Role of riverine colloids in macronutrient and metal partitioning and transport, along an upland-lowland land-use continuum, under low-flow conditions.
2012
An assessment is made of the role of riverine colloids in macronutrient (nitrogen, phosphorus and carbon),
metal and trace element partitioning and transport, for five rivers in the Ribble and Wyre catchments in
north-western England, under baseflow/near-baseflow conditions. Cross-flow ultrafiltration was used to separate
colloidal (b0.45 μm >1 kDa) and truly dissolved (b1 kDa) fractions from river water. Clear patterns
were observed, along the upland–lowland land use continuum, in the partitioning and transport of macronutrients
and metals between the colloidal, truly dissolved and acid-available particulate (>0.45 μm, suspended)
fractions. Of these operationally-defined fractions measured, colloids were generally more
important for both macronutrient and metal transport in the upland than in the lowland rivers. The results
suggest that organic moieties in truly dissolved form from sewage effluent may have a greater capacity to
chelate metals. Organic-rich colloids in the upland moorlands and metal oxide colloidal precipitates in the industrial
rivers had a higher capacity for binding metals than the colloidal fractions in the urban and agricultural
lowland rivers. Aggregation of these colloids may provide an important mechanism for formation of
larger suspended particulates, accounting for a higher degree of metal enrichment in the acid-available particulate
fractions of the upland moorland and lowland industrial rivers, than in the lowland agricultural and
urban rivers. This mechanism of transfer of contaminants to larger aggregates via colloidal intermediates,
known as ‘colloidal pumping’ may also provide a mechanism for particulate P formation and the high proportion
of P being transported in the particulate fraction in the uplands. The cross-flow ultrafiltration data also
allowed refinement of partition coefficients, by accounting for colloids within the solids phase and replacing
the filtered (b0.45 μm) fraction with the truly dissolved (b1 kDa) concentrations. These provided a clearer
description of the controls on metal and P partitioning along the upland-lowland continuum.
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