Since 2012, theCuriosity is conducting investigations on the surface of Mars with the aim of better constraining and the presence of water in its past, but also to determine whether or not Mars was ever able to support life.
If we now know that
The term emergence is used in many fields.
Outside…” data-image=”https://cdn.futura-sciences.com/buildsv6/images/midioriginal/4/e/f/4ef87a3a65_50036395_papillon-chrysalis-bernard-schmeltz.jpg” data-url=” https://news.google.com/planete/definitions/zoologie-emergence-8743/” data-more=”Read more”> of life.
An amount of organic carbon comparable to certain terrestrial regions
Symbol: CNatomic number: 6Electrons per energy level: 2.4Atomic mass: 12.011 uMost stable isotopes: 12C stable with six…” data-image=”https://cdn.futura-sciences.com/buildsv6/ images/midioriginal/2/1/9/2198868bcb_69707_carbone.jpg” data-url=”https://news.google.com/sciences/definitions/chimie-carbone-3873/” data-more=”Read more”> total organic matter contained in Martian rocks. After eight years of data analysis, the results are finally available in the journal and reveal that Martian rocks are relatively rich in organic carbon, which is one of the key components for setting in motion chemical reactions and potentially the of biological molecules.
It has been some time since scientists found traces of organic carbon on the. But the evaluation of its available quantity is a major parameter, which determines the development potential of life. And the results are rather surprising, since they show that Martian rocks contain a significant fraction of organic carbon, comparable to certain terrestrial regions. Admittedly, the values are rather similar to those of harsh environments depleted in organic carbon (for the terrestrial), as , but these are encouraging results as far as Mars is concerned. Because it shows that the carbon was available in sufficient quantity for the construction (hypothetical) which are the basis of all life forms known to date.
Water, carbon, sources of energy… all the ingredients of life together
Total organic carbon is defined as the amount of carbon atoms bonded in organic molecules (usually composed of hydrogen atoms,
Symbol: ON Atomic Number: 8 Electrons per Energy Level: 2.6 Atomic Mass: 15,999 u Most stable isotopes…” data-image=”https://cdn.futura-sciences.com/buildsv6/images/midioriginal/4 /7/d/47dc2cafaf_59586_rust-screw.jpg” data-url=”https://news.google.com/sciences/definitions/chemistry-oxygen-798/” data-more=”Read more”> and General
Symbol: N Atomic Number: 7 Electrons per Energy Level: 2.5 Atomic Mass: 14.007 uIsotopes…” data-image=”https://cdn.futura-sciences.com/buildsv6/images/midioriginal/5/7 /a/57a531d2d3_50012051_suprazote.jpg” data-url=”https://news.google.com/sciences/definitions/tableau-periodique-elements-azote-13578/” data-more=”Read more”> ). If on Earth a large part of the organic carbon has a biological origin, it can have non-biological origins, in particular , volcanic activity, or certain chemical reactions on the surface of the planet. The presence of organic carbon on Mars therefore in no way proves that life ever developed on this planet.
With liquid water, the presence of organic carbon in significant quantities is on the other hand a new element which indicates that the basic ingredients necessary for life were indeed present on Mars a few billion years ago. The Gale crater in which Curiosity evolves would have beensince in addition to water and carbon, the environment had the other essential elements: sources of low acidity, oxygen, nitrogen and sulfur.
Curiosity could therefore be in the right place to discover the first traces of Martian life so sought after. However, if they exist, they could be more difficult to access than we thought.
Review the search strategy for organic molecules such as amino acids
A new experiment carried out by the
Their name comes from the fact that they have an amine function (NH2) and a carboxylic acid function (COOH). They…” data-image=”https://cdn.futura-sciences.com/buildsv6/images/midioriginal/0/8/d/08dba8331a_50034106_acide-amine-dr-02.jpg” data-url=”https ://news.google.com/sante/definitions/biology-amino-acid-8/” data-more=”Read more”> which may or may not be of biological origin, but which in all cases are considered to be building blocks for the construction of protein roles
Proteins can perform a wide variety of functions within the cell or organism.
They may have:
a structural role (like actin or tubulin which…” data-image=”https://cdn.futura-sciences.com/buildsv6/images/midioriginal/4/6/e/46e94f9da7_50034188_actin-thomas-splettstoesser -cc.jpg” data-url=”https://news.google.com/health/definitions/biology-protein-237/” data-more=”Read more”> . However, the conjugate acid and base
To any acid corresponds a conjugate base…” data-image=”https://cdn.futura-sciences.com/buildsv6/images/midioriginal/b/2/8/b28a48dafa_50034238_acide-base-fs.jpg” data- url=”https://news.google.com/sciences/definitions/chemistry-acid-750/” data-more=”Read more”> amines are fragile and easily destroyed by Their energy is typically 1 GeV (the energy that an electron would have accelerated by a voltage…” data-url=”https://news.google.com/sciences/definitions /universe-cosmic-ray-2446/” data-more=”Read more”> reaching the surface of Mars whose thin does not provide effective protection. Currently, rovers are drilling to a depth of five centimeters. Scientists estimate that at this depth, amino acids are destroyed in just 20 million years. Knowing that potential Martian life could have developed several billion years ago, investigating this very superficial level therefore appears totally useless.
These results, published in, show the need to implement a new search strategy for the rovers currently in operation, which are unfortunately not equipped to drill to the required depth. One solution would be to look for having recently exposed deep parts of the subsoil, such as in small impact craters less than 10 million years old or in material ejected from such craters.
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