Ferrodoleritic dykes in the Tarim Craton signal Neoproterozoic breakup of Rodinia supercontinent

[Display omitted] •We provide the first description of the rarely ferrodoleritic dykes in the Neoproterozoic Tarim Craton.•The ferrodolerites were derived from a mixed mantle source of garnet lherzolite and pyroxenite.•The ferrodoleritic dykes record the onset of Rodinia supercontinent breakup. Mafi...

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Bibliographic Details
Published in:Journal of Asian earth sciences 2020-09, Vol.200, p.104476, Article 104476
Main Authors: Li, Hengxu, Zhang, Zhaochong, Santosh, M., Wang, Zhenchao, Jin, Shengkai, Zhang, Qiang, Liu, Linghan
Format: Article
Language:English
Subjects:
Ferrodolerites
Petrogenesis
Rodinia supercontinent
Tarim Craton
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Summary:[Display omitted] •We provide the first description of the rarely ferrodoleritic dykes in the Neoproterozoic Tarim Craton.•The ferrodolerites were derived from a mixed mantle source of garnet lherzolite and pyroxenite.•The ferrodoleritic dykes record the onset of Rodinia supercontinent breakup. Mafic dyke swarms are important bar codes for the rifting and breakup of supercontinents. Here we report a Neoproterozoic mafic (ferrodoleritic) dyke swarm from the Aksu area along the northern margin of the Tarim Craton, NW China. Zircon U-Pb analyses of two dyke samples yielded ages of 801 ± 9 Ma and 804 ± 13 Ma. The ferrodoleritic dykes show high total FeO (11.55–14.55 wt%) and TiO2 contents (2.84–3.26 wt%) and variable SiO2 (47.90–52.74 wt%). They display positive anomalies of Rb, Ba, K and negative anomalies of Nb, Ta, Ti and the enrichment of light rare earth elements relative to heavy rare earth elements. The whole-rock εNd(t) values (–5.4 to –7.2) indicate a relatively homogeneous and enriched magma source. Trace element modelling suggests that the ferrodoleritic dykes were generated by low degree of partial melting (garnet lherzolite 3–5%, pyroxenite 5–10%) of a mixed mantle source (60% garnet lherzolite and 40% pyroxenite). The results from our study suggest two major mafic magma pulses at ca. 830–800 Ma and ca. 780–750 Ma during the Neoproterozoic, which we correlate to the onset of Rodinia supercontinent breakup.
ISSN:1367-9120
1878-5786
DOI:10.1016/j.jseaes.2020.104476