Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria

Despite the important role of petroleum hydrocarbons as energy resources, contamination of petroleum hydrocarbons and their products has caused significant harm to the environment, and hence increasing attention has been paid toward remediation of these contaminants. A study was carried out on biore...

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Main Authors: Dadrasnia, Arezoo, Maikudi Usman, Mohammed, Tzin Lim, Kang, Farahiyah, Fairuz Hanani, Mohd Rodzhan, Nur Syazwani, Abdul Karim, Sofwah Hayati, Ismail, Salmah
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Published: Taylor & Francis 2020
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Online Access:http://eprints.um.edu.my/36815/
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Institution: Universiti Malaya
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spelling my.um.eprints.368152023-10-04T08:07:02Z http://eprints.um.edu.my/36815/ Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria Dadrasnia, Arezoo Maikudi Usman, Mohammed Tzin Lim, Kang Farahiyah, Fairuz Hanani Mohd Rodzhan, Nur Syazwani Abdul Karim, Sofwah Hayati Ismail, Salmah QD Chemistry Despite the important role of petroleum hydrocarbons as energy resources, contamination of petroleum hydrocarbons and their products has caused significant harm to the environment, and hence increasing attention has been paid toward remediation of these contaminants. A study was carried out on bioremediation of soil contaminated with diesel fuel (DF) and waste lubricating oil (WLO) using the bacterial strain Bacillus salmalaya 139SI, isolated in Malaysia and identified by 16s RNA sequencing. The colony count was examined, and the seed germination toxicity test was carried out using seeds of Vigna sesquipedalis. For WLO-polluted soil, a maximum total petroleum hydrocarbon degradation of 89% was recorded on day 50 in the soil treated with 20% B. salmalaya, whereas 79% was recorded on day 60 in the soil treated with 20% B. salmalaya for DF-polluted soil. The positive correlation between increasing bacterial count and petroleum hydrocarbon degradation percentage suggested a prominent contribution of biosurfactant in degrading the WLO and DF present in the soil. The seed germination toxicity test performed using V. sesquipedalis seed recorded 80% germination on treatments with 20% B. salmalaya in soil polluted with both WLO and DF. The results obtained from this work indicated the potential applicability of B. salmalaya strain 139SI in bioremediation of soil polluted with petroleum hydrocarbons. Taylor & Francis 2020-03 Article PeerReviewed Dadrasnia, Arezoo and Maikudi Usman, Mohammed and Tzin Lim, Kang and Farahiyah, Fairuz Hanani and Mohd Rodzhan, Nur Syazwani and Abdul Karim, Sofwah Hayati and Ismail, Salmah (2020) Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria. Polycyclic Aromatic Compounds, 40 (2). pp. 484-493. ISSN 1040-6638, DOI https://doi.org/10.1080/10406638.2018.1454966 <https://doi.org/10.1080/10406638.2018.1454966>. 10.1080/10406638.2018.1454966
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic QD Chemistry
spellingShingle QD Chemistry
Dadrasnia, Arezoo
Maikudi Usman, Mohammed
Tzin Lim, Kang
Farahiyah, Fairuz Hanani
Mohd Rodzhan, Nur Syazwani
Abdul Karim, Sofwah Hayati
Ismail, Salmah
Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria
description Despite the important role of petroleum hydrocarbons as energy resources, contamination of petroleum hydrocarbons and their products has caused significant harm to the environment, and hence increasing attention has been paid toward remediation of these contaminants. A study was carried out on bioremediation of soil contaminated with diesel fuel (DF) and waste lubricating oil (WLO) using the bacterial strain Bacillus salmalaya 139SI, isolated in Malaysia and identified by 16s RNA sequencing. The colony count was examined, and the seed germination toxicity test was carried out using seeds of Vigna sesquipedalis. For WLO-polluted soil, a maximum total petroleum hydrocarbon degradation of 89% was recorded on day 50 in the soil treated with 20% B. salmalaya, whereas 79% was recorded on day 60 in the soil treated with 20% B. salmalaya for DF-polluted soil. The positive correlation between increasing bacterial count and petroleum hydrocarbon degradation percentage suggested a prominent contribution of biosurfactant in degrading the WLO and DF present in the soil. The seed germination toxicity test performed using V. sesquipedalis seed recorded 80% germination on treatments with 20% B. salmalaya in soil polluted with both WLO and DF. The results obtained from this work indicated the potential applicability of B. salmalaya strain 139SI in bioremediation of soil polluted with petroleum hydrocarbons.
format Article
author Dadrasnia, Arezoo
Maikudi Usman, Mohammed
Tzin Lim, Kang
Farahiyah, Fairuz Hanani
Mohd Rodzhan, Nur Syazwani
Abdul Karim, Sofwah Hayati
Ismail, Salmah
author_facet Dadrasnia, Arezoo
Maikudi Usman, Mohammed
Tzin Lim, Kang
Farahiyah, Fairuz Hanani
Mohd Rodzhan, Nur Syazwani
Abdul Karim, Sofwah Hayati
Ismail, Salmah
author_sort Dadrasnia, Arezoo
title Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria
title_short Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria
title_full Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria
title_fullStr Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria
title_full_unstemmed Bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria
title_sort bio-enhancement of petroleum hydrocarbon polluted soil using newly isolated bacteria
publisher Taylor & Francis
publishDate 2020
url http://eprints.um.edu.my/36815/
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