Bioaugmentation of Pentachlorophenol by Pseudomonas mosseli HM627603 and P. putida HM627611 in secondary treated wastewater UVC254 inactivation

Journal of New Sciences Pub Date : 2022-01-01 DOI:10.55416/sunb.jns01.2201.08704

R. Werheni Ammeri, S. Kloula, I. Mehri, W. Hassen, A. Hassen

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Abstract

The accumulation of organic pollutants, pesticides, fertilizers, etc. causing critical health trouble to humans, animals, many aquatic ecosystems, and plants. This study evaluated the elimination of the pesticides as pentachlorophenol (PCP: 800 mg L−1) by bioaugmentation process in sterile secondary treated wastewater (STWW) and mineral salt medium (MSM). Also, the impact of surfactant addition (sodium dodecyl sulfate ‘SDS’ and Cetyltrimethylammonium bromide ‘CTAB’) in PCP elimination phenomena. The PCP rate in different treatments was analyzed by high-performance liquid chromatography (HPLC). The bacteria biomass was measured through a spectroscopy approach at 600 nm optical density (OD600). The chloride rates were determinate through the calorimetric approach. In addition, the STWW disinfection was released through the UV radiation technique. The HPLC analysis confirmed that the strain P. mosseli HM627603 and P. putida HM627611 were able to tolerate and remove respectively 99.6 and 76.12% of PCP (800 mg. L-1). The chloride rates increased after 7 days in all treatments with a value of 0.64 to 3.12 g L-1 for P. mosseli HM627603 in MSM. The SDS surfactant induces an increase in the PCP elimination from STWW through P. putida HM627611. The bacterial inactivation became quicker within 80 seconds in sterile STWW supplemented with PCP at 800 mg L-1 for P. putida HM627611 tested in agar medium.

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莫塞假单胞菌HM627603和恶臭假单胞菌HM627611对UVC254灭活二次处理废水中五氯酚的生物强化作用

有机污染物、农药、肥料等的积累，对人类、动物、许多水生生态系统和植物造成严重的健康问题。研究了生物强化法在无菌二次处理废水(STWW)和无机盐培养基(MSM)中对五氯酚(PCP: 800 mg L−1)的去除效果。此外，表面活性剂(十二烷基硫酸钠' SDS '和十六烷基三甲基溴化铵' CTAB ')的加入对PCP消除现象的影响。采用高效液相色谱法分析了不同处理的PCP率。在600 nm光密度(OD600)下，通过光谱学方法测量细菌生物量。用量热法测定了氯化物的速率。此外，污水的消毒是通过紫外线辐射技术释放。HPLC分析证实，菌株moseli P. HM627603和P. putida HM627611对PCP (800 mg)的耐受性和去除率分别为99.6%和76.12%。l - 1)。7 d后，所有处理的氯化率均有所增加，在MSM中莫塞利疟原虫HM627603的氯化率为0.64 ~ 3.12 g L-1。SDS表面活性剂诱导恶臭杆菌HM627611对STWW中PCP的去除增加。在无菌STWW中添加800 mg L-1浓度的PCP，在琼脂培养基中对p.p . putida HM627611进行灭活，80秒内细菌灭活速度加快。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of New Sciences

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