Ammonia volatilization from composting with oxidized biochar

生物炭 堆肥 挥发 肥料 尿素氨挥发 肥料 环境化学 稻草 木炭 鸡粪 化学 农学 热解 有机化学 无机化学 生物
作者
Rachel Hestrin,Akio Enders,Johannes Lehmann
出处
期刊:Journal of Environmental Quality [Wiley]
卷期号:49 (6): 1690-1702 被引量:22
标识
DOI:10.1002/jeq2.20154
摘要

Abstract Animal manure, agricultural residues, and other sources of biomass can be diverted from the waste stream and composted into valuable fertilizer. However, composting often results in substantial N loss through NH 3 gas volatilization. We investigated biochar's capacity to improve NH 3 –N retention during composting of poultry manure and straw. After 7 wk, total N loss from composting with unoxidized biochar was twofold and sixfold higher than N loss from composting with oxidized biochar and without biochar (307, 142, and 51 mg N g −1 N in the initial compost feedstocks, respectively). When cumulative NH 3 –N loss was calculated relative to CO 2 –C loss to account for differences in microbial activity, NH 3 –N/CO 2 –C loss from compost with oxidized biochar was 55% lower than from compost with unoxidized biochar (82% lower based on mass balance). Oxidized biochar particles removed from compost after 7 wk retained 16.0 mg N g −1 biochar, compared with only 6.1 mg N g −1 retained by unoxidized biochar, suggesting that N retention by biochar particles provides a mechanism for reduced NH 3 –N loss. These data show that oxidized biochar enhanced microbial activity, doubled composting rate, and reduced NH 3 –N loss compared with unoxidized biochar and that biochar's physiochemical characteristics modulate its performance in compost. In particular, the presence of oxidized surface functional groups, which can be increased artificially or through environmental weathering, appear to play an important role in key compost processes. This has implications for other natural and managed systems where pyrogenic organic matter may mediate biological activity and nutrient cycles.
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