从柴油污染土壤中筛选分离出1株萘降解菌HD-5,经16S r DNA序列分析鉴定为铜绿假单胞菌(Pseudomonas aeruginosa),对功能基因进行PCR扩增证实该菌株中含有萘双加氧酶基因nah.采用生物强化、生物刺激以及二者相结合的方式修复萘含量为0.5...从柴油污染土壤中筛选分离出1株萘降解菌HD-5,经16S r DNA序列分析鉴定为铜绿假单胞菌(Pseudomonas aeruginosa),对功能基因进行PCR扩增证实该菌株中含有萘双加氧酶基因nah.采用生物强化、生物刺激以及二者相结合的方式修复萘含量为0.5%的自配污染土壤,综合比较了在不同修复方式下土壤中萘的降解率,修复过程中土壤FDA水解酶活和脱氢酶活的变化,以及运用定量PCR的方法动态分析了总细菌基因拷贝数和nah基因拷贝数.结果表明,在生物强化(B)、生物刺激(S)以及生物强化与生物刺激相结合(BS)这3种修复方式下,31 d后萘去除率分别为71.94%、62.22%和83.14%,BS组在修复过程中土壤FDA水解酶活和脱氢酶活明显高于另外两组,31 d后BS组土壤中总细菌基因拷贝数和nah基因拷贝数分别增长了约2.67×1011g-1和8.67×108g-1.上述研究结果表明筛选得到的萘降解菌株在土壤中具有良好的定植特性,在生物刺激与该降解菌株的共同作用下,可以有效地实现土壤中萘降解,这对此类污染生物修复过程研究具有一定的指导意义.展开更多
Bioremediation is a process mediated by microorganisms and represents a sustainable and eco-friendly way to degrade and detoxify environmental contaminants. Soil microbiomes clearly become a key component of bioremedi...Bioremediation is a process mediated by microorganisms and represents a sustainable and eco-friendly way to degrade and detoxify environmental contaminants. Soil microbiomes clearly become a key component of bioremediation as they are more stable and effcient than pure cultures, being recognized as one of the scientific frontiers of the soil environmental science and technology fields. Recently,many advancements have been made regarding the investigation of remediation mechanisms by soil microbiomes and the interactions inside them. This has greatly expanded our ability to characterize the remediating function of soil microbiomes and identify the factors that influence their effciency for remediation. Here, we suggest that soil microbiomes are a promising strategy for soil remediation.Research is now needed to identify how we can manipulate and manage soil microbiomes to improve remediation effciency and increase soil fertility at the same time. Therefore, this review aims to emphasize the importance of soil microbiomes in bioremediation and promote further development of this strategy into a widely accepted technique.展开更多
基金supported by the National Natural Science Foundation of China (No.41671327)the Outstanding Youth Fund of Jiangsu Province, China (No.BK20150049)
文摘Bioremediation is a process mediated by microorganisms and represents a sustainable and eco-friendly way to degrade and detoxify environmental contaminants. Soil microbiomes clearly become a key component of bioremediation as they are more stable and effcient than pure cultures, being recognized as one of the scientific frontiers of the soil environmental science and technology fields. Recently,many advancements have been made regarding the investigation of remediation mechanisms by soil microbiomes and the interactions inside them. This has greatly expanded our ability to characterize the remediating function of soil microbiomes and identify the factors that influence their effciency for remediation. Here, we suggest that soil microbiomes are a promising strategy for soil remediation.Research is now needed to identify how we can manipulate and manage soil microbiomes to improve remediation effciency and increase soil fertility at the same time. Therefore, this review aims to emphasize the importance of soil microbiomes in bioremediation and promote further development of this strategy into a widely accepted technique.
