Ecological significance of bacterial polyphosphate metabolism in sediments

The purpose of this study was to find theoretical evidence that bacteria, in particular those capable of polyphosphate (polyP) metabolism, are directly implicated in sediment phosphorus (P) dynamics and control P metabolism of freshwater ecosystems. The specific attributes and functional role of such bacteria were investigated on successive levels of ecological organization: individual microorganism, microbial community, freshwater ecosystem. The results of this systematic approach have been formulated as a number of hypotheses.

1. PolyP metabolism is the mechanism which enables individual polyP bacteria to survive and grow under the fluctuating redox conditions characteristic of their habitat at the sediment-water interface.
2. PolyP metabolism together with anaerobic Mn and/or Fe respiration is the mechanism that confers upon polyP bacteria the advantage required to fill a unique ecological niche within the microbial community to which they belong.
3. To the freshwater ecosystem as a whole bacterial polyP metabolism is a homeostatic mechanism which limits P availability and makes ecosystem productivity self-correcting as a function of oxygen availability. Bacterial polyP pools in the sediment are vital components of the P cycle. It was suggested that the impact of this bacterial mechanism should be tested with regard to the eutrophication issue.