Predicting ammonia and carbon dioxide emissions from carbon and nitrogen biodegradability during animal waste composting

During composting of livestock manure, transformations of organic matter result in gaseous emissions, which can harm the environment. Two experiments were done in enclosures to measure the fluxes of NH3, N2O, CO2, CH4 and H2O emitted by 8 heaps of compost representing the range of biodegradability of nitrogen and carbon in the livestock manure. The heaps were monitored for the first 2 months, corresponding to the thermophilic phase during which nearly all-mass losses occur. Four parameters describe the NH3 emission kinetics and the main influential factors were noted: (1) the response time to reach maximum intensity is affected mainly by the initial micro-flora; (2) the amplitude depends mainly on C biodegradability and also on micro-flora; (3) the emission duration depends mainly on N biodegradability; and (4) the cumulative emission, which varied from 16.5 to 48.9% of the nitrogen initially present in the heap, depends both on C and N biodegradability. A predictive model for NH3 and CO2 emissions for the thermophilic phase of the composting of livestock manure is proposed. The variability in cumulative emissions of CO2 and of NH3 is well explained by the contents of soluble elements and hemicellulose in the dry matter (Van Soest fractioning), and soluble nitrogen (12 h extraction at 4 °C in water). In our conditions of favourable aeration and humidity, N2O and CH4 emissions were low. The role of the biodegradable carbon in reducing NH3 emission is highlighted.

[1]  H. ApSimon,et al.  Ammonia emissions and their role in acid deposition , 1987 .

[2]  Van Soest,et al.  Use of detergents in the analysis of fibrous feeds. 2. A rapid method for the determination of fiber and lignin. , 1963 .

[3]  M. Mizuochi,et al.  Measurements of N2O and CH4 from the aerated composting of food waste. , 2000, The Science of the total environment.

[4]  H. Kirchmann,et al.  Losses, plant uptake and utilisation of manure nitrogen during a production cycle [cattle manure, poultry manure, NH3 volatilisation, denitrification, nonsymbiotic N2 fixation] , 1985 .

[5]  E. K.,et al.  Composting Short Paper Fiber with Broiler Litter and Additives: Part I: Effects of Initial pH and Carbon/Nitrogen Ratio On Ammonia Emission , 2000 .

[6]  E. Witter,et al.  Ammonia volatilization during aerobic and anaerobic manure decomposition , 1989, Plant and Soil.

[7]  S. Sommer Effect of composting on nutrient loss and nitrogen availability of cattle deep litter , 2001 .

[8]  David Chadwick,et al.  Emissions of ammonia, nitrous oxide and methane from cattle manure heaps: effect of compaction and covering , 2005 .

[9]  O. Martins,et al.  Loss of nitrogenous compounds during composting of animal wastes , 1992 .

[10]  Udo Jäckel,et al.  Thermophilic methane production and oxidation in compost. , 2005, FEMS microbiology ecology.

[11]  Philippe Girardin,et al.  Environmental Impacts of Farm-Scale Composting Practices , 2004 .

[12]  R. Oldenhuis,et al.  Stable-Isotope Analysis of a Combined Nitrification-Denitrification Sustained by Thermophilic Methanotrophs under Low-Oxygen Conditions , 1997, Applied and environmental microbiology.

[13]  M. Andersson Performance of Bedding Materials in Affecting Ammonia Emissions from Pig Manure , 1996 .

[14]  Takashi Osada,et al.  Patterns and quantities of NH(3), N(2)O and CH(4) emissions during swine manure composting without forced aeration--effect of compost pile scale. , 2003, Bioresource technology.

[15]  Frederick C. Michel,et al.  EFFECTS OF AERATION STRATEGIES ON THE COMPOSTING PROCESS: PART I. EXPERIMENTAL STUDIES , 2004 .

[16]  H. Kirchmann,et al.  Composting and storage of organic household waste with different litter amendments. I: carbon turnover , 2000 .

[17]  A. De Visscher,et al.  Methane oxidation and formation of EPS in compost: effect of oxygen concentration. , 2004, Environmental pollution.

[18]  Sven G. Sommer,et al.  Emission of greenhouse gases during composting of deep litter from pig production – effect of straw content , 2000, The Journal of Agricultural Science.

[19]  B. E. Miller,et al.  Effects of aeration and moisture during windrow composting on the nitrogen fertilizer values of dairy waste composts , 1999 .

[20]  L. J. van der Eerden,et al.  Effects of atmospheric ammonia on vegetation--a review. , 1994, Environmental pollution.

[21]  Håkan Jönsson,et al.  SE—Structures and Environment , 2001 .

[22]  C. Kroeze Nitrous oxide and global warming , 1994 .

[23]  D. Robin,et al.  Intérêt de la caractérisation biochimique pour l'évaluation de la proportion de matière organique stable après décomposition dans le sol et la classification des produits organominéraux , 1997 .

[24]  L. Zelles,et al.  Emission of Climate-Relevant Trace Gases and Succession of Microbial Communities during Open-Windrow Composting , 1997, Applied and environmental microbiology.

[25]  J. Feddes,et al.  A SIMULATION MODEL OF AMMONIA VOLATILIZATION IN COMPOSTING , 2004 .

[26]  S. Dumontet,et al.  Transformations of carbon and nitrogen during composting of animal manure and shredded paper , 1998, Biology and Fertility of Soils.