Hydro-Meteorological Drought Dynamics in the Lower Mekong River Basin and Their Downstream Impacts on the Vietnamese Mekong Delta (1992–2021)

Climate change and river flow alterations in the Mekong River have significantly exacerbated
drought conditions in the Vietnamese Mekong Delta (VMD). Understanding the temporal
dynamics and propagation mechanisms of drought, coupled with the compounded
impacts of human activities, is crucial. This study analyzed meteorological (1992–2021)
and hydrological (2000–2021) drought trends in the Lower Mekong River Basin (LMB)
using the Standardized Precipitation Index (SPI) and the Streamflow Drought Index (SDI),
respectively, complemented by Mann–Kendall (MK) trend analysis. The results show an
increasing trend of meteorological drought in Cambodia and Lao PDR, with mid-Mekong
stations exhibiting a strong positive correlation with downstream discharge, particularly
Tan Chau (Pearson r ranging from 0.60 to 0.70). A key finding highlights the complexity of
flow regulation by the Tonle Sap system, evidenced by a very strong correlation (r = 0.71)
between Phnom Penh and the 12-month SDI lagged by one year. Crucially, the comparison
revealed a shift in drought severity since 2010: hydrological drought has exhibited greater
severity (reaching severe levels in 2020–2021) compared to meteorological drought, which
remained moderate. This escalation is substantiated by a statistically significant discharge
reduction (95% confidence level) at the Chau Doc station during the wet season, indicating
a decline in peak flow due to upstream dam operations. These findings provide a robust
database on the altered hydrological regime, underlining the increasing vulnerability of
the VMD and motivating the urgent need for comprehensive, adaptive water resource
management strategies.