An investigation of the presence of ultramicrocells in natural mineral water.

The presence of 'ultramicrocells' in natural mineral water, capable of passing through a 0.2 micron filter, has been demonstrated. Filters allowing the greatest proportion of viable (culturable) cells to pass ranked in the order, 0.4 micron polycarbonate (5.02%) > 0.2 micron polycarbonate (0.02%) > or = 0.45 micron cellulose nitrate (0.02%) > 0.2 micron cellulose acetate (< 0.002%). Following incubation for 4 d at 22 degrees C, viable counts in filtered mineral water increased from < 2-8.7 x 10(2) cfu ml-1(-2).8 x 10(4)-1.9 x 10(6) cfu ml-1. Successive filtration/incubation cycles of mineral water increased the proportion of cells passing through a 0.2 micron cellulose acetate filter from < 0.003% to 0.11% and 0.69%, suggesting selection for 'ultramicrocells'. Cells isolated from this process and grown on liquid R2A medium were thin, Gram-negative rods, of 0.15-0.40 micron wide and 0.50-6.20 microns long. Membrane filtration techniques used for pathogen detection in mineral waters will not retain all the cells present. If pathogens are able to form ultramicrocells, these may go undetected.