultural production. Sustainability. 14(11): 6834.

    Hussain I. & Hanjra M. A. (2020). Irrigation and poverty alleviation: Review of the empirical evidence. Irrigation and Drainage. 53(1): 1-15.

    Maddala G. S. & Wu S. (1999). A comparative study of unit root tests with panel data and a new simple test. Oxford Bulletin of Economics and Statistics. 61(S1): 631-652. DOI: 10.1111/1468-0084.0610s1631.

    Micklin P. (2016). The future of the Aral Sea: Hope and despair. Environmental Earth Sciences. 75(9): 844.

    Mogues T., Yu B., Fan S. & McBride L. (2012). The impacts of public investment in and for agriculture: Synthesis of the existing evidence. IFPRI Discussion: Paper 01217.

    Minderhoud P. S. J., Erkens G., Pham V. H., Bui V. T., Erban L., Kooi H. & Stouthamer E. (2017). Impacts of 25 years of groundwater extraction on subsidence in the Mekong Delta, Vietnam. Environmental Research Letters. 12(6): 064006. DOI: 10.1088/1748-9326/aa7146.

    Nguyen D. T., Tran T. V., Nguyen H. T. & Le Q. A. (2019). Impacts of alternate wetting and drying irrigation on rice yield and water use efficiency in the Mekong Delta, Vietnam. Field Crops Research. 236: 95-104.

    Nhamo L., Mabhaudhi T., Mpandeli S. & Dickens C. (2019). The impact of investment in smallholder irrigation schemes on irrigation expansion and crop productivity in Malawi. African Journal of Agricultural and Resource Economics. 11(2): 1-13.

    Pascale S. D., Costa L. D., Vallone S. & Barbieri G. (2011). Increasing water use efficiency in vegetable crop production: From plant to irrigation systems efficiency. HortTechnology. 21(3):301–308.

    Pesaran M. H. (2007). A simple panel unit root test in the presence of cross-section dependence. Journal of Applied Econometrics. 22(2): 265-312. DOI: 10.1002/jae.951.

    Khan Y., Bojnec S., Daraz U. & Zulpiqar F. (2024). Exploring the nexus between poor governance and household food security. Economic Change and Restructuring. 57: 92.

    Khan Y., Bojnec S. & Daraz U. (2025). Infrastructure,

    knowledge and climate resilience technologies enhancing food security: Evidence from Northern Pakistan. Sustainable Futures. 10: 100769.

    Rosegrant M. W., Ringler C. & Zhu T. (2009). Water for agriculture: Maintaining food security under growing scarcity. Annual Review of Environment and Resources. 34: 205-222. DOI: 10.1146/annurev.environ.030308.090351.

    Smajgl A., Toan T. Q., Nhan D. K., Ward J., Trung N. H., Tri L. Q., Tri V. P. D. & Vu P. T. (2015). Responding to rising sea levels in the Mekong Delta. Nature Climate Change. 5(2): 167-174. DOI: 10.1038/nclimate2469.

    Tabak B. M., Laiz M. T., & Cajueiro D. O. (2013). Financial stability and monetary policy: The case of Brazil. Revista Brasileira de Economia. 67(4): 403-422.

    Tran D. D., & Le A. T. (2021). Impacts of irrigation investment on agricultural growth in the Mekong Delta: A panel data analysis. Vietnam Journal of Agricultural Sciences. 4(2): 123-134.

    Tran D. D., Park E., Van C. T., Nguyen T. D., Nguyen A. H., Linh T. C., Quyen P. H., Tran D. A. & Nguyen H. Q. (2024). Advancing sustainable rice production in the Vietnamese Mekong Delta: Insights from ecological farming systems in An Giang Province. Heliyon. 10(17): e37142. DOI: 10.1016/j.heliyon.2024.e37142.

    Wu L., Zhang Q., Li J. & Huo Z. (2023). Review on drip irrigation: Impact on crop yield, quality, and water productivity in China. Water. 15(3): 342. DOI: 10.3390/w15030342.