Back to Search Start Over

Microbiomes of China's Space Station During Assembly, Integration, and Test Operations.

Authors :
Zhang, Ying
Zhang, Lan-tao
Li, Zhi-dong
Xin, Cong-xin
Li, Xiao-qiong
Wang, Xiang
Deng, Yu-lin
Source :
Microbial Ecology. Oct2019, Vol. 78 Issue 3, p631-650. 20p.
Publication Year :
2019

Abstract

Sufficient evidence indicates that orbiting space stations contain diverse microbial populations, which may threaten astronaut health and equipment reliability. Understanding the composition of microbial communities in space stations will facilitate further development of targeted biological safety prevention and maintenance practices. Therefore, this study systematically investigated the microbial community of China's Space Station (CSS). Air and surface samples from 46 sites on the CSS and Assembly Integration and Test (AIT) center were collected, from which 40 bacteria strains were isolated and identified. Most isolates were cold- and desiccation-resistant and adapted to oligotrophic conditions. Bacillus was the dominant bacterial genus detected by both cultivation-based and Illumina MiSeq amplicon sequencing methods. Microbial contamination on the CSS was correlated with encapsulation staff activities. Analysis by spread plate and qPCR revealed that the CSS surface contained 2.24 × 103–5.47 × 103 CFU/100 cm2 culturable bacteria and 9.32 × 105–5.64 × 106 16S rRNA gene copies/100cm2; BacLight™ analysis revealed that the viable/total bacterial cell ratio was 1.98–13.28%. This is the first study to provide important systematic insights into the microbiome of the CSS during assembly that describes the pre-launch microbial diversity of the space station. Our findings revealed the following. (1) Bacillus strains and staff activities should be considered major concerns for future biological safety. (2) Autotrophic and multi-resistant microbial communities were widespread in the AIT environment. Although harsh cleaning methods reduced the number of microorganisms, stress-resistant strains were not completely removed. (3) Sampling, storage and analytical methods for the space station were thoroughly optimized, and are expected to be applicable to low-biomass environments in general. Microbiology-related future works will follow up to comprehensively understand the changing characteristics of microbial communities in CSS. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00953628
Volume :
78
Issue :
3
Database :
Academic Search Index
Journal :
Microbial Ecology
Publication Type :
Academic Journal
Accession number :
138612263
Full Text :
https://doi.org/10.1007/s00248-019-01344-4