why is it important to identify the gases trapped inside mars meteorites?

The main feature that distinguishes these meteorites from others is the amount of certain gases found in them, which is similar to the atmosphere of Mars in many respects. In the case of Mars, meteorites can provide details of what Mars’ surface was like when the rock was initially dislodged, serving as a bit of a time capsule for Mars geography in years past.

At least several dozen martian meteorites have been discovered so far. One meteorite from Mars has been found to contain a significant amount of water and formed at a time in the past when the surface of Mars … The motions of the infrared light heat up the air surrounding the gases that absorbed it; thus making the Earth warmer.

Mars and Venus, without surface water, no longer have these weak zones.

Mars is the only telluric planet of the solar system that can also be studied from meteorites. The possibility of life on Mars is a subject of huge interest in astrobiology due to its proximity and similarities to Earth.To date, no proof has been found of past or present life on Mars.Cumulative evidence shows that during the ancient Noachian time period, the surface environment of Mars had liquid water and may have been habitable for microorganisms. Meteorites from Mars are incredibly rare - there are only 65 known in the world.
The gases in the atmosphere trap the infrared light that is emitted by the ground. Finally gasses trapped in them match the gases that are in Mars's atmosphere.

They contain a higher amount of volatiles than normal. None of these meteorites … One theory about why Earth continues to undergo plate movement while Venus and Mars do not is that Earth's crust remains soaked in water, and water plays an important role in shear zones, weak surfaces in which crust plates can move along and against each other.

The real color on mars comes from oxidized iron from weathering. Most Martian meteorites contain trace amounts of water vapor, which can be released from each sample by heating it … Trapped gases in them closely resemble the atmosphere analyzed by Viking, their distinctive compositions (very different from regular meteorites), and, in most cases, much younger ages than regular meteorites, tell us that these particular meteorites came from Mars. Approximately 99.8% of all known meteorites are pieces of asteroids, and only a few rare meteorites come from planetary bodies such as the Moon (0.1%) and Mars (0.1%).

Meteorites are much younger than the typical meteorite and asteroids. The gases block about 20% of the radiation coming into the Earth while 60% of radiation is blocked going out.
The Tissint Martian meteorite fell to Earth in Morocco last July.