垃圾填埋场土壤中木酵母菌对邻苯二甲酸二(2-乙基己基)的微生物处理

T. ., M. Rashmi, Shiv. K. Singh
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引用次数: 0

摘要

该菌株是从巴特那市Byepass附近垃圾场被邻苯二甲酸盐污染的垃圾填埋场土壤中分离得到的。菌株T23因其降解效率高而被选为分离菌株。我们观察了各种环境和化学因素对优化降解条件的影响。通过16S rRNA基因测序和降解后代谢终产物测定,根据菌株表型和系统发育特征,鉴定菌株T23为Lysinibacillusxylanilyticus。气相色谱-质谱(GC-MS)分析得到可降解中间体为7,10,13 -十六烷酸、环三硅氧烷、正十六烷酸、油酸和亚绿酸。菌株T23在pH为8.5、温度为10.5时降解效果最好,耐NaCl浓度为0 ~ 15%。碳源葡萄糖和氮源酪蛋白的降解作用最大。菌株23具有最大的降解潜力,可用于各种修复目的。
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Microbial Treatment of di (2-ethyl hexyl) Phthalate by Lysinibacillus xylanilyticus Isolated from Landfill Soil
The bacterial strains were isolated from landfill soil contaminated with phthalate, collected from dump yard near Byepass, Patna. Thestrain named T23 was chosen among the isolated strains due to its high efficacy towards the degradation. We observed the effects ofvarious environmental and chemical factors for optimising the conditions for degradation. The strain T23 was identified as Lysinibacillusxylanilyticus based on its phenotypic as well as phylogenetic characteristics by performing 16S rRNA gene sequencing and for thedetermination of the metabolic end products after degradation. Gas chromatography and mass spectrometry (GC-MS) analysis was doneand the degradable intermediates obtained were 7, 10, 13-Hexadecatrienoic acid, Cyclotrisiloxane, n-Hexadecanoic acid, Oleic Acid andErucic acid. The strain T23 showed maximum degradation at pH 8.5 and temperature was 10.5 and it could tolerate up to 0-15% NaCl.Maximum degradation was exhibited at the carbon source, dextrose, and nitrogen source, casein. The 23 strain was having maximumpotential for degradation which can be used for various remediation purposes.
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