The development of bacterial communities in drinking water distribution systems leads to a food chain which supports the growth of macroorganisms incompatible with water quality requirements and esthetics, Nevertheless, very few studies have examined the microbial communities in drinking water distribution systems and their trophic relationships. This study was done to quantify the microbial communities (especially bacteria and protozoa) and obtain direct and indirect proof of protozoan feeding on bacteria in two distribution networks, one of GAC water (i.e., water filtered on granular activated carbon) and the other of nanofiltered water. The nanofiltered water-supplied network contained no organisms larger than bacteria, either in the water phase (on average, 5 x 10(7) bacterial cells liter(-1)) or in the biofilm (on average, 7 x 10(6) bacterial cells cm(-2)). No protozoa were detected in the whole nanofiltered water-supplied network (water plus biofilm), In contrast, the GAC water-supplied network contained bacteria (on average, 3 x 10(8) cells liter(-1) in water and 4 x 10(7) cells cm(-2) in biofilm) and protozoa (on average, 10(5) cells liter(-1) in water and 10(3) cells cm(-2) in biofilm), The water contained mostly flagellates (93%), ciliates (1.8%), thecamoebae (1.6%), and naked amoebae (1.1%). The biofilm had only ciliates (52%) and thecamoebae (48%), Only the ciliates at the solid-liquid interface of the GAC water-supplied network had a measurable grazing activity in laboratory test (estimated at 2 bacteria per ciliate per h), Protozoan ingestion of bacteria was indirectly shown by adding Escherichia coli to the experimental distribution systems, Unexpectedly, E, coli was lost from the GAC water-supplied network more rapidly than from the nanofiltered water-supplied network, perhaps because of the grazing activity of protozoa in GAC water but not in nanofiltered water, Thus, the GAC water-supplied network contained a functional ecosystem with well-established and structured microbial communities, while the nanofiltered water-supplied system did not, The presence of protozoa in drinking water distribution systems must not be neglected because these populations may regulate the autochthonous and allochthonous bacterial populations.
