1. Contrast between a mathematical model and the bioreduction process of Cr(VI) by consortia of bacteria isolated from wastewater of the Pasto River.
- Author
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Pinta-Melo, Jhonatan, Lorena Guerrero-Ceballos, Deisy, Cerón Gómez, Miller, Ibargüen Mondragón, Eduardo, Fernández-Izquierdo, Pablo, and Burbano-Rosero, Edith Mariela
- Subjects
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HEXAVALENT chromium toxicology , *SEWAGE , *MATHEMATICAL models , *PROCESS capability , *HEXAVALENT chromium , *INDUSTRIAL wastes , *MICROBIAL metabolism , *BIOREMEDIATION , *HEAVY metals - Abstract
Introduction. The versatile metabolism of microorganisms allows biodegradation of a wide variety of contaminants; however, the increasing scale of the industry exceeds its po- llutant processing capacity. Due to its high toxicity, hexavalent chromium Cr(VI) is one of the heavy metals with the greatest global dissemination and concern. There are numerous investigations focused on proposing treatments to purify the different ecosystems affected with this metal; however, knowledge about various microorganisms from the same source that could help solve this problem is restricted. Objective. To evaluate the efficiency in the reduction of Cr(VI) of bacterial consortia (B. thuringiensis, B. amyloliquefaciens and Paenibacillus sp.) in a Batch type treatment, using municipal wastewater from Río Pasto as a substrate. Methodology. A mathematical model was formulated that reliably predicted the behavior of the consortia, in relation to their growth and reduction percentage, the results of the simulations were compared with experimental data to select the consortium with the best Cr(VI) reduction results). Subsequently, its efficiency in the reduction of Cr(VI) was determined, using unsterilized residual river water as a substrate. Results. The statistical analyzes highlighted the absence of statistically significant differences in the reduction percentages between the consortia. However, with the selected culture, a reduc- tion percentage of 91% was presented in 156 hours. Conclusion. The results found in this research are promising for their application in the improvement of treatment practices for Cr(VI) bioremediation. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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