The reductive dissolution of synthetic goethite and hematite in dithionite
- 1 September 1987
- journal article
- Published by Mineralogical Society in Clay Minerals
- Vol. 22 (3) , 329-337
- https://doi.org/10.1180/claymin.1987.022.3.07
Abstract
The reductive dissolution by Na-dithionite of 28 synthetic goethites and 26 hematites having widely different crystal morphologies, specific surfaces and aluminium substitution levels has been investigated. For both minerals the initial dissolution rate per unit of surface area decreased with aluminium substitution. At similar aluminium substitution and specific surface, goethites and hematites showed similar dissolution rates. These results suggest that preferential, reductive dissolution of hematite in some natural environments, such as soils or sediments, might be due to the generally lower aluminium substitution of this mineral compared to goethite.Keywords
This publication has 19 references indexed in Scilit:
- The influence of aluminium on iron oxides: XIII. Properties of goethites synthesised in 0·3 M KOH at 25°CClay Minerals, 1987
- Incipient podzolization processes in Humic Acrisols of southern SpainEuropean Journal of Soil Science, 1985
- PROPERTIES OF GOETHITE AND HEMATITE IN KAOLINITIC SOILS OF SOUTHERN AND CENTRAL BRAZILSoil Science, 1985
- Relationships between phosphate sorption and iron oxides in Alfisols from a river terrace sequence of Mediterranean SpainGeoderma, 1984
- A preliminary length factor for erosion on steep slopes in Guatemala and its use to evaluate “curvas a nivel”Geoderma, 1984
- Influence of iron oxides on the non‐specific anion (chloride) adsorption by soilEuropean Journal of Soil Science, 1984
- Effects of AlOOH-FeOOH Solid Solution on Goethite-Hematite EquilibriumClays and Clay Minerals, 1983
- Iron oxide mineralogy of some soils of two river terrace sequences in SpainGeoderma, 1980
- Natural “amorphous” ferric hydroxideGeoderma, 1973
- Iron Oxide Removal from Soils and Clays by a Dithionite-Citrate System Buffered with Sodium BicarbonateClays and clay minerals (National Conference on Clays and Clay Minerals), 1958