You are not logged in.
Well, water in the great canyon on Mars, it seems likely.
https://www.esa.int/Science_Exploration … 20as%20ice.
Quote:
ExoMars discovers hidden water in Mars’ Grand Canyon
I have to study this more. I will also post this under the section on water for other members to also comment if they might wish.
https://science.nasa.gov/valles-mariner … anyon-mars
Done
Done.
Offline
A little more googling and I find that Nasa had eyes on this back in Jul 7, 2016 Mars Canyons Study Adds Clues about Possible Water
sure it looks smooth but is it possible to land in this very tight area.
Offline
SpaceNut ... I looked for this orbiter but did not find it...
https://www.msn.com/en-us/news/technolo … hp&pc=U531
Who's up for an adventure? You just need to catch a crewed spacecraft to Mars, land near a massive canyon there and go in search of hidden water. The ExoMars Trace Gas Orbiter (TGO) spacecraft has found evidence of "significant amounts of water" in the Valles Marineris canyon system on the red planet.
TGO is operated by the European Space Agency and Russian space agency Roscosmos. The orbiter has an instrument on board that maps hydrogen in the upper layer of Martian soil. Data shows an unusual amount of hydrogen in Candor Chaos, a central region of Valles Marineris, indicating that as much as 40% of the near-surface material in that area could be water.
"With TGO we can look down to one meter below this dusty layer and see what's really going on below Mars' surface -- and, crucially, locate water-rich 'oases' that couldn't be detected with previous instruments," Igor Mitrofanov of the Space Research Institute of the Russian Academy of Sciences said in an ESA statement on Wednesday. Mitrofanov is lead author of a study on the water findings published in the journal Icarus.
Looks like a good place for a Lander Drill probe.
(th)
Offline
Key items from Voids link
Nuetron detection is being used.
The Valles Marineris is a 2,500-mile-long canyon on Mars with parts that are 4 miles deep. Not only is it 10 times longer and 4 times deeper than the Grand Canyon, but the Valles Marineris' length is nearly as long as the entire United States.
We will be hard pressed to come up with a means to create a cover to allow for a gradual pressure build up
"We can look down to (3 feet) below this dusty layer and see what’s really going on below Mars’ surface – and, crucially, locate water-rich ‘oases’ that couldn’t be detected with previous instruments," Mitrofanov said. "Assuming the hydrogen we see is bound into water molecules, as much as 40% of the near-surface material in this region appears to be water."
Scientists are unsure whether the detected water is ice or water bound to the soil, but Alexey said it's most likely in ice form, similar to the permafrost found throughout the Arctic region. Håkan Svedhem, co-author and former project scientist for the ExoMars Trace Gas Orbiter, said the team must now discover what type of water is in the soil.
sum's it up that ground proof is needed
Offline
On Elon Musk
Musk said, ‘I’ll be surprised if we’re not landing on Mars within five years Musk
https://spacexmania.com/1/archives/1389
Key items from Voids link
Nuetron detection is being used.
I've seen other news Articles also say it can look 3 feet deep or 1 meter
Some articles on European (ESA) and the Russian Roscosmos satellite instruments
Space dot com
https://www.space.com/32250-exomars-mar … ience.html
'The Russian-built FREND (Fine Resolution Epithermal Neutron Detector) will indirectly look forwater-ice deposits up to 3.3 feet (1 meter) below Mars’ surface.
Since Mars has such a thin atmosphere, the planet's surface is constantly bombarded with harsh cosmic rays that break apart atoms. This reaction releases high-energy neutrons that are then captured by the elements in the surrounding Martian dirt or released back into the atmosphere.'
https://spaceflight101.com/exomars/trac … struments/
FREND, developed at the Space Research Institute (IKI) in Russia, is responsible for the detection of subsurface hydrogen to a depth of one meter to uncover water-ice deposits near the surface. Measurements of subsurface water and OH by FREND will be ten times better than previous missions.
Old thread with a discussion of sub surface waters and manned landings
http://newmars.com/forums/viewtopic.php?id=1787
'Where exactly is Mars Direct with NASA? - Are they going to do it or not?'
Last edited by Mars_B4_Moon (2021-12-21 20:08:04)
Offline
A indication of past and possibly present water ice in part of the canyon system nearer the Tharsis Uplift area.
https://phys.org/news/2023-03-modern-gl … r-ice.html
Quote:
Modern glacier remains found near Mars equator suggest water ice possibly present today at low latitudes
by SETI Institute
Image Quote:
https://en.wikipedia.org/wiki/Noctis_Labyrinthus
Image Quote:
Their story of Sulfate Salts is interesting. It is implied that the salts may protect the ice from evaporating.
And of course since it is me, there will be speculation. I anticipate that some Perchlorate salts may be included.
Query: "Freezing point of Martian Perchlorate brines"
General Response: https://www.bing.com/search?q=Freezing+ … a213f2dd0d
OK, I certainly can be dead wrong, but...........
I have wondered if ice slabs under dirt could actually form there over long periods of time, by a absorption of water vapor into salts, and then a dip in temperature that squeezes less salty fluids out of the hydrated salts.
This would have to work different than the ice packs of our Arctic Ocean. In that case the salt ice freezing can reject salt into brine which flows downward into the ocean.
For what I have suggested, the salt would need to stay on top and the less salty brine flow below, and then freeze to an existing ice mass.
Unlike the Arctic Ocean, the air in the soil above a salt layer would be dry, so you would not have salt ice, but salty hydrated crust, and possibly with temperature fluctuations, the salts being solid crystals, and the brine being fluid, then it might happen that somehow what I have suggested could happen.
I have wondered about electrical ground currents as possible to have some thermal effects in this as well.
The other alternative so far is that Mars gets snowy and icy at times, periodically. And of course, that is the more acceptable and safe notion to speak of.
Done.
Last edited by Void (2023-03-16 11:41:43)
Done.
Offline
This fits in here: http://newmars.com/forums/viewtopic.php … 74#p207774
Possible water ice in a canyon system between the rift valley and the Tharsis Uplift.
Done.
Last edited by Void (2023-03-18 12:44:06)
Done.
Offline
Thanks for that. This region of Noctis Labyrinthus had frequently shown low lying fogs in orbital imaging that led to speculation of liquid water on Mars in the region.
Bob Clark
Nanotechnology now can produce the space elevator and private orbital launchers. It now also makes possible the long desired 'flying cars'. This crowdfunding campaign is to prove it:
Nanotech: from air to space.
[url]https://www.indiegogo.com/projects/nanotech-from-air-to-space/x/13319568#/[/url]
Offline
Did anyone check the spectrum of that fog as it could be Co2?
Offline
This NASA page discusses clouds and fogs on Mars seen since Viking. Some low lying fogs are believed composed of water ice.
https://history.nasa.gov/SP-441/ch12.htm
Robert Clark
Nanotechnology now can produce the space elevator and private orbital launchers. It now also makes possible the long desired 'flying cars'. This crowdfunding campaign is to prove it:
Nanotech: from air to space.
[url]https://www.indiegogo.com/projects/nanotech-from-air-to-space/x/13319568#/[/url]
Offline
Here are some additional reading materials:
Fogs: https://ui.adsabs.harvard.edu/abs/2016E … L/abstract
Quote:
Therefore, the only way to produce fog inside the canyon is to have a local water source.
https://en.wikipedia.org/wiki/Cerberus_ … on%20Earth.
Quote:
Crater counts suggest this last outflow from the Cerberus Fossae took place about 2 to 10 million years ago. Later even younger (0.05-0.2 million years from present) volcanic deposit was detected, suggesting volcanic activity may be still ongoing.[8]
https://astrobiology.nasa.gov/news/wate … after-all/
Quote:
But when Mars Global Surveyor began mapping the Red Planet in sharp detail early in 1999, it disclosed startling evidence that water has shaped Martian landforms within the past 10 million years.
The discovery challenges the prevailing view that Mars’ surface has remained extremely cold and dry – much as it is today – for the past 3.9 billion years.
It confirms the idea that internal heat periodically triggers short-term warmer and wetter conditions – conditions conducive to life – in the global Martian hydrological cycle, University of Arizona Regents’ Professor Victor R. Baker said in a review article, “Water and the Martian landscape,” published in the July 12 issue of the journal Nature. Baker is head of the UA department of hydrology and water resources.
Mars is cold, dry and quiet for long periods of the hydrological cycle, periods spanning hundreds of millions of years, Baker says. It becomes actively warmer and wetter during brief episodes that last perhaps thousands to tens of thousands of years.
https://www.space.com/mars-water-below- … ris-canyon
Quote:
And now we have this new discovery which may also include some sort of water ice, maybe a glacier:
https://www.news9live.com/science/disco … is%20today.
Image Quote:
The source of the fogs could be from outside the canyon system through the air, but I think that is not thought to be true.
So, if may originate somehow in the canyon system.
I have 3 notions.
1) Very ancient relic ice deeply buried, from before the Martian atmosphere collapsed billions of years ago.
2a) Vapor seeps from the sandstone layers in the sides of the canyons, perhaps from frozen aquifers.
2b) Liquid Water seeping up though cracks like a water eruption from a very deep aquifer.
3) Periodic Climate Deviations.
For the moment I would like to entertain #3. If an eruption happened in the last 10 million years, it might have pushed greenhouse gasses out, and warmed Mars for a while. High Ice clouds could have then warmed the planet, The Dry Ice of the poles evaporated, and it was possible for the poles to be warm enough to cause the atmosphere to be moist enough for snows. With the right wind patterns, then snow could have fallen to make the ice slabs in the mid latitudes and also maybe even it would also snow in the Rift Valley system. I would imagine it would depend on the wind patterns.
But maybe 1, 2a, and/or 2b might be true, maybe all of them are true or none of them are true and we need new ideas.
But if we can figure it out we may better figure out how to settle Mars and how to terraform it.
Done
Last edited by Void (2023-03-18 19:53:40)
Done.
Offline
This site is quiet at this time. I thought I might trot out some materials I have collected about water on Mars.
http://newmars.com/forums/viewtopic.php … 15#p204715
To spare the reader, they can research what they like about it. At the bottom of that linked post is some materials about vast amounts of fossil ice at the bottom of the Rift Valley system near the equator of Mars.
Looking at item #1 from the just previous post;
Here that is:
The idea of Fossil Ice in the rift valley:
https://planetarygeomorphology.wordpres … eris-mars/
https://www.sciencedirect.com/science/a … 5X13004145
https://www.semanticscholar.org/paper/O … dc3481cd74
This is very amusing at this point, they deminitely speak against glaciation in Candor Chaos: https://www.sciencedirect.com/science/a … 3517308333
But then we get to this: https://www.cnet.com/science/spacecraft … be%20water.
And this: https://www.smithsonianmag.com/smart-ne … 180979267/
Here is an image Quote:
It shows the fogs which it seems to be thought need water local to the canyon system to exist.
The idea of a massive fossil ice deposit billions of years old is not popular at all, but now we have notions that a salt layer above a glacier can help protect it from evaporation. And we seem to have a very strong Hydrogen signal in the Candor Chaos area, and also now the possibility of a glacier covered in salts, in the Noctes Labyrinth area.
https://phys.org/news/2023-03-modern-gl … r-ice.html
I have learned that there can be "Wet Based Glaciation", so it may not be impossible that ground ice is fed from aquifers also. We would call it cryovolcanic on Ceres or Pluto, but somehow, we cannot bring forth that word for Mars.
I would think that the fog patterns may tell a story. If the fogs come from salty buried ice, then that may emerge in some places such as Candor Chaos, but not in other low places. You can see in the picture above, just being low does not guarantee a fog presence.
I am not making a claim, I am just showing information which may be evidence of truth. Or maybe it is not. I claim not much.
Repetitions of fog patterns may indicate a source.
Done.
Last edited by Void (2023-03-19 11:07:01)
Done.
Offline
Angry astronaut video on the discovery of a buried glacier in Noctus Labarinthus.
https://m.youtube.com/watch?v=6NUdavDwHEc
Whilst the ice discovery is exciting, the author seems to miss the big problem with putting a Martian base in that location. It is at the bottom of a 6km deep canyon. Exploring the rest of the planet means climbing up out of the canyon. Any resources that we find anywhere else would have to transported into the canyon to our base. Logistically, this is one of the least convenient places we could build a base. Ideally, we want flat land. As the base expands, we can build railways and pipelines, allowing distant resources to be channelled into our growing base. Cerberus Fossae appears to be an ideal location. It has geothermal heat that can be tapped for agriculture and very likey, liquid ground water.
"Plan and prepare for every possibility, and you will never act. It is nobler to have courage as we stumble into half the things we fear than to analyse every possible obstacle and begin nothing. Great things are achieved by embracing great dangers."
Offline
I think that that question is very important.
I have recently been concerned that many places on Mars are too "Flooded" with ice, hiding the mineral resources. If a small but reliable water source close to minerals could be found, at a low latitude, I feel that that could be ideal. Less rugged would be desirable as well.
So, we would want sufficient but not excessive amounts of water near ore resources. I also am in favor of CO & O2 powered robotic hoppers, to get small amounts of a substance to where it is needed.
Ore Resources: https://en.wikipedia.org/wiki/Ore_resources_on_Mars
This may be worth considering:
Dark sand dunes are common on the surface of Mars. Their dark tone is due to the volcanic rock called basalt. The basalt dunes are believed to contain the minerals chromite, magnetite, and ilmenite.[54] Since the wind has gathered them together, they do not even have to be mined, merely scooped up.[55] These minerals could supply future colonists with chromium, iron, and titanium.
From what I have read some of these tend to be at least slightly magnetic, so then a first beneficiation may be possible with the use of magnetism.
I think that Iron and Chromium are important. The Chromium seems to be bonded to some iron and that is also magnetic.
Last edited by Void (2023-03-21 09:29:49)
Done.
Offline