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鸡粪与中药渣共堆肥对抗生素抗性基因的影响

本站小编 Free考研考试/2021-12-31

中文关键词抗生素抗性基因(ARGs)共堆肥中药渣鸡粪实时定量PCR 英文关键词antibiotic resistance genes (ARGs)co-compostingChinese medicinal herbal residueschicken manurereal-time quantitative PCR
作者单位E-mail
武晋萍山西大学黄土高原研究所, 太原 030006pingziking@163.com
陈建文山西大学黄土高原研究所, 太原 030006
刘勇山西大学黄土高原研究所, 太原 030006
张红山西大学黄土高原研究所, 太原 030006
李君剑山西大学黄土高原研究所, 太原 030006lijunjian@sxu.edu.cn
中文摘要 畜禽粪便是抗生素抗性基因(antibiotic resistant genes,ARGs)进入环境的重要途径,为了削减畜禽粪便中的ARGs,在为期46 d的鸡粪与中药渣共堆肥后,对不同阶段ARGs和可移动基因元件(mobile gene elements,MGEs)的丰度通过实时定量PCR进行检测.100种ARGs中检测到21种,以及2种整合酶基因(intI1intI2)和3种转座酶基因(tnpA-01tnpA-02tnpA-03).结果表明,在堆肥过程中5种MGEs均显著降低,其中tnpA-01tnpA-02去除效果最好,减少了两个数量级;氨基糖苷类抗性基因aacA/aphDaadE显著性降低(P<0.05);β-内酰胺类抗性基因blaOXA1与堆肥天数显著相关(P=0.016),其去除率为78.63%;林可酰胺类抗性基因均随堆肥时间显著降低,平均去除率为90.39%;四环素类抗性基因的去除效果相差较大,tetG降低了99.77%,tetR仅降低了31.72%;喹诺酮类抗性基因qnrD去除率最高为99.89%;磺胺类中sulⅢ的去除率高达99.88%,而sulⅠ呈增长趋势.ARGs与MGEs相关性表明tnpA-01与ARGs之间具有显著相关性(P<0.05).ARGs随堆肥时间的变化趋势表明,中药渣与鸡粪共堆肥可显著降低ARGs丰度,从而降低畜禽粪便在农田施用中ARGs扩散的风险. 英文摘要 Livestock manure is an important pathway by which antibiotic resistance genes (ARGs) enter the environment. To reduce the occurrence of antibiotic resistance genes in manures, we studied the variations of ARGs and mobile gene elements (MGEs) during the 46-day co-composting of chicken manure with Chinese medicinal herbal residues. The abundance of 100 ARGs and 5 MGEs were measured by Real-Time Quantitative PCR with 0, 3, 7, 14, 28, and 46 d co-composting. We detected 21 ARGs, 2 integrase genes (intI1 and intI2), and 3 transposase genes (tnpA-01, tnpA-02, and tnpA-03). The abundance of 5 MGEs significantly declined with co-composting time, particularly tnpA-01 and tnpA-02, which were reduced by two orders of magnitude. The abundance of aacA/aphD and aadE were significantly reduced (P<0.05) in aminoglycoside resistance genes. In β-lactam resistance genes, the strongest relationships were demonstrated between blaOXA1 and compost days (P=0.016), and the removal rate was 78.63%. The average removal rate was 90.39% for amide resistance genes, which decreased significantly with composting time. The removal ratios were different among tetracycline resistance genes. For example, the removal ratios of tetG and tetR were 99.77% and 31.72%, respectively. The highest removal rate of qnrD was 99.89%. The removal rate of sulⅢ was as high as 99.88%, while sulⅠ showed an increasing trend. Correlations between ARGs and MGEs were significant correlation for tnpA-01 and ARGs (P<0.05). The trend of ARGs with composting time indicates that the composting of Chinese medicine residues and chicken manure can significantly reduce the abundance of ARGs, thus reducing the risk of ARGs being distributed via livestock manure application.

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