期刊
JOURNAL OF PETROLOGY
卷 48, 期 8, 页码 1605-1639出版社
OXFORD UNIV PRESS
DOI: 10.1093/petrology/egm032
关键词
Archaean; Palaeoproterozoic; Limpopo Belt; zircon; U-Pb dating; Lu-Hf isotopes; LA-ICP-MS
A combined set of U-Pb and Lu-Hf in situ laser ablation ICP-(MC)-MS zircon analyses were obtained from orthogneisses and granitoids in the Central Zone of the Limpopo Belt, which comprises the Beit Bridge and Mahalapye complexes. The results indicate that by combining the two isotope systems primary magmatic zircon domains can be distinguished from those formed during later metamorphic events, even if the distinct zircon domains underwent multiple Pb loss and the texture-age relationships, as obtained by cathodoluminescence images and U- Pb analyses, are ambiguous. Furthermore, the applied technique allows distinction of zircon grains formed in juvenile magmas from those generated by melting of older continental crust or affected by substantial crustal contamination. The combined U-Pb and Lu-Hf data reveal that the Sand River gneiss suite of the Beit Bridge Complex was emplaced at 3283 +/- 8 Ma and formed from melting of an older Archaean crust, which was derived from a depleted mantle source at around 3.65 Ga. The hafnium model age (T-DM(Hf)) is significantly older than those obtained from zircons from numerous Neoarchaean granitoids of the Beit Bridge Complex, comprising the Singelele gneiss (2647 +/- 12Ma), the Bulai granite (2612 +/- 7Ma), the Regina gneiss (2649 +/- 9Ma) and two samples of the Zanzibar gneiss (2613 +/- 6Ma). These granitoids show initial epsilon Hf(t) values between +0.5 and -7.1, which correspond to initial T-DM(Hf) between 3.46 and 3.01 Ga. These variable T-DM(Hf) initial and epsilon Hf(t) initial values are interpreted to be the result of different mixtures of reworked 3.65 Ga Palaeoarchaean crust with juvenile magmas extracted from the depleted mantle during the Neoarchaean at similar to 2.65 Ga. This conclusion is supported by results obtained from the Mahalapye Complex, which was affected by migmatization and granite intrusions during the Palaeoproterozoic at 2.02-2.06 Ga. The Mokgware granite (2019 +/- 9Ma) contains zircon xenocrysts with Pb-Pb ages of 2.52-2.65 Ga and 2.93 Ga and hafnium model ages of 3.0-3.4 Ga, indicating that this granite is derived from remelting of Archaean crust. In contrast, uniform T-DM(Hf) initial ages of 2.61-2.67 Ga obtained from a diorite gneiss (2061 +/- 6Ma) of the Mahalapye Complex indicate that its protolith may have been formed from remelting of a Neoarchaean juvenile crust. Variable epsilon Hf(t) initial values from -3.7 to +6.3 of zircon cores (2711 +/- 11 Ma) in an adjacent leucosome also support a model of mixing of juvenile mantle derived matter with older crust in the Neoarchaean.
作者
我是这篇论文的作者
点击您的名字以认领此论文并将其添加到您的个人资料中。
推荐
暂无数据