A new chromium-reducible sulfur (CRS) method suitable for the quantification of reduced inorganic S (RIS) in acid-sulfate soils is presented. The new method utilises the reduction of RIS by an acidic Cr(II) solution within a sealed reaction chamber and diffusion of the produced H2S(g) into an alkaline Zn solution. It offers rapid sample processing times, without the need for large volumes of high-purity N2(g) or for specialized, expensive glassware. Examination of pyrite-talc mixtures containing up to 11.8% pyrite, revealed that the method achieves 95–98% recovery of RIS. A comparison between CRS measured by the new diffusion-based method and that measured by a standard purge-and-trap method for 25 pyritic soil samples shows a very strong (r2 = 0.996) linear relationship with a slope of 0.995. The ability of the new diffusion-based CRS method to achieve accurate and precise quantification of RIS in acid-sulfate soils is demonstrated.
Journal article
A simple and inexpensive chromium-reducible sulfur method for acidsulfate soils
Applied Geochemistry, Vol.23(9), pp.2759-2766
2008
Metrics
27 Record Views
UN Sustainable Development Goals (SDGs)
This output has contributed to the advancement of the following goals:
Source: InCites
Abstract
Details
- Title
- A simple and inexpensive chromium-reducible sulfur method for acidsulfate soils
- Creators
- Edward D Burton - Southern Cross UniversityLeigh A Sullivan - Southern Cross UniversityRichard T Bush - Southern Cross UniversityScott G Johnston - Southern Cross UniversityAnnabelle F Keene - Southern Cross University
- Publication Details
- Applied Geochemistry, Vol.23(9), pp.2759-2766
- Identifiers
- 1343; 991012820699402368
- Academic Unit
- School of Environment, Science and Engineering; Southern Cross GeoScience; Faculty of Science and Engineering; Science
- Resource Type
- Journal article