• Title of article

    Diurnal and longer term patterns in carbon dioxide and calcite saturation for the River Kennet, south-eastern England

  • Author/Authors

    Colin Neal، نويسنده , , Carol Watts، نويسنده , , Richard J. Williams، نويسنده , , Margaret Neal، نويسنده , , L. Hill، نويسنده , , H. Wickham، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2002
  • Pages
    27
  • From page
    205
  • To page
    231
  • Abstract
    Continuous pH, dissolved oxygen and temperature information for three sites on the upper portion of the River Kennet, a tributary of the Thames in southern England is presented. A thermodynamic model is developed which links this information to weekly water quality data allowing the estimation of dissolved carbon dioxide and calcite saturation levels within the river on a continuous basis. The results show a dynamic and variable system along the length of the river. Marked diurnal patterns are observed for pH, dissolved oxygen, dissolved carbon dioxide and calcite saturation and the highest fluctuations occur during the summer months. There is also a marked gradient downstream in average pH Ž7.5 8.0. and dissolved carbon dioxide Ž30 10 times atmospheric pressure.. Dissolved oxygen levels average approximately 100% saturation across all sites, and the diurnal pattern occurring during the summer months declines downstream. The waters are permanently oversaturated with respect to calcite and the diurnal patterns of change are maximal during the summer months. The results are discussed in relation to: Ža. the balance between photosynthesis and respiratory processes; Žb. the relative interchanges between the sediment plant interface with the water column; and Žc. the rates of degassing of carbon dioxide and oxygen between the river surface and the atmosphere.
  • Keywords
    Kennet , Thames , Dissolved carbon dioxide , dissolved oxygen , pH , calcite , Calcium , Calcitesaturation , Electrical conductivity , temperature , River , Alkalinity
  • Journal title
    Science of the Total Environment
  • Serial Year
    2002
  • Journal title
    Science of the Total Environment
  • Record number

    982807