The effect of heavy metals on biodegradation of carbofuran by microbial strain enriched from Agricultural areas
mustapha, M., Halimoon, N. (2022). The effect of heavy metals on biodegradation of carbofuran by microbial strain enriched from Agricultural areas. EKB Journal Management System, 18(1), 71-77. doi: 10.21608/ajbs.2022.251286
mohammed Umar mustapha; Normala Halimoon. "The effect of heavy metals on biodegradation of carbofuran by microbial strain enriched from Agricultural areas". EKB Journal Management System, 18, 1, 2022, 71-77. doi: 10.21608/ajbs.2022.251286
mustapha, M., Halimoon, N. (2022). 'The effect of heavy metals on biodegradation of carbofuran by microbial strain enriched from Agricultural areas', EKB Journal Management System, 18(1), pp. 71-77. doi: 10.21608/ajbs.2022.251286
mustapha, M., Halimoon, N. The effect of heavy metals on biodegradation of carbofuran by microbial strain enriched from Agricultural areas. EKB Journal Management System, 2022; 18(1): 71-77. doi: 10.21608/ajbs.2022.251286

The effect of heavy metals on biodegradation of carbofuran by microbial strain enriched from Agricultural areas

African Journal of Biological Sciences
Article 6, Volume 18, Issue 1, June 2022, Page 71-77  XML PDF (540.61 K)
Document Type: Original Article
DOI: 10.21608/ajbs.2022.251286
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Authors
mohammed Umar mustapha email 1; Normala Halimoon2
1NO. 001 BUKAR MELE STREET SABON PEGI DAMATURU
2Department of Environmental Sciences, Faculty of Environmental Studies, Universiti Putra Malaysia, 43400 UPM Serdang, Malaysia
Abstract
The effect of heavy metals on the degradation of carbofuran by immobilized bacterial cells was checked by culturing in the MSM medium at 37oC in the presence of 0-1 mg/L of heavy metals. Bioremediation systems represent a biologically sustainable means to degrading organic pollutants such as carbofuran insecticide, with little energy demand and operational expenses in addition to high efficiency and substrate specificity. Nonetheless, heavy metals present in the agricultural lands may thwart the process efficiency by poisoning carbofuran-degrading microbial isolates. Therefore, we experimentally tested the tolerance of carbofuran-degrading immobilizedbacterial isolated from vegetable plantation area for mercury (Hg) and copper (Cu). The results indicated that the tested metals inhibited carbofuran biodegradation to different extents, depending on concentration. At pH 7.0 and 37°C, complete inhibition of carbofuran biodegradation by Hg occurred at 0.4, 0.5, 0.6 and 0.7 mg/L. Lower concentrations of these metals decreased the rate of carbofuran− biodegradation, with relatively long lag times. Interestingly, the immobilize isolate tolerated higher concentrations, although both the rate and extent of carbofuran− biodegradation were affected.
Keywords
Metal toxicity; metal tolerance; Carbofuran; Biodegradation
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