Simonsson, Magnus
- Department of Soil and Environment, Swedish University of Agricultural Sciences
Research article2016Peer reviewedOpen access
Simonsson, Magnus; Court, Melanie; Bergholm, Johan; Lemarchand, Damien; Hillier, Stephen
Clay minerals and K feldspars were evaluated as sources of K in a Norway spruce stand (Picea abies (L.) Karst.) from the Skogaby experimental forest in southwest Sweden. The soil, developed in a Quaternary glacial till, has only 3-5% clay, and more than 95% of its K resides in feldspars. Ratios of K/Rb were assessed in interlayers of 2: 1 clay minerals (extracted with hot (100 degrees C) 2 M HCl), biomass and the forest floor. These compartments had similarly low K/Rb ratios, whereas K feldspars were significantly poorer in Rb. A fractionation model indicated preferential retention of Rb in the biomass and forest floor, due to stronger adsorption of Rb than K in the humus, as well as preferential uptake of K from the exchange complex in the mineral soil. Preferential uptake of K may result from weaker adsorption of K by the cation exchanger, or preference for dissolved K over Rb by the roots. A quantitative mineralogical analysis revealed that loss from micas may account for half of the Holocene loss of K from the soil, which was approximately 22 Mg ha(-1). Exceptionally low K/Rb ratios in HCl extracts of the upper 60 cm of the profile indicated extensive loss of K from mica in the parent material and re-fixation of K and Rb at lower ratios. The results indicate that fixation in and release from clay minerals may be prominent in the cycling of K, even in a soil that is poor in clay minerals.
Forest ecosystem; Potassium cycle; K/Rb ratio; Mica; Clay minerals; Feldspar
Biogeochemistry
2016, Volume: 131, number: 1, pages: 77-102 Publisher: SPRINGER
Geochemistry
DOI: https://doi.org/10.1007/s10533-016-0266-9
https://res.slu.se/id/publ/82636