Metamorphic P–T Evolution of the Pelitic Granulites from the Helanshan in the North China Craton Revealed by Phase Equilibrium Modeling and Garnet Trace Elements: Implications for Paleoproterozoic Collisional Orogenesis

Granulite-facies metamorphic rocks are widely exposed in Paleoproterozoic orogens, and their prograde metamorphic evolution is critical for a better understanding of the Paleoproterozoic collisional orogenic and geodynamic processes. In this paper, we present the results of petrology, trace element geochemistry of garnet, P-T conditions calculated by phase equilibrium modeling and garnet trace element geothermobarometry, for the pelitic granulites of the Helanshan Complex in the western Khondalite Belt of the North China Craton (NCC). These results are used for determination of their metamorphic evolution and tectonic implications. Petrographic observations show that the metamorphic evolution of the pelitic granulites can be divided into four stages (M1-M4), and these metamorphic stages are recorded by the mineral inclusions and reaction textures of garnets. Compared with the nearly flat major-element zoning, the zoning of yttrium (Y) and heavy rare earth elements (HREEs) in the garnet cores and mantles show bell-shaped distributions as well as inner-rim troughs and increases on the outer-rims. Different garnets have the same REE patterns in the same textural domain. The bell shaped distributions of trace elements (Y and HREEs) in the garnets were controlled mainly by Rayleigh fractionation processes under subsolidus conditions, whereas the increases in these elements in the garnet rims were related to the breakdown of major and accessory phases under suprasolidus conditions. By combination of phase equilibrium modeling and garnet trace element geothermobarometry, a complete clockwise P-T path is constructed for the pelitic granulites. This P-T path is characterized by the heating as pressure rising during evolution from early metamorphic stage (M1: 4.2 & PLUSMN; 0.3 kbar/524 & PLUSMN; 17 degrees C) to peak metamorphic stage (M2-1; 9.8-10.6 kbar /794-815 degrees C), which is followed by a isothermal decompression (ITD) to the condition of 5.8-6.5 kbar/808-833 degrees C and later near isobaric cooling (IBC) to subsolidus. As a result, the pelitic granulites revealed that the formation of the Khondalite Belt experienced initially crustal thickening and post collisional extensional uplift. Integrated with previously reported results, the prograde geothermal gradient of the Helanshan pelitic granulites (14 & PLUSMN; 1 degrees C/km) is similar to that the pelitic schists in the Himalayan Orogen (13 & PLUSMN; 2 degrees C/km), which suggests that the Paleoproterozoic and present-day orogens have similar geothermal gradient during crustal thickening.