{"title":"Assessment of bioremediation potential of <i>Stutzerimonas stutzeri NL3</i> and <i>Enterobacter cloacae NL4</i> isolates from an Algerian oilfield.","authors":"Nesrine Lenchi, Wissam Ahmedi, Salima Kebbouche-Gana","doi":"10.1080/09593330.2025.2458796","DOIUrl":null,"url":null,"abstract":"<p><p><b>ABSTRACT</b>Heavy metals (HM) and hydrocarbons rank as highly hazardous pollutants. For their remediation, it is advisable to employ eco-friendly green technologies. This study aims to evaluate the bioremediation potential of two bacterial strains isolated from oilfield and identified by 16S rRNA as <i>Stutzerimonas stutzeri NL3</i> and <i>Enterobacter cloacae</i> strain NL4. Their application to treat a polluted water sample was also tested. Within a short period of 7 days, <i>E. cloacae</i> NL4 was able to degrade 80.04% of crude oil (50%, (v/v)) under alkaline (pH 12) and halophilic (50 g/L NaCl) conditions. Whereas <i>S. stutzeri</i> NL3 degraded 77.9% of crude oil in a medium containing 50% (v/v) crude oil, 10 g L<sup>-1</sup> NaCl and pH 8. These strains can reduce 89.83% of barium and 85.65% of mercury using up to 50% petroleum as the sole carbon source. In addition, these strains were found to be resistant to 10 different HMs, tolerating high concentrations up to 50 mM. The addition of these strains to a water sample from a chemically polluted river induced a significant reduction in the concentration of different HMs such as Cr by 93.67%, Ni by 88.31%, Fe by 79.34% and others all simultaneously within a short span of 10 days. Finally, these strains were also shown to form biofilms and produce biosurfactants in response to stressful conditions as a mechanism of resistance. These promising results indicate that these bacteria could be utilized in more complex polluted environments, positioning them as strong candidates for future bioremediation endeavours.</p>","PeriodicalId":12009,"journal":{"name":"Environmental Technology","volume":" ","pages":"3168-3184"},"PeriodicalIF":2.2000,"publicationDate":"2025-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Environmental Technology","FirstCategoryId":"93","ListUrlMain":"https://doi.org/10.1080/09593330.2025.2458796","RegionNum":4,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2025/2/6 0:00:00","PubModel":"Epub","JCR":"Q3","JCRName":"ENVIRONMENTAL SCIENCES","Score":null,"Total":0}
引用次数: 0
Abstract
ABSTRACTHeavy metals (HM) and hydrocarbons rank as highly hazardous pollutants. For their remediation, it is advisable to employ eco-friendly green technologies. This study aims to evaluate the bioremediation potential of two bacterial strains isolated from oilfield and identified by 16S rRNA as Stutzerimonas stutzeri NL3 and Enterobacter cloacae strain NL4. Their application to treat a polluted water sample was also tested. Within a short period of 7 days, E. cloacae NL4 was able to degrade 80.04% of crude oil (50%, (v/v)) under alkaline (pH 12) and halophilic (50 g/L NaCl) conditions. Whereas S. stutzeri NL3 degraded 77.9% of crude oil in a medium containing 50% (v/v) crude oil, 10 g L-1 NaCl and pH 8. These strains can reduce 89.83% of barium and 85.65% of mercury using up to 50% petroleum as the sole carbon source. In addition, these strains were found to be resistant to 10 different HMs, tolerating high concentrations up to 50 mM. The addition of these strains to a water sample from a chemically polluted river induced a significant reduction in the concentration of different HMs such as Cr by 93.67%, Ni by 88.31%, Fe by 79.34% and others all simultaneously within a short span of 10 days. Finally, these strains were also shown to form biofilms and produce biosurfactants in response to stressful conditions as a mechanism of resistance. These promising results indicate that these bacteria could be utilized in more complex polluted environments, positioning them as strong candidates for future bioremediation endeavours.
期刊介绍:
Environmental Technology is a leading journal for the rapid publication of science and technology papers on a wide range of topics in applied environmental studies, from environmental engineering to environmental biotechnology, the circular economy, municipal and industrial wastewater management, drinking-water treatment, air- and water-pollution control, solid-waste management, industrial hygiene and associated technologies.
Environmental Technology is intended to provide rapid publication of new developments in environmental technology. The journal has an international readership with a broad scientific base. Contributions will be accepted from scientists and engineers in industry, government and universities. Accepted manuscripts are generally published within four months.
Please note that Environmental Technology does not publish any review papers unless for a specified special issue which is decided by the Editor. Please do submit your review papers to our sister journal Environmental Technology Reviews at http://www.tandfonline.com/toc/tetr20/current
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