机构地区:[1]江西农业大学生物科学与工程学院,江西南昌330045
出 处:《江西农业大学学报》2023年第2期444-452,共9页Acta Agriculturae Universitatis Jiangxiensis
基 金:国家自然科学基金项目(32160027);江西省自然科学基金重点项目(20212ACB205003);江西省高层次高技能领军人才项目;江西省研究生创新专项资金(YC2022-S401)
摘 要:【目的】硫氰酸盐(SCN-)是一种常见的金矿、纺织、印染和焦化工业污染物,具有较强毒性和化学结构稳定性,其所造成的环境污染已成为近年来亟待解决的难题。【方法】在前期构建的一组高效硫氰酸盐降解复合菌群的基础上,探究在不同初始硫氰酸盐浓度下复合菌群对硫氰酸盐降解速率及复合菌群生长速率的影响,并对其进行动力学分析;根据细菌16S rRNA的序列结果进行群落结构组成分析;通过OTUs、Chao1指数、Shannon指数和Simpson指数对原始污泥和复合菌群进行多样性分析。【结果】(1)复合菌群降解硫氰酸盐及复合菌群生长符合底物抑制模型-Haldane方程,硫氰酸盐最佳降解速率(Vopt)与硫氰酸盐浓度(Sopt)分别为0.13785 g/(L·h)和0.12126 g/L、复合菌群大生长速率(Vopt)与硫氰酸盐浓度(Sopt)分别为1.27828 g/(L·h)和2.78468 g/L。此外,复合菌群在30 h内可完全降解4 g/L硫氰酸盐,最高可耐受15 g/L的硫氰酸盐,培养6 d,降解率可达100%,生物量增加8.65 g/L。(2)该复合菌群细菌多样性及结构与原始污泥发生了变化,细菌多样性及结构在添加硫氰酸盐定向富集驯化后发生了改变,生物多样性在减少;活性污泥中的主要菌属有Uncultured_bacterium_f_Blastocatellaceae、Alicycliphilus、uncultured_bacterium_f_NS9_marine_group、Diaphorobacter、uncultured_bacterium_f_Mitochondria、Thiobacillus,而复合菌菌群样品中主要的菌属有uncultured_bacterium_f_Saccharimonadaceae、uncultured_bacterium_f_Chitinophagaceae、uncultured_bacterium_f_NS9_marine_group、Dokdonella、Thiobacillus。其中Thiobacillus从活性污泥中的劣势菌属(丰度大约为2.69%)变为复合菌群中的优势菌属(丰度大约为77.73%),被认为是复合菌群降解硫氰酸盐的关键菌属。【结论】研究结果初步揭示了复合菌群降解硫氰酸盐规律,并解析了其微生物演变过程,挖掘了功能微生物,为后续硫氰酸盐废水的高效处置提�[Objective]As a common pollutant in gold mining,textile,printing and dyeing and coking industries,Thiocyanate(SCN-)has strong toxicity and chemical structure stability,and its environmental pollution has become an urgent problem to be solved in recent years.[Method]Based on a group of high-efficiency thiocyanate degradation microbial community constructed in the previous stage,the effects of the microbial community on thiocyanate degradation rate and growth rate of the microbial community under different initial thiocyanate concentrations were explored.Kinetic analysis was implemented.According to the sequence results of 16S rRNA of bacteria,the community structure was analyzed.OTUs,Chao1 index,Shannon index,and Simpson index were used to analyze the diversity of raw sludge and microbial community.[Result](1)The degradation of thiocyanate and growth of the microbial community conformed to the substrate inhibition model-Haldane equation.The optimum degradation rate of thiocyanate and thiocyanate concentrations were 0.13785 g/(L·h)and 0.12126 g/L,respectively.The maximum growth rate of microbial community and thiocyanate concentrations were 1.27828 g/(L·h)and 2.78468 g/L,respectively.In addition,the microbial community could completely degrade 4 g/L thiocyanate within 30 hours,the maximum tolerance of the microbial community was 15 g/L thiocyanate,and the degradation rate reached 100%after 6 days of culture.Biomass was increased by 8.65 g/L.(2)The bacterial diversity and structure of the microbial community changed from those of the original sludge,the diversity and structure of bacteria were changed after thiocyanate enrichment and acclimation,and the biodiversity decreased again.Uncultured_bacterium_f_Blastocatellaceae,Alicycliphilus,uncultured_bacterium_f_NS9_marine_group,Diaphorobacter,uncultured_bacterium_f_Mitochondria,Thiobacillus are the main genera in the original sludge samples.Dokdonella,Thiobacillus,uncultured_bacterium_f_Saccharimonadaceae,uncultured_bacterium_f_NS9_marine_group,and uncultured_bacter
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