Tolerance and growth kinetics of bacteria isolated from gold and gemstone mining sites in response to heavy metal concentrations
| Autor: | O. G. Oladipo, Louwrens R. Tiedt, Jacobus Johannes Bezuidenhout, Cornelius Carlos Bezuidenhout, Obinna T. Ezeokoli, Anine Jordaan, Mark Maboeta |
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| Rok vydání: | 2018 |
| Předmět: |
0301 basic medicine
Environmental Engineering 030106 microbiology Management Monitoring Policy and Law Cell morphology Mining Pseudomonas mosselii Metal 03 medical and health sciences Bioremediation Metals Heavy RNA Ribosomal 16S Achromobacter spanius Waste Management and Disposal Bacteria biology Chemistry General Medicine Biodegradation biology.organism_classification Kinetics Cereus visual_art Bioaccumulation Environmental chemistry visual_art.visual_art_medium Gold Environmental Monitoring |
| Zdroj: | Journal of Environmental Management. 212:357-366 |
| ISSN: | 0301-4797 |
| Popis: | Response and growth kinetics of microbes in contaminated medium are useful indices for the screening and selection of tolerant species for eco-friendly bio-augmentative remediation of polluted environments. In this study, the heavy metal (HM) tolerance, bioaccumulation and growth kinetics of seven bacterial strains isolated from mining sites to 10 HMs (Cd, Hg, Ni, Al, Cr, Pb, Cu, Fe, Mn and Zn) at varied concentrations (25-600 mgL-1) were investigated. The isolates were phylogenetically (16S rRNA gene) related to Lysinibacillus macroides, Achromobacter spanius, Bacillus kochii, B. cereus, Klebsiella pneumoniae, Pseudomonas mosselii and P. nitroreducens. Metal tolerance, effects on lag phase duration and growth rates were assessed using the 96-well micro-titre method. Furthermore, metal bioaccumulation and quantities within cells were determined by transmission electron microscopy and electron dispersive x-ray analyses. Tolerance to Ni, Pb, Fe and Mn occurred at highest concentrations tested. Growth rates increased with increasing Fe concentrations, but reduced significantly (p < .05) with increasing Zn, Cu, Hg, Cd and Al. Significantly higher (p < .05) growth rates (compared to controls) was found with some isolates in Hg (25 mgL-1), Ni (100 mgL-1), Cr (150 mgL-1), Mn (600 mgL-1), Pb (100 mgL-1), Fe (600 mgL-1) and Al (50 mgL-1). Lag phase urations were isolate- and heavy metal-specific, in direct proportion to concentrations. A. spanius accumulated the most Mn and Zn, while B. cereus accumulated the most Cu. Metals accumulated intra-cellularly without cell morphology distortions. The isolates' multi-metal tolerance, intra-cellular metal bioaccumulation and growth kinetics suggest potentials for application in the synergetic biodegradation and bioremediation of polluted environments, especially HM-rich sites. |
| Databáze: | OpenAIRE |
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