Isfahan University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share this content! On (X network) By
Influence of Meteorological Parameters and Pm2.5 on the Level of Culturable Airborne Bacteria and Fungi in Abadan, Iran Publisher



Keishams F1 ; Goudarzi G2 ; Hajizadeh Y3 ; Hashemzadeh M4 ; Teiri H3
Authors
Show Affiliations
Authors Affiliations
  1. 1. Student Research Center, Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran
  2. 2. Department of Environmental Health Engineering, Ahvaz Jondishapur University of Medical Sciences, Ahvaz, Iran
  3. 3. Department of Environmental Health Engineering, Environment Research Center, Research Institute for Primordial Prevention of Non-Communicable Disease, Isfahan University of Medical Sciences, Isfahan, Iran
  4. 4. Department of Microbiology, Ahvaz Jondishapur University of Medical Sciences, Ahvaz, Iran

Source: Aerobiologia Published:2022


Abstract

In recent years, monitoring of airborne bacteria and fungi concentrations has obtained increasing universal attraction not only for influences on ecological balance but also for evaluating their public health consequences. In this study, we aimed to investigate culturable airborne bacteria and fungi levels in different sites of Abadan, and their association with meteorological parameters and PM2.5 levels. Abadan is one of the most industrialized cities in the southwest of Iran where over the current decade has experienced lots of dust storm episodes. In total, 400 air samples were collected in 6 months (autumn and winter) using a single-stage viable Andersen cascade impactor for sampling airborne bacteria and fungi and portable DustTrak Aerosol Monitor 8520 for measuring PM2.5 concentrations and meteorological parameters. Microbial concentrations showed a significant difference between various sites over the study period with averages of 569.57 ± 312.64 and 482.73 ± 242.86 CFU/M3 for bacteria and fungi, respectively. The air temperature had a significant effect on the concentration of both airborne bacteria and fungi. A significant positive correlation between relative humidity and fungi but no correlation between relative humidity and bacteria concentrations were observed. The average airborne PM2.5 concentrations of all sites among the study period was 93.24 ± 116.72 μg/m3. The atmospheric bacterial and fungal communities were strongly positively correlated with the ambient PM2.5 level. The levels of airborne bacteria and fungi along with PM2.5 in the air of the city were relatively higher than the recommended levels. Therefore, the best course of action is needed to control emission sources. Further studies are also needed to evaluate the clinical analysis of the health effects of exposure to these pollutants. © 2022, The Author(s), under exclusive licence to Springer Nature B.V.
Related Docs
View other Related Docs
1. Characterizing Bioaerosols in Pm2.5 in a Semi-Arid Region Experiencing Desert Dust Events, Frontiers in Environmental Science (2023)
2. Spatiotemporal Variation of Ambient Bioaerosols in a Large and Industrialized Metropolis of Iran and Their Association With Pm2.5 and Meteorological Factors, Aerobiologia (2021)
3. Seasonal Variation in Culturable Bioaerosols in a Wastewater Treatment Plant, Aerosol and Air Quality Research (2018)
4. Pm2.5-Associated Bacteria in Ambient Air: Is Pm2.5 Exposure Associated With the Acquisition of Community-Acquired Staphylococcal Infections?, Journal of Environmental Health Science and Engineering (2020)
5. Evaluation of Bioaerosols Concentration in Indoor and Outdoor Air of Kindergartens and Schools During Winter 2016 in Andimeshk, Iran, Journal of Health System Research (2020)
6. Assessment of Airborne Particles in Indoor Environments: Applicability of Particle Counting for Prediction of Bioaerosol Concentrations, Aerosol and Air Quality Research (2016)
7. Airborne Fungi in Isfahan and Evaluation of Allergenic Responses of Their Extracts in Animal Model, Jundishapur Journal of Microbiology (2010)
8. Incidence of Airborne Fungi in Isfahan, Iran: Haufigkeits‐Untersuchungen Zum Pilz‐Luftplankton in Isfahan, Iran, Mycoses (1993)
Experts (# of related papers)
View all Related Experts
Yaghoub Hajizadeh (11)
Mahnaz Nikaeen (10)
Other Related Docs
9. Characteristics and Assessing Biological Risks of Airborne Bacteria in Waste Sorting Plant, Ecotoxicology and Environmental Safety (2022)
10. An Investigation on Bio-Aerosol Concentrations in the Different Wards of Hospitals of Isfahan University of Medical Sciences, Journal of Isfahan Medical School (2011)
11. Spatial Patterns and Temporal Variations of Traffic-Related Air Pollutants and Estimating Its Health Effects in Isfahan City, Iran, Journal of Environmental Health Science and Engineering (2021)
12. Concentrations and Mortality Due to Short- and Long-Term Exposure to Pm2.5 in a Megacity of Iran (2014–2019), Environmental Science and Pollution Research (2020)
13. Evaluation of Bio-Aerosols Concentration in the Different Wards of Three Educational Hospitals in Iran, International Journal of Environmental Health Engineering (2012)
14. Pollution Characteristics and Noncarcinogenic Risk Assessment of Fungal Bioaerosol in Different Processing Units of Waste Paper and Cardboard Recycling Factory, Toxin Reviews (2021)
15. Spatial and Temporal Variations of Pm2.5 Concentration and Air Quality in Isfahan City in 2016, Journal of Environmental Health and Sustainable Development (2019)
16. Indoor Contaminants From Hardcopy Devices: Characteristics of Vocs in Photocopy Centers, Atmospheric Environment (2012)
17. Assessment of Indoor and Outdoor Airborne Fungi in an Educational, Research and Treatment Center, Italian Journal of Medicine (2017)
18. Assessment of Indoor and Outdoor Particulate Matters in Residential Areas: The Effects of Climatic Conditions and Building Characteristics, Environmental Engineering and Management Journal (2021)
19. Analyzing the Health Risk Assessment of Particles in Isfahan Steel Company by Aermod Model, Journal of Air Pollution and Health (2021)
20. A Framework for Exploration and Cleaning of Environmental Data – Tehran Air Quality Data Experience, Archives of Iranian Medicine (2014)
21. Health Impacts and Burden of Disease Attributed to Long-Term Exposure to Atmospheric Pm10/Pm2.5 in Karaj, Iran: Effect of Meteorological Factors, International Journal of Environmental Analytical Chemistry (2022)
22. Bioaerosol Emissions Arising During Application of Municipal Solid-Waste Compost, Aerobiologia (2009)
23. Characteristics and Health Effects of Particulate Matter Emitted From a Waste Sorting Plant, Waste Management (2022)
24. Investigating Air Pollutant Trends Based on Temporal Air Quality Indexes in Karaj, Iran, During 2012 - 2018, International Journal of Environmental Health Engineering (2023)
25. Assessment of Seasonal Variation of Microbial Aerosol and Gaseous Emissions From Wastewater Treatment Plant of Morche Khort Industrial Town, Journal of Environmental Health and Sustainable Development (2022)
26. Effects of Particle Size, Seasonal Variation, and Acid Aging on the Oxidative Potential of Urban and Industrial Airborne Pm in Isfahan Metropolis, Iran, Environmental Pollution (2025)
27. Relation of Air Pollution With Epidemiology of Respiratory Diseases in Isfahan, Iran From 2005 to 2009, Journal of Research in Medical Sciences (2013)
28. Monitoring of Airborne Bacteria and Aerosols in Different Wards of Hospitals - Particle Counting Usefulness in Investigation of Airborne Bacteria, Annals of Agricultural and Environmental Medicine (2015)
29. Atmospheric Pollutants in an Iranian Industrial Metropolis: Spatiotemporal Analyses Associated With Health Risks and Photochemical Pollutions, Iranian Journal of Toxicology (2023)
30. Outdoor Investigation of Air Quality Around Bandar Abbas Iran Oil Refinery, International Journal of Environmental Health Engineering (2012)
31. A Review of Different Phytoremediation Methods and Critical Factors for Purification of Common Indoor Air Pollutants: An Approach With Sensitive Analysis, Air Quality, Atmosphere and Health (2022)
32. Multi-Elemental Characterization of Pm0.4–0.7 and Pm1.1–2.1 in the Ambient Air of Isfahan (Iran) Complemented by the Speciation of Mn and Cr Using Sr-Xanes, Aerosol Science and Engineering (2020)
33. Assessment of Air Quality Index and Health Impact of Pm10, Pm2.5 and So2 in Yazd, Iran, Journal of Mazandaran University of Medical Sciences (2015)
34. Assessment of Microbial Aerosol Emissions in an Urban Wastewater Treatment Plant Operated With Activated Sludge Process, Aerobiologia (2017)
35. Risk of Morbidity Attributed to Ambient Pm10 in the Western Cities of Iran, Toxin Reviews (2018)
36. National and Sub-National Exposure to Ambient Fine Particulate Matter (Pm2.5) and Its Attributable Burden of Disease in Iran From 1990 to 2016, Environmental Pollution (2019)
37. Land Use Regression Models to Estimate the Annual and Seasonal Spatial Variability of Sulfur Dioxide and Particulate Matter in Tehran, Iran, Science of the Total Environment (2014)
38. Spatiotemporal Modeling of Airborne Fine Particulate Matter Distribution in Isfahan, International Journal of Environmental Health Engineering (2020)