Duan Manli, Li Haichao, Gu Jie, Tuo Xiaxia, Sun Wei, Qian Xun, Wang Xiaojuan
College of Natural Resources and Environment, Northwest A&F University, Yangling, People's Republic of China.
College of Natural Resources and Environment, Northwest A&F University, Yangling, People's Republic of China.
Environ Pollut. 2017 May;224:787-795. doi: 10.1016/j.envpol.2017.01.021. Epub 2017 Mar 9.
Antibiotics and antibiotic resistance genes (ARGs) in soil can affect human health via the food chain. Biochar is a soil amendment but its impacts on ARGs and the microbial communities associated with soil and vegetables are unclear. Therefore, we established three lettuce pot culture experiments, i.e., O300: 300 mg/kg oxytetracycline (OTC), BO300: 300 mg/kg OTC + 2% biochar, and a control without OTC or biochar. We found that under BO300, the relative abundances of ARGs were reduced by 51.8%, 43.4%, and 44.1% in lettuce leaves, roots, and soil, respectively, compared with O300. intI1 was highly abundant in soil and lettuce, and it co-occurred with some ARGs (tetW, ermF, and sul1). Redundancy analysis and network analysis indicated that the bacterial community succession was the main mechanism that affected the variations in ARGs and intI1. The reduction of Firmicutes due to the biochar treatment of soil and lettuce was the main factor responsible for the removal of tetracycline resistance genes in leaves. Biochar application led to the disappearance of human pathogenic bacteria (HPB), which was significantly correlated with the abundances of ermF and ermX. In summary, biochar is an effective farmland amendment for reducing the abundances of antibiotics, ARGs, and HPB in order to ensure the safety of vegetables and protect human health.
土壤中的抗生素和抗生素抗性基因(ARGs)可通过食物链影响人类健康。生物炭是一种土壤改良剂,但其对ARGs以及与土壤和蔬菜相关的微生物群落的影响尚不清楚。因此,我们开展了三项生菜盆栽试验,即O300:300毫克/千克土霉素(OTC),BO300:300毫克/千克OTC + 2%生物炭,以及不添加OTC或生物炭的对照试验。我们发现,与O300相比,在BO300条件下,生菜叶片、根系和土壤中ARGs的相对丰度分别降低了51.8%、43.4%和44.1%。intI1在土壤和生菜中高度丰富,且与一些ARGs(tetW、ermF和sul1)共存。冗余分析和网络分析表明,细菌群落演替是影响ARGs和intI1变化的主要机制。土壤和生菜经生物炭处理后厚壁菌门的减少是叶片中四环素抗性基因去除的主要因素。施用生物炭导致人类病原菌(HPB)消失,这与ermF和ermX的丰度显著相关。总之,生物炭是一种有效的农田改良剂,可降低抗生素、ARGs和HPB的丰度,以确保蔬菜安全并保护人类健康。
