Ancient Ocean that covered 1/3 of Mars with Water, A new study conducted by University of Colorado at Boulder scientists. |
Ancient Ocean that covered 1/3 of Mars with Water, A new study conducted by University of Colorado at Boulder scientists. |
Oct 21 2010, 12:11 PM
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#16
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Member Group: Members Posts: 593 Joined: 20-April 05 Member No.: 279 |
Not happy not knowing with which of the chairs to pick, I felt the need for a quick play with Excel.
Mars' average temperature today is around 210K. All things being equal, a 70%-as-bright Sun only knocks about 18K off that - a figure which I find a little suprising in terms of how relatively undramatic a change that is. I can dial in a current-Earth-like atmosphere for this early Mars, and almost regain that 18K. Still cold and dry! But consider a short-lived, even thicker atmosphere, one loaded with CO2 and water vapour pumped out by those gigantic volcanoes, and then the temperature starts to rise markedly. Is this the way to a warm, wet Mars? Sadly I don't think so, since this atmosphere comes at a price: it's going to seriously raise the albedo, dropping the temperature. It's hard work to reach an Earth-like 288K. Indeed, only towards the limits of Venusianess does the planet become balmy, which I think is extremely unlikely to have occured or extremely short-lived if it ever did. So - for most of Mars' history - it's definitely the cold, dry chair for me. Andy |
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Oct 21 2010, 02:21 PM
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#17
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Member Group: Members Posts: 202 Joined: 9-September 08 Member No.: 4334 |
If Mars ever had an Earth-density atmosphere, though, it would have had far more CO2 and thus a stronger greenhouse effect. Earth's atmosphere is unstable, maintained that way by life. Before plants, Earth had much more CO2 and less O2.
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Oct 23 2010, 07:29 PM
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#18
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Junior Member Group: Members Posts: 59 Joined: 12-November 09 Member No.: 5039 |
If Mars ever had an Earth-density atmosphere, though, it would have had far more CO2 and thus a stronger greenhouse effect. Earth's atmosphere is unstable, maintained that way by life. Before plants, Earth had much more CO2 and less O2. I believe the gist of AndyG's post is that even thick CO2 atmosphere doesn't raise temperature enough to make liquid ocean possible. |
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Oct 23 2010, 09:29 PM
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#19
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Senior Member Group: Members Posts: 3516 Joined: 4-November 05 From: North Wales Member No.: 542 |
even thick CO2 atmosphere doesn't raise temperature enough to make liquid ocean possible. The pressure required to maintain the liquid state doesn't have to depend on a thick atmosphere; it can come from the weight of 'sea ice'. Most of the water oceans in the solar system have such caps, but I think any ancient martian ocean would have had a much thinner cap than that of Europa or the other galileans, more like 'snowball Earth'. |
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Oct 25 2010, 01:36 PM
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#20
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Junior Member Group: Members Posts: 59 Joined: 12-November 09 Member No.: 5039 |
The pressure required to maintain the liquid state doesn't have to depend on a thick atmosphere; it can come from the weight of 'sea ice'. Most of the water oceans in the solar system have such caps, but I think any ancient martian ocean would have had a much thinner cap than that of Europa or the other galileans, more like 'snowball Earth'. Sea ice would be unstable in current Mars conditions - it would sublimate. With thicker atmosphere in the past, it looks plausible. So my mental picture needs to be corrected: ancient Mars ocean, where it was liquid, was covered by permanent thick ice cover (many meters). Over the eons, atmosphere was lost, water was partly sublimating and escaping to space and to colder, higher latitudes, and partly "escaping" to permafrost and deep underground aquifers. Surface of ex-frozen-ocean was gradually covered by dust. Bear in mind that this description of "cold Mars" is too simplistic. In 3 billion years, a lot of interesting events happened. Largish impacts. Changing tilt of the rotational axis. And first of all, volcanic eruptions and lava floods are prime candidates to make a lot of water liquid, at least for some geologically short time, but enough to cause catastrophic floods, carve river valleys, etc... |
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Oct 25 2010, 02:04 PM
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#21
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Member Group: Members Posts: 293 Joined: 22-September 08 From: Spain Member No.: 4350 |
Are you taking into account the salinity of the sea, and also more methane than is currently observed?
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Oct 25 2010, 02:36 PM
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#22
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Junior Member Group: Members Posts: 59 Joined: 12-November 09 Member No.: 5039 |
Are you taking into account the salinity of the sea, and also more methane than is currently observed? Consider this: on Mars equator, average temperatures are below -40C. This is at least 20C colder than on North Pole of the planet Earth. The Earth has thick atmosphere with some CO2, with traces of methane, and its ocean is saline, and yet, ice at North Pole is 2-3 meters thick. |
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Oct 26 2010, 11:47 AM
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#23
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Member Group: Members Posts: 293 Joined: 22-September 08 From: Spain Member No.: 4350 |
The hypersaline lakes in the McMurdo Dry valleys remain ice free most of the year, and without tectonics the martian ocean could have been shallower than on Earth.
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Oct 26 2010, 06:30 PM
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#24
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Junior Member Group: Members Posts: 59 Joined: 12-November 09 Member No.: 5039 |
The hypersaline lakes in the McMurdo Dry valleys remain ice free most of the year, and without tectonics the martian ocean could have been shallower than on Earth. http://en.wikipedia.org/wiki/Lake_Vida - "Lake Vida is one of the largest lakes in the McMurdo Dry Valley region and is a closed-basin endorheic lake. The top waters of Lake Vida are frozen year-round to a depth of at least 19 m forming an ice-seal over briny waters that are seven times as saline as seawater. ... The high salinity allow for the lake bottom waters to remain liquid at an average yearly water temperature of -10°C." Is this wiki article incorrect about 19 thick ice cover? |
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Oct 27 2010, 02:58 AM
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#25
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Junior Member Group: Members Posts: 55 Joined: 6-March 10 From: Cincinnati, OH Member No.: 5246 |
Which raises an interesting question. Could ice-covered lakes (like Lake Vostok, for example) still be present on Mars? How would one search for them? The ice would likely be mantled with dust and lag deposits. They would most likely occur at mid latitudes where ice is more stable. And they would likely be Amazonian in age (?). It seems if the zone of liquid water were shallow enough that MARSIS or SHARAD could detect the ice-water boundary. All questions I don't know the answer to. Does anyone know if anyone has looked into this?
Tom |
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Oct 27 2010, 03:22 PM
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#26
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Member Group: Members Posts: 293 Joined: 22-September 08 From: Spain Member No.: 4350 |
http://mars.jpl.nasa.gov/express/mission/s...e_marsis02.html
QUOTE Scientists should be able to see the top of a liquid zone somewhere in the upper 2-3 kilometers (1-2 miles) fairly easily, and may be able to go down to 5 km (about 3 miles) or more.
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Oct 27 2010, 05:43 PM
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#27
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Junior Member Group: Members Posts: 46 Joined: 6-January 10 From: Toronto, ON Member No.: 5163 |
Which raises an interesting question. Could ice-covered lakes (like Lake Vostok, for example) still be present on Mars? How would one search for them? The ice would likely be mantled with dust and lag deposits. They would most likely occur at mid latitudes where ice is more stable. And they would likely be Amazonian in age (?). It seems if the zone of liquid water were shallow enough that MARSIS or SHARAD could detect the ice-water boundary. All questions I don't know the answer to. Does anyone know if anyone has looked into this? Both the MARSIS and SHARAD folks have looked for stuff like this, as well as evidence of subsurface liquid water aquifers. So far they haven't found anything conclusive...they've found lots of subsurface ice in various places around the planet (i.e. the aprons in the Deuteronilus Mensae), but nothing suggesting liquid water. -------------------- Twitter: @tanyaofmars
Web: http://www.tanyaofmars.com |
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Oct 28 2010, 03:42 PM
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#28
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Junior Member Group: Members Posts: 55 Joined: 6-March 10 From: Cincinnati, OH Member No.: 5246 |
Both the MARSIS and SHARAD folks have looked for stuff like this, as well as evidence of subsurface liquid water aquifers. So far they haven't found anything conclusive...they've found lots of subsurface ice in various places around the planet (i.e. the aprons in the Deuteronilus Mensae), but nothing suggesting liquid water. Thanks for the info. Tom |
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Jul 28 2013, 04:15 AM
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#29
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Senior Member Group: Members Posts: 1043 Joined: 17-February 09 Member No.: 4605 |
The evidence for a substantial ocean keeps on trickling in.
http://www.caltech.edu/content/evidence-martian-ocean |
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Aug 20 2013, 01:35 PM
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#30
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Junior Member Group: Members Posts: 28 Joined: 1-July 13 From: United Kingdom, England Member No.: 6965 |
And at this particular time in Martian history, how was reality on the planet we live on?
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