Brecciation at the grain scale within the lithologies of the Winchcombe Mighei‐like carbonaceous chondrite
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Authors
Daly, LukeSuttle, Martin D
Lee, Martin R
Bridges, John
Hicks, Leon
Martin, Pierre‐Etienne MC
Floyd, Cameron J
Jenkins, Laura E
Salge, T
King, Ashley J
Almeida, Natasha V
Johnson, Diane
Trimby, Patrick W
Mansour, Haithem
Wadsworth, Fabian B
Rollinson, Gavyn
Genge, Matthew J
Darling, James
Bagot, Paul AJ
White, Lee F
Stephen, Natasha R
Mitchell, Jennifer T
Griffin, Sammy
Willcocks, Francesca M
Jones, Rhian
Piazolo, Sandra
Einsle, Joshua F
Macente, Alice
Hallis, Lydia J
O'Brien, Aine
Schofield, Paul F
Russell, Sara S
Bates, Helena
Smith, Caroline
Franchi, Ian
Forman, Lucy V
Bland, Phil A
Westmoreland, David
Anderson, Iain
Taylor, Richard
Montgomery, Mark
Parsons, Mark
Vasseur, Jérémie
van Ginneken, Matthias
Wozniakiewicz, Penelope J
Burchell, Mark J
Hallatt, Daniel
Alesbrook, Luke S
Spathis, Vassilia
Worden, Richard
Behnsen, Julie
Black, Kate
Issue date
2024-05-10Submitted date
2022-07-15
Metadata
Show full item recordAbstract
Abstract: The Mighei‐like carbonaceous (CM) chondrites have been altered to various extents by water–rock reactions on their parent asteroid(s). This aqueous processing has destroyed much of the primary mineralogy of these meteorites, and the degree of alteration is highly heterogeneous at both the macroscale and nanoscale. Many CM meteorites are also heavily brecciated juxtaposing clasts with different alteration histories. Here we present results from the fine‐grained team consortium study of the Winchcombe meteorite, a recent CM chondrite fall that is a breccia and contains eight discrete lithologies that span a range of petrologic subtypes (CM2.0–2.6) that are suspended in a cataclastic matrix. Coordinated multitechnique, multiscale analyses of this breccia reveal substantial heterogeneity in the extent of alteration, even in highly aqueously processed lithologies. Some lithologies exhibit the full range and can comprise nearly unaltered coarse‐grained primary components that are found directly alongside other coarse‐grained components that have experienced complete pseudomorphic replacement by secondary minerals. The preservation of the complete alteration sequence and pseudomorph textures showing tochilinite–cronstedtite intergrowths are replacing carbonates suggest that CMs may be initially more carbonate rich than previously thought. This heterogeneity in aqueous alteration extent is likely due to a combination of microscale variability in permeability and water/rock ratio generating local microenvironments as has been established previously. Nevertheless, some of the disequilibrium mineral assemblages observed, such as hydrous minerals juxtaposed with surviving phases that are typically more fluid susceptible, can only be reconciled by multiple generations of alteration, disruption, and reaccretion of the CM parent body at the grain scale.Citation
Daly, L., Suttle, M.D., Lee, M.R., Bridges, J., Hicks, L., Martin, P.-E.M.C., Floyd, C.J., Jenkins, L.E., Salge, T., King, A.J., Almeida, N.V., Johnson, D., Trimby, P.W., Mansour, H., Wadsworth, F.B., Rollinson, G., Genge, M.J., Darling, J., Bagot, P.A.J., White, L.F., Stephen, N.R., Mitchell, J.T., Griffin, S., Willcocks, F.M., Jones, R., Piazolo, S., Einsle, J.F., Macente, A., Hallis, L.J., O'Brien, A., Schofield, P.F., Russell, S.S., Bates, H., Smith, C., Franchi, I., Forman, L.V., Bland, P.A., Westmoreland, D., Anderson, I., Taylor, R., Montgomery, M., Parsons, M., Vasseur, J., van Ginneken, M., Wozniakiewicz, P.J., Burchell, M.J., Hallatt, D., Alesbrook, L.S., Spathis, V., Worden, R., Behnsen, J., Black, K. and (2024), Brecciation at the grain scale within the lithologies of the Winchcombe Mighei-like carbonaceous chondrite. Meteorit Planet Sci, 59: 1068-1100. https://doi.org/10.1111/maps.14164Publisher
WileyType
Journal ArticleItem Description
Copyright © 2024 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.NHM Repository
ISSN
1086-9379EISSN
1945-5100ae974a485f413a2113503eed53cd6c53
10.1111/maps.14164
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