• Title of article

    Fate of nitrogen during composting of chicken litter

  • Author/Authors

    S.M.، Tiquia, نويسنده , , N.F.Y.، Tam, نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2000
  • Pages
    -534
  • From page
    535
  • To page
    0
  • Abstract
    Chicken litter (a mixture of chicken manure, wood shavings, waste feed, and feathers) was composted in forced-aeration piles to understand the changes and losses of nitrogen (N) during composting. During the composting process, the chemical [different N fractions, organic matter (OM), organic carbon (C), and C:N ratio], physical, and microbial properties of the chicken litter were examined. Cumulative losses and mass balances of N and organic matter were also quantified to determine actual losses during composting. The changes in total N concentration of the chicken litter piles were essentially equal to those of the organic N. The inorganic N concentrations were low, and that organic N was the major nitrogenous constituent. The ammonium (NH4+)-N concentration decreased dramatically during first 35 days of composting. However, the Arapid decrease in NH4+-N during composting did not coincide with a rapid increase in (NO3?+NO2?)-N concentration. The concentration of (NO3?+NO2?)-N was very low (<0.5 g kg?1) at day 0, and this level remained unchanged during the first 35 days of composting suggesting that N was lost during composting. Losses of N in this composting process were governed mainly by volatilization of ammonia (NH3) as the pile temperatures were high and the pH values were above 7. The narrow C:N ratio (<20:1) have also contributed to losses of N in the chicken litter. The OM and total organic C mass decreased with composting time. About 42 kg of the organic C was converted to CO2. On the other hand, 18 kg was lost during composting. This loss was more than half (59%) of the initial N mass of the piles. Such a finding demonstrates that composting reduced the value of the chicken litter as N fertilizer. However, the composted chicken contained a more humified (stabilized) OM compared with the uncomposted chicken litter, which would enhance its value as a soil conditioner.
  • Keywords
    Composting , nitrogen , nitrification , denitrification , Organic matter loss
  • Journal title
    ENVIRONMENTAL POLLUTION
  • Serial Year
    2000
  • Journal title
    ENVIRONMENTAL POLLUTION
  • Record number

    38853