Biostimulation of Petroleum-Contaminated Soil Using Organic and Inorganic Amendments

Udume, Ogochukwu Ann; Abu, Gideon O.; Stanley, H. O.; Vincent-Akpu, Ijeoma Favour; Momoh, Yusuf; Eze, Michael O.

doi:10.3390/plants12030431

Cited by 30 publications

(11 citation statements)

References 74 publications

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“…Soil pollution with petroleum-derived products causes disorders in soil metabolism [ 116 ], which need to be considered from the perspective of sustainable development [ 100 ], health of soil and plants [ 29 , 33 , 34 , 96 ] and the feasibility of homeostasis restoration in the ecosystem [ 117 , 118 ]. For these reasons, it is essential to determine the activity of soil enzymes in real time when establishing soil quality [ 19 , 75 , 76 , 102 , 119 , 120 ].…”

Section: Discussionmentioning

confidence: 99%

The Usability of Sorbents in Restoring Enzymatic Activity in Soils Polluted with Petroleum-Derived Products

et al. 2023

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Due to their ability to adsorb or absorb chemical pollutants, including organic compounds, sorbents are increasingly used in the reclamation of soils subjected to their pressure, which results from their high potential in eliminating xenobiotics. The precise optimization of the reclamation process is required, focused primarily on restoring the condition of the soil. This research are essential for seeking materials sufficiently potent to accelerate the remediation process and for expanding knowledge related to biochemical transformations that lead to the neutralization of these pollutants. The goal of this study was to determine and compare the sensitivity of soil enzymes to petroleum-derived products in soil sown with Zea mays, remediated using four sorbents. The study was conducted in a pot experiment, with loamy sand (LS) and sandy loam (SL) polluted with VERVA diesel oil (DO) and VERVA 98 petrol (P). Soil samples were collected from arable lands, and the effects of the tested pollutants were compared with those used as control uncontaminated soil samples in terms of Zea mays biomass and the activity of seven enzymes in the soil. The following sorbents were applied to mitigate DO and P effects on the test plants and enzymatic activity: molecular sieve (M), expanded clay (E), sepiolite (S), and Ikasorb (I). Both DO and P exerted a toxic effect on Zea mays, with DO more strongly disturbing its growth and development and the activities of soil enzymes than P. In sandy clay (SL), P was found to be a significant inhibitor of dehydrogenases (Deh), catalase (Cat), urease (Ure), alkaline phosphatase (Pal), and arylsulfatase (Aryl) activities, while DO stimulated the activity of all enzymes in this soil. The study results suggest that the sorbents tested, mainlya molecular sieve, may be useful in remediating DO-polluted soils, especially when alleviating the effects of these pollutants in soils of lower agronomic value.

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Section: Discussionmentioning

confidence: 99%

The Usability of Sorbents in Restoring Enzymatic Activity in Soils Polluted with Petroleum-Derived Products

et al. 2023

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“…Numerous studies have been conducted on pepper fertilization technology, demonstrating that the application of organic fertilizer, microbial agents, or a combination of reduced chemical fertilizer and organic fertilizer can promote the growth and development of pepper fruits, enhance their quality, and improve overall yield and e ciency (Wen et al 2020; Udume et al 2023).…”

Section: Introductionmentioning

confidence: 99%

Effects of exogenous self-made active humic acid manure on physical and chemical properties and soil bacteria of continuous cropping obstacle soil in Capsicum annuum L

Deng,

Yan

et al. 2023

Preprint

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Aims Capsicum annuum L. is a widely cultivated horticultural crop known for its pungent varieties and culinary significance. However, the production of chili pepper has been hindered by soil continuous cropping obstacles. Methods In this study, we investigated the potential of differential fertilizer application, specifically the combination of homemade humic acid organic fertilizer, compound fertilizer, and Bacillus subtilis, in improving soil conditions and microbial activity to alleviate the soil continuous cropping obstacles in chili pepper cultivation. The experiment focused on evaluating the effects of the differential fertilizer application on soil physicochemical properties, including electrical conductivity and enzyme activities (urease, hydrogen peroxide, phosphatase, and sucrase), as well as cation exchange capacity. Additionally, the microbial community in the soil was also examined. Results The application of the differential fertilizer significantly improved soil conditions. The electrical conductivity was reduced, indicating a decrease in soil salinity. Enzyme activities, such as urease, hydrogen peroxide, phosphatase, and sucrase, exhibited increased levels, suggesting enhanced nutrient cycling and availability. Moreover, the cation exchange capacity was unaffected by the differential fertilizer application. Microbial analysis revealed positive changes in the soil microbial community, indicating a potential improvement in soil health. Conclusions These findings highlight the effectiveness of the differential fertilizer application, consisting of homemade humic acid organic fertilizer, compound fertilizer, and Bacillus subtilis, in mitigating soil continuous cropping obstacles in chili pepper cultivation. The improved soil conditions and enhanced microbial activity contribute to the sustainability and productivity of chili pepper production.

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“…Generally, bioaugmentation and biostimulation are the most common techniques worldwide for the bioremediation of petroleum hydrocarbon-contaminated soils performed in situ or ex situ. Bioaugmentation is the intentional supplementation of contaminant-specific degrading microorganisms in contaminated soil to increase the biodegradation rate [ 6 , 7 , 8 ]. Biostimulation involves the addition of nutrients or fertilizers (amendments) to stimulate the growth and the metabolic and degradative activities of microorganisms present in contaminated soils (indigenous microbes) since there is generally a scarcity of nitrogen and phosphorus in the contaminated sites, limiting the availability of these nutrients for the survival of the contaminant-degrading microorganisms [ 8 ].…”

Section: Introductionmentioning

confidence: 99%

“…Although bioaugmentation has shown more favorable results than biostimulation, it has also been reported that biostimulation shows better results than bioaugmentation when performed using ideal conditions of temperature, pH, and concentration, among other parameters [ 4 , 8 , 9 ]. Organic and inorganic fertilizers are nutrients used in the biostimulation technique.…”

Section: Introductionmentioning

confidence: 99%

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Bioremediation of Automotive Residual Oil-Contaminated Soils by Biostimulation with Enzymes, Surfactant, and Vermicompost

Sánchez Mata,

Aguilera Flores,

Ureño García

et al. 2023

IJERPH

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Contamination of soils by automotive residual oil represents a global environmental problem. Bioremediation is the technology most suitable to remove this contaminant from the medium. Therefore, this work aimed to evaluate the effectiveness of bioremediation of automotive residual oil-contaminated soils by biostimulation with enzymes, surfactant, and vermicompost. The bioremediation efficiency was examined using a factorial design of 24 to determine the effect of the time, pH and temperature conditions, biostimulation with enzyme-vermicompost, and biostimulation with enzyme-surfactant. Enzymes obtained from Ricinus communis L. seeds, commercial vermicompost, and Triton X-100 were used. Results showed that the highest removal efficiency (99.9%) was achieved at 49 days, with a pH of 4.5, temperature of 37 °C, and using biostimulation with enzyme-vermicompost (3% w/v–5% w/w). The addition of surfactant was not significant in increasing the removal efficiency. Therefore, the results provide adequate conditions to bioremediate automotive residual oil-contaminated soils by biostimulation using enzymes supported with vermicompost.

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Biostimulation of Petroleum-Contaminated Soil Using Organic and Inorganic Amendments

Cited by 30 publications

References 74 publications

The Usability of Sorbents in Restoring Enzymatic Activity in Soils Polluted with Petroleum-Derived Products

The Usability of Sorbents in Restoring Enzymatic Activity in Soils Polluted with Petroleum-Derived Products

Effects of exogenous self-made active humic acid manure on physical and chemical properties and soil bacteria of continuous cropping obstacle soil in Capsicum annuum L

Bioremediation of Automotive Residual Oil-Contaminated Soils by Biostimulation with Enzymes, Surfactant, and Vermicompost

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