Permian ultrahigh–temperature reworking in the southern Chinese Altai: Evidence from petrology, P–T estimates, zircon and monazite U–Th–Pb geochronology

The Chinese Altai orogen formed in the Paleozoic is an important part of the Central Asian Orogenic Belt (CAOB), and the study on the metamorphism will provide novel and robust constraints on its tectonic evolution. In this study, we investigate our newly recognized garnet–orthopyroxene–cordierite granulites at Wuqiagou area in the southern Chinese Altai. Detailed petrographic study and P–T estimates suggest four distinct metamorphic stages of mineral assemblages: (1) pre–peak (M1) stage containing the spinel–cordierite–bearing association or biotite–plagioclase–quartz–bearing inclusion–phase assemblage, with P–T conditions of 3.0–4.0 kbar/700–750 °C; (2) peak ultrahigh–temperature (UHT) (M2) stage represented by relatively coarse–grained garnet–orthopyroxene–cordierite–bearing porphyroblastic assemblage, with high–Al2O3 contents (up to ∼8.7 wt%) in orthopyroxene and P–T conditions of ∼8.0 kbar/∼980 °C; (3) post–peak high–temperature granulite facies (M3) stage consisted of orthopyroxene–cordierite and cordierite–quartz corona assemblages, formed during cooling and moderate decompression; and (4) post–peak upper amphibolite facies (M4) stage represented by retrograde biotite–plagioclase–quartz intergrowths. These four discrete metamorphic stages define an anticlockwise P–T path involving a post–peak moderate decompression followed by nearly isobaric cooling process. LA–ICP–MS U–Pb age dating results of metamorphic zircons for UHT samples show two weighted mean ages of ∼390 Ma and ∼280 Ma. We propose that the M1 stage might occur in the middle Devonian, whereas the near–peak UHT stage probably occurred in the early Permian. The Permian UHT metamorphism was further supported by the monazite U–Th–Pb dating results (287.9 ± 2.1 Ma), reflecting a prominent HT–UHT reworking event in the late Paleozoic. We proposed that the Permian UHT reworking event in the southern Chinese Altai probably occurred in a post–orogenic or intraplate extensional tectonic setting associated with the input of external heat, related to the underplating of deep–derived magma as a result of the Tarim mantle plume activity.