Occurrence and distribution of plankton-associated and free-living toxigenic Vibrio cholerae in a tropical estuary of a cholera endemic zone

Cholera epidemics are thought to be influenced by changes in populations of estuarine Vibrio cholerae. We investigated the abundance and distribution of this bacterium, as ??free-living?? (<20???m fraction) and associated with microphytoplankton (>20???m) or zooplankton (>60???m), in the Karnaphuli estuary of Bangladesh during pre- and post-monsoon seasons. Cultivable Vibrio populations were ~10²?C10⁴ colony forming units (CFU) ml^?1 in the high saline zone (19?C23 practical salinity unit, PSU) and declined in freshwater (<10¹?CFU?ml^?1). Culture independent detection of toxigenic V. cholerae O1 and O139 serogroups revealed a higher abundance of ??free-living?? (10⁴?C10⁵ cells?l^?1) than those attached to plankton (10¹?C10³ cells?l^?1). However, ??free-living?? O1 and O139 cells were sometimes absent in the medium saline and freshwater areas (0.0?C11 practical salinity unit [PSU]). In contrast, plankton samples always harbored these serogroups despite changes in salinity and other physico-chemical properties. Microphytoplankton and zooplankton were dominated by diatoms and blue-green algae, and copepods and rotifers, respectively. Toxigenic V. cholerae abundance did not correlate with plankton abundance or species but had a positive correlation with chitin in the <20???m fraction, where suspended particulate matter (SPM), V. cholerae and chitin concentrations were highest. C:N ratios indicated that organic matter in SPM originated predominantly from plankton. The differential occurrence of ??free-living?? and attached V. cholerae suggests a pivotal function of plankton in V. cholerae spreading into freshwater areas. The probable association of this pathogen with organisms and particles in the nanoplankton (<20???m) fraction requires validation of the concept of the ??free living?? state of V. cholerae in aquatic habitats.