Controls on leaching of N species in upland moorland catchments |
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Authors: | Malcolm S Cresser Richard P Smart Matthew Clark Andrew Crowe Danielle Holden Pippa J Chapman Anthony C Edwards |
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Institution: | 1. Environment Department, University of York, Heslington, York, YO10 5DD, U.K. 2. Geography Department, University of Leeds, Leeds, U.K. 3. Macaulay Institute, Aberdeen, U.K.
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Abstract: | Spatial and temporal changes in mobility of N species have been studied for three UK upland river networks, the Etherow in the South Pennines, the Nether Beck in the Lake District and the Dee in NE Scotland. The catchments are subject to N deposition at 35.1, 22.0 and 10.8–15.6 kg N ha?1 yr?1, respectively. The NH+ 4 leaching appears to be predominantly regulated by flow path in more polluted upland catchments. It is greatest where water draining acidified peaty soils contributes more to total discharge. Soluble organic matter may provide the dominant counter anion. In the Etherow and Dee catchments, which are dominated by acid mineral and organic soils, at high discharge NO? 3 also appears to be associated with greater input of water from acidified soils. In contrast, for the Nether Beck, higher NO? 3 concentrations are associated with tributaries draining soils contributing water with higher alkalinity, suggesting nitrification is important. For the Etherow and Dee, dissolved organic N (DON) appears to originate predominantly from acidified, peaty soils. Spiking experiments with peat soil from the Etherow catchment confirmed the limited capacity of these soils to utilize inorganic N inputs, favouring equilibration with NH+ 4 inputs and leaching losses of inorganic N throughout the year. |
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