Bacterial aerosol emission rates from municipal wastewater aeration tanks

Sawyer, Bernard; Elenbogen, G; Rao, Krishna C.; O’Brien, Peter; Zenz, David R.; Lue‐Hing, Cecil

doi:10.1128/aem.59.10.3183-3186.1993

Cited by 28 publications

(8 citation statements)

References 4 publications

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“…The upwind sites were located about 100 m upwind of the plants to collect a background (ambient) air sample for bacterial analysis. These samples were used as a check to ensure that no unusually high levels of bacteria were being blown across the sampling area (Sawyer et al 1993). The downwind sites monitored the air flow coming from the treatment locations and were located in a range of 50-100 m from the plants.…”

Section: Samplingmentioning

confidence: 99%

The assessment of airborne bacterial contamination in three composting plants revealed site-related biological hazard and seasonal variations

et al. 2006

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Aims: The purpose of this study was to evaluate the degree of bacterial contamination generated by three Italian composting plants (1, 2 and 3) in two different seasons and to assess the health risk for the employees. Methods and Results: Aerosols samples were collected with an agar impact sampler. Several plant sites and external upwind and downwind controls were examined. Total colony‐forming counts of mesophilic and thermophilic bacteria, actinomycetes and streptomycetes, Gram‐negatives, coliforms and sulfite‐reducers were determined. Selective media were used in order to isolate pathogenic bacteria. The levels of total mesophilic and thermophilic micro‐organisms ranged between 33 and >40 000 CFU m−3 in plant 1, 39 and 18 700 CFU m−3 in plant 2 and 261 and 6278 CFU m−3 in plant 3. Strains of Escherichia coli, Staphylococcus aureus and Clostridium perfringens were also found. Conclusions: The plants monitored in this study have proved to be sources of aerosolized bacteria. The activities involving mechanical movement of the composting mass and the indoor activities were of greatest potential risk. In all the studied plants, a statistically significant dependence was found between the bacterial contamination and the season for some or almost all the analysed parameters, but a clear seasonal trend could not be observed. Significance and Impact of the Study: This study provides broad evidence of bacterial aerosol dispersion and site‐related biological hazards that may be useful to the regional government to implement regulations on worker safety in composting plants.

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Section: Samplingmentioning

confidence: 99%

The assessment of airborne bacterial contamination in three composting plants revealed site-related biological hazard and seasonal variations

et al. 2006

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“…Results supported the use of SBR technology for the removal of indicator organisms and treatment of domestic wastewater. Emissions of total coliforms, fecal coliforms, fecal streptococci, and standard plate count bacteria were measured in aerosols from the aeration basin at a municipal wastewater treatment plant (Sawyer et al, 1993). Two methods, a conventional volumetric method and an empirical method, were used to calculate the bacterial emission rate.…”

Section: Process Microbiologymentioning

confidence: 99%

Activated sludge and other aerobic suspended culture processes

Aitken¹,

Heck²,

Alvarez‐Cohen³

et al. 1994

Water Environment Research

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“…In the case of sanitation-related pathogens -where primary exposure is generally ingestion rather than inhalation -studies in high-risk, extramural (outdoor) settings in the USA and in other highincome countries have revealed that bioaerosols containing enteric microbes are common near point sources of concentrated fecal waste. Studies have primarily focused on ambient air surrounding wastewater treatment plants [32][33][34][35][36][37][38][39][40][41][42][43] and in the context of land application of biosolids [44][45][46][47][48][49][50][51][52][53][54] ; several studies have examined bioaerosols surrounding composting facilities 55,56 , meat markets 57 , impacted urban sites [58][59][60][61][62][63] , and concentrated animal feeding operations [64][65][66] .…”

Section: Introductionmentioning

confidence: 99%

“…Studies in high-risk, extramural (outdoor) settings in the USA and in other high-income countries have revealed that bioaerosols containing enteric microbes are common where concentrated fecal waste and one or more mechanisms for aerosolization exist. Enteric microbes in aerosols have been best characterized in ambient air surrounding wastewater treatment plants 27–37 and in the context of land application of biosolids 38–48 ; several studies have examined bioaerosols surrounding composting facilities 49,50 , meat markets 51 , urban areas 52–54 , and concentrated animal feeding operations 55–57 . The majority of such studies are based on detection of fecal indicator bacteria including members of the coliform group 54,58 , partly because the presence of important enteric pathogens is unexpected outside high-burden settings.…”

Section: Introductionmentioning

confidence: 99%

Detection and quantification of enteric pathogens in aerosols near open wastewater canals in cities with poor sanitation

Ginn

Rocha-Melogno

Bivins

et al. 2021

Preprint

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Urban sanitation infrastructure is inadequate in many low-income countries, leading to the presence of highly concentrated, uncontained fecal waste streams in densely populated areas. Combined with mechanisms of aerosolization, airborne transport of enteric microbes and their genetic material is possible in such settings but remains poorly characterized. We detected and quantified enteric pathogen-associated gene targets in aerosol samples near open wastewater canals (OWCs) or impacted surface waters and control sites in La Paz, Bolivia; Kanpur, India; and Atlanta, USA via multiplex qPCR (37 targets) and ddPCR (13 targets). We detected a wide range enteric pathogen-specific targets, some not previously reported in extramural urban aerosols, with more frequent detections of all enteric targets at higher densities in La Paz and Kanpur near OWCs. We report density estimates ranging from non-detects to 4.7 x 102 gc per m3air for targets including ST-ETEC, C. jejuni, EIEC/Shigella spp., Salmonella spp., norovirus, and Cryptosporidium spp. An estimated 25%, 76%, and 0% of samples containing positive pathogen detects were accompanied by culturable E. coli in La Paz, Kanpur, and Atlanta, respectively, suggesting potential for viability of enteric microbes at the point of sampling. Airborne transmission of enteric pathogens merits further investigation in cities with poor sanitation.

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Bacterial aerosol emission rates from municipal wastewater aeration tanks

Cited by 28 publications

References 4 publications

The assessment of airborne bacterial contamination in three composting plants revealed site-related biological hazard and seasonal variations

The assessment of airborne bacterial contamination in three composting plants revealed site-related biological hazard and seasonal variations

Activated sludge and other aerobic suspended culture processes

Detection and quantification of enteric pathogens in aerosols near open wastewater canals in cities with poor sanitation

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