What is the impact rate of meteorites on Mars based on seismic data?

Mars Faces a Cosmic Bombardment: Uncovering the True Impact Rate

Introduction

Picture Mars, the Red Planet, a mesmerizing cosmic neighbor. Unbeknownst to many, Mars endures a relentless barrage of meteorite impacts, shaping its surface and providing scientists with valuable insights.

Shaking Mars Awake

In 2018, NASA’s InSight lander arrived on Mars, equipped with a sensitive seismometer designed to listen for the planet’s seismic rumblings. To the surprise of scientists, InSight detected a unique class of seismic events, known as very-high-frequency (VF) events, which resembled the telltale signature of meteorite impacts.

Impact Clues Revealed

These VF events exhibit distinctive patterns when analyzed. They have a high frequency, suggesting they come from a rapid, powerful source. Furthermore, some of these events produce a “chirp,” a crackling sound thought to be from the acoustic waves generated by the impact.

Mapping the Impacts

The seismometer’s location on the Martian surface allowed scientists to pinpoint the impact sites. Intriguingly, the VF events happened randomly across the planet, like a celestial pinball game. Yet, during the second year of InSight’s mission, a notable spike in impact activity was observed.

Counting the Impacts

To determine the impact rate, scientists analyzed the frequency and magnitude of these VF events. Surprisingly, the distribution of these events differed significantly from that of marsquakes, indicating a distinct origin related to impacts.

Calibrating the Seismic Data

Next, they needed to convert the seismic measurements into meaningful impact data. They analyzed six impacts that InSight had seismically detected and found a correlation between the seismic signal and the size of the impact crater.

The Seismically Constrained Impact Rate

Armed with this information, scientists calculated the impact rate on Mars. Their estimates reveal a staggering number: 280-360 impacts per year with craters measuring at least 8 meters wide. This translates to approximately 30 impacts per year that would leave a crater 30 meters or larger.

Higher Than Anticipated

This seismically derived impact rate is significantly higher than previous estimates based on satellite imaging or lunar crater models. Scientists attribute this discrepancy to the superior ability of seismometry to detect smaller impacts and impacts that occur in hidden or obscured locations.

Implications for Mars and Beyond

The higher impact rate has important implications. For future human missions to Mars, understanding the frequency of meteorite bombardments is crucial for planning astronaut safety. Additionally, it provides insights into the geological evolution of Mars and the formation and evolution of our Solar System.

Conclusion

InSight’s seismic data has unveiled a new chapter in our understanding of Mars. The seismically derived impact rate provides a more accurate measure of the planet’s cosmic bombardment, expanding our knowledge of the Red Planet and its place in the celestial tapestry.