The Winchcombe meteorite—A regolith breccia from a rubble pile <scp>CM</scp> chondrite asteroid
Average rating
Cast your vote
You can rate an item by clicking the amount of stars they wish to award to
this item.
When enough users have cast their vote on this item, the average rating will also be shown.
Star rating
Your vote was cast
Thank you for your feedback
Thank you for your feedback
Authors
Suttle, MDDaly, L
Jones, RH
Jenkins, L
Van Ginneken, M
Mitchell, JT
Bridges, JC
Hicks, LJ
Johnson, D
Rollinson, G
Taylor, R
Genge, MJ
Schröder, C
Trimby, P
Mansour, H
Piazolo, S
Bonsall, E
Salge, T
Heard, R
Findlay, R
King, A
Bates, HC
Lee, MR
Stephen, NR
Willcocks, FM
Greenwood, RC
Franchi, IA
Russell, SS
Harrison, CS
Schofield, PF
Almeida, NV
Floyd, C
Martin, P‐E
Joy, KH
Wozniakiewicz, PJ
Hallatt, D
Burchell, MJ
Alesbrook, LS
Spathis, V
Cornwell, LT
Dignam, A
Issue date
2024-05Submitted date
2022-05-31
Metadata
Show full item recordAbstract
Abstract The Winchcombe meteorite is a CM chondrite breccia composed of eight distinct lithological units plus a cataclastic matrix. The degree of aqueous alteration varies between intensely altered CM2.0 and moderately altered CM2.6. Although no lithology dominates, three heavily altered rock types (CM2.1–2.3) represent >70 area%. Tochilinite–cronstedtite intergrowths (TCIs) are common in several lithologies. Their compositions can vary significantly, even within a single lithology, which can prevent a clear assessment of alteration extent if only TCI composition is considered. We suggest that this is due to early alteration under localized geochemical microenvironments creating a diversity of compositions and because later reprocessing was incomplete, leaving a record of the parent body's fluid history. In Winchcombe, the fragments of primary accretionary rock are held within a cataclastic matrix (~15 area%). This material is impact‐derived fallback debris. Its grain size and texture suggest that the disruption of the original parent asteroid responded by intergranular fracture at grain sizes <100 μm, while larger phases, such as whole chondrules, splintered apart. Re‐accretion formed a poorly lithified body. During atmospheric entry, the Winchcombe meteoroid broke apart with new fractures preferentially cutting through the weaker cataclastic matrix and separating the breccia into its component clasts. The strength of the cataclastic matrix imparts a control on the survival of CM chondrite meteoroids. Winchcombe's unweathered state and diversity of lithologies make it an ideal sample for exploring the geological history of the CM chondrite group.Citation
Suttle, M.D., Daly, L., Jones, R.H., Jenkins, L., van Ginneken, M., Mitchell, J.T., Bridges, J.C., Hicks, L.J., Johnson, D., Rollinson, G., Taylor, R., Genge, M.J., Schröder, C., Trimby, P., Mansour, H., Piazolo, S., Bonsall, E., Salge, T., Heard, R., Findlay, R., King, A.J., Bates, H.C., Lee, M.R., Stephen, N.R., Willcocks, F.M., Greenwood, R.C., Franchi, I.A., Russell, S.S., Harrison, C.S., Schofield, P.F., Almeida, N.V., Floyd, C., Martin, P.-.-E., Joy, K.H., Wozniakiewicz, P.J., Hallatt, D., Burchell, M.J., Alesbrook, L.S., Spathis, V., Cornwell, L.T. and Dignam, A. (2024), The Winchcombe meteorite—A regolith breccia from a rubble pile CM chondrite asteroid. Meteorit Planet Sci, 59: 1043-1067. https://doi.org/10.1111/maps.13938Publisher
WileyType
Journal ArticleItem Description
Copyright © 2022 The Authors. Meteoritics & Planetary Science published by Wiley Periodicals LLC on behalf of The Meteoritical Society. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. The linked file is the published version of the article.NHM Repository
ISSN
1086-9379EISSN
1945-5100ae974a485f413a2113503eed53cd6c53
10.1111/maps.13938
Scopus Count
Collections