Abstract
This study presents features of airborne culturable bacteria and fungi from three different sites (Lanzhou; LZ; 1520 m ASL, Lhasa; LS; 3640 m ASL and Qomolangma; ZF; 4276 m ASL) representing urban (LZ and LS) and remote sites (ZF) over the Tibetan Plateau (TP). Total suspended particle (TSP) samples were collected with an air sampler (Laoying 2030, China) on a quartz filter. Community structures of bacteria and fungi were studied and compared among three different locations. The average levels of bacterial load in the outdoor air ranged from approximately 8.03 × 101 to 3.25 × 102 CFU m–3 (Colony forming unit per m3). However, the average levels of fungal loads ranged from approximately 3.88 × 100 to 1.55 × 101 CFU m−3. Bacterial load was one magnitude higher at urban sites LZ (2.06 × 102–3.25 × 102 CFU m−3) and LS (1.96 × 102–3.23 × 102 CFU m−3) compared to remote sites ZF (8.03 × 101–9.54 × 101 CFU m−3). Similarly, the maximum fungal load was observed in LZ (1.02 × 101–1.55 × 101 CFU m−3) followed by LS (1.03 × 101–1.49 × 101 CFU m−3) and ZF (3.88 × 100–6.26 × 100 CFU m−3). However, the maximum microbial concentration was observed on the same day of the month, corresponding to a high dust storm in Lanzhou during the sampling period. The reported isolates were identified by phylogenetic analysis of 16S rRNA genes for bacteria and ITS sequences for fungi amplified from directly extracted DNA. Bacterial isolates were mostly associated with Proteobacteria, Eurotiomycetes and Bacillus, whereas fungal isolates were mostly Aspergillus and Alternaria. Overall, this is a pioneer study that provides information about the airborne microbial concentration and composition of three sites over the TP region depending on environmental parameters. This study provided preliminary insight to carry out more advanced and targeted analyses of bioaerosol in the sites presented in the study.
Highlights
Microorganisms in the aerosol are often considered as passive inhabitants of the atmosphere that are scattered via airborne dust particles, desert-sand and anthropogenic particles [1]
relative humidity (RH) and wind speed (WS) were comparably higher in Lhasa and Qomolangma station than Lanzhou station, except for some specific days, where the RH and WS fluctuate in Lhasa and Qomolangma station
It shows that the RH and WS at the remote Qomolangma site were higher than that at the urban site (Lanzhou and Lhasa) and vice versa for temperature and pressure
Summary
Microorganisms in the aerosol are often considered as passive inhabitants of the atmosphere that are scattered via airborne dust particles, desert-sand and anthropogenic particles [1]. Modern studies propose that many atmospheric microbes are metabolically active [2,3,4], even up to altitudes of 20,000 m [3,5]. The abundance and composition of airborne microbial groups vary across time and space [3,13,14,15,16]. The environmental conditions and factors influencing changes in microbial abundances are poorly characterized. Several studies have reported data on microbial diversity in different conditions such as season, meteorological factors and altitude [6,17,18]
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