Influence of ecosystematic factors on survival of Escherichia coli after large-scale release into lake water mesocosms.

Mass cultures of an Escherichia coli K-12 strain were released into exposed mesocosms in a eutrophic lake. The release was performed with and without additional input of the E. coli culture medium to stimulate the scenario of leakage of a production fermenter on one hand and to compare the influence of the added organic nutrients with that of the added strain on the other hand. The survival of the introduced strain and the influence on ecological processes in the mesocosms were monitored for 10 weeks after release. For comparison, survival of the strain in microcosms with sterile lake water was also monitored. Survival of the strain was determined by means of immunofluorescence and growth on selective agar medium. In lake mesocosms, E. coli showed a rapid and constant dieback during the first week. After 4 days, cells were mostly restricted to particles, which seemed to provide niches for survival. From the second week onward, survival was improved in mesocosms with culture medium added. In microcosms with sterile lake water, plate counts of E. coli showed a strong decrease within 2 weeks, while total cell numbers remained approximately the same. The rapid elimination of E. coli from the free-water phase of the mesocosms was probably due to the combined effect of the inability to grow in lake water and grazing. The better survival of E. coli (mainly on particles) in mesocosms with added medium was attributed to the medium-induced enhancement of primary production, which was the source of a large quantity of particles. These particles, in turn, may have functioned as niches for prolonged survival as well as transport vehicles for sedimentation of the E. coli cells.