Paleomagnetism of a lateritic paleoweathering horizon and overlying Paleoproterozoic red beds from South Africa: Implications for the Kaapvaal apparent polar wander path and a confirmation of atmospheric oxygen enrichment

[1] The Olifantshoek Group in southern Africa contains Paleoproterozoic red beds that are exceptionally well preserved, lying unconformably atop a regionally extensive lateritic paleoweathering profile.We studied the basal unit of this succession, known as theGamagara or Mapedi Formation, and the lateritized substrate (so-called ‘‘Drakenstein’’ or ‘‘Wolhaarkop’’ paleosol) on which it developed. Two ancient magnetic components are observed. One (INT), usually with a distributed unblocking spectrum between 300 and 600 C but occasionally persisting to >675 C, is directed shallowly southward or northward. Amesoscale fold test at SouthSishenMine indicates that this componentwas acquired during deformation; similarity of the direction to previous results suggests that it was acquired at 1240Ma, during early Namaqua orogenesis. Combining our INT results with existing data from the Namaqua eastern zone (NEZ), we calculate the NEZ pole at (44.9 N, 021.5 E, K = 23.2, A95 = 12.8 , Q = 5). The most stable component from our data set (HIG), always persisting as a nonzero endpoint to demagnetization at >665 –680 C, is observed in 32 samples from South Sishen and Beeshoek Mines. Directed moderately east-downward (Sishen) or west-upward (Beeshoek), this component predates the mesoscale fold at Sishen. More importantly, a conglomerate test at Beeshoek indicates that HIG was acquired prior to Paleoproterozoic deposition of the Gamagara/Mapedi Formation. The concordance between directions from the paleoweathering zone and immediately overlying red beds indicates that HIG is a primary magnetic remanence for the basal Gamagara/Mapedi (BGM) Formation. The dual-polarity BGM paleomagnetic pole (02.2 N, 081.9 E, dp = 7.2 , dm = 11.5 , Q = 6) lies neatly between previous Kaapvaal poles with ages of 2220 (Ongeluk lavas) and 2060 Ma (Bushveld complex). Our data thus support recent correlations of the Gamagara/Mapedi Formation with pre-Bushveld sediments of the Pretoria Group. A preBushveld age for BGM is also consistent with its substantial distance from a new, albeit less reliable, paleomagnetic pole from the 1930-Ma Hartley lavas, higher within the Olifantshoek succession (12.5 N, 332.8 E,K = 18.6, A95 = 16.0 ,Q = 3). Our conglomerate test at Beeshoek confirms previous allegations that the intense hematitization observed in the Drakenstein-Wolhaarkop paleosol occurred during Paleoproterozoic weathering under a highly oxygenated atmosphere.