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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

Cyprien verseuxLaboratory for applied microbiologyUniversity of bremenRed planetFellow cyprien verseuxAtmosphere testerMars bound organic systemsஆய்வகம் க்கு பயன்படுத்தப்பட்டது நுண்ணுயிரியல்பல்கலைக்கழகம் ஆஃப் ப்ரெமன்சிவப்பு கிரகம்வளிமண்டலம் சோதனையாளர்செவ்வாய் கிரகம் பிணைக்கப்பட்டுள்ளது ஆர்க்யாநிக் அமைப்புகள்

Bacteria That May Help Humans Survive on Mars Found by Scientists, Media Says

The experiment conducted by the science team reportedly showed that the bacteria they selected can thrive on Martian regolith, and that the nutrients produced by that.

Cyprien verseuxUniversity of bremenRed planetபல்கலைக்கழகம் ஆஃப் ப்ரெமன்சிவப்பு கிரகம்

New Method for Growing Cyanobacteria in Mars-Like Conditions

New Method for Growing Cyanobacteria in Mars-Like Conditions Scientists show for the first time that Anabaena cyanobacteria can be grown with only local gases, water, and other nutrients and at low pressure February 17, 2021 NASA, in collaboration with other leading space agencies, aims to send its first human missions to Mars in the early 2030s, while companies like SpaceX may do so even earlier. Astronauts on Mars will need oxygen, water, food, and other consumables. These will need to be sourced from Mars, because importing them from Earth would be impractical in the long term. In Frontiers in Microbiology, scientists show for the first time that Anabaena cyanobacteria can be grown with only local gases, water, and other nutrients and at low pressure. This makes it much easier to develop sustainable biological life support systems.

Cyprien verseuxUniversity of bremenSpace technologyLaboratory of applied space microbiologyUniversity of central floridaNew methodGrowing cyanobacteriaApplied space microbiologyApplied space technologyMars bound organicRed planetCentral floridaBioreactor atmosMars global simulantபல்கலைக்கழகம் ஆஃப் ப்ரெமன்இடம் தொழில்நுட்பம்

Tracking Arctic climate change from a Greenhouse to an Icehouse world

Tracking Arctic climate change from a Greenhouse to an Icehouse world
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تكنولوجيا اليوم - تجربة تكشف ما يمكن أن يساعد في إبقاء البشر أحياء على المريخ

تكنولوجيا اليوم - تجربة تكشف ما يمكن أن يساعد في إبقاء البشر أحياء على المريخ
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