Tu T. A., Tweed Sarah, Dan N. P., Descloitres Marc, Quang K. H., Nemery J., Nguyen A., Leblanc M., Baduel Christine. (2022). Localized recharge processes in the NE Mekong Delta and implications for groundwater quality. Science of the Total Environment, 845, 157118 [14 p.]. ISSN 0048-9697.
Titre du document
Localized recharge processes in the NE Mekong Delta and implications for groundwater quality
Année de publication
2022
Auteurs
Tu T. A., Tweed Sarah, Dan N. P., Descloitres Marc, Quang K. H., Nemery J., Nguyen A., Leblanc M., Baduel Christine
Source
Science of the Total Environment, 2022,
845, 157118 [14 p.] ISSN 0048-9697
Understanding recharge in the Mekong Delta is critical for the delta's groundwater resources, and requires the investigation of recharge processes at the local scale. In this study of the north eastern area of the Mekong Delta, time-series of environmental tracer data (delta O-18, delta H-2, major ions and H-3) and markers of rural pollution (NH4 and NO3) were used to highlight localized recharge and impacts on groundwater quality. Results highlighted new hydrological insights into recharge processes, including that the Pleistocene aquifer receives recent recharge (< 60 years), predominantly during high rainfall months (> 100 mm/month). However, due to shallow clay layers there are significant spatial variations in these recharge processes, which were observed in the seasonal fluctuation of groundwater delta O-18 values in groundwater. Wet season delta O-18 changes ranged from below analytical uncertainty (<= 0.10 parts per thousand) to up to 0.56 parts per thousand, and the calculated fraction of rainfall contribution to the aquifer is <= 5 % to 16 %. Rainfall recharge via the acrisol soils results in low groundwater EC (20-55 mu S/cm), acidic groundwater (pH 3.6-5.6), and may also have resulted in the low groundwater NO3 concentrations (<= 5.3 mg NO3/L) at many sites due to adsorption, therefore delaying not reducing NO3 contamination. Site specific variations in nitrogen processes includes increased NO3 (to 29.7 mg/L) from fertiliser transfers or nitrification, and increased NH4 (to 1.4 mg/L) likely due to the recharge of irrigation waters. Unlike other recharge areas across the northern Mekong Delta, this north-eastern region provides a groundwater resource unaffected by arsenic contamination. Therefore, these results should inform on priority areas for protection from further contamination by rural anthropogenic activities.
Plan de classement
Sciences du milieu [021]
;
Hydrologie [062]
Description Géographique
VIET NAM
Localisation
Fonds IRD [F B010086072]
Identifiant IRD
fdi:010086072
