Certain microorganisms especially bacteria and fungi are able to use xenobiotic organic compounds as their carbon and
nitrogen source for metabolism. Flower farms around lake Naivasha basin uses several agrochemicals especially pesticides
to control pests and improve flower production. The aim of this study was to isolate and characterize morphologically and
biochemically the main bacterial species that are able to grow and tolerate the pesticide contaminated farm soils. Soil samples
were collected from randomly selected five greenhouses from each five flower farms namely Crescent, Elsamere, Karuturi,
Malewa and Sewage farms around Lake Naivasha basin. The collected samples were processed for bacterial isolation using
the nutrient agar, mac’ Conkey agar, blood agar, Luria-Bertani and Minimum Salt Media nutrient media. The conventional
methods of swabbing and streaking were used. Pure colonies of isolates organisms were identified and characterized using
standard microbiological technique. Morphological, cultural and biochemical characterization of bacterial species isolated
from the flower farm soil samples identified mainly Pseudomonas auriginosa, Escherichia coli, Rhodococcus erythropolis and
Bacillus subtilis species. Bacterial growth in pesticide consortia was quantified by monitoring colony growth of the species in
liquid culture over time. The viable cell counts were determined turbidimetrically at O.D696nm. All the isolated bacterial species
were able to grow in flower farm soil contaminated with organochloride and organophosphate pesticide residues. B. subtilis
recorded the highest growth at 1.77±0.07 O.D696nm in pesticide mixture consortia. There was lower growth in organochloride
pesticide consortia as compared to organophosphate pesticide consortia.
Isolation and characterization of entomopathogenic bacteria from soil samples from the western region of Cuba
