Neoproterozoic (∼900 Ma) Sariwon sills in North Korea: Geochronology, geochemistry and implications for the evolution of the south-eastern margin of the North China Craton

The Sariwon sills are distributed in the Pyongnam basin at the center of the Korean peninsula, eastern part of the North China Craton. These sills are up to 150 m in thickness and up to more than 10 km in length. Baddeleyite grains separated from a similar to 50 m thick sill give a SIMS Pb-206-Pb-207 age of 899 +/- 7 Ma (MSWD = 0.34, n = 14), which is interpreted to be the crystallization age of this sill. Zircon grains from the same sill gives a lower intercept U-Pb age of similar to 400 Ma, which is likely a close estimation of the greenschist-facies metamorphism of this sill. The Sariwon sills are dolerites and have tholeiitic compositions. They show enrichment of light rare earth element concentrations (La/Yb-N = 1.4-2.8) and are slightly depleted in high field strength elements (e.g. Nb, Zr, and Ti), in comparison to neighboring elements on the primitive-mantle normalized spidergram. The whole rock epsilon Nd-t (t = 900 Ma) values are around -2, whereas in-situ epsilon Hf-t (t = 900 Ma) values from zircon grains vary from -25 to +8. They are similar to the coeval sills in other parts of the North China Craton, e.g., the Chulan sills (Xu-Huai basin, Shandong peninsula) and the Dalian sills (Lv-Da basin, Liaodong peninsula). These sills possibly originated from a depleted mantle source (e.g., asthenosphere), rather than from the ancient lithospheric mantle of the North China Craton, and have experienced significant assimilation of lithospheric materials. The strata and sills in the Xu-Huai, Lv-Da and Pyongnam basins are comparable; moreover the three basins are geographically correlatable based on Neoproterozoic geographical reconstruction. We therefore propose that there is a Xu-Huai-Lv-Da-Pyongnam rift system along the south-eastern edge of the North China Craton during Neoproterozoic (similar to 900 Ma), with the closure of the rift at similar to 400 Ma as a result of a continent-margin process. It is possible that this southeastern margin of the NCC did not face the inland in the configuration of the supercontinent Rodinia. (C) 2011 International Association for Gondwana Research. Published by Elsevier B.V. All rights reserved.