UNLABELLED: The scale of plastic pollution boggles the mind. Nearly 400 megatons of virgin plastics are produced annually, with an environmental release rate of 80%, and plastic waste, including microplastics and nanoplastics, is associated with a plethora of problems. The naturally evolved abilities of plastic-degrading microbes offer a starting point for generating sustainable and eco-centric solutions to plastic pollution-a field of endeavor we term eco-microbiology. Here, we developed an iterative discovery procedure coupling faster polyethylene terephthalate (PET)-dependent bioactivity screens with longer-term PET biodegradation assays to find biochemical boosters of PET consumption by the bacterium IMPORTANCE: Plastic pollution is an urgent issue. Adding to the well-known problems of bulk plastic litter, shed microplastics and nanoplastics are globally distributed, found in diverse organisms including human foodstuffs and tissues, and increasingly associated with chronic disease. Solutions are needed and the microbial world offers abundant help via naturally evolved consumers of plastic waste. We are working to accelerate polyethylene terephthalate (PET) plastic biodegradation by