Abstract:
Rubber waste management plays an important role to deal with high production and
consumption of rubber. The main constituents of natural rubber is cis 1,4-polyisoprene. It is
relatively resistant to microbial decomposition compared with many other natural polymers.
The aim of study was to evaluate the potential effects of the Bacillus cereus, Enterobacter sp.
and Enterobacter ludwigii on natural rubber latex degradation. Aliquots of 100 ml mineral
salt medium were prepared and latex was spiked at different concentrations to make final
dilutions at 1: 10,000, 1: 15,000. Each isolates were separately inoculated (3% v/v) to each
dilution and incubated at 120 rpm for 12 days. Pour plate method was performed to confirm
the resistance of bacteria against to latex. The amount of CO2 liberation was determined
during the cultivation of cells in mineral salt medium and the released CO2 was trapped by
1M NaOH. Quantification of CO2 was performed by titrimetric method. The liberation of
CO2 was gradually increased and reached at 8.67, 9.78 and 10.31• ppm for E. ludwigii, B. cerells and Enterobacter sp. respectively. CO2 liberation was not detected in control. Based on the calculation adapted to the present study, 100% of latex degradation of latex by released CO2 value should equal to 12.5 ppm. The present study showed that Bicereus, E. ludwigii and Enterobacter sp. have harber gene which can produce enzyme to
degrade latex and future studies are needed to elucidate the degradation mechanism.