• Title of article

    Evaluating the sources and fate of anthropogenic dissolved inorganic nitrogen (DIN) in two contrasting North Sea estuaries

  • Author/Authors

    Jason M.E. Ahad، نويسنده , , ?، نويسنده , , Raja S. Ganeshram، نويسنده , , Robert G.M. Spencer، نويسنده , , 1، نويسنده , , Günther Uher، نويسنده , , Robert C. Upstill-Goddard، نويسنده , , Greg L. Cowie a، نويسنده ,

  • Issue Information
    هفته نامه با شماره پیاپی سال 2006
  • Pages
    17
  • From page
    317
  • To page
    333
  • Abstract
    Nitrogen isotope ratios (δ15N) were used to help elucidate the sources and fate of ammonium (NH4 +) and nitrate (NO3 −) in two northeastern English estuaries. The dominant feature of NH4 + in the heavily urbanised Tyne estuary was a plume arising from a single point source; a large sewage works. Although NH4 + concentrations (ranging from 30–150 μM) near the sewage outfall varied considerably between surveys, the sewage-derived δ15N-NH4 + signature was remarkably constant (+10.6±0.5‰) and could be tracked across the estuary. As indirectly supported by 15N-depleted δ15N-NO3 − values observed close to the mouth of the Tyne, this sewage-derived NH4 + was thought to initiate lower estuarine and coastal zone nitrification. In the more rural Tweed, NH4 + concentrations were low (b7 μM) compared to those in the Tyne and δ15N-NH4 + values were consistent with mixing between riverine and marine sources. The dominant form of dissolved inorganic nitrogen (DIN) in the Tweed was agricultural soil-derived NO3 −. A decrease in riverine NO3 − flux during the summer coinciding with an increase in δ15N-NO3 − values was mainly attributed to enhanced watershed nutrient processing. In the Tyne, where agricultural inputs are less important compared to the Tweed, light δ15N-NO3 − (ca. 0‰) detected in the estuary during one winter survey pointed to a larger contribution from precipitation-derived NO3 − during high river discharge. Regardless of the dominant sources, in both estuaries most of the variability in DIN concentrations and δ15N values was explained by simple end-member mixing models, implying very little estuarine processing.
  • Keywords
    Coastal zone , river , Nitrogen isotopes , nitrate , estuarine mixing , ammonium
  • Journal title
    Science of the Total Environment
  • Serial Year
    2006
  • Journal title
    Science of the Total Environment
  • Record number

    985731