posted on 2020-03-25, 12:04authored byLinyun Li, Qing Wang, Wenjing Bi, Jie Hou, Yingang Xue, Daqing Mao, Ranjit Das, Yi Luo, Xiangdong Li
Landfill
and incineration are the primary disposal practices for
municipal solid waste (MSW) and have been considered as the critical
reservoir of antibiotic resistance genes (ARGs). However, the possible
transmission of ARGs from the municipal solid waste treatment system
(MSWT system) to ambient air is still unclear. In this study, we collected
inside and ambient air samples (PM10 and PM2.5) and potential source samples (leachate and solid waste) in the
MSWT system. The results showed that the MSWT system contributed to
the increased ambient airborne bacteria and associated ARGs. Forty-one
antibiotic-resistant bacteria (ARB) harboring blaTEM‑1 were isolated, and the full-length nucleotide
sequences of the blaTEM‑1 gene
(harbored by identical bacillus) from air (downwind
samples) were 100% identical with those in the leachate and solid
waste, indicating that the MSWT system was the important source of
disperse bacteria and associated ARGs in the ambient air. The daily
intake (DI) burden level of ARGs via PM inhalation was comparable
with that via ingestion of drinking water but lower than the DI level
via ingestion of raw vegetables. The antibiotic-resistant opportunistic
pathogen Bacillus cereus was isolated
from air, with a relatively high DI level of Bacillus via inhalation (104–106 copies/day)
in the MSWT system. This study highlights the key pathway of airborne
ARGs to human exposure.