Isolation and Characterization of Bacteria from Refinery Effluent for Degradation of Petroleum  Crude Oil in Seawater

Goveas, Louella Concepta; Krishna, Amrutha; Salian, Ananya; Menezes, J. G. A.; Alva, Melita; BR, Bharath; Sajankila, Shyama Prasad

doi:10.22207/jpam.14.1.49

Cited by 15 publications

(11 citation statements)

References 22 publications

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“…37 Multiple sample sites may be used to identify kerosene-degrading bacteria, and the chemical makeup of kerosene, which is made up of complex hydrocarbons and carbonation, allows for the growth of a diverse range of microbes with distinct metabolic pathways. 32 …”

Section: Discussionmentioning

confidence: 99%

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Kerosene Biodegradation by Highly Efficient Indigenous Bacteria Isolated From Hydrocarbon-Contaminated Sites

et al. 2023

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Kerosene is widely used in Ethiopia as a household fuel (for lighting and heating), as a solvent in paint and grease, and as a lubricant in glass cutting. It causes environmental pollution and escorts to loss of ecological functioning and health problems. Therefore, this research was designed to isolate, identify, and characterize indigenous kerosene-degrading bacteria that are effective in cleaning ecological units that have been contaminated by kerosene. Soil samples were collected from hydrocarbon-contaminated sites (flower farms, garages, and old-aged asphalt roads) and spread-plated on mineral salt medium (Bushnell Hass Mineral Salts Agar Medium: BHMS), which consists of kerosene as the only carbon source. Seven kerosene-degrading bacterial species were isolated, 2 from flower farms, 3 from garage areas, and 2 from asphalt areas. Three genera from hydrocarbon-contaminated sites were identified, including Pseudomonas, Bacillus, and Acinetobacter using biochemical characterization and the Biolog database. Growth studies in the presence of various concentrations of kerosene (1% and 3% v/v) showed that the bacterial isolates could metabolize kerosene as energy and biomass. Thereby, a gravimetric study was performed on bacterial strains that proliferated well on a BHMS medium with kerosene. Remarkably, bacterial isolates were able to degrade 5% kerosene from 57.2% to 91% in 15 days. Moreover, 2 of the most potent isolates, AUG2 and AUG1, resulted in 85% and 91% kerosene degradation, respectively, when allowed to grow on a medium containing kerosene. In addition, 16S rRNA gene analysis indicated that strain AAUG1 belonged to Bacillus tequilensis, whereas isolate AAUG showed the highest similarity to Bacillus subtilis. Therefore, these indigenous bacterial isolates have the potential to be applied for kerosene removal from hydrocarbon-contaminated sites and the development of remediation approaches.

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Section: Discussionmentioning

confidence: 99%

“…Subsequently, the extracted component was determined as the percentage of kerosene degradation as per the formula shown below. 32 …”

Section: Methodsmentioning

confidence: 99%

Kerosene Biodegradation by Highly Efficient Indigenous Bacteria Isolated From Hydrocarbon-Contaminated Sites

et al. 2023

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“…In seawater phosphorus is present in form of calcium phosphate, concentration of phosphorus and nitrogen compound depend upon temperature such as in sea water ranges from 0 to 0.7 mg/l and 0.1 to 1 mg /l respectively. If nutrient amount is not enough for biodegradation, then fertilizer is use as source of nutrient [38].…”

Section: Am J Biomed Sci and Resmentioning

confidence: 99%

Biodegradation of Petroleum Hydrocarbons and The Factors Effecting Rate of Biodegradation

Ullah

2022

AJBSR

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Petroleum hydrocarbons are classified into four major groups, saturated aromatic-ringed hydrocarbons (branched, unbranched and cyclic structures) such as polyaromatic hydrocarbons (PAHs), mono aromatic hydrocarbons (MAHs), polar oil surface structures, resins dissipated in aromatics and saturates. Biodegradation is a treatment method used to remove a wide range of contaminants, including petroleum hydrocarbon-contaminants from soil [2].

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“…This may be due to a higher reported tolerance to saturated and aromatic hydrocarbons relative to Gram-positive bacteria (Marilena Lăzăroaie, 2010 ). Recently, Pseudomonas aeruginosa WD23 isolated from petroleum refinery effluent was shown to degrade up to 27% crude oil in seawater with minimal supplementation (Goveas et al., 2020 ). However, Gram-positive bacteria may also have valorization potential.…”

Section: Other Industrial Wastesmentioning

confidence: 99%

Microbial valorization of underutilized and nonconventional waste streams

Lad

Coleman

Alper

2021

Journal of Industrial Microbiology and Biotechnology

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The growing burden of waste disposal coupled with natural resource scarcity has renewed interest in the remediation, valorization and/or repurposing of waste. Traditional approaches such as composting, anaerobic digestion, use in fertilizers or animal feed, or incineration for energy production extract very little value out of these waste streams. In contrast, waste valorization into fuels and other biochemicals via microbial fermentation is an area of growing interest. In this review, we discuss microbial valorization of nonconventional, aqueous waste streams such as food processing effluents, wastewater streams, and other industrial wastes. We categorize these waste streams as carbohydrate-rich food wastes, lipid-rich wastes, and other industrial wastes. Recent advances in microbial valorization of these nonconventional waste streams are highlighted, along with a discussion of the specific challenges and opportunities associated with impurities, nitrogen content, toxicity, and low productivity.

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Isolation and Characterization of Bacteria from Refinery Effluent for Degradation of Petroleum Crude Oil in Seawater

Cited by 15 publications

References 22 publications

Kerosene Biodegradation by Highly Efficient Indigenous Bacteria Isolated From Hydrocarbon-Contaminated Sites

Kerosene Biodegradation by Highly Efficient Indigenous Bacteria Isolated From Hydrocarbon-Contaminated Sites

Biodegradation of Petroleum Hydrocarbons and The Factors Effecting Rate of Biodegradation

Microbial valorization of underutilized and nonconventional waste streams

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