Diversity of culturable aerobic bacteria colonizing four petroleum by-products storage reservoirs

Saiuml,; Hamed, Said Ben; Gam, Zouhaier Ben Ali; Rezgui, Raja; Ghram, Abdeljelil; Maaroufi, Abderrazak; Labat, Marc

doi:10.5897/ajmr12.1586

Cited by 2 publications

(1 citation statement)

References 25 publications

(26 reference statements)

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“…The transitions are accompanied with reaction changes both in the contaminated soil without any preparation as well as after adding it, what may be caused by the metabolic microorganisms activity (Krzyśko-Łupicka et al 2013, Rosik-Dulewska et al 2015 The vulnerability of n-alkanes on biodegradation depends on the chemical structure of hydrocarbons and their molecular mass; hydrocarbons degradation of the chains length C10-C22 takes place in the fastest way and the other groups characterized by high hydrophobicity are disintegrated in a much more difficult way (Dindar et al 2013;Hamed et al 2013). In our research, we have shown that the bioremediation stimulation with Fyre-Zyme preparation and with calcium carbonate was 084 p = ---p = 0.623 p = 0.991 p = 0.276 p = 0.916 Content of n-alkanes C 0.377 1.000 0.556 0.855 0.562 p = 0.623 p = ---p = 0.444 p = 0.145 p = 0.438 Content of n-alkanes FZ 0.009 0.556 1.000 0.609 0.997* p = 0.991 p = 0.444 p = ---p = 0.391 p = 0.003 Content of n-alkanes Ca 0.724 0.856 0.609 1.000 0.652 p = 0.276 p = 0.145 p = 0.391 p = ---p = 0.348 Content of n-alkanes FZ+Ca 0.084 0.562 0.997* 0.652 1.000 p = 0.916 p = 0.438 p = 0.003 p = 0.348 p = ---*Shown correlation significant at the level p < 0.05 leading to a decrease of long-chain hydrocarbons content (C28, C36, and C38).…”

Section: Resultsmentioning

confidence: 99%

The Influence of Stimulation Techniques on the Microbiological Changes and n-Alkane Transitions in the Soil Contaminated of Petroleum-Derived Substances

Konieczny

Krzyśko–Łupicka

2019

Water Air Soil Pollut

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Removal of petroleum products from contaminated soil is a long-term process requiring attention and constant monitoring. The aim of this study was to determine the effect of Fyre-Zyme enzyme preparation and/or calcium carbonate on microbiological changes and conversion of n-aliphatic hydrocarbons in soil contaminated of petroleum-derived substances. The material for testing was soil contaminated with petroleum substances. The total concentration of n-alkanes with a C8-C40 chain length was 420.1 mg•kg −1 DM. The pot tests were carried out by introducing stimulators. As a decomposition promoter for n-alkanes in contaminated soil, a 6% water solution of Fyre-Zyme and/or 1% sterile CaCO 3 was used. The pots were incubated at 25°C for 21 days. The dynamics of changes in the microbiota and concentration of n-alkanes were controlled for 21 days, every 7 days taking soil for testing. Microbiological tests included determining the total number of bacteria and fungi. Chemical analysis was performed by chromatographic method. Stimulating of soil bioremediation of contaminated hydrocarbons with calcium carbonate increased the number of bacteria, and stimulation with Fyre-Zyme and calcium carbonate-the number of filamentous fungi. There was no significant correlation between the concentration of n-alkanes in the soil and the total number of bacteria and fungi but stimulating of soil bioremediation with calcium carbonate increased the number of bacteria, and stimulation with Fyre-Zyme and calcium carbonate-the number of filamentous fungi. The observed correlations indicate that the concentration of n-alkanes in the contaminated soil increases with the addition of Fyre-Zyme.

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Section: Resultsmentioning

confidence: 99%

The Influence of Stimulation Techniques on the Microbiological Changes and n-Alkane Transitions in the Soil Contaminated of Petroleum-Derived Substances

Konieczny

Krzyśko–Łupicka

2019

Water Air Soil Pollut

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Isolation and characterization of petroleum product emulsifying Pseudomonas strains from a generating set fuel tank

Lebonguy¹,

Goma-Tchimbakala²,

Miambi³

et al. 2017

Afr. J. Microbiol. Res.

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This study characterized microbial strains isolated from diesel fuel samples collected from the tank of a generating set at the Institute of Research for Development in Pointe-Noire (Congo). Two bacterial isolates (G2 and G3) were distinguished by their color on agar plates and were characterized by their API 20E biochemical profiles and by 16S rRNA gene sequencing. The phenotypic properties of these isolates were consistent with their assignment to the genus Pseudomonas. Comparative 16S rRNA gene sequence analysis demonstrated that the G2 and G3 isolates were close relatives of P. aeruginosa strain GIM 32 and P. aeruginosa strain NV2, respectively, with 97% sequence identity. These two P. aeruginosa strains were able to grow in a mineral salt medium supplemented with 2% diesel fuel or SAE 90 gear oil as the only source of carbon. P. aeruginosa G3 showed faster growth and was able to emulsify diesel fuel (53%), gasoline (90%) and hexane (95%) more strongly than P. aeruginosa G2.

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Diversity of culturable aerobic bacteria colonizing four petroleum by-products storage reservoirs

Cited by 2 publications

References 25 publications

The Influence of Stimulation Techniques on the Microbiological Changes and n-Alkane Transitions in the Soil Contaminated of Petroleum-Derived Substances

The Influence of Stimulation Techniques on the Microbiological Changes and n-Alkane Transitions in the Soil Contaminated of Petroleum-Derived Substances

Isolation and characterization of petroleum product emulsifying Pseudomonas strains from a generating set fuel tank

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