Sequential leaching of silicified Archaean carbonates: A Rb-Sr, Sm-Nd and Pb-Pb isotopic contribution to their tectonic-thermal history (Kaapvaal Craton, South Africa)

Abstract

Sequential leaching was completed by successive interactions of ultra-pure H2O, HAc, HCl and HNO3 with silicified/carbonated Archaean whole rocks from Barberton Greenstone belt of South Africa. The purpose of this experiment was an identification of the minerals interacting with each reagent and, therefore, a detailed succession of isotopically dated tectonic-thermal episodes recorded in these minerals. The contents of the major, trace and rare-earth elemental, together with the Sr, Nd and Pb isotopic compositions of untreated, leachate and residue triplets allowed identification and analysis of various types of carbonates and sulfates mixed with insoluble silicates. The samples yield two overall geological age milestones at 2.9 ± 0.1 and 2.1 ± 0.1 Ga, as well as varied age values, some with large uncertainties. A further event at about 1.6 ± 0.1 Ga is suggested probably in relation with the emplacement of the Bushveld complex or of further intrusive complexes of the Kaapvaal Craton.While the basics of the different used isotopic systems can be considered to be similar, the Rb-Sr method appears to be the best suited to detail the studied rocks, especially their sensitive soluble minerals. The Sm-Nd method is less flexible because of its inherent need of widely ranging Sm/Nd ratios that depend on the mineral assemblage. In the case of the Rb-Sr ages well constrained by isochron arrays, more similar ages were obtained by tentatively called isotrends that consist in data points slightly scattered along the arrays giving higher uncertainties, especially with the Sm-Nd method. The fact that these isotrends gave similar ages in addition to those of the isochrons comforts the historic evolution of the studied material.These scatters most probably correspond to slight changes in the chemical characteristics of minerals leached by the successive reagents, but analytical uncertainties cannot be completely excluded, especially in the case of the HNO3 leaching step. Finally, the Pb-Pb method appears to be of a more limited application, possibly because of possible metal contamination of the host rocks, either during their evolution in a region characterized by metal-rich concentrations or more recently during discrete surficial to sub-surficial alteration/weathering processes. In terms of leaching efficiency, that with H2O removed expectedly the lowest amounts of soluble components followed by HNO3, the two efficient removers being dilute HAc and HCl. In turn, the obtained geochronological ages consolidate previously published ages that concentrate on post-depositional tectonic-thermal events within the Kaapvaal Craton during about 1.0 Ga. However, they also suggest some reconsideration for other ages of the literature.