Department of Bioscience, School of Bio Sciences and Technology, Vellore Institute of Technology, Vellore, 632014, Tamil Nadu, India.
Department of Bioscience, School of Bio Sciences and Technology, Vellore Institute of Technology, Vellore, 632014, Tamil Nadu, India.
Ecotoxicol Environ Saf. 2020 Apr 1;192:110290. doi: 10.1016/j.ecoenv.2020.110290. Epub 2020 Feb 10.
The widespread use of pesticides has been one of the major anthropogenic sources of environmental pollution. Organophosphorus (OP) pesticides are predominantly used in agriculture due to their broad-spectrum insecticidal activity and chemical stability. The study was focused on the biodegradation of OP pesticides, Profenofos (PF) and Quinalphos (QP) in culture media using bacterium isolated from wetland paddy rhizosphere. The strain VITPSCQ3 showed higher pesticide tolerance, efficient biofilm formation and was capable of synthesizing organophosphate degrading enzymes. Based on the 16S rRNA gene sequencing the isolate exhibited maximum sequence similarity with Kosakinia oryzae (GenBank accession number: KR149275). Biodegradation assay with various concentrations of PF and QP (200, 400, 600 and 800 mg L) showed maximum degradation up to 82% and 92% within 48 h. The kinetic studies revealed the biodegradation rates (k) to be 0.0844 min and 0.107 min with half-lives (h) of 18 h and 14.8 h for PF and QP. The degradation products were identified by GCMS and possible degradation pathways were proposed using Insilico techniques. To the best of our knowledge, this is the first report on the biodegradation of PF and QP using Kosakonia oryzae. Bioremoval of PF and QP from aqueous solution was performed using the biofilm of VITPSCQ3 developed on selected substrates in a circulating Vertical-flow packed-bed biofilm (VFPBB) bioreactor. Charcoal, gravel and mushroom (Agaricus bisporus) were used as biofilm carriers. Mushroom showed strong biofilm formation with optimum biodegradation capacity of up to 96% for PF and 92% for QP within 120 min reaction time.
广泛使用农药是环境污染的主要人为来源之一。由于其广谱杀虫活性和化学稳定性,有机磷(OP)农药主要用于农业。本研究集中于从湿地稻田根际分离的细菌在培养基中对 OP 农药(丙溴磷和喹硫磷)的生物降解。菌株 VITPSCQ3 表现出较高的农药耐受性、高效的生物膜形成能力,并能够合成有机磷降解酶。根据 16S rRNA 基因测序,该分离株与稻黄单胞菌(GenBank 登录号:KR149275)具有最大的序列相似性。用不同浓度的丙溴磷和喹硫磷(200、400、600 和 800 mg/L)进行生物降解试验,结果表明在 48 h 内最大降解率分别达到 82%和 92%。动力学研究表明,丙溴磷和喹硫磷的降解速率(k)分别为 0.0844 min 和 0.107 min,半衰期(h)分别为 18 h 和 14.8 h。通过 GCMS 鉴定了降解产物,并通过 Insilico 技术提出了可能的降解途径。据我们所知,这是首次报道利用稻黄单胞菌对丙溴磷和喹硫磷进行生物降解。在循环垂直流填充床生物膜(VFPBB)生物反应器中,使用在选定基质上形成的 VITPSCQ3 生物膜对水溶液中的丙溴磷和喹硫磷进行了生物去除。活性炭、砾石和蘑菇(双孢蘑菇)被用作生物膜载体。蘑菇显示出较强的生物膜形成能力,在 120 min 的反应时间内,对丙溴磷的最佳生物降解能力可达 96%,对喹硫磷的最佳生物降解能力可达 92%。
