Assessment of the role of a terrestrial isopod in the survival of a genetically modified pseudomonad and its detection using the polymerase chain reaction

Abstract The effects of a terrestrial isopod, Porcellio scaber , on the survival of a genetically modified pseudomonad were studied. Pseudomonas fluorescens KTG was inoculated onto ash leaf litter and supplied to populations of P. scaber . Plate counts were lower in fresh faeces than the ash leaf litter for P. fluorescens KTG, and higher counts were detected in the faeces for the total bacterial population. When faeces were aged by incubation for up to 7 days at 15–17°C, plate counts for P. fluorescens KTG increased during the first day to a level similar to those in the corresponding ash leaf litter, and remained relatively constant thereafter. The total bacterial population in the faeces continued to increase steadily over the 7 days, whilst remaining at a constant level in the ash leaf litter during the same period. Counts of bacteria in faecal material showed that P. fluorescens KTG was present for 6 days after the isopods had fed on inoculated litter although transit times of food through the gut were as little as 5 h. The implications for GEMMO dispersal of bacterial retention in the gut is considered. The polymerase chain reaction was utilised in the detection of the inserted DNA. Positive amplification of the inserted DNA sequence of P. fluorescens KTG was achieved in ash leaf litter, fresh faeces, and faeces from animal which were supplied uninoculated litter for one day after feeding on the inoculated litter. However, plate counts were more sensitive than the polymerase chain reaction in detecting P. fluorescens KTG in the faeces. Our findings suggest that when the GEMMO is ingested by the woodlouse it can survive within the guts and faeces. This has implications for risk assessment of genetically modified bacteria in terrestrial environments.