• Title of article

    C and N transformations in 15N cross-labelled solid ruminant manure during anaerobic and aerobic storage

  • Author/Authors

    Ingrid K. Thomsen، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2000
  • Pages
    8
  • From page
    267
  • To page
    274
  • Abstract
    Three manures cross-labelled with 15N in the faeces, urine and straw fractions were prepared after feeding a sheep first with unlabelled hay and then with 15N-labelled hay. Half of each manure portion was stored aerobically (composted) with heat evolution and the other half anaerobically by preventing oxygen supply. The ratio between faeces-N:urine-N:straw-N was 1.0:1.5:0.2 immediately after mixing. All manures were stored for 86 days. The composted manure lost 46% and 53% of its initial N and C content, respectively. Losses from the anaerobically stored manure were not totally prevented but were significantly less at 18% (N) and 24% (C). Urine-N accounted for the highest proportion of total N losses from both the aerobically and anaerobically stored manures. However, contributions of N to gaseous losses from the faeces and straw fractions became more important as the storage progressed. Thus urine-N accounted for 79% of the total losses after the first seven days of composting but only for 64% at the end of the storage period. In the anaerobically stored manure, urine-N accounted for 94% of the total N losses after 28 days and for 68% at day 86. Because of the high urine-N loss in the composted manure, the proportion of faeces-N in total N was similar to that of urine-N after storage. The anaerobically stored manure still contained more urine-N than faeces-N. It was estimated that 46% of faeces-N was mineralised during the composting of the manure but a great proportion of the mineralised N was lost. Less faeces-N (33%) was mineralised during the anaerobic storage and the relative losses of the mineralised N were lower. The differently stored manures ended up having the same C:N ratio and total N concentrations but the anaerobically stored manure had a significantly greater proportion of inorganic N compared with the composted manure. Differences in the forms of N may influence the fertiliser value of the manures after field application.
  • Keywords
    Carbon mineralisation , composting , nitrogen loss , animal manure , Anaerobic decomposition , 15N
  • Journal title
    Bioresource Technology
  • Serial Year
    2000
  • Journal title
    Bioresource Technology
  • Record number

    410752