紫色狼尾草改善风化石油污染土壤中多环芳烃的去除

M. L. Riskuwa-Shehu, H. Ismail, A. Y. Fardami, U. B. Ibrahim
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引用次数: 0

摘要

石油碳氢化合物是上个世纪进步的主要驱动力之一。然而,一些碳氢化合物,特别是多环芳烃,具有健康和环境意义,因为它们的顽固性和持久性会对健康和生态系统稳定性产生不利影响。许多处理技术已被用于清除碳氢化合物污染物,植物修复技术的使用最近被描述为很有前景。在本研究中,使用Pennisetumpurpureum对风化原油污染土壤进行了为期60天的微观植物修复。采集原始土壤样本,并与风化的石油污染土壤混合,以达到5%、25%、35%和50%w/w的污染水平。利用气相色谱-质谱联用技术对根际细菌种类进行了分离鉴定,并对残油进行了提取和分析。结果表明,根际土壤细菌数量(5.0×105cfu/g~6.4×105cfug/g)高于非根际土壤(2.4×105cfu/g~4.0×105cfu/g);根际碳氢化合物浓度分别降低82.5%、60.5%、58.0%和48.8%。使用GC-MS在对照中检测到的复杂多环芳烃化合物显著减少或完全降解。多环芳烃如蒽、萘、芴、苯并(a)蒽、芘和chrysene的减少率在13.33%至97.54%之间。根据本研究观察到的PAHs减少率,表明P.purpureum支持清除土壤环境中的持久性碳氢污染物。应调查该装置在现场条件下用于大规模石油碳氢化合物净化的情况。
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Pennisetum purpureum Improved Polycyclic Aromatic Hydrocarbons Removal in Weathered-Petroleum Contaminated Soil
Petroleum hydrocarbons are among the major driving forces of advancement in the last Century. Some of the hydrocarbons especially polycyclic aromatics are however of health and environmental significance, due to their recalcitrance and persistence leading to adverse effects on health and ecosystem stability. A number of treatment technologies have been used to cleanup hydrocarbon contaminants and the use of phytoremediation technology have recently been described as promising. In this study, phytoremediation of weathered crude oil contaminated soil was carried out in a microcosm using Pennisetumpurpureum for 60 days. Pristine soil samples were collected and mixed with weathered petroleum contaminated soil to achieve 5%, 25%, 35% and 50% w/w contamination levels. Bacterial species in the rhizosphere were isolated and identified and residual oil was extracted and analyzed using GC-MS. Results showed that there was high bacterial population in rhizosphere (5.0×105 cfu/g to 6.4×105 cfu/g) than non-rhizosphere soil (2.4 ×105 cfu/g to 4.0×105 cfu/g); and Bacillus spp. (64.71%) were observed to be predominant in the rhizosphere followed by Micrococcus spp. (17.65%), Pseudomonas aeruginosa (5.88%), Klebsiella pneumoniae (5.88%) and Flavobacterium sp. (5.88%). Hydrocarbon concentration in the rhizosphere was reduced by 82.5%, 60.5%, 58.0% and 48.8% respectively. Complex polycyclic aromatic hydrocarbon compounds detected in the control using GC-MS were significantly reduced or completely degraded. Polycyclic aromatic hydrocarbons such as anthracene, naphthalene, fluorene, benzo (a) anthracene, pyrene and chrysene were significantly reduced at a rate ranging between 13.33% and 97.54%. Based on the rate of PAHs reduction observed in this study, it was evident that P. purpureumsupports cleanup of persistent hydrocarbon contaminants in soil environment. The use of this plant in large scale petroleum hydrocarbon cleanup under field conditions should be investigated.
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