Mineralogical evidence for hydrothermal alteration of Bennu samples

T. J. Zega; T. J. McCoy; S. S. Russell; L. P. Keller; Z. Gainsforth; S. A. Singerling; V. R. Manga; C. Harrison; G. Libourel; B. S. Prince; K. Thomas-Keprta; A. King; M. Portail; V. Guigoz; V. Tu; L. Le; M. Thompson; M. C. Benner; N. A. Kerrison; J. J. Barnes; I. Ong; P. Haenecour; L. Chaves; L. Smith; M. Kontogiannis; N. Vega Santiago; D. Hill; Z. Zeszut; K. Domanik; Y. J. Chang; C. M. Corrigan; S. Ray; L. R. Wardell; T. Gooding; T. R. Rose; H. C. Bates; P. F. Schofield; N. V. Almeida; T. Salge; J. Najorka; L. B. Seifert; N. Lunning; K. Righter; A. N. Nguyen; F. E. Brenker; S. A. Eckley; J. P. Dworkin; R. H. Jones; S. A. Sandford; M. A. Marcus; H. A. Bechtel; G. Dominguez; H. Yurimoto; N. Kawasaki; K. Bajo; N. Sakamoto; P. M. Zanetta; S. Tachibana; H. Busemann; V. E. Hamilton; I. A. Franchi; M. Grady; R. C. Greenwood; K. Tait; N. Timms; P. Bland; F. Jourdan; S. M. Reddy; W. Rickard; D. Saxey; L. Vincze; H. C. Connolly; D. S. Lauretta

doi:10.1038/s41561-025-01741-0

Mineralogical evidence for hydrothermal alteration of Bennu samples

T. J. Zega
, T. J. McCoy
, S. S. Russell
, L. P. Keller
, Z. Gainsforth
, S. A. Singerling
, V. R. Manga
, C. Harrison
, G. Libourel
, B. S. Prince
, K. Thomas-Keprta
, A. King
, M. Portail
, V. Guigoz
, V. Tu
, L. Le
, M. Thompson
, M. C. Benner
, N. A. Kerrison
, J. J. Barnes

I. Ong, P. Haenecour, L. Chaves, L. Smith, M. Kontogiannis, N. Vega Santiago, D. Hill, Z. Zeszut, K. Domanik, Y. J. Chang, C. M. Corrigan, S. Ray, L. R. Wardell, T. Gooding, T. R. Rose, H. C. Bates, P. F. Schofield, N. V. Almeida, T. Salge, J. Najorka, L. B. Seifert, N. Lunning, K. Righter, A. N. Nguyen, F. E. Brenker, S. A. Eckley, J. P. Dworkin, R. H. Jones, S. A. Sandford, M. A. Marcus, H. A. Bechtel, G. Dominguez, H. Yurimoto, N. Kawasaki, K. Bajo, N. Sakamoto, P. M. Zanetta, S. Tachibana, H. Busemann, V. E. Hamilton, I. A. Franchi, M. Grady, R. C. Greenwood, K. Tait, N. Timms, P. Bland, F. Jourdan, S. M. Reddy, W. Rickard, D. Saxey, L. Vincze, H. C. Connolly, D. S. Lauretta

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

12 Scopus citations

Abstract

Samples of asteroid (101955) Bennu delivered by the OSIRIS-REx mission offer the opportunity to study pristine planetary materials unchanged by exposure to the terrestrial environment. Here we use a combination of X-ray diffraction and various electron microscopy techniques to explore the detailed mineralogy of Bennu samples and determine the alteration history of the planetesimal protolith from which they originated. The samples consist largely of hydrated sheet-silicate minerals, namely nanoscale serpentine and saponite of varied grain size, which are decorated with micro- to nanoscale Fe-sulfides, magnetite and carbonates. We observe sheet silicates parallel and normal to sulfide surfaces and as inclusions in sulfides; sulfur-rich veins transecting the sheet-silicate matrix; zoned carbonates and phosphates and sulfide and magnetite grains exhibiting embayment. The mineralogical evidence indicates alteration of accreted minerals by a fluid that evolved with time, leading to etching, dissolution and reprecipitation. Sulfide compositions indicate alteration at ~25 °C, similar to conditions inferred for asteroid (162173) Ryugu and Ivuna-type (CI) chondrite meteorites. The fluid probably evolved from neutral to alkaline, culminating with the precipitation of highly soluble salts. We conclude that Bennu’s protolith comprised mainly nanometre to micrometre silicates, with fewer chondrules and calcium–aluminium-rich inclusions than those of most chondrite groups.

Original language	English (US)
Pages (from-to)	832-839
Number of pages	8
Journal	Nature Geoscience
Volume	18
Issue number	9
DOIs	https://doi.org/10.1038/s41561-025-01741-0
State	Published - Sep 2025

ASJC Scopus subject areas

General Earth and Planetary Sciences

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10.1038/s41561-025-01741-0

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Zega, T. J., McCoy, T. J., Russell, S. S., Keller, L. P., Gainsforth, Z., Singerling, S. A., Manga, V. R., Harrison, C., Libourel, G., Prince, B. S., Thomas-Keprta, K., King, A., Portail, M., Guigoz, V., Tu, V., Le, L., Thompson, M., Benner, M. C., Kerrison, N. A., ... Lauretta, D. S. (2025). Mineralogical evidence for hydrothermal alteration of Bennu samples. Nature Geoscience, 18(9), 832-839. https://doi.org/10.1038/s41561-025-01741-0

Zega, TJ, McCoy, TJ, Russell, SS, Keller, LP, Gainsforth, Z, Singerling, SA, Manga, VR, Harrison, C, Libourel, G, Prince, BS, Thomas-Keprta, K, King, A, Portail, M, Guigoz, V, Tu, V, Le, L, Thompson, M, Benner, MC, Kerrison, NA, Barnes, JJ, Ong, I, Haenecour, P, Chaves, L, Smith, L, Kontogiannis, M, Vega Santiago, N, Hill, D, Zeszut, Z, Domanik, K, Chang, YJ, Corrigan, CM, Ray, S, Wardell, LR, Gooding, T, Rose, TR, Bates, HC, Schofield, PF, Almeida, NV, Salge, T, Najorka, J, Seifert, LB, Lunning, N, Righter, K, Nguyen, AN, Brenker, FE, Eckley, SA, Dworkin, JP, Jones, RH, Sandford, SA, Marcus, MA, Bechtel, HA, Dominguez, G, Yurimoto, H, Kawasaki, N, Bajo, K, Sakamoto, N, Zanetta, PM, Tachibana, S, Busemann, H, Hamilton, VE, Franchi, IA, Grady, M, Greenwood, RC, Tait, K, Timms, N, Bland, P, Jourdan, F, Reddy, SM, Rickard, W, Saxey, D, Vincze, L, Connolly, HC & Lauretta, DS 2025, 'Mineralogical evidence for hydrothermal alteration of Bennu samples', Nature Geoscience, vol. 18, no. 9, pp. 832-839. https://doi.org/10.1038/s41561-025-01741-0

@article{7cd544f00c8b460d80980a5211f147c2,

title = "Mineralogical evidence for hydrothermal alteration of Bennu samples",

abstract = "Samples of asteroid (101955) Bennu delivered by the OSIRIS-REx mission offer the opportunity to study pristine planetary materials unchanged by exposure to the terrestrial environment. Here we use a combination of X-ray diffraction and various electron microscopy techniques to explore the detailed mineralogy of Bennu samples and determine the alteration history of the planetesimal protolith from which they originated. The samples consist largely of hydrated sheet-silicate minerals, namely nanoscale serpentine and saponite of varied grain size, which are decorated with micro- to nanoscale Fe-sulfides, magnetite and carbonates. We observe sheet silicates parallel and normal to sulfide surfaces and as inclusions in sulfides; sulfur-rich veins transecting the sheet-silicate matrix; zoned carbonates and phosphates and sulfide and magnetite grains exhibiting embayment. The mineralogical evidence indicates alteration of accreted minerals by a fluid that evolved with time, leading to etching, dissolution and reprecipitation. Sulfide compositions indicate alteration at \textasciitilde{}25 °C, similar to conditions inferred for asteroid (162173) Ryugu and Ivuna-type (CI) chondrite meteorites. The fluid probably evolved from neutral to alkaline, culminating with the precipitation of highly soluble salts. We conclude that Bennu{\textquoteright}s protolith comprised mainly nanometre to micrometre silicates, with fewer chondrules and calcium–aluminium-rich inclusions than those of most chondrite groups.",

author = "Zega, \{T. J.\} and McCoy, \{T. J.\} and Russell, \{S. S.\} and Keller, \{L. P.\} and Z. Gainsforth and Singerling, \{S. A.\} and Manga, \{V. R.\} and C. Harrison and G. Libourel and Prince, \{B. S.\} and K. Thomas-Keprta and A. King and M. Portail and V. Guigoz and V. Tu and L. Le and M. Thompson and Benner, \{M. C.\} and Kerrison, \{N. A.\} and Barnes, \{J. J.\} and I. Ong and P. Haenecour and L. Chaves and L. Smith and M. Kontogiannis and \{Vega Santiago\}, N. and D. Hill and Z. Zeszut and K. Domanik and Chang, \{Y. J.\} and Corrigan, \{C. M.\} and S. Ray and Wardell, \{L. R.\} and T. Gooding and Rose, \{T. R.\} and Bates, \{H. C.\} and Schofield, \{P. F.\} and Almeida, \{N. V.\} and T. Salge and J. Najorka and Seifert, \{L. B.\} and N. Lunning and K. Righter and Nguyen, \{A. N.\} and Brenker, \{F. E.\} and Eckley, \{S. A.\} and Dworkin, \{J. P.\} and Jones, \{R. H.\} and Sandford, \{S. A.\} and Marcus, \{M. A.\} and Bechtel, \{H. A.\} and G. Dominguez and H. Yurimoto and N. Kawasaki and K. Bajo and N. Sakamoto and Zanetta, \{P. M.\} and S. Tachibana and H. Busemann and Hamilton, \{V. E.\} and Franchi, \{I. A.\} and M. Grady and Greenwood, \{R. C.\} and K. Tait and N. Timms and P. Bland and F. Jourdan and Reddy, \{S. M.\} and W. Rickard and D. Saxey and L. Vincze and Connolly, \{H. C.\} and Lauretta, \{D. S.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = sep,

doi = "10.1038/s41561-025-01741-0",

language = "English (US)",

volume = "18",

pages = "832--839",

journal = "Nature Geoscience",

issn = "1752-0894",

publisher = "Nature Publishing Group",

number = "9",

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TY - JOUR

T1 - Mineralogical evidence for hydrothermal alteration of Bennu samples

AU - Zega, T. J.

AU - McCoy, T. J.

AU - Russell, S. S.

AU - Keller, L. P.

AU - Gainsforth, Z.

AU - Singerling, S. A.

AU - Manga, V. R.

AU - Harrison, C.

AU - Libourel, G.

AU - Prince, B. S.

AU - Thomas-Keprta, K.

AU - King, A.

AU - Portail, M.

AU - Guigoz, V.

AU - Tu, V.

AU - Le, L.

AU - Thompson, M.

AU - Benner, M. C.

AU - Kerrison, N. A.

AU - Barnes, J. J.

AU - Ong, I.

AU - Haenecour, P.

AU - Chaves, L.

AU - Smith, L.

AU - Kontogiannis, M.

AU - Vega Santiago, N.

AU - Hill, D.

AU - Zeszut, Z.

AU - Domanik, K.

AU - Chang, Y. J.

AU - Corrigan, C. M.

AU - Ray, S.

AU - Wardell, L. R.

AU - Gooding, T.

AU - Rose, T. R.

AU - Bates, H. C.

AU - Schofield, P. F.

AU - Almeida, N. V.

AU - Salge, T.

AU - Najorka, J.

AU - Seifert, L. B.

AU - Lunning, N.

AU - Righter, K.

AU - Nguyen, A. N.

AU - Brenker, F. E.

AU - Eckley, S. A.

AU - Dworkin, J. P.

AU - Jones, R. H.

AU - Sandford, S. A.

AU - Marcus, M. A.

AU - Bechtel, H. A.

AU - Dominguez, G.

AU - Yurimoto, H.

AU - Kawasaki, N.

AU - Bajo, K.

AU - Sakamoto, N.

AU - Zanetta, P. M.

AU - Tachibana, S.

AU - Busemann, H.

AU - Hamilton, V. E.

AU - Franchi, I. A.

AU - Grady, M.

AU - Greenwood, R. C.

AU - Tait, K.

AU - Timms, N.

AU - Bland, P.

AU - Jourdan, F.

AU - Reddy, S. M.

AU - Rickard, W.

AU - Saxey, D.

AU - Vincze, L.

AU - Connolly, H. C.

AU - Lauretta, D. S.

PY - 2025/9

Y1 - 2025/9

N2 - Samples of asteroid (101955) Bennu delivered by the OSIRIS-REx mission offer the opportunity to study pristine planetary materials unchanged by exposure to the terrestrial environment. Here we use a combination of X-ray diffraction and various electron microscopy techniques to explore the detailed mineralogy of Bennu samples and determine the alteration history of the planetesimal protolith from which they originated. The samples consist largely of hydrated sheet-silicate minerals, namely nanoscale serpentine and saponite of varied grain size, which are decorated with micro- to nanoscale Fe-sulfides, magnetite and carbonates. We observe sheet silicates parallel and normal to sulfide surfaces and as inclusions in sulfides; sulfur-rich veins transecting the sheet-silicate matrix; zoned carbonates and phosphates and sulfide and magnetite grains exhibiting embayment. The mineralogical evidence indicates alteration of accreted minerals by a fluid that evolved with time, leading to etching, dissolution and reprecipitation. Sulfide compositions indicate alteration at ~25 °C, similar to conditions inferred for asteroid (162173) Ryugu and Ivuna-type (CI) chondrite meteorites. The fluid probably evolved from neutral to alkaline, culminating with the precipitation of highly soluble salts. We conclude that Bennu’s protolith comprised mainly nanometre to micrometre silicates, with fewer chondrules and calcium–aluminium-rich inclusions than those of most chondrite groups.

AB - Samples of asteroid (101955) Bennu delivered by the OSIRIS-REx mission offer the opportunity to study pristine planetary materials unchanged by exposure to the terrestrial environment. Here we use a combination of X-ray diffraction and various electron microscopy techniques to explore the detailed mineralogy of Bennu samples and determine the alteration history of the planetesimal protolith from which they originated. The samples consist largely of hydrated sheet-silicate minerals, namely nanoscale serpentine and saponite of varied grain size, which are decorated with micro- to nanoscale Fe-sulfides, magnetite and carbonates. We observe sheet silicates parallel and normal to sulfide surfaces and as inclusions in sulfides; sulfur-rich veins transecting the sheet-silicate matrix; zoned carbonates and phosphates and sulfide and magnetite grains exhibiting embayment. The mineralogical evidence indicates alteration of accreted minerals by a fluid that evolved with time, leading to etching, dissolution and reprecipitation. Sulfide compositions indicate alteration at ~25 °C, similar to conditions inferred for asteroid (162173) Ryugu and Ivuna-type (CI) chondrite meteorites. The fluid probably evolved from neutral to alkaline, culminating with the precipitation of highly soluble salts. We conclude that Bennu’s protolith comprised mainly nanometre to micrometre silicates, with fewer chondrules and calcium–aluminium-rich inclusions than those of most chondrite groups.

UR - https://www.scopus.com/pages/publications/105013789310

UR - https://www.scopus.com/pages/publications/105013789310#tab=citedBy

U2 - 10.1038/s41561-025-01741-0

DO - 10.1038/s41561-025-01741-0

M3 - Article

AN - SCOPUS:105013789310

SN - 1752-0894

VL - 18

SP - 832

EP - 839

JO - Nature Geoscience

JF - Nature Geoscience

IS - 9

ER -

Mineralogical evidence for hydrothermal alteration of Bennu samples

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