Abstract
In order to study the potential impact of the soil microarthropod Onychiurus fimatus (Collembola) on the microbial community, we analysed the fate of luciferase marker gene tagged bacterial strains fed to young adult specimens in petri dish microcosm experiments. In faeces collected from O. fimatus, Escherichia coli S17-1/pRP4luc and Sinorhizobium meliloti L33 were only detectable for 2 days after feeding whereas strain HR2/pRP4luc, a close relative of Stenotrophomonas maltophilia, isolated from another collembolan species, could be detected for 16 days. The amount of shed cells of strain HR2 increased during the frequent releases of the cast-off skins (exuvia). In order to analyse whether gut associated bacteria could serve as recipients for mobile genetic elements, plasmid-bearing E. coli donor strains were incubated with faeces in filter mating-like experiments and, in other experiments, directly fed to O. fimatus specimens. Transconjugants were obtained with both the conjugative self-transferable broad host range plasmid pRP4luc and the mobilisable (Mob(+)) broad host range plasmid pSUP104luc, the latter, however, only with a mobilising donor strain. No transfer was detected with the narrow host range plasmids pSUP202luc (Mob(+)), pUC18luc (Mob(-)), or with the broad host range transposon delivery plasmid pUTluxCDABE (Mob(+)). Transconjugants of pRP4luc were detected within one day of the beginning of a feeding experiment and then throughout the incubation period of two weeks, with gaps of no detection after 5, 12 and 14 days, probably caused by moulting. The results of this study indicate that feeding activities of collembola can modify the structure of soil-inhabiting microbial communities and enhance the spread of plasmids from non-indigenous to indigenous soil bacteria.
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