image: Picture taken at one of the sites inspected in the hyperarid core of the Atacama Desert. Note the Petri plates with different growing media shining with the sun light at the right. view more
Credit: Professor Carlos González-Silva
Microbial life on Mars may potentially be transported across the planet on dust particles carried by wind, according to a study conducted in the Atacama Desert in North Chile, a well-known Mars analogue. The findings are published in Scientific Reports.
Armando Azua-Bustos and colleagues investigated whether microbial life could move across the Atacama Desert using on wind-driven dust particles They sought to determine where these microorganisms originate, which may have implications for microbial life in extreme environments.
The authors collected 23 bacterial and eight fungal species from three sampling sites across two regions of the Atacama traversing its hyperarid core, which in addition to its extreme aridity is known for having highly saline/oxidizing soils and extremely high UV radiation. Only three of the species were shared among transects, suggesting that there are different airborne ecosystems in different parts of the desert. Bacterial and fungal species identified from the samples included Oceanobacillus oncorhynchi, a bacterium first described in aquatic environments, and Bacillus simplex, which originates from plants. These observations indicate that microbes may arrive at the hyperarid core from the Pacific Ocean and the Coastal Range of the desert.
The authors found that microbial cells collected in the morning tended to come from nearby areas, whereas in the afternoon, marine aerosols and microbial life on dust particles were carried by the wind from remote locations. This finding suggests that microbial life is able to efficiently move across the driest and most UV irradiated desert on Earth. Potential microbial life on Mars may similarly spread over, the authors speculate.
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Article and author details
- Aeolian transport of viable microbial life across the Atacama Desert, Chile: Implications for Mars
Corresponding authors:
- Armando Azua-Bustos
Centro de Astrobiología (CSIC-INTA), Madrid, Spain
Email: aazua@cab.inta-csic.es
DOI
10.1038/s41598-019-47394-z
Online paper
https://www.nature.com/articles/s41598-019-47394-z
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Journal
Scientific Reports