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鸡粪好氧堆肥过程氨气与温室气体排放特征及协同减排机制
引用本文:湛卓越,贺德春,姜珊,李想,胡嘉梧,毛小云,柳王荣,吴根义. 鸡粪好氧堆肥过程氨气与温室气体排放特征及协同减排机制[J]. 农业环境科学学报, 2023, 42(11): 2582-2594
作者姓名:湛卓越  贺德春  姜珊  李想  胡嘉梧  毛小云  柳王荣  吴根义
作者单位:湖南农业大学资源环境学院, 长沙 410128;生态环境部华南环境科学研究所广东省畜禽养殖污染系统控制工程技术研究中心, 广州 510655;华南农业大学资源环境学院, 广州 510642;广东省农业农村污染治理与环境安全重点实验室, 广州 510642
基金项目:中央级公益性科研院所基本科研业务费专项资金项目(PM-zx097-202104-121);广州市科技计划项目(202206010163)
摘    要:为研究畜禽粪便好氧堆肥过程氨气(NH3)与温室气体的排放特征及协同减排机制,以鸡粪与蘑菇渣为原料,设置9组不同条件的好氧堆肥正交实验,并进行为期45 d的跟踪监测,了解好氧堆肥过程基本理化参数变化,分析NH3和温室气体的排放规律及最佳减排条件,探究微生物群落与环境因子、气体排放通量之间的相关性。结果表明:含水率与碳氮比(C/N)变化影响整个堆肥进程,经45 d堆肥后,大多数处理组的堆肥均已经完全腐熟,且添加一定比例的椰壳生物炭与钙镁磷肥可以提高堆肥腐熟度。NH3和4种温室气体(CH4、N2O、CO、CO2)在堆肥前期(1~22 d)排放通量较高,人工翻堆会增加气体排放通量。NH3和温室气体排放的影响因子和最佳减排条件各不相同,存在“此消彼长”的关系。对NH3、CH4、N2O排放影响较大的因子是椰壳生物炭占比、钙镁磷肥占比和通风速率,有利于这3种气体协同减排的条件为含水率...

关 键 词:好氧堆肥  NH3  温室气体  协同减排  微生物群落
收稿时间:2022-12-23

Emission characteristics and the mechanism of synergistic emission reduction for NH3 and greenhouse gases during the aerobic composting of chicken manure
ZHAN Zhuoyue,HE Dechun,JIANG Shan,LI Xiang,HU Jiawu,MAO Xiaoyun,LIU Wangrong,WU Genyi. Emission characteristics and the mechanism of synergistic emission reduction for NH3 and greenhouse gases during the aerobic composting of chicken manure[J]. Journal of Agro-Environment Science( J. Agro-Environ. Sci.), 2023, 42(11): 2582-2594
Authors:ZHAN Zhuoyue  HE Dechun  JIANG Shan  LI Xiang  HU Jiawu  MAO Xiaoyun  LIU Wangrong  WU Genyi
Affiliation:College of Resources and Environment, Hunan Agricultural University, Changsha 410128, China;Guangdong Engineering & Technology Research Center for System Control of Livestock and Poultry Breeding Pollution, South China Institute of Environmental Sciences, Ministry of Ecology and Environment, Guangzhou 510655, China;College of Natural Resources and Environment, South China Agricultural University, Guangzhou 510642, China;Guangdong Provincial Key Laboratory of Agricultural & Rural Pollution Abatement and Environmental Safety, Guangzhou 510642, China
Abstract:To study the emission characteristics of NH3 and greenhouse gases and the mechanism of synergistic emission reduction during the aerobic composting of livestock and poultry manure, nine groups of orthogonal experiments for aerobic composting were performed with a mixed feedstock of chicken manure and mushroom residue under different conditions, and 45 d of tracking and monitoring were performed to understand the changes in the basic physicochemical parameters, analyze the emission rules and optimal emission reduction conditions of NH3 and greenhouse gases during the process of composting, and explore the correlation between the microbial community and environmental factors, the gas emission flux. The results showed that the changes in the moisture content and C/N affected the whole composting process. The composts of most treatment groups were completely decomposed after 45 d, and the addition of coconut shell biochar and calcium magnesium phosphate fertilizer (suitable proportion) improved the maturity of the composts. NH3 and four greenhouse gases (CH4, N2O, CO, and CO2) both had high emission fluxes during the early stage of composting(1-22 d), and manual heap turning increased their emission fluxes. NH3 and greenhouse gas emissions had different impact factors and optimal emission reduction conditions, and different gases showed no evident consistency with one another. The major factors affecting the NH3, CH4, and N2O emissions were the proportions of coconut shell biochar and calcium magnesium phosphate fertilizer, and the aeration rate. The synergistic conditions that were beneficial for reducing the emissions of three gases were a water content of 60%, coconut shell biochar addition at 0 or 5%, calcium magnesium phosphate fertilizer addition at 0, 5%, or 10%, and an aeration rate of 0.12 L·min-1·kg-1; among them, a water content of 60%, coconut shell biochar addition of 5%, and aeration rate of 0.12 L·min-1·kg-1 were the best conditions for the synergistic reduction in the NH3 and CH4 emissions. Throughout the composting process, the relative abundance of the microbial community at the phylum and genus levels changed obviously, and the C/N and temperature were the main driving factors of the changes in the microbial community. During the early stage of composting (22 d before), the dominant bacteria at the phylum level were Firmicutes, Actinobacteria, Bacteroidetes, and Proteobacteria, among which Firmicutes had a significant effect on the emissions of NH3 and greenhouse gases. Many factors could affect NH3 and greenhouse gas emissions during the aerobic composting of chicken manure, and the optimal selection of conditioner types and ratios under aeration conditions is expected to achieve synergistic emissions reduction of NH3, CH4, and N2O.
Keywords:aerobic composting  NH3  greenhouse gas  synergistic emission reduction  microflora
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