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Microbiological Quality of Indoor and Outdoor Air in a Municipal Wastewater Treatment Plant – A Case Study

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Wastewater treatment plants (WWTPs) have been recognized as a source of odors and microbial pathogens to the outdoor air. The results of many studies revealed that high amounts of microorganisms are not only present in the stream of wastewater or sludges but also in the bioaerosols that are generated during the different stages of the wastewater treatment. Hence, possible migration of biological contaminants into the interiors cannot be excluded. However, there is a knowledge gap in an assessment of the microbiological indoor air quality of the facilities located at WWTPs. The aim of this study was to evaluate the level of outdoor microbial air contamination upon the indoor environment based on the determined outdoor to indoor (O/I) ratios. The sampling of airborne bacteria and fungi was conducted in three replications with the sedimentation and impaction method, during a one-year survey in ten technological and office buildings as well as their vicinity, at the municipal wastewater treatment plant of Lublin (Poland). Moreover, the cleanliness of hand contact surfaces in staff rooms was examined (Rodac plates). Additionally, API identification of bacteria and fungi was carried out. The highest concentration of total bacteria count (3617 CFU/m3) and fungi in bioaerosols (5386 CFU/m3) was detected in the air around the sewage pumping station, close to the aeration tanks. P. fluorescens was found in the air around the grit chamber (78 CFU/m3). The majority of the examined indoor air samples were characterized with different levels of microbiological contamination – from non-polluted to moderately polluted. The number of total bacteria counts ranged from 180 to 4679 CFU/m3. The highest estimated indoor fungi concentration was 4022 CFU/m3. The controlled surfaces were mostly contaminated with the Actinomycetes and Coliform bacteria. No Salmonella sp. were detected. The bacteria from the Enetrobacteriaceae family were commonly isolated from the indoor and outdoor air samples. The obtained data can be used to devise further guidelines facilitating control and management of WWTP to avoid or minimize the staff exposure.
Rocznik
Strony
185--190
Opis fizyczny
Bibliogr. 20 poz., tab.
Twórcy
  • Department of Indoor and Outdoor Air Quality, Faculty of Environmental Engineering, Lublin University of Technology, ul. Nadbystrzycka 40B, 20-618 Lublin, Poland
Bibliografia
  • 1. Fathi S., Hajizadeh Y., Nikaneen M., Gorbani M. 2017. Assessment of microbial aerosol emissions in an urban wastewater treatment plant operated with activated sludge process. Aerobiologia, 33, 507–515.
  • 2. Fraccia L., Pietronave S., Rinaldi M., Martinotti M.G. 2006. Site-related airborne biological hazard and seasonal variations in two wastewater treatment plants. Water Research, 40, 1985–1994.
  • 3. Guo X., Wu P., Ding W., Zhang W. Li L. 2014. Reduction and characterization of bioaerosols in a wastewater treatment station via ventilation. Journal of Environmental Science, 26, 1575–1583.
  • 4. Han Y., Wang Y., Li L., Xu G., Liu J., Yang K. 2018. Bacterial population and chemicals in bioaerosols from indoor environment: Sludge dewatering houses in nine municipal wastewater treatment plants. Science of the Total Environment, 618, 469–478.
  • 5. Korzeniowska E., Filipkowska Z., Gotkowska-Płachta A., Janczukowicz W., Dixon B., Czułowska M. 2009. Determination of emitted air borne microorganisms from a BIO-PAK wastewater treatment plant. Water Research, 43, 2841–2851.
  • 6. Li J., Zhou L., Zhang X., Xu C., Dong L. 2016. Bioaerosol emissions and detection of airborne antibiotic resistance genes from a wastewater treatment plants. Atmospheric Environment, 12, 404–412.
  • 7. Li L., Gao M., Liu J. 2011. Distribution characterization of microbial aerosols emitted from a wastewater treatment plant using the Orbital oxidation ditch process. Process Biochemistry, 46, 910–915.
  • 8. Liu M., Nobu M., Ren J., Jin X., Hong G., Yao H. 2020. Bacterial composition in inhalable particulate matters from indoor and outdoor wastewater treatment processes. Journal of Hazardous Materials, 385, 121515.
  • 9. Lou M., Liu S., Gu C., Hu H., Tang Z., Zhang Y., Xu C., Li F. 2021. The bioaerosols emitted from toilet and wastewater treatment plant: a literature review. Environmental Science and Pollution Research, 28, 2509–2521.
  • 10. Lu R., Fredriksen M., Uhrbrand K., Li Y., Østergaard C., Madsen A.M. 2020. Wastewater treatment plant workers’ exposure and methods for risk evaluation of their exposure. Ecotoxicology and Environmental Safety, 205, 111365.
  • 11. Michałkiewicz M., Kruszelnicka I., Widomska M. 2018. The variability of the concentration of bioaerosols above the chambers of biological wastewater treatment. Ecological Chemistry and Engineering S, 25(2), 267–278.
  • 12. Niazi S., Hassanvand M.S., Mahvi A.H., Nanizadeh R., Alimohammadi M., Nabavi S. 2015. Assessment of bioaerosol contamination (bacteria and fungi) in the largest urban wastewater treatment plant in the Middle East. Environmental Science and Pollution Research, 22(20), 16014–16021.
  • 13. Polish Standard PN-89/Z-04111/02. Protection of air cleanness. Microbiological study. Enumeration of bacteria in atmospheric air during samples collection by impact and sedimentation methods.
  • 14. Polish Standard PN-89/Z-04111/03. Protection of air cleanness. Microbiological study. Enumeration of fungi in atmospheric air during samples collection by impact and sedimentation methods.
  • 15. Singh N.K., Sanghvi G., Yadav M., Padhiyar H., Thanki A. 2021. A state-of-the-art review on WWTP associated bioaerosols: Microbial diversity, potential emission stages, dispersion factors, and control strategies. Journal of Hazardous Materials, 410, 12686.
  • 16. Szylak-Szydłowski M., Kulig A., Miaśkiewicz-Pęska E. 2016. Seasonal changes in the concentrations of air borne bacteria emitted from a large wastewater treatment plant. International Biodeterioration & Biodegradation, 115, 11–16.
  • 17. Xu G., Han Y., Li L., Liu J. 2018. Characterization and source analysis of indoor/ outdoor culturable airborne bacteria in a municipal wastewater treatment plant, 74, 71–78.
  • 18. Yang K., Li L., Wang Y., Xue S., Han Y., Liu J. 2019. Airborne bacteria in a wastewater treatment plants: Emission characterization, source analysis and health risk assessment. Water Research, 149, 596–606.
  • 19. Yang T., Han Y., Liu J., Li L. 2019. Aerosols from wastewater treatment plants using oxidation ditch process: characteristics, source apportionment, and exposure risks. Environmental Pollution, 250, 627–638.
  • 20. Wang Y., Li L., Xiong R., Guo X., Liu J. 2019. Effect of aeration on microbes and intestinal bacteria in bioaerosols from the BRT of an indoor wastewater treatment facility. Science of the Total Environment, 648, 1453–1461.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4f06de1d-ff81-48fa-9f84-6b2e79efec19
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