Polyethylene and sulfa antibiotic remediation in soil using a multifunctional degrading bacterium

细菌 生物降解 微生物学 降级(电信) 16S核糖体RNA 拉伤 聚乙烯 抗生素 化学 生物 有机化学 计算机科学 遗传学 电信 解剖
作者
Shuo Li,F Li,Yanwei Bao,Ankai Peng,B Lyu
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:930: 172619-172619 被引量:13
标识
DOI:10.1016/j.scitotenv.2024.172619
摘要

To obtain a multifunctional bacterium that can effectively degrade polyethylene (PE) and sulfonamide antibiotics (SAs), PE and SAs were selected as the primary research objects. Multifunctional degrading bacteria were isolated and screened from an environment in which plastics and antibiotics have existed for a long time. An efficient degrading strain, Raoultella sp., was screened by measuring the degradation performance of PE and SAs. We analyzed the changes in the microbial community of indigenous bacteria using 16S rRNA. After 60 d of degradation at 28 °C, the Raoultella strain to PE degradation rate was 4.20 %. The SA degradation rates were 96 % (sulfonathiazole, (ST)), 86 % (sulfamerazine, (SM)), 72 % (sulfamethazine, (SM2)) and 64 % (sulfamethoxazole, (SMX)), respectively. This bacterium increases the surface roughness of PE plastic films and produces numerous gullies, pits, and folds. In addition, after 60 d, the contact angle of the plastic film decreased from 92.965° to 70.205°, indicating a decrease in hydrophobicity. High-throughput sequencing analysis of the degrading bacteria revealed that the Raoultella strain encodes enzymes involved in PE and SA degradation. The results of this study not only provide a theoretical basis for further study of the degradation mechanism of multifunctional and efficient degrading bacteria but also provide potential strain resources for the biodegradation of waste plastics and antibiotics in the environment.
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