Effects of carbon/nitrogen ratio and aeration rate on the sheep manure composting process and associated gaseous emissions

There are several issues such as low maturity degree of compost product and severe pollution gas emissions during the composting process. Carbon/Nitrogen (C/N) ratio and aeration rate (AR) are the most important factors affecting the composting performance. According to the results of previous studies, the proper C/N ratio and AR were 20-30:1 and 0.1-0.4 L kg(-1) DM center dot min(-1), respectively. Therefore, a lab-scale experiment was con-ducted to investigate the effects of C/N ratio and AR on sheep manure composting process and associated gaseous emissions. The initial C/N ratio in this experiment were set at 23, 26 and 29 to simulate the C/N ratio at low, medium and high levels. The AR were decided at 0.12, 0.24 and 0.36 L kg(-1) DM center dot min(-1) to simulate the aeration at low, middle and high levels. The results showed that as the C/N ratio or AR increased, the methane (CH4) and hydrogen sulfide (H2S) emissions decreased. The nitrous oxide (N2O) emission peaked at the low C/N ratio or AR treatments. The total greenhouse gas (GHG) emissions decreased with the increase of C/N ratio or AR, and the maximum value occurred in the treatment with C/N ratio 23 and AR 0.24 L kg(-1) DM center dot min(-1). In the treatment with C/N ratio 26 and AR 0.36 L kg(-1) DM center dot min(-1), the GI value of compost product was the highest (about 250%), and the total greenhouse effect was the lowest (2.36 kg CO2-eq center dot t(-1) DM). Therefore, considering reduction of pollution gas emissions and improvement of the quality of compost products comprehensively, the optimum conditions were initial C/N ratio 26 and AR 0.36 L kg(-1) DM center dot min(-1) during the co-composting of sheep manure and cornstalks. In addition, the key physicochemical factors and eight key bacterial communities were deter-mined to regulate compost maturity and pollution gas emissions during the sheep manure composting, which could provide scientific support and theoretical reference for controlling pollution gas emissions and obtaining high quality sheep manure compost products.