Abstract
Study regionThe Kumamoto area (945km2) in the south of Japan, where almost 100% of the drinking water is dependent on groundwater. Study focusSimultaneous measurement of groundwater dating tracers (85Kr, chlorofluorocarbons [CFCs], sulphur hexafluoride [SF6], and 3H) was performed in the Kumamoto area, to elucidate the regional groundwater flow system and obtain improved estimates of groundwater ages. The groundwater ages were estimated from the 85Kr concentrations in nine locations from three areas: along two major groundwater flow lines (A–A’ and B–B’); and a high-nitrate-input recharge area (C area). New hydrological insights for the regionThe groundwater ages could not be estimated using CFCs or SF6, particularly in the urban areas because of artificial additions to the concentration over almost the entire study area. However, even in these regional circumstances, apparent ages of approximately 16, 36, and not less than 55 years were obtained for three locations on the A–A’ line (recharge area, discharge area, and stagnant zone of groundwater, respectively) from 85Kr measurements. This trend was also supported by lumped parameter model analysis using a time series of 3H observations. In contrast, along the B–B’ line, the groundwater age of not less than 55 years at three locations, including the recharge to discharge area, where CFCs and SF6 were not detected, implies old groundwater: this is also the area in which denitrification occurs. In the C area, very young groundwater was obtained from shallow water and older groundwater was detected at greater depths, as supported by the long-term fluctuations of the NO3−–N concentration in the groundwater. The results of this study can be effectively used as a “time axis” for sustainable groundwater use and protection of groundwater quality in the study area, where groundwater accounts for almost 100% of the drinking water resources.
Highlights
Estimating the age of groundwater is important for the identification of groundwater flow mechanisms as well as for sustainable water utilization
The results indicated that the mean groundwater age was 26–35 years with exponential piston flow model (EPM) in the recharge area (DG-9), and 36 years with piston flow model (PFM) in the discharge area (DG-14; Fig. 9)
The reason for this was regarded as artificial additions to the concentration in almost the entire study area; the trend was more pronounced in urban areas and industrial areas
Summary
Estimating the age of groundwater is important for the identification of groundwater flow mechanisms as well as for sustainable water utilization. The majority of groundwater is presumed to be young because active groundwater flow systems exist in Japan as a result of the hydrological environment created by the steep topography and abundant precipitation. In the Kumamoto area of southern Japan, the subject area of this study, young groundwater is expected to be dominant because of the hydrogeologically good permeability attributable to the porous pyroclastic flow aquifer and steep hydraulic gradient. Many studies have examined young groundwater using hydrogeochemical dating tracers. The effectiveness of 85Kr as a groundwater dating tracer is evaluated by estimating the age of groundwater using different dating tracers
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