用镭同位素评价海水滞留时间及海底地下水排泄

刘花台; 郭占荣; 袁晓婕; 李开培; 章斌

doi:10.3799/dqkx.2013.060

Volume 38 Issue 3

May 2013

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Article Navigation > Earth Science > 2013 > 38(3): 599-606

LIU Hua-tai, GUO Zhan-rong, YUAN Xiao-jie, LI Kai-pei, ZHANG Bin, 2013. Utility of Radium Isotopes for Evaluating Residence Time and Submarine Groundwater Discharge. Earth Science, 38(3): 599-606. doi: 10.3799/dqkx.2013.060

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LIU Hua-tai, GUO Zhan-rong, YUAN Xiao-jie, LI Kai-pei, ZHANG Bin, 2013. Utility of Radium Isotopes for Evaluating Residence Time and Submarine Groundwater Discharge. Earth Science, 38(3): 599-606. doi: 10.3799/dqkx.2013.060

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Utility of Radium Isotopes for Evaluating Residence Time and Submarine Groundwater Discharge

doi: 10.3799/dqkx.2013.060

College of the Environment and Ecology, Xiamen University, Xiamen 361005, China

Received Date: 2012-01-17
Publish Date: 2013-05-15

Abstract

Abstract

It's very difficult to measure submarine groundwater discharge (SGD) directly, but naturally occurring radium isotopes and radon tracers make it possible to estimate SGD fluxes indirectly. In order to evaluate the residence time of seawater and SGD fluxes in Wuyuan Bay, Xiamen, China, we measured the ²²⁴Ra and ²²⁶Ra activities in the bay water, open ocean seawater and groundwater, calculated the water parcel ages and average residence time in the Bay based on the differences in half-life between ²²⁴Ra and ²²⁶Ra, and estimated the SGD fluxes via the mass balance on ²²⁴Ra and ²²⁶Ra. The water parcel ages range from 0.6 to 2.4 d among thirteen sampling stations, with an average residence time of 1.4 d. The water parcel ages in the bay head relatively get older than those in the bay mouth. The calculated ²²⁴Ra and ²²⁶Ra fluxes driven by SGD are 5.17×10⁶ Bq/d and 5.28×10⁶ Bq/d, respectively. Both radium fluxes are further converted into SGD fluxes by dividing the activities of groundwater end-member to be 0.21 m³/m²/d (²²⁴Ra mass balance model) and 0.23 m³/m²/d (²²⁶Ra mass balance model), respectively. The calculated results from two models are so close that their average of 0.22 m³/m²/d can be considered as SGD fluxes in Wuyuan Bay.
- submarine groundwater discharge,
- seawater,
- radium isotopes,
- residence time,
- Wuyuan Bay,
- hydrogeology

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References(29)

References

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Utility of Radium Isotopes for Evaluating Residence Time and Submarine Groundwater Discharge

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