• Title of article

    Physico-chemical controls on phosphorus cycling in two lowland streams. Part 1 – the water column

  • Author/Authors

    D. J. Evans، نويسنده , , P. J. Johnes & R. A. Hodgkinson، نويسنده ,

  • Issue Information
    هفته نامه با شماره پیاپی سال 2004
  • Pages
    19
  • From page
    145
  • To page
    163
  • Abstract
    This paper investigates phosphorus (P) transport and transformation dynamics in two contrasting sub-catchments of the River Kennet, England. Samples were collected daily under baseflow and hourly under stormflow conditions using autosamplers for 2 years and analysed for a range of determinands (full P fractionation, suspended sediment (SS), cations, pH, alkalinity, temperature and oxygen). Concentrations of SRP, SUP, PP and SS were higher in the flashy River Enborne (means of 0.186, 0.071, 0.101 and 34 mg l−1, respectively) than the groundwater-fed River Lambourn (0.079, 0.057, 0.028 and 9 mg l−1, respectively). A seasonal trend in the daily P dataset was evident, with lower concentrations during intermediate flows and the spring (caused by a dilution effect and macrophyte uptake) than during baseflow conditions. However, in the hourly P dataset, highest concentrations were observed during storm events in the autumn and winter (reflecting higher scour with increased capacity to entrain particles). Storm events were more significant in contributing to the total P load in the River Enborne than the River Lambourn, especially during August to October, when dry antecedent conditions were observed in the catchment. Re-suspension of P-rich sediment that accumulated within the channel during summer low flows might account for these observations. It is suggested that a P–calcite co-precipitation mechanism was operating during summer in the River Lambourn, while adsorption by metal oxyhydroxide groups was an important mechanism controlling P fractionation in the River Enborne. The influence of flow conditions and channel storage/release mechanisms on P dynamics in these two lowland rivers is assessed.
  • Keywords
    Metal oxyhydroxide adsorption , Phosphorus , River Kennet , River Lambourn , River Enborne , storm events , sediment transport , suspended sediment , Calcite–phosphorus co-precipitation
  • Journal title
    Science of the Total Environment
  • Serial Year
    2004
  • Journal title
    Science of the Total Environment
  • Record number

    983838