Screening cyhalothrin degradation strains from locust epiphytic bacteria and studying <Emphasis Type='Italic'>Paracoccus acridae</Emphasis> SCU-M53 cyhalothrin degradation process

Jiewei Tian; Xiufeng Long; Shuai Zhang; Qiumian Qin; Longzhan Gan; Yongqiang Tian

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Screening cyhalothrin degradation strains from locust epiphytic bacteria and studying Paracoccus acridae SCU-M53 cyhalothrin degradation process

机译：从蝗虫外膜细菌和研究<重点型=“斜体”> Paracoccus Acridae SCU-M53 Cyhalothrin降解过程中的筛选菌株

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All locust epiphytic bacteria were screened and a total of 62 epiphytic bacteria were obtained from samples of Acrida cinerea . Via phylogenetic analysis, the 62 epiphytic bacteria were allocated to 27 genera, 18 families, 13 orders, six classes, and four phylums. Then, cyhalothrin degradation experiments were conducted, and the 10 strains that degraded more than 30% cyhalothrin and Paracoccus acridae SCU-M53 showed the highest cyhalothrin degradation rate of 70.5%. Furthermore, Paracoccus acridae SCU-M53 was selected for optimal cyhalothrin biodegradation conditions via the response surface method (Design-Expert). Under the optimum conditions (28?°C, 75?mg/L, and 180?rpm), the cyhalothrin degradation rate reached 79.84% after 2?days. This suggests the possibility that isolating biodegradation cyhalothrin strains from Acrida cinerea is feasible.

机译：筛选所有蝗虫外膜细菌，并从Acrida Cinerea的样品中获得总共62个果实细菌。通过系统发育分析，将62个果实细菌分配给27个属，18个家庭，13个订单，六个类和四个场。然后，进行了硫酸胞素降解实验，并降解了超过30％的含量胞质细胞素和裂藻球菌的10个菌株的菌株呈70.5％的最高含量降解速率。此外，通过响应面法（设计专家）选择伴咽科acridae SCU-M53以获得最佳的含有含有的含有豆乳蛋白生物降解条件。在最佳条件下（28°C，75℃，75℃/ L和180 rpm），在2℃后，含有含量的细胞素降解率为79.84％。这表明将生物降解的嗜血菌菌菌株分离生物降解的菌株是可行的。

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来源
《Environmental Science and Pollution Research》 |2018年第12期|共11页
作者
Jiewei Tian; Xiufeng Long; Shuai Zhang; Qiumian Qin; Longzhan Gan; Yongqiang Tian;
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作者单位

Key Laboratory of Leather Chemistry and Engineering(Sichuan University) Ministry of Education and College of Light Industry Textile &

Food Engineering Sichuan University;

Key Laboratory of Leather Chemistry and Engineering(Sichuan University) Ministry of Education and College of Light Industry Textile &

Food Engineering Sichuan University;

Key Laboratory of Leather Chemistry and Engineering(Sichuan University) Ministry of Education and College of Light Industry Textile &

Food Engineering Sichuan University;

Key Laboratory of Leather Chemistry and Engineering(Sichuan University) Ministry of Education and College of Light Industry Textile &

Food Engineering Sichuan University;

Key Laboratory of Leather Chemistry and Engineering(Sichuan University) Ministry of Education and College of Light Industry Textile &

Food Engineering Sichuan University;

Key Laboratory of Leather Chemistry and Engineering(Sichuan University) Ministry of Education and College of Light Industry Textile &

Food Engineering Sichuan University;

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原文格式 PDF
正文语种 eng
中图分类环境污染及其防治;环境科学、安全科学;
关键词
Epiphytic bacteria; Biodiversity; Cyhalothrin; Biodegradation; Acrida cinerea;

机译：果实细菌;生物多样性;cyhalothrin;生物降解;acrida cinerea;

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机译：从蝗虫外膜细菌和研究<重点型=“斜体”> Paracoccus Acridae SCU-M53 Cyhalothrin降解过程中的筛选菌株
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Screening cyhalothrin degradation strains from locust epiphytic bacteria and studying Paracoccus acridae SCU-M53 cyhalothrin degradation process

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