Riverine inputs of major ions and trace elements to the tidal reaches of the River Tweed, UK

This paper examines spatial and temporal variability in freshwater inputs of trace elements and major ions to the tidal reaches of the River Tweed. The relationships between concentrations of major ions and trace elements (in dissolved and acid-available particulate forms) and flow are examined, and...

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Published inThe Science of the total environment Vol. 251; no. 1-3; pp. 55 - 81
Main Authors Jarvie, Helen P., Neal, Colin, Tappin, Alan D., Burton, J.D., Hill, Linda, Neal, Margaret, Harrow, Martin, Hopkins, Rebecca, Watts, Carol, Wickham, Heather
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 05.05.2000
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Summary:This paper examines spatial and temporal variability in freshwater inputs of trace elements and major ions to the tidal reaches of the River Tweed. The relationships between concentrations of major ions and trace elements (in dissolved and acid-available particulate forms) and flow are examined, and a simple two-component endmember mixing analysis performed to link river water chemistry to catchment sources, and to identify whether within-river processes modify concentrations to produce non-conservative behaviour. The results indicate that most dissolved major ions and trace elements behave conservatively in the lower reaches of the River Tweed, the variability in concentrations being dominated by hydrology and the existence of different high-flow and low-flow endmember runoff chemistries. This suggests that the variability in concentration of most dissolved trace elements and major ions in the lower Tweed can be modelled using simple mixing relationships. However, the relationships between pH, Ca, Mg and Gran alkalinity show pronounced non-conservative behaviour, indicating the importance of understanding within-river process for modelling these determinands. The non-conservative behaviour identified is related to biological controls and the resultant diurnal variations in pH which promote daytime removal of Ca from solution by precipitation of calcium carbonate (and corresponding removal of Mg by co-precipitation) during extreme low-flow conditions and algal blooms during the summer.
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ISSN:0048-9697
1879-1026
DOI:10.1016/S0048-9697(00)00414-9