Jermaine Ritzchelle D. Marquez
Mangrove forests are indigenous to tropical as well as subtropical regions worldwide. Mangrove soil is a rich source of plastic-degrading bacteria but no local study has been done to support its potential benefits. This study was conducted to assess the suitability of an improvised nutrient medium for the isolation of plastic-degrading bacteria from mangrove soil obtained from Silonay Eco-Mangrove Reserve, Calapan City, Philippines. Forty-Two (42) Winogradsky column WC), the first 21 WC contain mineral salt medium and the remaining 21 contain sea salt medium. Plastic samples were observed for 36 days by comparing the initial and final weights. WC with mineral salt medium showed the most changes in the final plastic weight while the seawater medium Winogradsky column showed less plastic weight changes. Laboratory test showed that plastic degrading bacteria that were gram-negative were Citrobacter fruendii, Enterobacter agglomerans, Pseudomonas aeruginosa and Arizona spp. The study showed that mangrove soil in Calapan City, Oriental Mindoro is a rich source of biodegrading bacteria. The use of improvised nutrient medium solves the unavailability of expensive materials and can be used in exploring the potential use of identified bacteria for future work in biotechnology. Further studies need to be done to investigate other bacterial species aside from identified bacteria that can biodegrade plastics.