Influence of Spent Lubricating Oil Spiked Compost on Microbial Counts and Hydrocarbon Degradation Rate in Soils

Biotechnology Journal International Pub Date : 2023-06-15 DOI:10.9734/bji/2023/v27i4687

M. Ntekpe, M. Ekpo, U. Ndubuisi-Nnaji, E. O. Mbong, E. Ntino

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Abstract

This study evaluated the influence of organic fertilizers produced from spent lubricating oil (SLO) spiked aerobic composting technique on hydrocarbon degradation rate in soils. The compost windrows (Ft2 and Ft4), consisting of kitchen and agricultural wastes, were spiked with varying concentrations (2% and 4%) of SLO. The resultant organic fertilizers were employed as amendment in pollution simulated potted soils laid out in a complete randomized block design with three replications for 90 days. Results revealed higher counts of hydrocarbon utilizing microbes (HUB: 4.2±0.02×104cfu/g in Ft2, 3.0±0.02×104cfu/g in Ft4; HUF: 3.9±0.2×104cfu/g in Ft2, 2.5±0.02×104cfu/g in Ft4) in spiked compost compared to the control, Ft0 (HUB: 7.9±0.02×103cfu/g; HUF: 6.0±0.2×103cfu/g). Mean count in amended soils reflected a dose-dependent increase which followed the trend: Ft2 ˃ Ft0 ˃ Ft4 for the 5% (3.7×108 cfu/g), 10% (9.2×107 cfu/g) and 15% (6.9×107 cfu/g) levels of fertilizer treatments respectively. There was a significant (P<0.05) reduction in the TPH content of soils after 90days treatment with organic fertilizers. Generally, remediation efficiency followed the order: Ft2 ˃ Ft0 ˃ Ft4, with the highest (11.51%) achieved at 5% Ft2 application. Spiking technique was responsible for the higher counts of hydrocarbon utilizing microbes and enhanced bioremediation associated with the use of fertilizers Ft2.

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废润滑油加标堆肥对土壤微生物数量和碳氢化合物降解速率的影响

研究了废润滑油加标好氧堆肥技术生产的有机肥对土壤中碳氢化合物降解速率的影响。由厨房和农业废弃物组成的堆肥窗口(Ft2和Ft4)被添加了不同浓度(2%和4%)的SLO。采用完全随机区组设计，3个重复，连续90 d，将所合成的有机肥作为污染模拟盆栽土壤的改良剂。结果表明，利用烃微生物的数量较高(Ft2的HUB: 4.2±0.02×104cfu/g, Ft4的HUB: 3.0±0.02×104cfu/g;与对照相比，加标堆肥的HUF: Ft2为3.9±0.2×104cfu/g, Ft4为2.5±0.02×104cfu/g) (HUB: 7.9±0.02×103cfu/g;霍夫:6.0±0.2×103 cfu / g)。在5% (3.7×108 cfu/g)、10% (9.2×107 cfu/g)和15% (6.9×107 cfu/g)的施肥水平下，改良土壤的平均计数分别呈现出Ft2、Ft0、Ft4的剂量依赖性增长趋势。施用有机肥90d后，土壤TPH含量显著(P<0.05)降低。总体而言，修复效率依次为:Ft2→Ft0→Ft4，在5%的Ft2用量下，修复效率最高，达到11.51%。穗化技术是利用微生物的较高碳氢化合物计数和与使用肥料Ft2相关的增强生物修复的原因。

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Biotechnology Journal International

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