Abstract

The adhesion to cellulose fibres of a strain of Pseudomonas putida isolated from a paper machine was studied under different environmental conditions. The physicochemical properties of both P. putida cells and cellulose fibres were also determined to better understand the adhesion phenomenon. Adhesion was rapid (1 min) and increased with time, cell concentration and temperature (from 25 to 40 degrees C), indicating that bacterial adhesion to cellulose fibres is essentially governed by a physicochemical process. The P. putida cell surface was negatively charged, as shown by electrophoretic mobility measurements, and was hydrophilic due to a strong electron-donor character, as shown by the microbial adhesion to solvents method. Cellulose fibres were shown to be hydrophilic by contact angle measurements using the capillary rise method. These results suggest the importance of Lewis acid-base interactions in the adhesion process. In various ionic solutions (NaCl, KCl, CaCl(2) and MgCl(2)), adhesion increased with increasing ionic strength up to 10-100 mM, indicating that, at low ionic strength, electrostatic interactions were involved in the adhesion process. An increase in the C/N ratio of the growth medium (from 5 to 90) decreased adhesion but this could not be related to changes in physicochemical properties, suggesting that other factors may be involved. In practice, temperature, ionic strength and nitrogen concentration must be taken into consideration to reduce bacterial contamination in the paper industry.

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