BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOIL
This study assessed the effect of cattle dung (CD) enhanced with fungi isolated from spent engine oil (SEO)-polluted soil on Lead (Pb) decontamination. Twenty plastic bottles containing 20 g of soil each were prepared with varying weights of CD and volumes of fungal isolates in potato dextrose broth...
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Zibeline International
2023-05-01
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| Series: | Science Heritage Journal |
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| Online Access: | https://jscienceheritage.com/archives/1gws2023/1gws2023-18-23.pdf |
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| author | Adeniyi Olarewaju Adeleye Abubakar Ibrahim Michael Edet Nkereuwem Peter Gimba Shiaka Mohammed Bello Yerima |
| author_facet | Adeniyi Olarewaju Adeleye Abubakar Ibrahim Michael Edet Nkereuwem Peter Gimba Shiaka Mohammed Bello Yerima |
| author_sort | Adeniyi Olarewaju Adeleye |
| collection | DOAJ |
| description | This study assessed the effect of cattle dung (CD) enhanced with fungi isolated from spent engine oil (SEO)-polluted soil on Lead (Pb) decontamination. Twenty plastic bottles containing 20 g of soil each were prepared with varying weights of CD and volumes of fungal isolates in potato dextrose broth each. The mixture was incubated at room temperature. It was a 4 x 2 factorial experiment. Atomic absorption spectrophotometer was employed to determine Pb decontamination of the bio-enhanced fungal consortium in the 2nd, 4th and 6th week of incubation. At the 2nd week, there was no significant (p> 0.05) difference between the addition of 10 g of CD (0.1750 mg/kg) and 15 g of CD (0.1750 mg/kg). At the 6th week, the lowest concentration (0.0400 mg/kg) of Pb was recorded with the addition of 20 g of CD and inoculation with fungal isolate (15 mL). Fungi bio-enhanced with CD influenced decontamination of Pb in SEO-contaminated soils in this study. |
| format | Article |
| id | doaj-art-efbbab6ce5c443f79a32a162f1f03565 |
| institution | Kabale University |
| issn | 2521-0858 2521-0866 |
| language | English |
| publishDate | 2023-05-01 |
| publisher | Zibeline International |
| record_format | Article |
| series | Science Heritage Journal |
| spelling | doaj-art-efbbab6ce5c443f79a32a162f1f035652025-01-27T08:16:33ZengZibeline InternationalScience Heritage Journal2521-08582521-08662023-05-0171182310.26480/gws.01.2023.18.23BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOILAdeniyi Olarewaju Adeleye0Abubakar Ibrahim1Michael Edet Nkereuwem2Peter Gimba Shiaka3Mohammed Bello Yerima4Department of Environmental Sciences, Faculty of Sciences, Federal University Dutse, Jigawa StateDepartment of Environmental Sciences, Faculty of Sciences, Federal University Dutse, Jigawa State.Department of Soil Science, Federal University Dutse, NigeriaDepartment of Microbiology and Biotechnology, Federal University Dutse, Jigawa StateDepartment of Microbiology, Sokoto State University, Sokoto, Sokoto StateThis study assessed the effect of cattle dung (CD) enhanced with fungi isolated from spent engine oil (SEO)-polluted soil on Lead (Pb) decontamination. Twenty plastic bottles containing 20 g of soil each were prepared with varying weights of CD and volumes of fungal isolates in potato dextrose broth each. The mixture was incubated at room temperature. It was a 4 x 2 factorial experiment. Atomic absorption spectrophotometer was employed to determine Pb decontamination of the bio-enhanced fungal consortium in the 2nd, 4th and 6th week of incubation. At the 2nd week, there was no significant (p> 0.05) difference between the addition of 10 g of CD (0.1750 mg/kg) and 15 g of CD (0.1750 mg/kg). At the 6th week, the lowest concentration (0.0400 mg/kg) of Pb was recorded with the addition of 20 g of CD and inoculation with fungal isolate (15 mL). Fungi bio-enhanced with CD influenced decontamination of Pb in SEO-contaminated soils in this study.https://jscienceheritage.com/archives/1gws2023/1gws2023-18-23.pdfbioremediationbioenhancementfungal consortiumsoillead pollution |
| spellingShingle | Adeniyi Olarewaju Adeleye Abubakar Ibrahim Michael Edet Nkereuwem Peter Gimba Shiaka Mohammed Bello Yerima BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOIL Science Heritage Journal bioremediation bioenhancement fungal consortium soil lead pollution |
| title | BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOIL |
| title_full | BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOIL |
| title_fullStr | BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOIL |
| title_full_unstemmed | BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOIL |
| title_short | BIOSTIMULATORY EFFECT OF CATTLE DUNG ON LEAD DECONTAMINATION POTENTIAL OF INDIGENOUS FUNGAL POPULATION ISOLATED FROM SPENT ENGINE OIL-POLLUTED SOIL |
| title_sort | biostimulatory effect of cattle dung on lead decontamination potential of indigenous fungal population isolated from spent engine oil polluted soil |
| topic | bioremediation bioenhancement fungal consortium soil lead pollution |
| url | https://jscienceheritage.com/archives/1gws2023/1gws2023-18-23.pdf |
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