Abstract

  Time series analysis of heterotrophic bacterial viable counts on agar plates incubated at 20° and 4°C from weekly river water samples for 1 year has revealed a periodicity of 6 to 7 weeks in the total numbers. A cycle of increase and decrease in the counts which could not be attributed to season, river water temperature, pH, and flow rate has been observed in the heterotrophic bacteria which were isolated from river water samples. Spectral analysis has demonstrated a hidden periodicity in population increase and decrease which could not be detected by examination of the raw count data. Fluctuations with periodicity could imply that this is the expected behaviour in a well-balanced ecosystem.
  Pseudomonas fluorescens, the predominant species isolated from a river water sample which was at O°C at the time of sampling, utilized two different pathways at 5° and 30°C. In addition, 2-ketogluconate, a product of the utilization of glucose, was utilized by the same organism. Fluctuations in enzymic responses could contribute to the overall periodicity in bacterial numbers. The flexibility in bacterial metabolism would serve to maintain P. fluorescens in the predominant flora. A feature which sustains health in this ecosystem, P. fluorescens, is one of the most successful of all biodegraders in the aquatic system.

Keywords: time series analysis, ecology, aquatic bacteria, metabolic regulation