The co-addition of biochar and manganese ore promotes nitrous oxide reduction but favors methane emission in sewage sludge composting
2022
Zhou, Shunxi | Li, Yue | Jia, Peiyin | Wang, Xin | Kong, Fanlong | Jiang, Zhixiang
In the present study, the effects of biochar and manganese ore (MO) on N₂O and CH₄ emissions during sewage sludge composting were investigated. The results demonstrated that the additive additions could effectively reduce total nitrogen loss and improve the agronomic value of compost. Furthermore, all the additive treatments could mitigate N₂O (6.60–45.9%) and CH₄ (33.6–71.3%) emissions. Compared to the single corn straw biochar (CSB) or MO addition, the co-addition of CSB and MO can further promote N₂O reduction by 14.6–22.4% but increase CH₄ emission by 22.9–33.7%. Overall, the co-addition of CSB and MO showed the lowest global warming potential, which was 42.1% lower than the control, among all the additive treatments. Integrating the analyzed results of Spearman rank correlation coefficients and functional genes, the inhibition of N₂O generation during nitrification and denitrification processes was identified as the main mechanism for the reduced N₂O emissions. For CH₄, the reduced CH₄ emissions were contributed by simultaneously inhibiting CH₄ generation and promoting CH₄ consumption, especially for the single CSB or MO treatments. Additionally, based on the analyzed results of the structural equation model, amoA and nirS were found to be the key functional genes affecting N₂O emissions directly, and temperature and pH were identified as the root factors affecting N₂O emissions through varied biological or chemical pathways. These findings could provide a new alternative to produce high-quality sewage sludge compost with lower environmental impact in an economical way.
Показать больше [+] Меньше [-]Ключевые слова АГРОВОК
Библиографическая информация
Эту запись предоставил National Agricultural Library