TY - JOUR
T1 - Covering reduces emissions of ammonia, methane, and nitrous oxide from stockpiled broiler litter
AU - Kamp, Jesper Nørlem
AU - Feilberg, Anders
PY - 2024/12
Y1 - 2024/12
N2 - Poultry litter, a mix of excreta, bedding material, and discarded feed, is extracted from poultry houses, and used as fertiliser. The litter is often stored in stockpiles outside before field application thereby posing a risk for negative environmental and climatic impact from emissions of ammonia (NH3) and greenhouse gases (GHG). This study investigated the emissions of methane (CH4), NH3, and nitrous oxide (N2O) from a 22 tonnes broiler litter stockpile over 44 days. The emissions were measured on a farm-scale stockpile with and without coverage using the backward Lagrangian Stochastic method. The results showed distinct emission patterns for each gas during the measurement periods. For all compounds, the emissions during the covered period were significantly lower than during the two uncovered periods. The reduction due to coverage was 92–95% for NH3, 25–40% for CH4, and 82–89% for N2O. NH3 emissions were highest immediately after coverage removal and during stockpile removal. CH4 emissions were highest during stockpile removal and lowest during coverage. N2O emissions were lowest during coverage but a notable increase after coverage removal was observed. The temperature within the stockpile showed variations at different heights, with the highest temperatures recorded in the middle of the stockpile. GHG emissions, based on global warming potential, indicate substantial contributions from N2O, accounting for 55–72% of emissions in CO2-equivalents during uncovered periods and 27% during coverage. Furthermore, GHG emissions were reduced 63–72% during coverage compared to the uncovered periods highlighting the importance for immediate coverage of stockpiles to minimise NH3 and GHG emissions.
AB - Poultry litter, a mix of excreta, bedding material, and discarded feed, is extracted from poultry houses, and used as fertiliser. The litter is often stored in stockpiles outside before field application thereby posing a risk for negative environmental and climatic impact from emissions of ammonia (NH3) and greenhouse gases (GHG). This study investigated the emissions of methane (CH4), NH3, and nitrous oxide (N2O) from a 22 tonnes broiler litter stockpile over 44 days. The emissions were measured on a farm-scale stockpile with and without coverage using the backward Lagrangian Stochastic method. The results showed distinct emission patterns for each gas during the measurement periods. For all compounds, the emissions during the covered period were significantly lower than during the two uncovered periods. The reduction due to coverage was 92–95% for NH3, 25–40% for CH4, and 82–89% for N2O. NH3 emissions were highest immediately after coverage removal and during stockpile removal. CH4 emissions were highest during stockpile removal and lowest during coverage. N2O emissions were lowest during coverage but a notable increase after coverage removal was observed. The temperature within the stockpile showed variations at different heights, with the highest temperatures recorded in the middle of the stockpile. GHG emissions, based on global warming potential, indicate substantial contributions from N2O, accounting for 55–72% of emissions in CO2-equivalents during uncovered periods and 27% during coverage. Furthermore, GHG emissions were reduced 63–72% during coverage compared to the uncovered periods highlighting the importance for immediate coverage of stockpiles to minimise NH3 and GHG emissions.
KW - Agriculture
KW - Deep litter
KW - Emission mitigation
KW - Greenhouse gas emissions
KW - Poultry litter
UR - http://www.scopus.com/inward/record.url?scp=85205772161&partnerID=8YFLogxK
U2 - 10.1016/j.biosystemseng.2024.10.002
DO - 10.1016/j.biosystemseng.2024.10.002
M3 - Journal article
SN - 1537-5110
VL - 248
SP - 73
EP - 81
JO - Biosystems Engineering
JF - Biosystems Engineering
ER -