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PRINT ISSN : 2319-7692
Online ISSN : 2319-7706 Issues : 12 per year Publisher : Excellent Publishers Email : editorijcmas@gmail.com / submit@ijcmas.com Editor-in-chief: Dr.M.Prakash Index Copernicus ICV 2018: 95.39 NAAS RATING 2020: 5.38 |
In the present investigation results showed a different mixture of bacteria with pesticides at 25 ppm Sa.bongori and S.aureus removing pesticides 64.8% for Atrazine, 74.4% for Diazinon and 75.7% for Pirimicarb , As for E.coli and S.aureus It showed on Atrazine 66.8%, Diazinon 76.3% and Pirimicarb 77.7%. Also E.coli and Sa.bongori resulted in 60.5% removal of atrazine, 72.7% for Diazinon and 49.7% for pirimicarb. When the three species of bacteria were mixed together, their combined effect was 83.4% for Pirimicarb bioremediation 82.0% for Diazinon and 69.1% for Atrazine.when comparing the growth rate of bacterial cells, The mixture was E.coli and Sa.bongori 31.52 × 104 to increase in Diazinon and Pirimicarb 32.01 × 104, Pirimicarb and atrazine 32.23 ×104, Diazinon and atrazine 31.98 × 104 mixture of three pesticides 40.54 × 104. Also mixture S.aureus and Sa.bongori Before treatment 22.86 × to become after in Diazinon and Pirimicarb 37.32 × , Pirimicarb and atrazine 44.13 ×, Diazinon and atrazine 35.68 × 104 mixture of three pesticides 43.65 × 104, Finally, the mixture recorded all bacteria growth from 34.12 ×104 To grow in Diazinon and Pirimicarb 51.18×104, Pirimicarb and atrazine 40.54 ×104, Diazinon and atrazine 45.38×104 mixture of three pesticides 52.36×104. This method has demonstrated that mixing bacterial species on biological treatment of pesticides increases the speed of the process as each bacterium completes the work of the other, which contributes to the removal of pesticides, and can be used safely in the process of pesticide removal, however more research is needed on safety, mechanisms and mobility.