ISSN:
0016-7835
Keywords:
Key words Sudbury Structure
;
Impact crater
;
Multi-ring basin
;
Penokean orogeny
;
Rb/Sr
;
Sm/Nd
;
Rare earth elements
Source:
Springer Online Journal Archives 1860-2000
Topics:
Geosciences
Notes:
Abstract The occurrence of shock metamorphic features substantiates an impact origin for the 1.85 Ga old Sudbury Structure, but this has not been universally accepted. Recent improvements in knowledge of large-scale impact processes, combined with new petrographic, geochemical, geophysical (LITHOPROBE) and structural data, allow the Sudbury Structure to be interpreted as a multi-ring impact structure. The structure consists of the following lithologies: Sudbury Breccia – dike breccias occurring up to 80 km from the Sudbury Igneous Complex (SIC); Footwall rocks and Footwall Breccia – brecciated, shocked crater floor materials, in part thermally metamorphosed by the overlying SIC; Sublayer and Offset Dikes, Main Mass of the SIC and Basal Member of the Onaping Formation (OF) – geochemically heterogeneous coherent impact melt complex ranging from inclusion-rich basal unit through a dominantly inclusion-free to a capping inclusion-rich impact melt rock; Grey Member of OF – melt-rich impact breccia (suevite); Green Member of OF – thin layer of fall back ejecta; Black Member of OF – reworked and redeposited breccia material; Onwatin and Chelmsford Formations – post-impact sediments. Observational and analytical data support an integrated step-by-step impact model for the genesis of these units. Analysis of the present spatial distribution of various impact-related lithologies and shock metamorphic effects result in an estimated original rim-to-rim diameter of the final crater of 200 or even 280 km for the Sudbury Structure, prior to tectonic thrusting and deformation during the Penokean orogeny.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00240561
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