2008
DOI: 10.1111/j.1945-5100.2008.tb01086.x
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Observations and interpretations at Vredefort, Sudbury, and Chicxulub: Towards an empirical model of terrestrial impact basin formation

Abstract: Abstract-The structural, topographic and other characteristics of the Vredefort, Sudbury, and Chicxulub impact structures are described. Assuming that the structures originally had the same morphology, the observations/interpretations for each structure are compared and extended to the other structures. This does not result in any major inconsistencies but requires that the observations be scaled spatially. In the case of Vredefort and Sudbury, this is accomplished by scaling the outer limit of particular shoc… Show more

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Cited by 83 publications
(85 citation statements)
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“…Structural data from a number of exposed terrestrial impact structures supports the idea of dynamic collapse of the central uplift (9,(22)(23)(24) and that, in larger craters, the peak ring is formed from the interaction of two collapse regimes (25). In the simulation, the final crater ( Fig.…”
Section: Continental Scientific Drilling Program (Icdp)mentioning
confidence: 67%
“…Structural data from a number of exposed terrestrial impact structures supports the idea of dynamic collapse of the central uplift (9,(22)(23)(24) and that, in larger craters, the peak ring is formed from the interaction of two collapse regimes (25). In the simulation, the final crater ( Fig.…”
Section: Continental Scientific Drilling Program (Icdp)mentioning
confidence: 67%
“…In the Vredefort impact basin, the inner structural collar appears to be upturned in a manner similar to the overthrusted, collapsed, portions of the central peak (Lana et al, 2003), as modeled in simulations; however, the current erosional and deformational state of the Vredefort impact basin precludes a full reconstruction of its original structure. A review of the Vredefort structure by Grieve et al (2008) additionally suggests that collapsed wall materials of the transient cavity do not appear to extend beneath outwardly thrusted material in the center of the basin as is observed at Chicxulub.…”
Section: Numerical Models and Empirical Constraintsmentioning
confidence: 96%
“…Other important crater types in this transition include protobasins, which possess both a central peak and a peak ring (Figure 1b). There has been considerable debate on the processes controlling the formation of peak rings on the Moon and terrestrial planets (Pike, 1988;Melosh, 1989;Spudis, 1993;Grieve et al, 2008;. New image and altimetry data have permitted a reassessment of the origin of lunar peak-ring basins and their relationship to smaller complex craters and larger multi-ring basins (Baker et al 2011a(Baker et al , 2012.…”
Section: Introductionmentioning
confidence: 99%
“…Peak rings are rings of hills that are emergent above crater floors within large impact basins on terrestrial planets ( Figure F1), and there is no consensual agreement on either their formational mechanism or the nature of the rocks that comprise them (Grieve et al, 2008;Baker et al, 2016). Geophysical data indicate that the peak ring at Chicxulub is formed from rocks that have low velocity and density, and one explanation for this is that they are highly fractured and porous (Morgan et al, 2000(Morgan et al, , 2011Gulick et al, 2013).…”
Section: Introductionmentioning
confidence: 99%