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Team:Valencia/MSC
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| - | Thanks to our sponsors we had the opportunity of visiting the [http://cab.inta-csic.es/index.php?lng=en | + | Thanks to our sponsors we had the opportunity of visiting the [http://cab.inta-csic.es/index.php?lng=en National Astrobiology Center] in Madrid. There we could visit their laboratories and equipment and talk with the researchers working with them. It was specially interesting the section of [http://cab.inta-csic.es/laboratorios_investigacion.php?lng=en&id=11 Instrumentation for Planetary Exploration and Simulation Chambers]. Thanks to them we defined our goals with much more precision and we realized what parameters were reasonable to simulate with our time and budget. |
Revision as of 17:12, 25 October 2010
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Mars Simulation Chamber
Introduction
We reproduce some of the characteristics that make difficult the life in Mars with this chamber. Among them we can have the atmospheric pressure between 7 and 10 mbar and the gases composition (mainly carbon dioxid). Once we achieve this humble goal, we can use the MSC to try our engineered microorganisms and observe its behavior: if it grows, just only survives without growing or dies. It’s a very important part of the project because is an easy way to prove whether the microbes can grow or at least survive in an environment with such limitations as martian atmosphere can be.
Goal
To simulate the martian atmospheric pressure and composition in order to check the surviving capability of our engineered cultures.
The equipment
Mars is an extremely harsh environment for any kind of known life form. There is no liquid water, the temperature range on the planet goes from -80º C to 20º C and the atmospheric pressure is around 7-15 mbars. Moreover, the atmospheric composition has a 95% of CO2 with no O2 present in practical terms. In the next table it is shown the main physical characteristics of Mars compared with Earth.
In this project we focus on two parameters: temperature and atmospheric pressure. Our main strategy for surviving Mars is expressing LEA protein in our cultures. In order to face the temperature issue we have designed and built a device we called Red House but in this section we will try to explain you what have we done to deal with the tough pressure conditions.
Obviously, the first step to take in order to check the capability of our cultures to survive Mars is to subject them to similar conditions here on Earth. We, basically, focused on simulating the most important atmospheric properties:
- Pressure
- Composition
Thanks to our sponsors we had the opportunity of visiting the National Astrobiology Center in Madrid. There we could visit their laboratories and equipment and talk with the researchers working with them. It was specially interesting the section of Instrumentation for Planetary Exploration and Simulation Chambers. Thanks to them we defined our goals with much more precision and we realized what parameters were reasonable to simulate with our time and budget.
Back from Madrid we decided that in order to simulate the martian pressure we would use a low pressure chamber. Its volume is 8 l, which is very appropriate for conducting small experiments with several cultures. The pressure that it is capable to reach is around 10 mbars, which is perfect to simulate the martian conditions.
The following pictures show the MSC connected to the vacuum pump in the lab.
