Figures index

From

Biodegradation of the Synthetic Pyrethroid, Fenvalerate by Pseudomonas viridiflava

A. Deborah Gnana Selvam, A.J. Thatheyus, R. Vidhya

American Journal of Microbiological Research. 2013, 1(2), 32-38 doi:10.12691/ajmr-1-2-4
  • Plate 1. Growth of P.viridiflava in minimal medium containing 500 ppm fenvalerate
  • Figure 1.Changes in pH of the Medium during the degradation of Fenvalerate by P. viridiflava in the Long Term Treatment
  • Figure 2. Changes in pH of the Medium during the Degradation of Fenvalerate by P. viridiflava in Short Term Treatment
  • Figure 3. Carbon dioxide Released during the Degradation of Fenvalerate by P. viridiflava in the Long Term Treatment
  • Figure 4.Carbon dioxide Released during the Degradation of Fenvalerate by P. viridiflava in the Short Term Treatment
  • Figure 5. Changes in Turbidity during the Degradation of Fenvalerate by P. viridiflava in the Long Term Treatment
  • Figure 6. Changes in Turbidity during the Degradation of Fenvalerate by P. viridiflava in the Short Term Treatment
  • Figure 7. Esterase Activity during the Degradation of Fenvalerate by P. viridiflava in the Long Term Treatment
  • Figure 8. Esterase Activity during the Degradation of Fenvalerate by P. viridiflava in the Short Term Treatment
  • Figure 9. HPLC analysis for 500ppm of fenvalerate
  • Figure 10. HPLC analysis for 500ppm of fenvalerate treated with Pseudomonas viridiflava (4th day)
  • Figure 11. HPLC analysis for 500ppm of fenvalerate treated with Pseudomonas viridiflava (8th day)