Improved determination of selenium in plant and peat samples using hydride generation-atomic fluorescence spectrometry (HG-AFS)

A robust, accurate and sensitive analytical procedure for the determination of Se in plant and peat samples by hydride generation-atomic fluorescence spectrometry (HG-AFS) was developed. Aliquots (200 mg) of dried samples were digested with 3 mL nitric acid and 0.5 mL hydrogen peroxide in closed, pressurized PTFE vessels in a microwave oven at 220 degrees C. Addition of HBF4 or HF to the digestion mixture was not required because experiments demonstrated that Se was not hosted in the silicate fraction of the investigated sample matrices. Selenium(VI) was directly reduced to Se(lV) in the undiluted digestion solutions after addition of 3.8 mL of 4 M HCl in a microwave oven at 103 degrees C for 3 min. Other reduction reagents, such as hydroxylamine hydrochloride or urea, were not necessary to cope with potential interferences from nitrogen oxides that could hamper the reliable determination of Se by HG-AFS. Optimum hydride generation of Se was achieved by using 0.9% NaBH4 and 4.5 M HCl. A solution detection limit of 11 ng L-1 was obtained under the optimized experimental conditions which corresponds to a method detection limit of 2.8 ng g(-1) in solid peat and plant materials. The precision of replicate measurements was better than 3% at Se concentrations of 50 no L-1. The analytical procedure was critically evaluated by analysing two certified plant reference materials (SRM 1515 Apple Leaves and SRM 1547 Peach Leaves) as well as three peat reference materials. Excellent agreement between the experimental values ranging from 50 ng g(-1) to similar to 2 mu g g(-1) and the certified concentrations was obtained. (c) 2004 Elsevier B.V. All rights reserved.