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Cyanobacterial Growth Optimized for Mars Promises Lifeline to Crewed Missions

Cyanobacterial Growth Optimized for Mars Promises Lifeline to Crewed Missions Crewed mission to Mars February 19, 2021 Share In keeping with humanity’s quest to explore new worlds and boldly go where no one has gone before, leading space agencies are gearing up to send crewed missions to Mars. One of the many challenges of this mission is the production of food and other life-support consumables on site without having to import them from Earth. In a new study, scientists at the Center of Applied Space Technology and Microgravity (ZARM), at the University of Bremen, in Germany, showed that it is possible to grow Anabaena cyanobacteria under conditions that are a compromise between conditions on the Martian surface and optimal conditions for cyanobacterial productivity.

Germany
Cyprien-verseux
University-of-bremen
Space-technology
Atmos
Laboratory-of-applied-space-microbiology
University-of-central-florida
Applied-space-technology
Cyanobacterium-based-life-support-systems
Bioreactor-atmos
Atmosphere-tester
Mars-bound-organic-systems

Booming missions to Mars trigger a race to grow food on the Red Planet

Booming missions to Mars trigger a race to grow food on the Red Planet
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China
United-arab-emirates
India
Cyprien-verseux
Purdue-university
Atmos
European-union
Mars-science-laboratory
Reuters
Elon-musk
Atmosphere-tester
Mars-bound-organic-systems

Colonize and live on Mars thanks to cyanobacteria?

Colonize and live on Mars thanks to cyanobacteria? Research has shown that cyanobacteria can reproduce excellently under Martian conditions and thus form the basis for biological life support systems. 17 February 2021 © ZARM/Universität Bremen A trip to Mars takes about nine months with current spacecraft. That means astronauts would have to spend a long time on the Red Planet after landing. Supplying them there with life-sustaining consumables is not easy, however, because in addition to the long travel time, safety aspects and transportation costs also figure into the equation. In other words, resources must be both created and recycled on Mars. Biological systems, or bioregenerative life support systems (BLSS), would be the best solution. More specifically, cyanobacteria could be the solution. Humboldt Fellow Cyprien Verseux from ZARM at the University of Bremen, Germany, has now published initial research results in the scientific publication frontiers which indicate that c

Germany
Cyprien-verseux
Laboratory-for-applied-microbiology
University-of-bremen
Atmos
Red-planet
Fellow-cyprien-verseux
Atmosphere-tester
Mars-bound-organic-systems
ஜெர்மனி
ஆய்வகம்-க்கு-பயன்படுத்தப்பட்டது-நுண்ணுயிரியல்
பல்கலைக்கழகம்-ஆஃப்-ப்ரெமன்

Gekommen um zu bleiben

Gekommen um zu bleiben
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Germany
Cyprien-verseux
University-bremen
Atmos
A-press-release-by-the-centre
Cyprien-verseux-from-the-centre
Research-team
Months-the-research
Zarm-picture-cyprien-verseux
Humboldt-stipendiat-cyprien-verseux-from
University-bremen-now
Lebenserhaltungssysteme-martians-flies

Basis für das Überleben von Astronauten? Cyanobakterien gedeihen unter Marsbedingungen

Basis für das Überleben von Astronauten? Cyanobakterien gedeihen unter Marsbedingungen
sn.at - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from sn.at Daily Mail and Mail on Sunday newspapers.

Atmos
Rover
Cyprien-verseux-from-the-centre
Missions-to-seek
Humboldt-stipendiat-cyprien-verseux-from
University-of-bremen
Team-are
Green-algae
Lakes-can
Martians-come
These-findings

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