Abstract
The development of South Korean water resources has been heavily concentrated in a few areas, corresponding to regions that have experienced economic growth. The resulting competition for the resource is leading to calls for more equitable water distribution. The objective of this study is to evaluate water stress areas for sustainable water resources management. For this, a spatially distributed water stress index that accounts for climate variability at intra- and inter-annual time scales is developed and applied to South Korea to better understand the water allocations, and the subsequent water stress. Water demand (household water, industrial water, agricultural water, and livestock water) and water supply (precipitation use, reservoir use, stream use, and underground water use) estimates based on the period 1973–2009 were used to compute the normalized deficit index (NDI) and normalized deficit cumulative (NDC) for each hydrologic basin. Water stress was assessed for each of the four decades (1973–1982; 1983–1991; 1992–2000; 2001–2009). The overall water stress has decreased in 2000–2009 compared to 1973–1982 because of water infrastructure development. However, while the risk of water stress was low in the Han River basin, the Nakdong River was found to be very vulnerable to water stress. It was possible to investigate where water management strategies are needed for the sustainable development of South Korean water resources.
Highlights
South Korea has achieved rapid economic growth since the 1960s. This has been accompanied by an increase in the overall water demand for industries and agriculture
The equitable distribution of water resources is emerging as an issue of regional conflict [2]
There are 17 large reservoirs in South Korea primarily designed for water supply and flood control [1]
Summary
South Korea has achieved rapid economic growth since the 1960s This has been accompanied by an increase in the overall water demand for industries and agriculture. South Korea is using reservoir water for 52% of total water usage [1] and has significant trans-basin diversions since the seasonal difference of precipitation is very high. We present a quantitative analysis that measures the water stress and system reliability for South Korea arising from variations in the water supply and due to changes in water demand by the economic growth and population increase. A database of water supply and demand is established to evaluate water stress for sustainable development of water resources.
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