Space Weathering Effects in Bennu Asteroid Samples

The OSIRIS-REx mission deployed contact pad samplers to collect regolith from the uppermost surface of the asteroid Bennu that was exposed to the space environment. Space weathering processes, dominated by micrometeoroid impacts and solar irradiation, modify the mineralogy and chemistry of exposed surfaces to produce solar wind amorphized layers on clays, metallic whiskers associated with high temperature melts, and Fe-nitride created by the reaction of indigenous N-bearing gases with space-weathered surfaces. Cosmogenic noble gases and radionuclides suggest that the upper meter of Bennu’s regolith has been exposed to cosmic rays for 2–7 million years, consistent with remote sensing observations indicating that the asteroid’s surface is dynamic and regularly modified by mass movement. Solar energetic particle track and microcrater densities constrain the space weathering spectral changes observed in Hokioi crater to <50,000 years. These spectral changes are driven largely by the accumulation of impact melt deposits on particle surfaces, although compositional or grain size effects may also have an effect. Comparison of Bennu samples to those collected from the asteroids Ryugu and Itokawa suggest micrometeoroid impacts might play a more active and rapid role in the space weathering of asteroidal surfaces than was initially suggested, particularly for carbonaceous bodies.