Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog

Introduction: Vesta is a 530 km diameter differentiated rocky body in the main asteroid belt that accreted within the first few million years after the formation of the earliest solar system solids [1,2,3]. These circumstances, along with the fact that Vesta's surface is probably sampled in met...

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Main Authors:	Marchi, S., McSween, H.Y., O'Brien, D., Schenk, P., de Sanctis, M.C., Gaskell, R., Hiesinger, H., Jaumann, R., Mottola, S., Preusker, Frank, Raymond, C.A., Roatsch, T., Russell, C.T., Yingst, R.A.
Format:	Conference Object
Language:	German
Published:	2012
Subjects:	Planetengeologie South Pole Venus South pole
Online Access:	https://elib.dlr.de/79814/ https://elib.dlr.de/79814/1/1617.pdf

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author	Marchi, S. McSween, H.Y. O'Brien, D. Schenk, P. de Sanctis, M.C. Gaskell, R. Hiesinger, H. Jaumann, R. Mottola, S. Preusker, Frank Raymond, C.A. Roatsch, T. Russell, C.T. Yingst, R.A.
author_facet	Marchi, S. McSween, H.Y. O'Brien, D. Schenk, P. de Sanctis, M.C. Gaskell, R. Hiesinger, H. Jaumann, R. Mottola, S. Preusker, Frank Raymond, C.A. Roatsch, T. Russell, C.T. Yingst, R.A.
author_sort	Marchi, S.
collection	Unknown
description	Introduction: Vesta is a 530 km diameter differentiated rocky body in the main asteroid belt that accreted within the first few million years after the formation of the earliest solar system solids [1,2,3]. These circumstances, along with the fact that Vesta's surface is probably sampled in meteorite collections, make Vesta one of the best targets for studying the early evolution of the main belt. According to current dynamical models [4,5,6,7], Vesta early evolution took place in an environment where collisions with other asteroids were much more frequent than today. While these models can inform our interpretations of Vesta's history, detailed studies of its impact record are necessary to discriminate between these different models and determine to what extent its surface has been reworked by cratering. Dawn observations of Vesta confirm and extend the range of geologic and impact processes seen on smaller asteroids. One of the obvious features emerging from these observations is that the surface of Vesta is dominated at all scales by impact craters. The lack of many of the obliteration processes that may occur on larger bodies (e.g., erosion on Mars, Venus; lava emplacement on the Moon and Mercury) allows for greater preservation of craters on Vesta. Observed crater sizes range from the resolution limit (10s of m for the low-altitude mapping orbit) to the largest ~500- km impact basin at the south pole, called Rheasilvia. Craters excavate and expose layers of different materials, drive regolith formation, and induce mass-wasting. Here we present the first attempt to develop a global crater catalog for Vesta that can be used to assess some of the above mentioned processes.
format	Conference Object
genre	South pole
genre_facet	South pole
geographic	South Pole Venus
geographic_facet	South Pole Venus
id	ftdlr:oai:elib.dlr.de:79814
institution	Open Polar
language	German
long_lat	ENVELOPE(-57.842,-57.842,-61.925,-61.925)
op_collection_id	ftdlr
op_relation	https://elib.dlr.de/79814/1/1617.pdf Marchi, S. und McSween, H.Y. und O'Brien, D. und Schenk, P. und de Sanctis, M.C. und Gaskell, R. und Hiesinger, H. und Jaumann, R. und Mottola, S. und Preusker, Frank und Raymond, C.A. und Roatsch, T. und Russell, C.T. und Yingst, R.A. (2012) Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog. In: 43rd Lunar and Planetary Science Conference Abstracts. 43rd Lunar and Planetary Science Conference, 2012-03-19 - 2012-03-23, The Woodlands, Texas, USA.
publishDate	2012
record_format	openpolar
spelling	ftdlr:oai:elib.dlr.de:79814 2025-06-15T14:49:38+00:00 Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog Marchi, S. McSween, H.Y. O'Brien, D. Schenk, P. de Sanctis, M.C. Gaskell, R. Hiesinger, H. Jaumann, R. Mottola, S. Preusker, Frank Raymond, C.A. Roatsch, T. Russell, C.T. Yingst, R.A. 2012 application/pdf https://elib.dlr.de/79814/ https://elib.dlr.de/79814/1/1617.pdf de ger https://elib.dlr.de/79814/1/1617.pdf Marchi, S. und McSween, H.Y. und O'Brien, D. und Schenk, P. und de Sanctis, M.C. und Gaskell, R. und Hiesinger, H. und Jaumann, R. und Mottola, S. und Preusker, Frank und Raymond, C.A. und Roatsch, T. und Russell, C.T. und Yingst, R.A. (2012) Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog. In: 43rd Lunar and Planetary Science Conference Abstracts. 43rd Lunar and Planetary Science Conference, 2012-03-19 - 2012-03-23, The Woodlands, Texas, USA. Planetengeologie Konferenzbeitrag NonPeerReviewed 2012 ftdlr 2025-06-04T04:58:10Z Introduction: Vesta is a 530 km diameter differentiated rocky body in the main asteroid belt that accreted within the first few million years after the formation of the earliest solar system solids [1,2,3]. These circumstances, along with the fact that Vesta's surface is probably sampled in meteorite collections, make Vesta one of the best targets for studying the early evolution of the main belt. According to current dynamical models [4,5,6,7], Vesta early evolution took place in an environment where collisions with other asteroids were much more frequent than today. While these models can inform our interpretations of Vesta's history, detailed studies of its impact record are necessary to discriminate between these different models and determine to what extent its surface has been reworked by cratering. Dawn observations of Vesta confirm and extend the range of geologic and impact processes seen on smaller asteroids. One of the obvious features emerging from these observations is that the surface of Vesta is dominated at all scales by impact craters. The lack of many of the obliteration processes that may occur on larger bodies (e.g., erosion on Mars, Venus; lava emplacement on the Moon and Mercury) allows for greater preservation of craters on Vesta. Observed crater sizes range from the resolution limit (10s of m for the low-altitude mapping orbit) to the largest ~500- km impact basin at the south pole, called Rheasilvia. Craters excavate and expose layers of different materials, drive regolith formation, and induce mass-wasting. Here we present the first attempt to develop a global crater catalog for Vesta that can be used to assess some of the above mentioned processes. Conference Object South pole Unknown South Pole Venus ENVELOPE(-57.842,-57.842,-61.925,-61.925)
spellingShingle	Planetengeologie Marchi, S. McSween, H.Y. O'Brien, D. Schenk, P. de Sanctis, M.C. Gaskell, R. Hiesinger, H. Jaumann, R. Mottola, S. Preusker, Frank Raymond, C.A. Roatsch, T. Russell, C.T. Yingst, R.A. Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog
title	Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog
title_full	Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog
title_fullStr	Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog
title_full_unstemmed	Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog
title_short	Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog
title_sort	vesta collisional history revealed by dawn: building a vesta global crater catalog
topic	Planetengeologie
topic_facet	Planetengeologie
url	https://elib.dlr.de/79814/ https://elib.dlr.de/79814/1/1617.pdf

Vesta Collisional History Revealed by Dawn: Building a Vesta Global Crater Catalog

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