Imagine a barcode on Mars, a mysterious pattern etched into the rusty slopes of the Red Planet. This is no ordinary sight, but a rare phenomenon caused by an extraordinary event. On Christmas Eve 2023, a European Space Agency (ESA) spacecraft captured an image that has scientists intrigued.
The image reveals dark, finger-like trails, like a barcode, descending from the flanks of Apollinaris Mons, a massive extinct volcano near Mars’ equator. Each stripe, varying in width, is a trail of dust, a result of an avalanche triggered by a meteoroid impact.
But here’s where it gets controversial: a new study led by Valentin Bickel challenges the conventional wisdom. While most slope streaks on Mars are believed to be caused by seasonal changes, Bickel’s research suggests that meteoroid impacts are a rare occurrence. In fact, his findings indicate that fewer than one in a thousand slope streaks are formed by such impacts.
“Meteoroid impacts and quakes seem to be locally distinct but globally insignificant drivers,” Bickel explains. To reach this conclusion, he analyzed an extensive dataset, studying over 2 million slope streaks across 90,000 orbital images of Mars.
By comparing this data with global maps of temperature, wind speed, and other factors, Bickel used an advanced deep-learning algorithm to pinpoint the formation of these streaks. His findings reveal that most streaks appear during Mars’ dustiest seasons, especially during southern summer and autumn, when winds are strong enough to move sand-sized particles.
And this is the part most people miss: these small streaks, when combined, contribute a significant amount of dust to Mars’ atmosphere. Bickel estimates that they lift about a quarter of all the dust exchanged between the surface and the atmosphere each year, comparable to the impact of two planet-wide dust storms.
The study also identifies five global hotspots for slope streaks: Amazonis, the Olympus Mons aureole, Tharsis, Arabia, and Elysium. These regions have the perfect combination of steep slopes, loose dust, and just-right winds to create these unique patterns.
“These observations could lead to a better understanding of what happens on Mars today,” says Colin Wilson, the project scientist for the ExoMars Trace Gas Orbiter.
So, what do you think? Are meteoroid impacts a rare occurrence on Mars, or do they play a more significant role than we realize? Share your thoughts in the comments and let’s discuss this intriguing aspect of Martian geology!