Dr. Nguyen Tan Hung , Dr. Nguyen Thi Tuyet Nga and Ngo Anh Kiet Ly *

* Corresponding author: Ngo Anh Kiet Ly (email: anhkietqh05@gmail.com)

Main Article Content

Abstract

Saltwater intrusion in the Vietnamese Mekong Delta has been significantly aggravated by both human development and adverse climate change. To curb salinization, local authorities rely heavily on structural measures (dikes, sluice gates, reservoir canals), yet their long-term environmental trade-offs remain underexplored. This study examines such environmental impacts and prioritization of measures in Tra Vinh province, Viet Nam. The research process combined field sampling of key water quality indicators at 25 sites, principal component analysis (PCA) to distil the main drivers, and in-depth interviews with ten risk-management experts. The findings reveal a potentially critical trade-off: measures provide operational benefits in reducing immediate intrusion, but this comes at the cost of elevated pollutant concentration and long-term degradation. This is evidenced by severe ecological stress, with many samples exceeding safe thresholds for DO, ORP, and TDS. Furthermore, the analysis confirmed strong interdependencies among conductivity, salinity, and total dissolved solids (correlation > 0.97). These results indicate the need for additional research on the ecosystem impacts of physical defenses, as well as consideration of non-structural approaches, including policy innovation, community engagement, and adaptive governance to support sustainable risk management against SI.

Keywords: Disaster risk management, Saltwater intrusion, Structural measures, Tra Vinh province

Article Details

References

Amerasinghe, F. P., & Boelee, E. (2004). Assessing the impact of irrigation development on the environment and human health. International Water Management Institute. https://archive.iwmi.org/assessment/files/word/ImpactsIrrigation/IrrigationEnvironment.pdf

Ayers, R. S., & Westcot, D. W. (1994). Water quality for agriculture. FAO Irrigation and Drainage (Paper 29). FAO, Rome.

Beak, J. Y., Guerreiro, C. V., Kim, J, Nam, J., & Jo, Y.H. (2024). Coastal environmental changes after the Saemangeum seawall construction. Frontiers in Marine Science, 10, 1307218. https://doi.org/10.3389/fmars.2023.1307218

Bozorg-Haddad, O., Delpasand, M., & Loa1iciga, H. A. (2021). 10 - Water quality, hygiene, and health. In Economical, political, and social issues in water resources (pp. 217-257). Elsevier. https://doi.org/10.1016/B978-0-323-90567-1.00008-5

Brix, K. V., Gerdes, R., Curry, N., Kasper, A., & Grosell, M. (2010). The effects of total dissolved solids on egg fertilization and water hardening in two salmonids—Arctic Grayling (Thymallus arcticus) and Dolly Varden (Salvelinus malma). Aquatic Toxicology, 97(2), 109-115. https://doi.org/10.1016/j.aquatox.2009.12.011

Chen, Z. & Orton, P. M. (2023). Effects of storm surge barrier closures on estuary saltwater intrusion and stratification. Water Resources Research, 59(3). https://doi.org/10.1029/2022wr032317

DataStream. (2021). A monitor's guide to water quality. https://datastream.org/en-ca/guidebook

Eslami, A. S. (2022). Environmental change in a mega-delta: Dynamics of salt intrusion in the Vietnamese Mekong Delta. Utrecht University. https://doi.org/10.33540/1367

Giordano, M., Namara, R., & Bassini, E. (2023). The impacts of irrigation: A review of published evidence. https://documents1.worldbank.org/curated/en/132251561407498546/pdf/The-Impacts-of-Irrigation-A-Review-of-Published-Evidence.pdf

Greenwald, H., Kennedy, L. C., Ehde, A., Duan, Y., Olivares, C. I., Kantor, R., & Nelson, K. L. (2022). Is flushing necessary during building closures? A study of water quality and bacterial communities during extended reductions in building occupancy. Frontiers in Water, 4, 958523. https://doi.org/10.3389/frwa.2022.958523

Hall, J. W., Meadowcroft, I. C., Sayers, P. B., & Bramley, M. E. (2003). Integrated flood risk management in England and Wales. Natural Hazards Review, 4(3), 126-135. https://doi.org/10.1061/(ASCE)1527-6988(2003)4:3(126)

Hashimoto, T. (2001). Environmental issues and recent infrastructure development in the Mekong delta: Review, analysis and recommendations with particular reference to large-scale water control projects and the development of coastal areas. Australian Mekong Resource Centre. https://search.sl.nsw.gov.au/permalink/f/1ocrdrt/SLNSW_ALMA21123466080002626

Hung My People's Committee. (2020). General construction planning of Hung My Commune. Adjustment of the general construction planning project of new rural areas of Hung My Commune. https://quyhoach.xaydung.gov.vn/vn/quy-hoach/8060/quy-hoach-chung-xay-dung-xa-hung-my--huyen-chau-thanh--tinh-tra-vinh-den-nam-2030.aspx (in Vietnamese).

IFRC. (2020). Vietnam - Drought and saltwater intrusion emergency plan of action (EPoA) DREF operation n° MDRVN019 final report. https://reliefweb.int/report/viet-nam/vietnam-drought-and-saltwater-intrusion-emergency-plan-action-epoa-dref-operation-2

James, S. (2023). Water quality analysis of parts of Muvattupuzha River, Kerala, India (2019-2020 case study). Journal of Bioremediation & Biodegradation, 14(2), 553. https://www.omicsonline.org/open-access/water-quality-analysis-of-parts-of-muvattupuzha-river-kerala-india-20192020-case-study-123169.html

Kim, T., Zhao, X., LaPara, T. M., & Hozalski, R. M. (2023). Flushing temporarily improves microbiological water quality for buildings supplied with chloraminated surface water but has little effect for groundwater supplies. Environmental Science & Technology, 57(13), 5453-5463. https://doi.org/10.1021/acs.est.2c08123

Le, T. V., Nguyen, D. T. P., & Nguyen, B. T. (2023). Spatial and temporal analysis and quantification of pollution sources of the surface water quality in a coastal province in Vietnam. Environmental Monitoring and Assessment, 195, 408. https://doi.org/10.1007/s10661-023-11026-x

Liu, H., Yoshikawa, N., & Tamaki, S. (2017). Effective method of removing saltwater wedge for preserving agricultural water quality. Paddy and Water Environment, 15(2), 331-341. https://doi.org/10.1007/s10333-016-0552-0

MARD. (2016). Regional environmental assessment on Mekong Delta integrated climate resilience and sustainable livelihoods project (MD-ICRSL) (pp. 23). https://documents.worldbank.org/curated/en/855731468312052747/pdf/SFG1760-REVISED-EA-P153544-Box396254B-PUBLIC-Disclosed-5-16-2016.pdf

Masters, G.M., & Wendell, P.E. (2013). Introduction to environmental engineering and science: Pearson new internation edition. Pearson Education.

MONRE. (2023). National technical regulation on surface water quality. QCVN 08:2023/BTNMT. https://datafiles.chinhphu.vn/cpp/files/vbpq/2023/3/01-btnmt-qc08.pdf (in Vietnamese).

NASATI. (2016). Salinity intrusion in the Mekong Delta: Causes, impacts and response solutions. Ministry of Science and Technology. https://www.vista.gov.vn/vi/tong-luan-new/2016/tl2-2016-xam-nhap-man-tai-dong-bang-song-cuu-long-nguyen-nhan-tac-dong-va-cac-giai-phap-ung-pho-114.html (in Vietnamese).

Mutea, F. G., Nelson, H. K., Au, H. V., Huynh, T. G., & Vu, U. N. (2021). Assessment of water quality for aquaculture in Hau River, Mekong Delta, Vietnam using multivariate statistical analysis. Water, 13(22), 3307. https://doi.org/10.3390/w13223307

Nguyen, N. A. (2017). Historic drought and salinity intrusion in the Mekong Delta in 2016: Lessons learned and response solutions. Vietnam Journal of Science, Technology and Engineering, 29(01), 93-96. https://doi.org/10.31276/VJSTE.59(1).93

Nguyen, D. H., Pham, V. N., Quach, V. T. E., & Vo, T. B. T. (2018). Investigation of the surface and pore-water salinity in the riparian mangroves along the Tien River, Tien Giang Province. Ho Chi Minh City University of Education Journal of Science, 15(6), 156–169. https://vjol.info.vn/sphcm/article/view/37404 (in Vietnamese).

Nguyen, N. T. (2019). Vietnamese Mekong Delta, 44 years of economic, social and environmental transformation and implementation of the Resolution (No 120/NQ-CP). http://ir.vnulib.edu.vn/handle/VNUHCM/6914

Nguyen, P. M., Kantoush, S., Tetsuya, S. & Tang, D.T. (2024). Proposed adaptation measures for saltwater intrusion in the Vietnamese Mekong Delta. In Proceedings of the 4th International Conference on Sustainability in Civil Engineering (pp. 563-571). Springer Nature Singapore. https://doi.org/10.1007/978-981-99-2345-8_57

Nguyen, T. G., & Nguyen, H. T. L. (2023). Evaluating surface water quality in a coastal province of Vietnamese Mekong Delta using water quality index and statistical methods. Polish Journal of Environmental Studies, 32(3), 2113–2124. https://doi.org/10.15244/pjoes/159897

Nguyen, T. T., Huynh, H. V., Vo, M. H., & Van, P. D. T. (2023). Salinity intrusion trends under the impacts of upstream discharge and sea level rise along the Co Chien River and Hau River in the Vietnamese Mekong Delta. Climate, 11(3), 66. https://doi.org/10.3390/cli11030066

Novotny, V. (2002). Water quality: Diffuse pollution and watershed management. John Wiley & Sons.

NSO. (2024a). Planted area of cereals by province. In Statistical yearbook of Viet Nam 2024 (pp. 591-592). Statistical Publishing House. https://www.nso.gov.vn/default/2025/06/nien-giam-thong-ke-2024/

NSO. (2024b). Table 19: Area, population and population density in 2024 by province. In Statistical Yearbook of Viet Nam 2024 (pp. 103-104). Statistical Publishing House. https://www.nso.gov.vn/default/2025/06/nien-giam-thong-ke-2024/

Pejman, A. H., Nabi Bidhendi, G. R., Karbassi, A. R., Mehrdedi, N., & Esmaeili Bidhendi, M. (2009). Evaluation of spatial and seasonal variations in surface water quality using multivariate statistical techniques. International Journal of Environmental Science & Technology, 6(3), 467-476. https://doi.org/10.1007/BF03326086

Piesse, M. (2019). The Mekong Delta: Land subsidence threatens Vietnam’s “food basket”. Future Directions International. https://apo.org.au/node/248996

Schanze, J. (2006). Flood risk management - a basic framework. In J. Schanze, E. Zeman, & J. Marsalek (Eds.), Flood risk management: Hazards, vulnerability and mitigation measures (Vol. 67, pp. 1–20). Springer Netherlands. https://doi.org/10.1007/978-1-4020-4598-1_1

Smajgl, A., Toan., T. Q., Nhan, D. K., Ward, J., Trung, N. H. (2015). Responding to rising sea levels in the Mekong Delta. Nature Climate Change, 5(2), 167–174. https://doi.org/10.1038/nclimate2469

Sutton, W. R., Srivastava, J. P., Rosegrant, M. W., Thurlow, J., & Sebastian, L. (2019). Striking a balance: Managing El Niño and La Niña in Vietnam’s agriculture. https://reliefweb.int/node/3398208

Thuc, T., Van Thang, N., Huong, H. T. L., Van Khiem, M., Hien, N. X., & Phong, D. H. (2016). Climate change and sea level rise scenarios of Viet Nam – Summary for policymakers. Ministry of Natural Resources and Environment. Hanoi, Vietnam. https://www.researchgate.net/publication/318875854

To, Q. T. (2014). Climate change and sea level rise in the Mekong Delta: flood, tidal inundation, salinity intrusion, and irrigation adaptation methods. In Coastal disasters and climate change in Vietnam (pp. 199-218). Elsevier. https://doi.org/10.1016/B978-0-12-800007-6.00009-5

To, Q. T., Tang, D. T., & Tran, M. T. (2016). Historical drought and salinity intrusion in the Mekong Delta in year 2016 and early warning from the research on impact of upstream development analysis. In Proceedings of the Annual Scientific Conference (pp. 1–9). Vietnam Academy for Water Resources. https://www.researchgate.net/publication/312595629 (in Vietnamese).

Tran, A. T., Dang, D. T., Nguyen, H. T., & Huynh, T. P. V. (2021). Moving towards sustainable coastal adaptation: Analysis of hydrological drivers of saltwater intrusion in the Vietnamese Mekong Delta. Science of the Total Environment, 770, 145125. https://doi.org/10.1016/j.scitotenv.2021.145125

Tuong, T. P., Kam, S. P., Hoanh, C. T., Dung, L. C., Khiem, N. T., Barr, J., & Ben, D. C. (2003). Impact of seawater intrusion control on the environment, land use and household incomes in a coastal area. Paddy and Water Environment, 1(2), 65-73. https://doi.org/10.1007/S10333-003-0015-2

UNDP Viet Nam. (2016). Viet Nam drought and saltwater intrusion: Transitioning from emergency to recovery. https://reliefweb.int/node/1729351

United States Environmental Protection Agency. (2015). Preventing eutrophication: Scientific support for dual nutrient criteria (EPA 820-S-15-001). https://www.deq.nc.gov/water-quality/environmental-sciences/eco/nutrientcriteria/epa-2015-n-and-p-factsheet-epa-820-s-15-001/download

Viet Nam Government Portal. (2021). Preliminary outcomes of three-year implementation of resolution on climate-resilient development of Mekong Delta. https://en.baochinhphu.vn/preliminary-outcomes-of-three-year-implementation-of-resolution-on-climate-resilient-development-of-mekong-delta-11140641.htm

Weber-Scannell, P. K., & Lawrence, K. D. (2007). Effects of total dissolved solids on aquatic organisms: A review of literature and recommendation for Salmonid species. American Journal of Environmental Sciences, 3. https://doi.org/10.3844/ajessp.2007.1.6

Wetzel, R. G. & Likens, G.E. (2000). Dissolved oxygen. In Limnological Analyses (pp. 73-84). Springer New York. https://doi.org/10.1007/978-1-4757-3250-4_6

World Meteorological Organization. (2023). The Global climate 2011-2020: A decade of accelerating climate change. https://wmo.int/resources/publication-series/state-of-global-climate-decadal-reports/global-climate-2011-2020-decade-of-acceleration

World Bank. (2012). Addressing water resources management in the Mekong Delta. http://documents.worldbank.org/curated/en/822891468321530432

World Bank. (2017). Toward integrated disaster risk management in Vietnam. https://doi.org/10.1596/28871

Wu, F., Fang, Y., Feng, M., Xie, Z., Zhu, L., & Feng, J. (2022). Developing ecological thresholds for nitrogen and phosphorus in the Haihe River basin in China. International Journal of Environmental Research and Public Health, 19(24), 16951. https://doi.org/10.3390/ijerph192416951