Dark material on Vesta from the infall of carbonaceous volatile-rich material

T. B. McCord; J. Y. Li; J. P. Combe; H. Y. McSween; R. Jaumann; V. Reddy; F. Tosi; David Williams; D. T. Blewett; D. Turrini; E. Palomba; C. M. Pieters; M. C. De Sanctis; E. Ammannito; M. T. Capria; L. Le Corre; A. Longobardo; A. Nathues; D. W. Mittlefehldt; S. E. Schröder; H. Hiesinger; A. W. Beck; F. Capaccioni; U. Carsenty; H. U. Keller; B. W. Denevi; J. M. Sunshine; C. A. Raymond; C. T. Russell

doi:10.1038/nature11561

Dark material on Vesta from the infall of carbonaceous volatile-rich material

T. B. McCord, J. Y. Li, J. P. Combe, H. Y. McSween, R. Jaumann, V. Reddy, F. Tosi, David Williams, D. T. Blewett, D. Turrini, E. Palomba, C. M. Pieters, M. C. De Sanctis, E. Ammannito, M. T. Capria, L. Le Corre, A. Longobardo, A. Nathues, D. W. Mittlefehldt, S. E. SchröderH. Hiesinger, A. W. Beck, F. Capaccioni, U. Carsenty, H. U. Keller, B. W. Denevi, J. M. Sunshine, C. A. Raymond, C. T. Russell

Earth and Space Exploration, School of (SESE)

Research output: Contribution to journal › Article › peer-review

151 Scopus citations

Abstract

Localized dark and bright materials, often with extremely different albedos, were recently found on Vesta's surface. The range of albedos is among the largest observed on Solar System rocky bodies. These dark materials, often associated with craters, appear in ejecta and crater walls, and their pyroxene absorption strengths are correlated with material brightness. It was tentatively suggested that the dark material on Vesta could be either exogenic, from carbon-rich, low-velocity impactors, or endogenic, from freshly exposed mafic material or impact melt, created or exposed by impacts. Here we report Vesta spectra and images and use them to derive and interpret the properties of the 'pure' dark and bright materials. We argue that the dark material is mainly from infall of hydrated carbonaceous material (like that found in a major class of meteorites and some comet surfaces), whereas the bright material is the uncontaminated indigenous Vesta basaltic soil. Dark material from low-albedo impactors is diffused over time through the Vestan regolith by impact mixing, creating broader, diffuse darker regions and finally Vesta's background surface material. This is consistent with howardite-eucrite-diogenite meteorites coming from Vesta.

Original language	English (US)
Pages (from-to)	83-86
Number of pages	4
Journal	Nature
Volume	491
Issue number	7422
DOIs	https://doi.org/10.1038/nature11561
State	Published - Nov 1 2012

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McCord, T. B., Li, J. Y., Combe, J. P., McSween, H. Y., Jaumann, R., Reddy, V., Tosi, F., Williams, D., Blewett, D. T., Turrini, D., Palomba, E., Pieters, C. M., De Sanctis, M. C., Ammannito, E., Capria, M. T., Le Corre, L., Longobardo, A., Nathues, A., Mittlefehldt, D. W., ... Russell, C. T. (2012). Dark material on Vesta from the infall of carbonaceous volatile-rich material. Nature, 491(7422), 83-86. https://doi.org/10.1038/nature11561

McCord, TB, Li, JY, Combe, JP, McSween, HY, Jaumann, R, Reddy, V, Tosi, F, Williams, D, Blewett, DT, Turrini, D, Palomba, E, Pieters, CM, De Sanctis, MC, Ammannito, E, Capria, MT, Le Corre, L, Longobardo, A, Nathues, A, Mittlefehldt, DW, Schröder, SE, Hiesinger, H, Beck, AW, Capaccioni, F, Carsenty, U, Keller, HU, Denevi, BW, Sunshine, JM, Raymond, CA & Russell, CT 2012, 'Dark material on Vesta from the infall of carbonaceous volatile-rich material', Nature, vol. 491, no. 7422, pp. 83-86. https://doi.org/10.1038/nature11561

@article{e008d3f13044419d91a2459622770b9f,

title = "Dark material on Vesta from the infall of carbonaceous volatile-rich material",

abstract = "Localized dark and bright materials, often with extremely different albedos, were recently found on Vesta's surface. The range of albedos is among the largest observed on Solar System rocky bodies. These dark materials, often associated with craters, appear in ejecta and crater walls, and their pyroxene absorption strengths are correlated with material brightness. It was tentatively suggested that the dark material on Vesta could be either exogenic, from carbon-rich, low-velocity impactors, or endogenic, from freshly exposed mafic material or impact melt, created or exposed by impacts. Here we report Vesta spectra and images and use them to derive and interpret the properties of the 'pure' dark and bright materials. We argue that the dark material is mainly from infall of hydrated carbonaceous material (like that found in a major class of meteorites and some comet surfaces), whereas the bright material is the uncontaminated indigenous Vesta basaltic soil. Dark material from low-albedo impactors is diffused over time through the Vestan regolith by impact mixing, creating broader, diffuse darker regions and finally Vesta's background surface material. This is consistent with howardite-eucrite-diogenite meteorites coming from Vesta.",

author = "McCord, {T. B.} and Li, {J. Y.} and Combe, {J. P.} and McSween, {H. Y.} and R. Jaumann and V. Reddy and F. Tosi and David Williams and Blewett, {D. T.} and D. Turrini and E. Palomba and Pieters, {C. M.} and {De Sanctis}, {M. C.} and E. Ammannito and Capria, {M. T.} and {Le Corre}, L. and A. Longobardo and A. Nathues and Mittlefehldt, {D. W.} and Schr{\"o}der, {S. E.} and H. Hiesinger and Beck, {A. W.} and F. Capaccioni and U. Carsenty and Keller, {H. U.} and Denevi, {B. W.} and Sunshine, {J. M.} and Raymond, {C. A.} and Russell, {C. T.}",

note = "Funding Information: Acknowledgements This research was supported by the NASA Dawn Project under contract from UCLA, by the NASA Dawn at Vesta Participating Scientist program, the Italian Space Agency, the Max Planck Institute for Solar System Research, and the Germany Aerospace Agency (DLR). We acknowledge the support of the Dawn Science, Instrument and Operations Teams.",

year = "2012",

month = nov,

day = "1",

doi = "10.1038/nature11561",

language = "English (US)",

volume = "491",

pages = "83--86",

journal = "Nature",

issn = "0028-0836",

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TY - JOUR

T1 - Dark material on Vesta from the infall of carbonaceous volatile-rich material

AU - McCord, T. B.

AU - Li, J. Y.

AU - Combe, J. P.

AU - McSween, H. Y.

AU - Jaumann, R.

AU - Reddy, V.

AU - Tosi, F.

AU - Williams, David

AU - Blewett, D. T.

AU - Turrini, D.

AU - Palomba, E.

AU - Pieters, C. M.

AU - De Sanctis, M. C.

AU - Ammannito, E.

AU - Capria, M. T.

AU - Le Corre, L.

AU - Longobardo, A.

AU - Nathues, A.

AU - Mittlefehldt, D. W.

AU - Schröder, S. E.

AU - Hiesinger, H.

AU - Beck, A. W.

AU - Capaccioni, F.

AU - Carsenty, U.

AU - Keller, H. U.

AU - Denevi, B. W.

AU - Sunshine, J. M.

AU - Raymond, C. A.

AU - Russell, C. T.

N1 - Funding Information: Acknowledgements This research was supported by the NASA Dawn Project under contract from UCLA, by the NASA Dawn at Vesta Participating Scientist program, the Italian Space Agency, the Max Planck Institute for Solar System Research, and the Germany Aerospace Agency (DLR). We acknowledge the support of the Dawn Science, Instrument and Operations Teams.

PY - 2012/11/1

Y1 - 2012/11/1

N2 - Localized dark and bright materials, often with extremely different albedos, were recently found on Vesta's surface. The range of albedos is among the largest observed on Solar System rocky bodies. These dark materials, often associated with craters, appear in ejecta and crater walls, and their pyroxene absorption strengths are correlated with material brightness. It was tentatively suggested that the dark material on Vesta could be either exogenic, from carbon-rich, low-velocity impactors, or endogenic, from freshly exposed mafic material or impact melt, created or exposed by impacts. Here we report Vesta spectra and images and use them to derive and interpret the properties of the 'pure' dark and bright materials. We argue that the dark material is mainly from infall of hydrated carbonaceous material (like that found in a major class of meteorites and some comet surfaces), whereas the bright material is the uncontaminated indigenous Vesta basaltic soil. Dark material from low-albedo impactors is diffused over time through the Vestan regolith by impact mixing, creating broader, diffuse darker regions and finally Vesta's background surface material. This is consistent with howardite-eucrite-diogenite meteorites coming from Vesta.

AB - Localized dark and bright materials, often with extremely different albedos, were recently found on Vesta's surface. The range of albedos is among the largest observed on Solar System rocky bodies. These dark materials, often associated with craters, appear in ejecta and crater walls, and their pyroxene absorption strengths are correlated with material brightness. It was tentatively suggested that the dark material on Vesta could be either exogenic, from carbon-rich, low-velocity impactors, or endogenic, from freshly exposed mafic material or impact melt, created or exposed by impacts. Here we report Vesta spectra and images and use them to derive and interpret the properties of the 'pure' dark and bright materials. We argue that the dark material is mainly from infall of hydrated carbonaceous material (like that found in a major class of meteorites and some comet surfaces), whereas the bright material is the uncontaminated indigenous Vesta basaltic soil. Dark material from low-albedo impactors is diffused over time through the Vestan regolith by impact mixing, creating broader, diffuse darker regions and finally Vesta's background surface material. This is consistent with howardite-eucrite-diogenite meteorites coming from Vesta.

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JO - Nature

JF - Nature

IS - 7422

ER -

Dark material on Vesta from the infall of carbonaceous volatile-rich material

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