State Key Laboratory of Microbial Resources, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, PR China.
J Hazard Mater. 2012 Sep 30;233-234:72-8. doi: 10.1016/j.jhazmat.2012.06.060. Epub 2012 Jul 4.
This study aims at the remediation of heavily PAH-contaminated soil containing 375 mg of total PAHs per kilogram dry soil. Pilot scale bioremediation experiments were carried out by three approaches with contaminated soil from abandoned sites of Beijing Coking Plant using outdoor pot trials. The first approach was bioaugmentation with a bacterial strain which degrades PAH and produces bioemulsifier, the second approach comprised of biostimulation of indigenous microorganisms with supplementing nutrients and the last approach involved the combination of both biostimulation and bioaugmentation. An on-site land farming group was set as a control in which the total PAHs and 4-6 ring-PAHs were reduced by 23.4% and 10.1%, respectively after 175 days. Meanwhile, in the first approach group, the total PAHs and 4-6 ring-PAHs were reduced by 26.82% and 35.36%, respectively; in the second approach group both percentages were 33.9% and 11.0%, respectively; while in the third approach group, these pollutants were reduced by 43.9% and 55.0%, respectively. The results obtained suggested that biostimulation and bioaugmentation combined could significantly enhance the removal of PAHs in the contaminated soil.
本研究旨在修复受多环芳烃(PAH)重度污染的土壤,每公斤干土中含有 375 毫克总多环芳烃。采用来自北京焦化厂废弃场地的污染土壤,通过户外盆栽试验,进行了三种方法的小型生物修复实验。第一种方法是利用降解 PAH 并产生生物乳化剂的细菌菌株进行生物增强,第二种方法是用补充营养物质来刺激土著微生物,第三种方法是将生物刺激和生物增强相结合。现场土地耕作组被设置为对照组,经过 175 天后,总多环芳烃和 4-6 环多环芳烃分别减少了 23.4%和 10.1%。同时,在第一种方法组中,总多环芳烃和 4-6 环多环芳烃分别减少了 26.82%和 35.36%;在第二种方法组中,这两个百分比分别为 33.9%和 11.0%;而在第三种方法组中,这些污染物分别减少了 43.9%和 55.0%。研究结果表明,生物刺激和生物增强相结合可以显著提高污染土壤中多环芳烃的去除率。
