Improvement of pre-treatment method for 36Cl/Cl measurement of Cl in natural groundwater by AMS

Abstract

Estimation of 36Cl/Cl by accelerator mass spectrometry (AMS) is a useful method to trace hydrological processes in groundwater. For accurate estimation, separation of SO 4 2 - from Cl − in groundwater is required because 36S affects AMS measurement of 36Cl. Previous studies utilized the difference in solubility between BaSO 4 and BaCl 2 (BaSO 4 method) to chemically separate SO 4 2 - from Cl −. However, the accuracy of the BaSO 4 method largely depends on operator skill, and consequently Cl − recovery is typically incomplete (70–80%). In addition, the method is time consuming (>1 week), and cannot be applied directly to dilute solutions. In this study, a method based on ion-exchange column chromatography (column method) was developed for separation of Cl − and SO 4 2 - . Optimum conditions were determined for the diameter and height of column, type and amount of resin, type and concentration of eluent, and flow rate. The recovery of Cl − was almost 100%, which allowed complete separation from SO 4 2 - . The separation procedure was short (<6 h), and was successfully applied to dilute (1 mg/L Cl) solution. Extracted pore water and diluted seawater samples were processed by the column and BaSO 4 methods, and then analyzed by AMS to estimate 36S counts and 36Cl/Cl values. 36S counts in samples processed by the column method were stable and lower than those from the BaSO 4 method. The column method has the following advantages over the BaSO 4 method: (1) complete and stable separation of Cl − and SO 4 2 - , (2) less operator influence on results, (3) short processing time (<6 h), (4) high (almost 100%) recovery of Cl −, and (5) concentration of Cl − and separation from SO 4 2 - in the one system for dilute solutions.