Zircon U–Pb ages, geochemistry, and Nd–Hf isotopes of the TTG gneisses from the Jiaobei terrane: Implications for Neoarchean crustal evolution in the North China Craton

Abstract

The Precambrian basement in the Jiaobei terrane is largely composed of Tonalite–Trondhjemite–Granodiorite (TTG) suite of rocks and offers important insights into the crustal evolution history of the North China Craton (NCC). The LA-ICP-MS zircon U–Pb age data presented in this study show that the magmatic protoliths of the TTG gneisses formed during 2508–2547Ma and recorded the Paleoproterozoic metamorphism (∼1905Ma). The rocks are enriched in LILE (Rb, Ba and Sr) and depleted in HFSE (Nb, Ta, Zr and Hf). They are characterized by high Sr contents (406–2906ppm), Sr/Y ratios (31.3–355) and subchondritic Nb/Ta ratios (18.5–68.9). The TTGs show relatively high ΣREE contents (72.0–266ppm) with strongly enriched LREE ((La/Yb)N=11.5–121) and positive or negligible negative Eu anomalies (Eu/Eu∗=0.84–1.89). These geochemical features suggest that the magma source might have been rutile-bearing amphibole eclogite. Their high Mg# numbers (42–56) and high Cr (153–285ppm) and Ni contents (22.2–74.5ppm) indicate interaction with the mantle wedge during magma ascent. The whole rock εNd (t) values (+2.6 to +3.8) and most of the magmatic zircon εHf (t) values (+1.3 to +7.6) suggest juvenile to evolved isotopic signatures. All these lines of evidence suggest that the TTG rocks in this study formed through partial melting of subducted oceanic slab in a continental arc environment. The drill holes in the Jiaobei terrane are dominated by ∼2.5Ga TTG gneisses, suggesting that the TTG magma at ∼2.5Ga is more widely distributed deep underground than that of ∼2.7–2.9Ga, at least within the approachable depth range of our research. Some zircon grains from Jiaobei TTGs give high εHf (t) values plotting above the curve of 0.75∗εHf of DM, and their TCDM ages are very close to the time of the zircon crystallization. However, the majority of the εHf (t) values fall below the curve of 0.75∗εHf of DM and their TCDM ages are concentrated between ∼2.7–2.9Ga. Therefore, combining with other related studies, we propose that the ∼2.5–2.6Ga magmatism in the NCC probably represents a coherent event of crustal growth and major reworking (remelting).