Debug: Database connection successful
You are not logged in.
Pages: 1
https://www.youtube.com/watch?v=sMKQFl0KF4U
Some new finds from Joe White. Interesting as always.
Let's Go to Mars...Google on: Fast Track to Mars blogspot.com
Offline
Like button can go here
Thanks for this, its a bit long for a vid so I might watch later.
Offline
Like button can go here
As a follow up to the post by Louis ... there may be some overlap. These are still images collected by NASA ... they are presented with a sense of humor ...
https://www.msn.com/en-us/news/technolo … hp&pc=U531
I was surprised to learn that NASA has provided a way for a rock to hitchhike.
(th)
Offline
Like button can go here
This report is not about existing life on Mars, but instead, on efforts to find a variety of bacteria that might survive there at Mars atmospheric pressure.
https://currently.att.yahoo.com/enterta … 00239.html
BGR
Bacteria could be key to letting humans breathe on Mars
Joshua Hawkins
Sat, March 19, 2022, 4:09 PMOne of the biggest obstacles facing NASA’s goal of putting humans on Mars is providing much-needed consumables like water, oxygen, and food. The current goal is to find ways to produce these items on the planet, which would help reduce how much we need to transport from Earth to Mars. Thanks to bacteria, scientists may have found a solution to at least one of those problems by giving humans a way to create oxygen on Mars.
bacteria could help us create oxygen on Mars
NASA is already looking into tech that should let us breathe on Mars. But now, scientists want to take it a step further by creating Oxygen on the planet itself.Scientists first published their findings back in February of 2021. In a press release, the scientists highlighted the importance of sourcing important consumables from Mars itself. When we do put human boots on the ground, sourcing those things from Earth would be costly, especially in the long run.
With cyanobacterium, though, scientists believe they could create oxygen on Mars, allowing us to breathe freely on the Red Planet.
“Cyanobacteria have long been targeted as candidates to drive biological life support on space missions, as all species produce oxygen through photosynthesis while some can fix atmospheric nitrogen into nutrients.” the press release reads.
But what makes this bacterium so special? For starters, all types of cyanobacteria use photosynthesis to produce oxygen from carbon dioxide. Additionally, the bacteria have already proven resilient, as it survives in some of the most hostile environments on our planet. Because of those two factors, many believe they could be key to letting humans create oxygen on Mars.
Making it suitable for the Martian environment
But, before we can use cyanobacteria to create oxygen on Mars, we have to find a way to make it grow there. While many believe it could survive the harsh environment, the Martian atmosphere has less than 1 percent of the Earth’s total pressure. As such, the bacteria are unable to grow directly in the atmosphere. But, creating an Earth-like atmosphere on Mars would be too costly.
That’s why a group of scientists, including astrobiologist Cyprien Verseux, created a bioreactor called Atmos. Short for Atmosphere Tester for Mars-bound Organic Systems, Atmos allowed the scientists to test atmospheric conditions similar to Mars. The goal was to find out which atmospheric conditions allowed the cyanobacteria to grow the easiest.
We could then use this information to make slight atmospheric changes on Mars. This would allow the cyanobacteria to grow under those conditions. That would then allow them to create oxygen on Mars. They found that the particular type of cyanobacteria they used, Anabaena, grew under all the conditions that they tried. As such, they proved that oxygen-producing cyanobacteria could be cultivated on Mars at low pressure under controlled conditions.
Further, though, is the fact they were able to prove it can grow with local ingredients exclusive to Mars. That means we wouldn’t need to import gasses or any other material to make the process happen. Of course, there’s still a lot of work to be done before we can use these cyanobacteria to create oxygen on Mars.
It might not be an immediate solution to making Mars habitable. But scientists at least have a foundation to build upon.
Click here to read the full article.
See the original version of this article on BGR.com
Edit later ... this post ended up in Louis topic about images ... there is probably a better place for it ...
(th)
Offline
Like button can go here
Latest from Joe -
A very interesting collection again.
https://www.youtube.com/watch?v=Q233z_t-frA&t=1553s
This report is not about existing life on Mars, but instead, on efforts to find a variety of bacteria that might survive there at Mars atmospheric pressure.
https://currently.att.yahoo.com/enterta … 00239.html
BGR
Bacteria could be key to letting humans breathe on Mars
Joshua Hawkins
Sat, March 19, 2022, 4:09 PMOne of the biggest obstacles facing NASA’s goal of putting humans on Mars is providing much-needed consumables like water, oxygen, and food. The current goal is to find ways to produce these items on the planet, which would help reduce how much we need to transport from Earth to Mars. Thanks to bacteria, scientists may have found a solution to at least one of those problems by giving humans a way to create oxygen on Mars.
bacteria could help us create oxygen on Mars
NASA is already looking into tech that should let us breathe on Mars. But now, scientists want to take it a step further by creating Oxygen on the planet itself.Scientists first published their findings back in February of 2021. In a press release, the scientists highlighted the importance of sourcing important consumables from Mars itself. When we do put human boots on the ground, sourcing those things from Earth would be costly, especially in the long run.
With cyanobacterium, though, scientists believe they could create oxygen on Mars, allowing us to breathe freely on the Red Planet.
“Cyanobacteria have long been targeted as candidates to drive biological life support on space missions, as all species produce oxygen through photosynthesis while some can fix atmospheric nitrogen into nutrients.” the press release reads.
But what makes this bacterium so special? For starters, all types of cyanobacteria use photosynthesis to produce oxygen from carbon dioxide. Additionally, the bacteria have already proven resilient, as it survives in some of the most hostile environments on our planet. Because of those two factors, many believe they could be key to letting humans create oxygen on Mars.
Making it suitable for the Martian environment
But, before we can use cyanobacteria to create oxygen on Mars, we have to find a way to make it grow there. While many believe it could survive the harsh environment, the Martian atmosphere has less than 1 percent of the Earth’s total pressure. As such, the bacteria are unable to grow directly in the atmosphere. But, creating an Earth-like atmosphere on Mars would be too costly.
That’s why a group of scientists, including astrobiologist Cyprien Verseux, created a bioreactor called Atmos. Short for Atmosphere Tester for Mars-bound Organic Systems, Atmos allowed the scientists to test atmospheric conditions similar to Mars. The goal was to find out which atmospheric conditions allowed the cyanobacteria to grow the easiest.
We could then use this information to make slight atmospheric changes on Mars. This would allow the cyanobacteria to grow under those conditions. That would then allow them to create oxygen on Mars. They found that the particular type of cyanobacteria they used, Anabaena, grew under all the conditions that they tried. As such, they proved that oxygen-producing cyanobacteria could be cultivated on Mars at low pressure under controlled conditions.
Further, though, is the fact they were able to prove it can grow with local ingredients exclusive to Mars. That means we wouldn’t need to import gasses or any other material to make the process happen. Of course, there’s still a lot of work to be done before we can use these cyanobacteria to create oxygen on Mars.
It might not be an immediate solution to making Mars habitable. But scientists at least have a foundation to build upon.
Click here to read the full article.
See the original version of this article on BGR.com
Edit later ... this post ended up in Louis topic about images ... there is probably a better place for it ...
(th)
Let's Go to Mars...Google on: Fast Track to Mars blogspot.com
Offline
Like button can go here
https://www.youtube.com/watch?v=MmuPim-vxA4&t=911s
More good stuff from Joe but particularly the fortification at 16:00. It reminds me very strongly of the square Roman forts that would occupy commanding views. I once holidayed close to one. It doesn't look like a natural rock formation to me. May be one of Joe's best finds.
Let's Go to Mars...Google on: Fast Track to Mars blogspot.com
Offline
Like button can go here
Pages: 1