| Lucien M A B, Canarie M F, Kilgore P E, et al. Antibiotics and antimicrobial resistance in the COVID-19 era: Perspective from resource-limited settings [J]. International Journal of Infectious Diseases, 2021, 104: 250-254 |
| Zhou X Q, Cuasquer G J P, Li Z F, et al. Occurrence of typical antibiotics, representative antibiotic-resistant bacteria, and genes in fresh and stored source-separated human urine [J]. Environment International, 2021, 146: 106280 |
| 周明丽. 畜牧业中滥用抗生素的现状及应对措施[J]. 畜禽业, 2013(8): 20-22 Zhou M L. Current situation and countermeasures of abuse of antibiotics in animal husbandry [J]. Livestock and Poultry Industry, 2013 (8): 20-22 (in Chinese) |
| Chee-Sanford J C, Mackie R I, Koike S, et al. Fate and transport of antibiotic residues and antibiotic resistance genes following land application of manure waste [J]. Journal of Environmental Quality, 2009, 38(3): 1086-1108 |
| 刘春, 刘晨阳, 王济民, 等. 我国畜禽粪便资源化利用现状与对策建议[J]. 中国农业资源与区划, 2021, 42(2): 35-43 Liu C, Liu C Y, Wang J M, et al. The current situation of resource utilization of livestock and poultry manure in China and the countermeasures and suggestions [J]. Chinese Journal of Agricultural Resources and Regional Planning, 2021, 42(2): 35-43 (in Chinese) |
| Chen Q L, An X L, Li H, et al. Long-term field application of sewage sludge increases the abundance of antibiotic resistance genes in soil [J]. Environment International, 2016, 92-93: 1-10 |
| Udikovic-Kolic N, Wichmann F, Broderick N A, et al. Bloom of resident antibiotic-resistant bacteria in soil following manure fertilization [J]. Proceedings of the National Academy of Sciences of the United States of America, 2014, 111(42): 15202-15207 |
| 邹威, 金彩霞, 魏闪, 等. 华北地区不同规模畜禽养殖场粪便中抗生素抗性基因污染特征[J]. 农业环境科学学报, 2020, 39(11): 2640-2652 Zou W, Jin C X, Wei S, et al. Occurrence of antibiotic resistance genes in livestock farms of different scales in North China [J]. Journal of Agro-Environment Science, 2020, 39(11): 2640-2652 (in Chinese) |
| Han W X, Wang F H, Bai Z H, et al. Vertical distribution of antibiotic resistance genes and bacterial communities in soil of livestock manure stacking site [J]. Chinese Journal of Eco-Agriculture, 2022, 30(2): 268-275 |
| 苑学霞, 梁京芸, 范丽霞, 等. 粪肥施用土壤抗生素抗性基因来源、转移及影响因素[J]. 土壤学报, 2020, 57(1): 36-47 Yuan X X, Liang J Y, Fan L X, et al. Effects of manure application on source and transport of antibiotic resistant genes in soil and their affecting factors [J]. Acta Pedologica Sinica, 2020, 57(1): 36-47 (in Chinese) |
| 何燕, 朱冬, 王东, 等. 四川省稻田土壤的抗生素抗性基因多样性研究[J]. 农业环境科学学报, 2020, 39(6): 1249-1258 He Y, Zhu D, Wang D, et al. Diversity of antibiotic resistance genes in paddy soils in Sichuan Province, China [J]. Journal of Agro-Environment Science, 2020, 39(6): 1249-1258 (in Chinese) |
| 吴楠, 乔敏. 土壤环境中四环素类抗生素残留及抗性基因污染的研究进展[J]. 生态毒理学报, 2010, 5(5): 618-627 Wu N, Qiao M. Tetracycline residues and tetracycline resistance gene pollution in soil: A review [J]. Asian Journal of Ecotoxicology, 2010, 5(5): 618-627 (in Chinese) |
| 董玉芳. 城市农贸市场空气微生物群落特征及抗生素抗性基因污染[D]. 哈尔滨: 哈尔滨工业大学, 2014: 49-54 Dong Y F. Microbial community characteristics and antibiotic resistance gene in urban wet market air [D]. Harbin: Harbin Institute of Technology, 2014: 49 -54 (in Chinese) |
| 王婷, 李芬芬, 冯萃敏, 等. 抗生素抗性基因在饮用水系统中的污染特征与去除研究进展[J]. 应用化工, 2020, 49(12): 3137-3142 , 3149 Wang T, Li F F, Feng C M, et al. Pollution characteristics and removal of antibiotic resistant genes in drinking water system [J]. Applied Chemical Industry, 2020, 49(12): 3137-3142, 3149 (in Chinese) |
| 王兰君. 施用粪肥设施菜地土壤中抗生素抗性基因赋存特征和扩散机制[D]. 泰安: 山东农业大学, 2021: 35-37 Wang L J. Occurrence characteristics and diffusion mechanism of antibiotic resistance genes in greenhouse vegetable soil with manure application [D]. Taian: Shandong Agricultural University, 2021: 35 -37 (in Chinese) |
| 左金龙, 孙宇琪, 郭雅杰, 等. 不同施肥处理对蔬菜土壤中抗生素抗性基因多样性与丰度的影响[J]. 环境污染与防治, 2021, 43(5): 553-556 , 561 Zuo J L, Sun Y Q, Guo Y J, et al. Effects of different fertilization treatments on the diversity and abundance of antibiotic resistance genes in vegetable soil [J]. Environmental Pollution & Control, 2021, 43(5): 553-556, 561 (in Chinese) |
| Thomas C M, Nielsen K M. Mechanisms of, and barriers to, horizontal gene transfer between bacteria [J]. Nature Reviews Microbiology, 2005, 3(9): 711-721 |
| Xie W Y, Shen Q, Zhao F. Antibiotics and antibiotic resistance from animal manures to soil: A review [J]. European Journal of Soil Science, 2018, 69: 181-195 |
| Li S, Yao Q, Liu J J, et al. Profiles of antibiotic resistome with animal manure application in black soils of northeast China [J]. Journal of Hazardous Materials, 2020, 384: 121216 |
| Hill K E, Top E M. Gene transfer in soil systems using microcosms [J]. FEMS Microbiology Ecology, 1998, 25(4): 319-329 |
| Ansari M I, Grohmann E, Malik A. Conjugative plasmids in multi-resistant bacterial isolates from Indian soil [J]. Journal of Applied Microbiology, 2008, 104(6): 1774-1781 |
| 苏建强, 黄福义, 朱永官. 环境抗生素抗性基因研究进展[J]. 生物多样性, 2013, 21(4): 481-487 Su J Q, Huang F Y, Zhu Y G. Antibiotic resistance genes in the environment [J]. Biodiversity Science, 2013, 21(4): 481-487 (in Chinese) |
| Zhu Y G, Johnson T A, Su J Q, et al. Diverse and abundant antibiotic resistance genes in Chinese swine farms [J]. Proceedings of the National Academy of Sciences of the United States of America, 2013, 110(9): 3435-3440 |
| Han X M, Hu H W, Chen Q L, et al. Antibiotic resistance genes and associated bacterial communities in agricultural soils amended with different sources of animal manures [J]. Soil Biology and Biochemistry, 2018, 126: 91-102 |
| Pu C J, Liu H, Ding G C, et al. Impact of direct application of biogas slurry and residue in fields: in situ analysis of antibiotic resistance genes from pig manure to fields [J]. Journal of Hazardous Materials, 2018, 344: 441-449 |
| Qian X, Gu J, Sun W, et al. Diversity, abundance, and persistence of antibiotic resistance genes in various types of animal manure following industrial composting [J]. Journal of Hazardous Materials, 2018, 344: 716-722 |
| 张俊华, 陈睿华, 刘吉利, 等. 宁夏养牛场粪污和周边土壤中抗生素及抗生素抗性基因分布特征[J]. 环境科学, 2021, 42(6): 2981-2991 Zhang J H, Chen R H, Liu J L, et al. Distribution characteristics of antibiotics and antibiotic resistance genes in manure and surrounding soil of cattle farms in Ningxia [J]. Environmental Science, 2021, 42(6): 2981-2991 (in Chinese) |
| 李金阳. 施用牛粪/堆肥对农田土壤和生菜中抗生素抗性基因传播的影响[D]. 济南: 济南大学, 2021: 16-19 Li J Y. Effects of application of cow manure/compost on the transmission of antibiotic resistance genes in farmland soil and lettuce [D]. Jinan: Jinan University, 2021: 16 -19 (in Chinese) |
| 刘志平, 周怀平, 解文艳, 等. 长期氮磷配施对褐土细菌多样性及土壤酶活性的影响[J]. 干旱地区农业研究, 2022, 40(2): 163-171 Liu Z P, Zhou H P, Xie W Y, et al. Effects of long-term combined application of nitrogen and phosphorus on bacterial diversity and soil enzyme activities in cinnamon soil [J]. Agricultural Research in the Arid Areas, 2022, 40(2): 163-171 (in Chinese) |
| 鲍士旦. 土壤农化分析[M]. 3版. 北京: 中国农业出版社, 2000: 90-129 |
| Stedtfeld R D, Guo X P, Stedtfeld T M, et al. Primer set 2.0 for highly parallel qPCR array targeting antibiotic resistance genes and mobile genetic elements [J]. FEMS Microbiology Ecology, 2018, 94(9): 9 |
| Ramette A. Multivariate analyses in microbial ecology [J]. FEMS Microbiology Ecology, 2007, 62(2): 142-160 |
| Zhang Y J, Hu H W, Gou M, et al. Temporal succession of soil antibiotic resistance genes following application of swine, cattle and poultry manures spiked with or without antibiotics [J]. Environmental Pollution, 2017, 231: 1621-1632 |
| 谭璐. 人类活动促进环境中抗生素抗性基因增殖扩散研究[D]. 天津: 天津大学, 2017: 5-6 Tan L. The promotion of anthropogenic activities on the propagation and dissemination of antibiotic resistance genes in environment [D]. Tianjin: Tianjin University, 2017: 5 -6 (in Chinese) |
| 陈默, 高敏, 宋渊, 等. 堆肥过程逸散抗生素耐药菌气溶胶的浓度及粒径分布特征[J]. 农业环境科学学报, 2019, 38(7): 1633-1640 Chen M, Gao M, Song Y, et al. Characteristics of antibiotic-resistant bioaerosols during composting [J]. Journal of Agro-Environment Science, 2019, 38(7): 1633-1640 (in Chinese) |
| Chihara S, Okuzumi K, Yamamoto Y, et al. First case of New Delhi metallo-β-lactamase 1-producing Escherichia coli infection in Japan [J]. Clinical Infectious Diseases, 2011, 52(1): 153-154 |
| Liu Y Y, Wang Y, Walsh T R, et al. Emergence of plasmid-mediated colistin resistance mechanism MCR-1 in animals and human beings in China: A microbiological and molecular biological study [J]. The Lancet Infectious Diseases, 2016, 16(2): 161-168 |
| Wan K, Zhang M L, Ye C S, et al. Organic carbon: An overlooked factor that determines the antibiotic resistome in drinking water sand filter biofilm [J]. Environment International, 2019, 125: 117-124 |
| Yang Y Y, Liu G H, Ye C, et al. Bacterial community and climate change implication affected the diversity and abundance of antibiotic resistance genes in wetlands on the Qinghai-Tibetan Plateau [J]. Journal of Hazardous Materials, 2019, 361: 283-293 |
| Hu H W, Wang J T, Singh B K, et al. Diversity of herbaceous plants and bacterial communities regulates soil resistome across forest biomes [J]. Environmental Microbiology, 2018, 20(9): 3186-3200 |