Airborne Legionella bacteria from pulp waste treatment plant: aerosol particles characterized as aggregates and their potential hazard

In response to reported outbreaks of Legionnaires' disease near a biological waste treatment plant, Legionella-containing aerosols were characterized at this location. Culturable bacteria-containing particles were assessed with slit-to-agar samplers and liquid impingement. Results showed that the air at this location contained a higher level of airborne Legionella particles compared to that of a control clean location 90 km away. On average, about 1 of 50 culturable particles contained Legionella (2%). The median particle size was estimated to 3.5 mu m permitting an estimation of a maximum about 147 Legionella cells per aggregate. This implies that in < 11 h, a human under such conditions (worse-case), may inhale an estimated lethal dose of individual Legionella cells (1,000 cells, 100% alveolar retained deposition level). Additionally, 44 taxonomically different airborne bacterial genera were measured at the treatment plant using denaturing gradient-gel electrophoresis (DGGE) and 16S rDNA analysis of air samples. Of these, 64% of the genera were not detected at the clean location. Our findings suggest that the treatment facility may emit respirable particles, as complex aggregates, containing a mixture of several Legionella cells and other bacterial cells. These findings can potentially have an impact on assessing environmental risk exposure and health hazard prediction modeling.