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Optimization studies on biodegradation of atrazine by Bacillus badius ABP6 strain using response surface methodology

Hina Khatoon, J.P.N. Rai

2020Biotechnology Reports66 citationsDOIOpen Access PDF

Abstract

In this study, the optimization of distinctive environmental factors such as pH, temperature, agitation-speed and atrazine-concentration on atrazine degradation by utilizing Bacillus badius ABP6 strain, has been done through response-surface-methodology (RSM). The optimum-conditions after analysis for the maximum atrazine degradation were: pH 7.05, temperature 30.4 °C, agitation-speed 145.7 rpm, and atrazine-concentration 200.9 ppm. The prescribed model was approved for high F-value (95.92), very low P-value (<0.01) and non- significant lack of fit (0.1627). It was observed that under the optimized-conditions, the R2 value of regression models for all the response variables was 0.9897 and the maximum atrazine degradation i.e. 89.7 % was found. Finally for graphical representation, the validated optimum-conditions of variables and responses were simulated using three dimensional plots (3D). The confirmation of the model is successful to suggest the optimization parameters of atrazine degradation under in-situ condition by bacterial isolate employing response-surface-methodology optimization tool of Design expert software (new version 10.0.1).

Topics & Concepts

AtrazineResponse surface methodologyDegradation (telecommunications)BiodegradationStrain (injury)MathematicsEnvironmental scienceChemistryBiologyPesticideStatisticsComputer scienceAgronomyEcologyTelecommunicationsAnatomyPesticide and Herbicide Environmental StudiesPharmaceutical and Antibiotic Environmental ImpactsInsect Resistance and Genetics
Optimization studies on biodegradation of atrazine by Bacillus badius ABP6 strain using response surface methodology | Litcius