The correct use of Sr isotopes in river-groundwater mixing models: A Breede River case study
Date
2005
Authors
De Villiers S.
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Abstract
Stable isotopes are used extensively in hydrology as a means of establishing the contribution of different reservoirs and sources to the water budget. If the information contained in stable isotope data is to be used in a quantitative sense, appropriate mass balance equations have to be used. Specifically, differences in the equations used for isotopes such as 87Sr/86Sr associated with minor water constituents, and the isotopes associated with the water molecule itself, i.e. 18O/16O and D/H, has to be recognised. Failure to do so, as illustrated by a re-analysis of a published Breede River study, may lead to significant errors in the inferred magnitude of groundwater contribution to river flow and misleading assertions in regards to the cause of salinisation of river systems.
Description
Keywords
Error analysis, Groundwater, Hydrology, Isotopes, Rivers, Mass balance equations, River flow, River-groundwater mixing, Stable isotope data, Strontium, groundwater-surface water interaction, salinization, strontium isotope, water budget
Citation
Water SA
31
3
31
3