Rapid collection of iron hydroxide for determination of Th isotopes in seawater

Abstract

This work introduces a novel method of recovery of iron hydroxide using a DIAION CR-20 chelating resin column to determine Th isotopes in seawater with a sector field (SF) inductively coupled plasma mass spectrometer (ICP-MS). Thorium isotopes in seawater were co-precipitated with iron hydroxide, and this precipitate was sent to chelating resin column. Ferric ions in the iron hydroxide were bonded to functional groups of the chelating resin directly, resulting in a pH increase of the effluent by release of hydroxide ion from the iron hydroxide. The co-precipitated thorium isotopes were quantitatively collected within the column, which indicated that thorium was retained on the iron hydroxide remaining on the chelating column. The chelating column quantitatively collected 232Th with iron hydroxide in seawater at flow rates of 20–25mLmin−1. Based on this flow rate, a 5L sample was processed within 3–4h. The >20h aging of iron hydroxide tends to reduce the recovery of 232Th. The rapid collection method was successfully applied to the determination of 230Th and 232Th in open-ocean seawater samples.