| 鸡粪与猪粪所含土霉素在土壤中降解的动态变化及原因分析 |
| 摘要点击 1964 全文点击 1165 修订日期:2011-03-23 |
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| 中文关键词 猪粪 鸡粪 土霉素 土壤 降解 动态变化 原因分析 |
| 英文关键词 pig manure chicken manure oxytetracycline(OTC) soil degradation dynamics mechanism investigation |
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| 中文摘要 |
| 采用室内模拟培养实验,研究不同用量鸡粪与猪粪所含土霉素在土壤中降解的动态变化规律及消解途径.结果表明,畜禽粪便中土霉素在土壤中能迅速进入降解期,含量变化呈"L"型,但不同粪肥种类和用量处理的降解率和变化幅度有显著差异(P<0.05).180 d时,鸡粪处理土壤中OTC的降解率高于猪粪处理,半衰期分别为26.98 d和31.32 d.低用量鸡粪和猪粪处理土壤中OTC降解率最大,对应分别可达84.06%和80.47%.降解率与畜禽粪便用量呈负相关,与时间呈正相关且可用v=A+Blnt回归方程拟合(r>0.96). 土霉素进入土壤50 d时,光降解量占减少总量的20.03%,下降了25.05%; 微生物降解量占3.16%,增加了2.50%.可见,鸡粪所含土霉素在土壤中的降解情况好于猪粪,光照对土壤中土霉素有较好的降解作用,土壤微生物降解作用很小,且随着培养时间的延长,微生物降解增加,光降解减弱. |
| 英文摘要 |
| Simulated indoor incubation experiment was carried out to explore the degradation dynamics of oxytetracycline(OTC) from different manures and the mechanisms were investigated as well. The results suggested that manures accelerated OTC entering soil and degrading period,and resembled the L-type curves.Both degradation rate and degradation percentage were significantly different for different antibiotics with different concentration(P<0.05). At day 180, the OTC degradation percentage of chicken feces was higher than that of pig feces, and the highest degradation percentage reached to 85.4% and 92.3% respectively. The half-lives of chicken and pig manures were 26.98 d, 31.32 d respectively. Degradation percentage was negatively correlated with the amount of manures used and positively correlated with incubation time (v=A+Blnt, r>0.96). At day 50,the photo-degradation and micro-degradation accounted for 20.03% and 3.16% of total reduction. 25.05% decreased in photo degradation and 2.50% increased in microbiological degradation.It is indicated that the degradation effects to OTC from pig manures was superior to chicken manures, photo decomposing played an important role in the process of degradation and indigenous soil microorganisms only had a little effect on it. With the extension of incubation time, microbiological decomposing became better,but photo decomposing became weaker. |
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