Lunar Polar Wander

  • Released Monday, September 19, 2022
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The wandering path of the lunar South Pole is shown over a period from 4.25 billion years ago to the present.

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The North and South Poles of the Moon haven't always been where they are today. Asteroid impacts both large and small, most of which occurred early in the Moon's history, have changed the Moon's mass distribution. After each impact, the Moon gradually rebalanced itself around its spin axis. This kind of rebalancing, in which a planet or moon reorients itself while the spin axis continues to point in the same direction in space, is called true polar wander.

In a study published in the Planetary Science Journal, David E. Smith, Vishnu Viswanathan, and their coauthors used maps of the Moon's topography and gravity, based on data gathered by NASA's LRO and GRAIL missions, to infer the evolution of the Moon's mass distribution and its effect on the location of the poles. They found that impacts have moved the poles almost 10 degrees in latitude – 300 kilometers or 190 miles – over the roughly 4.25 billion years since the cataclysmic event that created the South Pole-Aitken basin.

The visualization on this page shows the polar wander calculated by the computer simulation created for the study. As seen here, the South Pole arrives in roughly its present position relatively early in the Moon's history, raising the possibility that some of the water ice and other volatiles trapped in permanently shadowed regions near the South Pole may be up to 3.8 billion years old.

The wandering path of the lunar South Pole is shown over a period from 4.25 billion years ago to the present. The video is presented in a square aspect ratio.

For More Information

See NASA Study: Small Craters Add Up to Wandering Poles on the Moon

Credits

Please give credit for this item to:
NASA's Scientific Visualization Studio

This page was originally published on Monday, September 19, 2022.
This page was last updated on Wednesday, November 15, 2023 at 12:18 AM EST.

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Papers used in this visualization

The Contribution of Small Impact Craters to Lunar Polar Wander, David E. Smith et al 2022 Planet. Sci. J. 3 217

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