The goal of this study was to evaluate if a magnetic water treatment device could be used to mitigate biofilms in water systems. Magnetic treatment was applied to water upstream of a modified Robbins device in which Pseudomonas fluorescence biofilms were formed. Duration of magnetic treatment, system flow rate, and field strength were varied to assess the impacts on the biofilm. A control system was concurrently established in which no magnetic treatment was applied. After treatment, the number of viable cells in the biofilm was reduced by up to 2.46 log10 CFU cm-2 depending on the operational conditions. Increased cell stress, and ultimately death, was observed during treatment as indicated by an elevated AMPi stress index. These results indicate that magnetic water treatment may be an effective technology to decrease the extent of biofilms in water systems and a reduced need for chemical treatment. A mechanism is proposed in which metabolic processes are hindered due to the magnetic field effects on ions in the water. However, a mechanistic investigation remains outside the scope of this study. Future studies should aim to characterize both the impacts of treatment on the matrix and cellular processes to determine a mechanism for the observed effects.
Keywords: Magnetic water treatment; Pseudomonas fluorescence; biofilm removal; disinfection; water treatment.
Magnetic water treatment reduced the number of viable bacterial cells present in biofilms by 2.46 log10 CFU/cm2 after 15 days of treatment.Magnetically treated water results in increased cellular stress as indicated by the ratio of AMP/ATP in bacteria.Removal of sessile cells from biofilms occurred without the direct interaction between the magnetic field and the biofilms.