Hirdy Miyamoto (an Affiliate Scientist of PSI and an Associate Professor of University of Tokyo), Bob Gaskell (a Senior Scientist of PSI), and others studied the Hayabusa's high-resolution images with up to 6mm/pixel resolution and discovered that Itokawa was covered with unconsolidated millimeter-sized and larger gravels. The finest granules are in pebble size and are found only in the smooth-looking terrains that cover 20% of the surface.

This is surprising because impact ejecta on a small asteroid is expected to spread globally over its surface resulting in continuous regolith. In a paper being published today in the journal Science, Miyamoto, Gaskell, and others propose that unconsolidated gravels have globally migrated and segregated due to fluidization caused by vibrations likely induced by impacts of small meteoroids.

The key morphological evidence for the gravel migration is how gravels align in very close-up images. The directions of the longest axes of gravels might be randomly distributed if they are simply accumulated. However, statistic analyses based on mapping of the gravels indicate that Itokawa's gravels are generally aligned.

Deposits of terrestrial riverbed or landslides often show similar alignments. The directions of these asteroidal gravel migrations exactly coincide with the directions of local gravitational slopes.

When gravel is vibrated, it can be fluidized and behave as granular fluid. The most popular phenomenon related to this is called the "Brazil nut effect"---the biggest particles end up on the surface when granular material is shaken. Thus, the stranding of boulders covering the rough terrain of Itokawa may have occurred as a result of this process. Granular processes may be a major resurfacing mechanism for all small asteroids possessing regolith.

The content of this story is covered by the following paper: Miyamoto, H., H. Yano, D.J. Scheeres, S. Abe, O. Barnouin-Jha, A.F. Cheng, H. Demura, R.W. Gaskell, N. Hirata, M. Ishiguro, T. Michikami, A. M. Nakamura, R. Nakamura, J. Saito, and S. Sasaki, Regolith Migration and Sorting on Asteroid Itokawa, published online 19 April on Science Express, 10.1126/science.1134390. http://www.sciencexpress.org

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