Abstract
Neoproterozoic intraplate magmatic rocks are widespread in the Yangtze Block (YZB). The contrasting interpretations on their petrogenesis and tectonic evolution induce stimulating discussions on the coeval tectonic setting, including the two competing models of rift-related (R-model) and arc-related (A-model). Their main evidence is dominantly from felsic magmatic rocks. In contrast, the less evolved basic rocks are more suitable for tectonic setting discrimination. Here we study the Longtanqing basic intrusions (LTQ) that are exposed to the central part of the N–S trending Kangdian rift in the western YZB, by detailed geochemical and geochronological investigations. Zircon U–Pb dating of the two diabases from LTQ yield identical ages within error of 777 ± 17 Ma and 780 ± 5.3 Ma, respectively. LTQ rocks are characterized by low SiO2 (49.83–50.71 wt %), high MgO (5.91–6.53 wt %), and Cr (140–150 ppm) contents, supporting the significant mantle affinity. They also display dual geochemical characteristics, including a series of features of continental within-plate basalts (WPB, Ti/V = 37.3–47.5, Zr/Y = 3.4–3.8, Ta/Hf = 0.19–0.23), and the typical signatures of island arc basalt (IAB), such as highly depleted in HFSE and HREE, and enriched in LREE and LILE. Most zircon εHf(t) values are positive (1.6–9.4) while the corresponding Hf depleted mantle model ages (TDM1) range from 1.0 Ga to 1.3 Ga. In combination with the occurrence of inherited zircons (991–1190 Ma), it is suggested that their sources are dominantly derived from the lithospheric mantle that was reconstructed in the late Mesoproterozoic. Thus, LTQ is mainly formed by partial melting of the enriched lithospheric mantle, and subsequently assimilated by a juvenile crust during upwelling. The melt compositions are controlled by different degrees of the crystal fractionation of the dominant clinopyroxene and plagioclase with minor amphibole under high fO2 conditions. Combined with previous geochronological and geochemical data in the YZB, our new results support the theory that the R-model can be responsible for the petrogenesis of Neoproterozoic magmatic rocks in South China.
Highlights
The Rodinia supercontinent is assembled along the Greenville Orogen during ca. 1.3 and 1.0Ga, and broken up during ca. 0.85–0.74 Ga
Nine zircons from sample 16LTQ-2 are analyzed for Lu–Hf isotopes; the results show ratios vary from 0.282268 to 0.282552 with a mean of 0.282394, the εHf (t) values (t = 780 Ma), which variable 176Lu/177Hf ratios of 0.0006 to 0.0022 and present-day 176Hf/177Hf ratios range from 0.282360 to represent the εHf values of parental magma when the zircons crystallized
(2) The Longtanqing samples belong to the tholeiitic series. They are generated by partial melting of the sub-continental lithospheric mantle (SCLM) and may have been reconstructed by the Mesoproterozoic subduction
Summary
The Rodinia supercontinent is assembled along the Greenville Orogen during ca. 1.3 and 1.0Ga, and broken up during ca. 0.85–0.74 Ga. The Rodinia supercontinent is assembled along the Greenville Orogen during ca. 0.85–0.74 Ga. The breakup event is marked by the widespread continental rifts, anorogenic magmatism, and emplacement of mafic dyke swarms in cratons, like South China, Tarim, North American, India, South Africa, and Australia [1,2,3,4,5,6,7,8,9,10,11,12,13,14]. Grenvillian subduction-related and Neoproterozoic (0.85–0.74 Ga) rift-related magmatic rocks have 2018, 8,on x FOR REVIEW 2 of 24(YZB). China Block (SCB), in particular at the margin of the Yangtze Block (Figure 1), which witnessed an assembling configuration and breakup of the Rodinia supercontinent. Subduction-related and Neoproterozoic (0.85–0.74 Ga) rift-related magmatic rocks have been
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