The melt rocks of the Vredefort impact structure -Vredefort Granophyre and pseudotachylitic breccias:Implications for impact cratering and the evolution of the Witwatersrand Basin

摘要

The unique combination of its large size (250-300 km diameter),deep levels of erosion (>7km),and widespread regional mining activity make the Vredefort impact structure in South Africa an exceptional laboratory for the study of impact-related deformation phenomena in the rocks beneath giant,complex impact craters.Two types of impact-generated melt rock occur in the Vredefort Structure:the Vredefort Granophyre -impact melt rock -and pseudotachylitic breccias.Along the margins of the structure,mining and exploration drilling in the Witwatersrand goldfields has revealed widespread fault-related pseudotachylitic breccias linked to the impact event.There,volumetrically limited melt breccia occurs in close association with cataclasite or mylonitic zones associated with bedding-parallel normal dip-slip faults that formed during inward slumping of the crater walls,and in rare subvertical faults oriented radially to the center of the structure.This association is consistent with formation of pseudotachylites by frictional melting.On the other hand,rocks in the Vredefort Dome -the central uplift of the impact structure -contain ubiquitous melt breccias that range in size from sub-millimeter pods and veinlets to dikes up to tens of meters wide and hundreds of meters long.Like fault-related pseudotachylites in the goldfields and elsewhere in the world,they display a close geochemical relationship to their wallrocks,indicating local derivation.However,although mm/cm-to,rarely,dm-scale offsets are commonly found along their margins,they do not appear to be associated with broader fault zones,are commonly considerably more voluminous than most known fault-related pseudotachylites,and show no consistent relationship between melt volumes and slip magnitude.Recent petrographic observations indicate that at least some of these melt breccias formed by shock melting,with or without frictional melting.Consequently,the non-genetic term "pseudotachylitic breccia"has been adopted for these Vredefort occurrences.These breccias formed during the impact in rocks at temperatures ranging from greenschist to granulite facies,and were subsequently annealed to varying degrees during cooling of the central uplift.In addition to the pseudotachylitic breccias,nine clast-laden impact melt dikes (Vredefort Granophyre),each up to several kilometers long,occur in vertical radial and tangential fractures in the Vredefort Dome.Unlike the pseudotachylitic breccias,they display a remarkably uniform bulk composition and clast populations that are largerly independent of their wallrocks,and they contain geochemical traces of the impactor.They represent intrusive offshoots of the homogenized impact melt body that originally lay within the crater.U-Pb single zircon and Ar-Ar dating indicates that the Vredefort Granophyre and pseudotachylitic breccias,and the Witwatersrand pseudotachylites all formed at 2020 +-5 Ma -the age of the impact event,making the breccias a convenient time marker in the evolution of the structurally complex Witwatersrand basin with its unique gold deposits.