A multidisciplinary field study of a former Manufactured Gas Plant in Portadown, Northern Ireland, was carried out prior to the installation of a Permeable Reactive Barrier (Biological). Trial pits (44) at various depths and multilevel boreholes (8) were characterized for microbial numbers. Total viable cell numbers varied from 4.5 x 105 to 8.0 x 107 across the site. Naphthalene and phenol degraders represent 0.74% and 2.33% of the total viable cell counts, respectively, although when thiocyanate was used as the sole source of nitrogen these numbers drop to 0.17% and 0.46%. Molecular based techniques have revolutionized our knowledge of environmental microbiology. It is well known that only a small proportion of indigenous microorganisms are culturable in a laboratory environment (0.1-10%) and replication of in-situ conditions is almost impossible with “bias” playing a significant role in the cultivation of mixed microbial populations. Consequently the determination of species composition and the abundance of microorganisms across the site was achieved using molecular techniques (16S rRNA gene sequencing, total counts). Changes in microbial structure across the site was monitored by TGGE analysis and revealed an increase in biodiversity in conjunction with increasing contamination levels, probable due to a wide range of carbon substrates being made accessible. Evidence for the implementation of a biological PRB is provided.
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机译:在安装可渗透的反应屏障(生物学)之前,在北爱尔兰Portadown的前所制造的天然气厂的多学科实地研究进行。各种深度和多级钻孔(8)的试坑(44)的特征在于微生物数。全场的总活性细胞数在4.5 x 105到8.0 x 107各不相同。萘和酚降解剂分别代表总活细胞计数的0.74%和2.33%,尽管当硫氰酸酯被用作氮的唯一源时,这些数字下降至0.17%和0.46%。基于分子基的技术彻底改变了我们对环境微生物学的了解。众所周知,只有小比例的土着微生物在实验室环境中培养(0.1-10%)和原位条件的复制几乎不可能在混合微生物种群的培养中发挥着重要作用。因此,使用分子技术实现物种组合物的测定和该部位过度的微生物的丰度(16S rRNA基因测序,总计数)。通过TGGE分析监测了该网站上的微生物结构的变化,并结合增加污染水平的生物多样性的增加,这是由于所取代的各种碳基材而可能。提供了实施生物PRB的证据。
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