Effects of Biochar Addition on Form and Loss of Nitrogen in Composting Pig Manure
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摘要:
目的 探讨生物炭添加下猪粪堆肥过程氮素形态的变化,为堆肥过程中氮素损失控制提供科学依据。 方法 本研究利用强制反应箱研究在猪粪堆肥中添加0%、3%、6%和9%的生物炭(重量比,干基计)对氮素形态变化以及氮素损失的影响。 结果 各处理在堆肥过程中全氮和硝态氮含量呈上升趋势,至堆肥结束全氮含量增加了3.68%~5.43%;可溶性总氮和铵态氮呈先上升后下降的趋势,随着生物炭添加量的提高堆料中铵态氮降幅减小。不同堆肥处理氮素损失率介于20.69%~28.18%,3%和6%生物炭添加处理的氨挥发量分别比未添加生物炭处理的高8.98%和46.30%,而9%生物炭添加处理的氮素损失率和氨挥发量最低。 结论 猪粪堆肥过程中添加生物炭可使堆体快速升温,并延长高温期,堆料中铵态氮向硝态氮转化。硝态氮含量随生物炭添加量呈增加的趋势,氮素损失率随着发酵时间延长呈增加的趋势。 Abstract:Objective Changes on the form and loss of nitrogen (N) in pig manure due to the addition of biochar during composting were investigated. Method In a forced ventilation reaction box, effects of 0%, 3%, 6%, and 9% addition of biochar (on a dry weight basis) on N in composting pig manure were determined. Result With the biochar addition, the total N and nitrate in the compost increased with time. The total N increased 3.68% to 5.43% by the end of the fermentation process, whereas, the total soluble and ammonium N increased initially and then declined afterward. Increasing biochar mitigated the decline on ammonium N. The rates of N loss by the treatments ranged from 20.69% to 28.18%. At 3% and 6% biochar addition, the ammonia volatilization on the compost were 8.98% and 46.30%, respectively, which were higher than without the addition. On the other hand, 9% of biochar produced the lowest N loss and ammonia volatilization. Conclusion In the pig manure composting, the addition of biochar rapidly heated up the heap and maintained a high temperature for an extended period facilitating the fermentation and conversion of ammonia into nitrate. Increased biochar addition also promoted the nitrate formation. However, the presence of biochar in compost caused greater loss on N as the fermentation progressed. -
Key words:
- biochar /
- pig manure compost /
- nitrogen loss /
- ammonia volatilization
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图 1 不同处理温度的动态变化
注:CK代表堆肥期间的空气温度。
Figure 1. Changes on temperature under various composting treatments
Note:CK denotes the environmental temperature during the composting.
图 3 不同堆肥处理可溶性总氮的变化
Figure 3. Changes on dissolved N under various composting treatments
图 5 不同堆肥处理铵态氮含量的变化
Figure 5. Changes on ammonium N under various composting treatments
图 6 不同堆肥处理干物质失重率的变化
Figure 6. Changes on dry weight loss ratio under various composting treatments
图 7 不同堆肥处理氮损失率的变化
Figure 7. Changes on nitrogen loss rate under various composting treatments
图 8 不同处理氨气排放量的变化
Figure 8. Changes on ammonia emission under various composting treatments
表 1 供试材料的基本性质
Table 1. Basic properties of test materials
原料 Materials 有机碳 Organic carbon/(g·kg−1) 全氮 Total nitrogen/(g·kg−1) C/N 全磷 Total phosphorus/(g·kg−1) pH 猪粪 Pig manure 289.2 17.1 16.91 19.5 7.23 菌渣 Mushroom residues 320.1 14.1 22.70 11.9 7.73 生物炭 Biochar 566.1 10.2 55.50 2.5 9.31 
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表 2 各处理混合物料的基本性质
Table 2. Properties of composting materials in mixture
处理 Treatments 有机碳 Organic carbon /(g·kg−1) 全氮 Total nitrogen/(g·kg−1) C/N 全磷 Total phosphorus/(g·kg−1) pH T1 266.8 13.4 19.87 13.2 7.57 T2 293.6 13 22.56 12.5 7.75 T3 297.8 12.8 23.21 12.4 7.77 T4 322.1 12.8 25.25 11.8 7.85
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