日本地球惑星科学連合2018年大会

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[EJ] 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-HW23] 流域の地下水・地表水における滞留時間と水・物質循環プロセス

2018年5月24日(木) 13:45 〜 15:15 104 (幕張メッセ国際会議場 1F)

コンビーナ:辻村 真貴(筑波大学生命環境系)、水垣 滋(国立研究開発法人土木研究所寒地土木研究所)、勝山 正則(京都大学農学研究科、共同)、Gusyev Maksym(International Centre for Water Hazard Risk Management, Public Works Research Institute)、座長:辻村 真貴水垣 滋

14:15 〜 14:30

[AHW23-08] Application of tritium-tracer and stable isotopes in the Chikuma River basin, Japan

*Maksym Gusyev1Yoshito Kikumori1Masatoshi Denda2Hide Toda3Maki Tsujimura4Koichi Sakakibara3Uwe Morgenstern5Michael Kilgour Stewart5 (1.International Centre for Water Hazard Risk Management (ICHARM), Public Works Research Institute (PWRI), Japan、2.River Restoration Team, Public Works Research Institute (PWRI), Japan、3.Department of Environmental Sciences, Shinshu University, Japan、4.Graduate School of Life and Environmental Sciences, University of Tsukuba, Japan、5.GNS Science, New Zealand)

キーワード:tritium and stable isotopes, river water, hot spring groundwater, water quality , mean residence times (MRTs)

Application of tritium-tracer in river water can provide useful information of groundwater residence times and pollutant transport dynamics in the subsurface. As a part of water molecule, tritium undergoes β-decay with a half-life of 12.32 years and tritium concentrations analyzed with ultra-low level precision measurement may give unique estimate of mean residence times (MRTs) with one river water sample of baseflows in Japanese headwater catchments (Gusyev et al., 2016). In the Chikuma River basin, 12 river water samples were collected during winter baseflow conditions in December 2017 at altitudes between 465 and 919 m above sea level (msl) to establish tritium-tracer MRTs in headwater catchments situated upstream of Ueda city (Figure 1). To characterize deep groundwater MRTs, one sample was collected from 1000 m deep wellbore, which is situated at elevation of 421 msl and screened from 600 to 1000 m below ground, and this groundwater is used for domestic drinking water supply and bathing at the Bingushi hot spring of Sakaki city. In each sampled location, in-situ measurements (e.g. water temperature, pH, dissolved oxygen, conductivity, turbidity (TDS), etc.) were conducted with YSI Pro DSS and 1L water samples were collected for tritium analysis with low-level liquid scintillation counting at GNS Science tritium laboratory, New Zealand. For the characterization of water pollution sources, 5L water samples were collected for analysis of nitrogen (15N) and carbon (13C) stable isotopes attached to sediments and 0.06L water samples for analysis of oxygen (18O) and hydrogen (2H) stable isotopes as well as ion chromatography chemistry. These tritium-tracers MRTs and stable isotopes provide essential information of regional and local groundwater and pollution dynamics and will be used for the long-term investigation of the of the Chikuma River main channel to develop guidelines for maintaining healthy aquatic community and productive river ecosystem.
References:

Gusyev M.A., Morgenstern U., Stewart M.K., Yamazaki Y., Kashiwaya K., Nishihara T., Kuribayashi D., Sawano H. and Y. Iwami (2016). Application of tritium in precipitation and baseflow in Japan: a case study of groundwater transit times and storage in Hokkaido watersheds. Hydrol. Earth Syst. Sci., 20, 1-16, doi:10.5194/hess-20-1-2016