Your search keyword '"Carina Bennett"' showing total 2 results

1. Fine-regolith production on asteroids controlled by rock porosity

Author

G. Poggiali, Marco Delbo, M. A. Barucci, Benjamin Rozitis, Kevin J. Walsh, J. D. P. Deshapriya, Dante S. Lauretta, John Robert Brucato, Josh Emery, Andrew Ryan, Erik Asphaug, K. N. Burke, R. L. Ballouz, Daniella DellaGiustina, Carina Bennett, Edward A. Cloutis, William F. Bottke, C. Avdellidou, and Saverio Cambioni

Subjects

Multidisciplinary, Meteoroid, Asteroid, Carbonaceous chondrite, Breccia, Compaction, Geochemistry, Porosity, Cementation (geology), Regolith, Geology

Abstract

Spacecraft missions have observed regolith blankets of unconsolidated subcentimetre particles on stony asteroids1–3. Telescopic data have suggested the presence of regolith blankets also on carbonaceous asteroids, including (101955) Bennu4 and (162173) Ryugu5. However, despite observations of processes that are capable of comminuting boulders into unconsolidated materials, such as meteoroid bombardment6,7 and thermal cracking8, Bennu and Ryugu lack extensive areas covered in subcentimetre particles7,9. Here we report an inverse correlation between the local abundance of subcentimetre particles and the porosity of rocks on Bennu. We interpret this finding to mean that accumulation of unconsolidated subcentimetre particles is frustrated where the rocks are highly porous, which appears to be most of the surface10. The highly porous rocks are compressed rather than fragmented by meteoroid impacts, consistent with laboratory experiments11,12, and thermal cracking proceeds more slowly than in denser rocks. We infer that regolith blankets are uncommon on carbonaceous asteroids, which are the most numerous type of asteroid13. By contrast, these terrains should be common on stony asteroids, which have less porous rocks and are the second-most populous group by composition13. The higher porosity of carbonaceous asteroid materials may have aided in their compaction and cementation to form breccias, which dominate the carbonaceous chondrite meteorites14. The absence of fine regolith on the asteroid Bennu is due to the high porosity of its rocks, which compress rather than fragment after impacts and exhibit slow thermal cracking.

Published

2021

2. Publisher Correction: Craters, boulders and regolith of (101955) Bennu indicative of an old and dynamic surface

Author

Mark E. Perry, Carina Bennett, B. C. Clark, Olivier S. Barnouin, Catherine Elder, Dante S. Lauretta, Bashar Rizk, Erica Jawin, Erik Asphaug, Dathon Golish, Chloe B. Beddingfield, Michael Daly, Michael C. Nolan, Stephen R. Schwartz, Marco Delbo, Daniella DellaGiustina, Kevin J. Walsh, Kris J. Becker, Scott A. Sandford, Florian Thuillet, Maurizio Pajola, Ronald-Louis Ballouz, David Trang, Alan R. Hildebrand, Daniel J. Scheeres, P. Michel, Jamie Molaro, Osiris-Rex Team, E. B. Bierhaus, K. N. Burke, John Marshall, Timothy J. McCoy, William F. Bottke, Hannah C.M. Susorney, Andrew Ryan, Harold C. Connolly, Jason P. Dworkin, Christine Hartzell, and Renu Malhotra

Subjects

Surface (mathematics), Impact crater, General Earth and Planetary Sciences, Geomorphology, Regolith, Geology, Term (time)

Abstract

In the version of this Article originally published, in the sentence “There are three identified boulders with long axes exceeding 40 m and more than 200 boulders larger than 10 m”, the term “10 m” should have been “10 m (ref.)”. This has now been corrected.

Published

2019