利用瓜果皮和其他植物废弃物对土壤中的废油进行生物降解

Nna Orji, Chinenye
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引用次数: 0

摘要

废油含有对人类及其环境造成健康威胁的有害物质,在大多数机修车间被随意丢弃在土地上。废油流入农田和水体,造成水、植物和土地污染。摄入受污染的水、植物和动物会导致严重的健康问题。研究人员对瓜果皮等植物废料在增强土壤中废油生物降解方面的能力进行了调查。用植物废弃物处理 A 至 J 微生态箱中的受污染土壤,重复处理 20 个微生态箱并培养 180 天。对每个微生态系统的土壤进行定期取样,然后用二氯甲烷进行冷萃取,并通过气相色谱/质谱联用技术(GC/MS)对残留油进行分析。结果显示,生物刺激剂占生物降解结果总差异的 55.2%,α = 0.05 时的 P0.1。在 0.05 的显著水平下,P<0.001。结果表明,植物废弃物具有增强废油生物降解的能力。因此,尼日利亚北部产生的瓜果皮和其他植物废弃物可用于在尼日利亚南部以具有成本效益的方式安全降解废油和原油,以重新开垦土地用于农业目的。
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Biodegradation of Spent Oil in Soil Using Citrullus Colocynthis Peels and Other Plant Wastes
Spent oil, which contains hazardous substances that pose health risk to man and his environment, are disposed indiscriminately on land in most mechanic workshops. The waste oil find its way into farmland and water bodies causing contamination of water, plants and lands. The ingestion of contaminated water, plants and animals lead to serious health issues. The abilities of plant wastes such as Citrullus colocynthis peels were investigated for the enhancement of the biodegradation of spent oil in soils. Contaminated soil in microcosms, A to J, were treated with plant wastes, duplicated to give 20 microcosms and incubated for 180 days. Periodic soil sampling from each microcosm was followed by cold extraction with dichloromethane and residual oil were analysed via Gas Chromatography/ Mass Spectrometry techniques (GC/MS). The results showed that the biostimulants accounted for 55.2 % of the total variation in the biodegradation result, P<0.001 at α = 0.05. The compounds identified ranged from C10- C35. The highest molecular weight compounds were 17-Pentatriacontene, 490.93 g/mol and 1-Hexacosene, 490.93 g/mol, while the lowest was p-Menth-8(10)-en-9-ol, cis, 154.25 g/mol. The compounds with the highest and lowest area percentage, 36.04 % and 0.97 % were 9-Octadecenamide, (Z)-, and 9, 9-Dimethyl-9-sila-9,10-dihydrophenanthrene respectively. About, four alkanes, six alkene, fourteen oxygenated, five nitrogen containing- and eight aromatic- compounds were identified after biodegradation. There was no statistical significant difference between the performances of each of the stimulant in the microcosms, P>0.1 at α = 0.05. There was an extremely significant difference between the performance of the stimulated microcosms and the natural attenuation containing NaN3, with P<0.001 at 0.05 significant level. The results show that plant wastes have abilities to enhance the biodegradation of the spent oil. Hence, Citrullus colocynthis peels generated in the Northern Nigeria and other plant waste can be used for cost-effective and safe degradation of spent and crude oil in the Southern Nigeria for the reclamations of lands for agricultural purposes.
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