Abstract
Although the Vietnamese Mekong Delta (VMD) is recognised as one of the world’s most vulnerable deltas, scholars have yet to provide an integrated diagnosis linking locally driven pressures to actionable pathways for halting its rapid elevation loss. The VMD—39,000 km² that feeds 18 million people—is sinking because four pressures act in concert: upstream dams have already cut sediment delivery by 70 %–83 % (projected 96 % if all planned projects proceed), mean sea level is rising 1.5–2 cm/yr, river-bed sand mining now removes about 3 Mm³/yr and deepens channels by up to 15 cm/yr, and groundwater withdrawals of approximately 2.5 Mm³/day have accelerated land-surface subsidence from smaller than 3 cm/yr in 2006–2010 to peaks of 5–6 cm/yr today. Scenario modelling shows that halving pumping would stabilize aquifer heads and cut subsidence by about 50 % within a decade, while provincial sand-quota cuts of 30 %–50 % would slow bed incision and ease salinity intrusion, reducing the irrigation deficits that drive further pumping. While the large-scale causes of subsidence (dams, sea level rise, sand mining, groundwater extraction) are well recognized, actionable, local-level management solutions to immediately slow subsidence and salinity intrusion—independent of slow international negotiations—have been underexplored and under-implemented. Because dam and climate remedies rely on slow transboundary negotiations, we target the more practical local pressures—sand mining and groundwater extraction—by first tightening sand-mining licenses, enforcing tiered groundwater tariffs, and scaling up rain- and surface-water alternatives, buying time for longer-term basin and climate agreements. These locally actionable measures can significantly reduce subsidence and provide a scalable model for sustaining deltas around the world.
Keywords
Elevation loss, Groundwater overextraction, Mekong delta, sand mining, Sustainable management