Characteristics, non-carcinogenic risk assessment and prediction by HYSPLIT of bioaerosol released from Hospital and Municipal Sewage, China

Bioaerosol is a new type of pollutant, which is related to the spread of many diseases. In particular, the bioaerosol produced in the hospital sewage treatment process contains many pathogenic bacteria, which will impact patients and surrounding residents. In this study, the biochemical tank (BRT) o...

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Published inEcotoxicology and environmental safety Vol. 246; p. 114131
Main Authors Wang, Yanjie, Zhang, Song, Hong, Qing, Song, Huiling, Yang, Liying, Yang, Kai, Xu, Hui, Yu, Fangfang
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.11.2022
Elsevier
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Summary:Bioaerosol is a new type of pollutant, which is related to the spread of many diseases. In particular, the bioaerosol produced in the hospital sewage treatment process contains many pathogenic bacteria, which will impact patients and surrounding residents. In this study, the biochemical tank (BRT) of the hospital sewage treatment station (HSTS) and municipal wastewater treatment plant (MWTP) were used as sampling points. The results showed that the concentration of bacteria (1843 CFU/m3) in bioaerosol produced by BRT of HSTS was higher than that in the air at BRT of MWTP (1278 CFU/m3). The proportion of small-size bacteria (<3.3 µm) in the air of HSTS and MWTP was similar. However, the abundance of small-size pathogenic bacteria in HSTS was higher than that in MWTP, such as Acinetobacter and Arcobacter. The dominant bacteria in HSTS and MWTP were different under different particle sizes. The dominant bacterial genera of bioaerosol in HSTS under different particle sizes were similar (Acinetobacter, Arcobacter, Comamonas); There were significant differences in the dominant bacterial genera of bioaerosol in MWTP under different particle sizes. The dominant strains with particle sizes ranging from 0 ∼ 0.43 µm were Acinetobacter (23.22%). Kocuria (15.13%) accounted for a relatively high proportion in the aerosol of 0.43 µm ∼ 0.65 µm. The dominant strains with particle sizes of 0.65 µm ∼ 1.1 µm and 1.1 µm ∼ 2.1 µm were relatively single, and Exiguobacterium and Paenibacillus accounted for 51.51% and 60.15%, respectively. Source tracker showed that most of the pathogenic bacteria in bioaerosols came from sewage. One hour later, the concentration of particulate matter in the place 200 m away from BRT of HSTS (1 × 10−10 mg/m3) was higher than that in MWTP (1 × 10−11 mg/m3). The hazard quotient (HQ) of people around HSTS (HQmale: 1.70 × 10−1; HQfemale: 1.36 × 10−1) was higher than that of MWTP (HQmale: 1.18 × 10−1; HQfemale: 9.40 × 10−2). Pathogenic bacteria (Acinetobacter, Arcobacter) were detected in HSTS and MWTP and the BugBase phenotype prediction results showed potential pathogenicity. More attention should be paid to the protection of the people. It is suggested to strengthen the air sterilization treatment near HSTS according to the diffusion trajectory of bioaerosol, and the surrounding personnel should wear N95 and other protective masks. [Display omitted] •Hospital sewage produced more bioaerosols.•Proportion of small particles in BRT of HSTS and MWTP was similar.•Bioaerosol on each particle size in HSTS contained pathogenic bacteria.•Sewage was the main source of bioaerosol.•Bioaerosol emitted from HSTS diffused range larger and might have a higher risk.
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ISSN:0147-6513
1090-2414
DOI:10.1016/j.ecoenv.2022.114131