JpGU-AGU Joint Meeting 2020

講演情報

[E] 口頭発表

セッション記号 A (大気水圏科学) » A-HW 水文・陸水・地下水学・水環境

[A-HW32] 水圏生態系における物質輸送と循環:源流から沿岸まで

コンビーナ:伴 修平(公立大学法人 滋賀県立大学)、Adina Paytan(University of California Santa Cruz)、細野 高啓(熊本大学大学院先端科学研究部)、前田 守弘(岡山大学)

[AHW32-20] Understanding of Subsurface Flow Systems: Role of Environmental Tracers in Model Calibration

*A T M Sakiur Rahman1Takahiro Hosono1Yasuhiro Tawara2Dennis Boateng1Jun Shimada1 (1.Department of Earth and Environmental Science, Kumamoto University, Japan、2.Geosphere Environmental Technology Corporation, NCO Kanda, Awajicho, Chiyoda-ku, Tokyo 101-0063, Japan)

キーワード:Fully coupled tracer aided model, Multiple tracer simulation, Groundwater age, Uncertain boundary correction

Integrated watershed modeling techniques are being applied to examine the surface and subsurface interactions in recent years. Generally, modeling approaches heavily rely on the best fit of the hydrograph which alone cannot describe entire catchment water dynamics. For holistic understanding of hydrological processes, it is necessary to incorporate and simultaneously simulate tracers which can provide important inferences about water ages, flow paths and origin. Hence, this study incorporated multiple tracers like tritium (3H), Krypton-85 (85Kr), and groundwater temperature in model calibrations and seamlessly simulated tracers coupled with surface and subsurface flows using a fully distributed physically based modeling approach (i.e., GETFLOWS) for detailed characterizations of Kumamoto water regimes in southern Japan. The first model developed using the regular hydrometric parameters could not characterize isotopic compositions and groundwater temperature, though it showed acceptable model performance for simulating surface water and groundwater hydrographs for several observation stations located in the area. The second model calibrated by integrating tracers with regular parameters well characterized hydrographs of surface water, groundwater as well as isotopic compositions and groundwater temperature. Hence, tracer-aided model was used for simulating groundwater storage, flow paths and groundwater age which showed a close agreement with estimation of water ages using isotopic approaches in previous studies. The findings of the novel approach proposed in this study prove the potential in the use of multiple tracers for details visualizations of subsurface water dynamics and findings can be used for local water resources management and planning.