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This article in JEQ

  1. Vol. 29 No. 1, p. 324-334
     
    Received: Jan 11, 1999
    Published: Jan, 2000


    * Corresponding author(s): hhilger@uncc.edu
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doi:10.2134/jeq2000.00472425002900010041x

Landfill Methane Oxidation Response to Vegetation, Fertilization, and Liming

  1. Helene A. Hilger *,
  2. Arthur G. Wollum and
  3. Morton A. Barlaz
  1. D ep. of Civil Engineering, Univ. of North Carolina at Charlotte, Charlotte, NC 28223;
    D ep. of Soil Science, North Carolina State Univ., Raleigh, NC 27695,
    D ep. of Civil Engineering, North Carolina State Univ., Raleigh, NC 27695.

Abstract

Abstract

This study was conducted to evaluate the effects of vegetation, N fertilizers, and lime addition on landfill CH4 oxidation. Columns filled with compacted sandy loam and sparged with synthetic landfill gas were used to simulate a landfill cover. Grass-topped and bare-soil columns reduced inlet CH4 by 47 and 37%, respectively, at peak uptake; but the rate for both treatments was about 18% at steady slate. Nitrate and NH4 amendments induced a more rapid onset of CH4 oxidation relative to KCl controls. However, at steady state, NH4 inhibited CH4 oxidation in bare columns but not in grassed columns. Nitrate addition produced no inhibitory effects. Lime addition to the soil consistently enhanced CH4 oxidation. In all treatments, CH4 consumption increased to a peak value, then declined to a lower steady-state value; and all gassed columns developed a pH gradient. Neither nutrient depletion nor protozoan grazing could explain the decline from peak oxidation levels. Ammonium applied to grassed cover soil can cause transient reductions in CH4 uptake, but there is no evidence that the inhibition persists. The ability of vegetation to mitigate NH4 inhibition indicates that results from bare-soil tests may not always generalize to vegetated landfill caps.

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