Provenance and depositional age of Paleoproterozoic metasedimentary rocks in the Kuluketage Block, northern Tarim Craton: Implications for tectonic setting and crustal growth

Precambrian geology of the Tarim Craton, especially for the crustal evolution, is poorly constrained. Paleoproterozoic metasedimentary rocks are extensively exposed in the Kuluketage Block, northern Tarim Craton, and thus have recorded abundant geological information of its tectonic history. Supracrustal rocks within the Archean basement (Tuoge Complex) and the Paleoproterozoic Xingditage Group were collected from the Kuluketage Block for geochemical study and zircon U-Pb dating. The Tuoge supracrustal rocks have low CIA values between 45 and 63, indicating weak chemical weathering. Although the Xingditage Group shows a large variation of CIA values (37-67), their low average value suggests that they underwent similar weathering to the rocks from the basement. This similarity is also supported by their respective PIA values (mostly 43-57 for the basement rocks, and mostly 37-60 for the Xingditage Group). The high ICV values (mostly >1) of both rock suites indicate an immature source that lacked alumina-rich minerals. Although these metasedimentary rocks show different REE patterns, they are all enriched in light rare earth element (LREE) and display relatively flat heavy rare earth element (HREE) patterns. The low values of ferromagnesian (e.g. Cr, Co and Ni) and high field strength elements (e.g. Zr, Hf, Nb, Ta and Y) are similar to those of graywackes from active continental margins. Therefore, the Kuluketage Block most likely evolved in an active continental margin setting during the late Paleoproterozoic. Detrital zircons from a slate sample of the Tuoge supracrustal rocks are dominated by igneous zircons, which mostly yield Paleoproterozoic 207pb/206Pb ages between 1.72 Ga and 2.08 Ga. Other igneous grains give Paleoproterozoic 207Pb/206Pb ages at 2.2 Ga and 2.32 Ga. All these igneous zircons show large variations of eFif(t) values mostly between 17 and 3, and have Neoarchean crustal model ages (TDm =2.6-3.7 Ga). Schist and quartzite samples of the upper Xingditage Group show similar age spectra to the slate and contain a major igneous zircon population with Paleoproterozoic formation ages (mostly 1.8-2.1 Ga) and Paleo- to Mesoarchean Tpmc ages (2.7-3.1 Ga). A schist sample of the lower Xingditage Group shows a much different age spectrum. Detrital zircons from this sample are dominated by Neoarchean grains (2.5-2.7 Ga) with Paleoarchean ibmc ages (3.14-3.51 Ga) and two of them yield the youngest ages at 1.94 and 2.09 Ga. The youngest zircons from these samples, therefore, define the maximum depositional ages at 1.63, 1.94 and 1.77 Ga for the Tuoge supracrustal rocks, the upper Xingditage Group and the lower Xingditage Group, respectively. On basis of these age spectra, we suggest that the Tuoge supracrustal rocks are equivalents of the upper Xingditage Group, instead of parts of the Archean basement. Overall, the Hf isotopic compositions of these detrital zircons indicate three early Precambrian crustal growth events in the Tarim Craton, which occurred in the late Paleoarchean, the early Neoarchean and at the beginning of the Paleoproterozoic. 2015 Elsevier B.V. All rights reserved.