Details

AcronymMICRO-POTENTIAL
Description

Investigating the development of astronauts microbiome during and after an isolation mission under Mars-analog conditions

Principal Investigator (PI)

Reut Sorek Abramovich

E-mail: reut.sorek@gmail.com

Organisation Dead Sea and Arava Science Center
Desert Mars Analog Ramon Station
Co-Investigators

Yael Yair, Tel Aviv University
36 Avra'am Keren st., Kfar Saba, 4420836, Israel;
+972 52 3627965, yaelyairhelmann@gmail.com

Oded Aharonson, Weizmann Institute of Science, Department of Earth and Planetary
Sciences - Center for Planetary Science
Rehovot 76100, Israel;
+972 8 9346961, oded.aharonson@weizmann.ac.il

 

ummary

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For missions to Mars, especially crewed ones, which aim to investigate
biomarkers must be aware of contamination issues and how they
might interfere with the investigation. It is impossible to remove live organisms and
organic material completely from an Earth based spacecraft prior to launch.
Some bacteria, in spore formation, have been shown to survive under thin layer of
Martian soil after spacecraft sterilization techniques. Analog missions are relevant

to test forward and backward contamination issues. Especially long-term analog missions, with
several crew members provide a reliable, sustainable source of information for bacterial
contamination analysis.
By using advanced sequencing techniques, the MICRO-POTENTIAL experiment aims to study
the effect of human missions on bacterial and eukaryotic dispersion in the vicinity of the habitat.
The scientific hypotheses to be tested are:

  1.  Microbial population composition will correlate to the distance of samples from the habitat.
  2.  Few species (<10) will be present in all samples regardless of distance.
  3. At a given geographical location, microbial population composition will vary with time
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Created by David Gschliesser on 2021/08/15 13:21
 
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