Health & Environmental Research Online (HERO)


Print Feedback Export to File
3021812 
Journal Article 
Characterising the stable (delta(88)/Sr-86) and radiogenic (Sr-87/Sr-86) isotopic composition of strontium in rainwater 
Pearce, CR; Parkinson, I; Gaillardet, J; Chetelat, B; Burton, KW 
2015 
Yes 
Chemical Geology
ISSN: 0009-2541 
409 
54-60 
WOS:000358525500006 
Rainwater plays a major role in determining the transfer of elements and pollutants to soils and hydrological catchments, with compositional variations reflecting the extent of mixing between marine (sea-salt), terrestrial (dust and vegetation) and anthropogenic aerosols. While the radiogenic strontium isotope system (Sr-87/Sr-86) is often used to help constrain the different sources of atmospheric Sr, the degree of variability in the stable strontiumisotope system (delta(88)/Sr-86) remains unresolved. In order to determine how atmospheric Sr affects the delta(88)/Sr-86 composition of water entering the hydrological cycle this study analysed a suite of rainwater samples collected over the course of a year in central Paris. Rainwater delta(88)/Sr-86 compositions were found to range from 0.13 parts per thousand to 0.32 parts per thousand, with Sr-87/Sr-86 ratios varying between 0.70796 and 0.71093. No seasonality was observed in delta(88)/Sr-86, whereas Sr-87/Sr-86 ratios were observed to be generally more radiogenic in the summer and less radiogenic in the winter. Strontium enrichment factors significantly above seawater implied a predominantly terrestrial (non-sea-salt) origin of Sr in rainwater, with the delta(88)/Sr-86 and Sr-87/Sr-86 composition of this terrestrial fraction consistent with a mixture of Sr derived from carbonate dust and agricultural fertiliser. Evidence for a similar to 0.1% decrease in the delta(88)/Sr-86 composition of the River Seine as it passes through Paris suggests that anthropogenic pollutants may contribute to significant regional variations in the composition of Sr in the hydrological cycle. Together these results demonstrate that there is significant potential for both temporal and spatial variations in the delta(88)/Sr-86 and (8)7Sr/Sr-86 composition of rainwater that need to be taken into consideration when studying delta(88)/Sr-86 variations in localised catchments. Crown Copyright (C) 2015 Published by Elsevier B.V. All rights reserved. 
Strontium; Rainwater; Continental dust; Anthropogenic contamination