Information about the protolith of the Huangtuling granulite in North Dabieshan has been unavailable. The complex evolution history of the rock and its host basement must be further discussed. LA-ICP-MS U-Pb dating wa...Information about the protolith of the Huangtuling granulite in North Dabieshan has been unavailable. The complex evolution history of the rock and its host basement must be further discussed. LA-ICP-MS U-Pb dating was conducted on three textural domains in zircon from a high-temperature, high-pressure felsic granulite in the Huangtuling area, North Dabieshan, Central China. The metamorphic growth-derived detrital zircon domain yields a 207^ pb/206^Pb age in the range of (2 49±54 ) -- (2 500±180) Ma. The magmatic genesis-derived detrltal zircon domain gives a 207^pb/ 206^Pb age ranging from 2 628 Ma to 2 690 Ma, with an oldest 206^ pb/ 238^U age of (2 790 ± 150) Ma. The metamorphic overgrowth or metamorphic recrystallization zircon domain yields a diesordia with an upper intercept age of (2 044. 7 ± 29.3 ) Ma. Compositions of the mineral assemblage, major element geochemistry, and especially the complex interior texture of the zircon suggest that the prololith of the felsic granulite is of sedimentary origin. Results show that the protolith material of the granulite came from a provenance with a complex thermal history, i.e. -2.8 Ga magmatlsm and -2.5 Ga metamorphism, and was deposited in a basin not earlier than 2.5 Ga. The high-temperature and high-pressure granulite-facies metamorphic age was precisely constrained at (2.04±0.03) Ga, which indicates the granulite in Huangtuling area should be a relict of a Paleoproterozoic UHT (ultrahigh temperature) metamorphosed slab.展开更多
Zircon grains were selected from two types of ultrahigh-pressure(UHP)eclogites,coarse-grained phengite eclogite and fine-grained massive eclogite,in the Yukahe area,the western part of the North Qaidam UHP metamorphic...Zircon grains were selected from two types of ultrahigh-pressure(UHP)eclogites,coarse-grained phengite eclogite and fine-grained massive eclogite,in the Yukahe area,the western part of the North Qaidam UHP metamorphic belt.Most zircon grains show typical metamorphic origin with residual cores in some irregular grains and sector,planar or misty internal textures on the cathodoluminescence(CL)images.The contents of REE and HREE of the core parts of grains range from 173 to 1680μg/g and 170 to 1634μg/g,respectively,in phengite eclogite,and from 37 to 2640(g/g and 25.7 to 1824μg/g,respectively,in massive eclogite.The core parts exhibit HREE-enriched patterns,representing the residual zircons of protolith of the Yukahe eclogite.The contents of REE and HREE of the rim parts and the grains free of residual cores are much lower than those for the core parts.They vary from 13.1 to 89.5(g/g and 12.5 to 85.7μg/g,respectively,in phengite eclogite,and from 9.92 to 45.8μg/g and 9.18 to 43.8(g/g,respectively,in massive eclogite.Negative Eu anomalies and Th/U ratios decrease from core to rim.Positive Eu anomalies are shown in some grains.These indicate that the presence of garnet and the absence of plagioclase in the peak metamorphic mineral assemblage,and the zircons formed under eclogite facies conditions.LA-ICP-MS zircon U-Pb age data indicate that phengite eclogite and massive eclogite have similar metamorphic age of 436±3Ma and 431±4Ma in the early Paleozoic and magmatic protolith age of 783―793 Ma and 748―759 Ma in the Neo-proterozoic.The weighted mean age of the metamorphic ages(434±2 Ma)may represent the UHP metamorphic age of the Yukahe eclogites.The metamorphic age is well consistent with their direct country rocks of gneisses(431(3 Ma and 432±19 Ma)and coesite-bearing pelitic schist in the Yematan UHP eclogite section(423―440 Ma).These age data together with field observation and lithology,allow us to conclude that the Yukahe eclogites were Neo-proterozoic igneous rocks and may have experienced subduction and UHP metamorphism with continental crust at deep mantle during the early Paleozoic,therefore the metamorphic age of 434±2 Ma of the Yukahe eclogites probably represents the continental deep subduction time in this area.展开更多
文摘Information about the protolith of the Huangtuling granulite in North Dabieshan has been unavailable. The complex evolution history of the rock and its host basement must be further discussed. LA-ICP-MS U-Pb dating was conducted on three textural domains in zircon from a high-temperature, high-pressure felsic granulite in the Huangtuling area, North Dabieshan, Central China. The metamorphic growth-derived detrital zircon domain yields a 207^ pb/206^Pb age in the range of (2 49±54 ) -- (2 500±180) Ma. The magmatic genesis-derived detrltal zircon domain gives a 207^pb/ 206^Pb age ranging from 2 628 Ma to 2 690 Ma, with an oldest 206^ pb/ 238^U age of (2 790 ± 150) Ma. The metamorphic overgrowth or metamorphic recrystallization zircon domain yields a diesordia with an upper intercept age of (2 044. 7 ± 29.3 ) Ma. Compositions of the mineral assemblage, major element geochemistry, and especially the complex interior texture of the zircon suggest that the prololith of the felsic granulite is of sedimentary origin. Results show that the protolith material of the granulite came from a provenance with a complex thermal history, i.e. -2.8 Ga magmatlsm and -2.5 Ga metamorphism, and was deposited in a basin not earlier than 2.5 Ga. The high-temperature and high-pressure granulite-facies metamorphic age was precisely constrained at (2.04±0.03) Ga, which indicates the granulite in Huangtuling area should be a relict of a Paleoproterozoic UHT (ultrahigh temperature) metamorphosed slab.
基金Supported by the National Natural Science Foundation of China(Grant Nos.40472043,40372088 and 40572111)the Key Project of Chinese Ministry of Edu-cation(Grant No.306021)the National Basic Research Program of China(Grant No.G1999075508)
文摘Zircon grains were selected from two types of ultrahigh-pressure(UHP)eclogites,coarse-grained phengite eclogite and fine-grained massive eclogite,in the Yukahe area,the western part of the North Qaidam UHP metamorphic belt.Most zircon grains show typical metamorphic origin with residual cores in some irregular grains and sector,planar or misty internal textures on the cathodoluminescence(CL)images.The contents of REE and HREE of the core parts of grains range from 173 to 1680μg/g and 170 to 1634μg/g,respectively,in phengite eclogite,and from 37 to 2640(g/g and 25.7 to 1824μg/g,respectively,in massive eclogite.The core parts exhibit HREE-enriched patterns,representing the residual zircons of protolith of the Yukahe eclogite.The contents of REE and HREE of the rim parts and the grains free of residual cores are much lower than those for the core parts.They vary from 13.1 to 89.5(g/g and 12.5 to 85.7μg/g,respectively,in phengite eclogite,and from 9.92 to 45.8μg/g and 9.18 to 43.8(g/g,respectively,in massive eclogite.Negative Eu anomalies and Th/U ratios decrease from core to rim.Positive Eu anomalies are shown in some grains.These indicate that the presence of garnet and the absence of plagioclase in the peak metamorphic mineral assemblage,and the zircons formed under eclogite facies conditions.LA-ICP-MS zircon U-Pb age data indicate that phengite eclogite and massive eclogite have similar metamorphic age of 436±3Ma and 431±4Ma in the early Paleozoic and magmatic protolith age of 783―793 Ma and 748―759 Ma in the Neo-proterozoic.The weighted mean age of the metamorphic ages(434±2 Ma)may represent the UHP metamorphic age of the Yukahe eclogites.The metamorphic age is well consistent with their direct country rocks of gneisses(431(3 Ma and 432±19 Ma)and coesite-bearing pelitic schist in the Yematan UHP eclogite section(423―440 Ma).These age data together with field observation and lithology,allow us to conclude that the Yukahe eclogites were Neo-proterozoic igneous rocks and may have experienced subduction and UHP metamorphism with continental crust at deep mantle during the early Paleozoic,therefore the metamorphic age of 434±2 Ma of the Yukahe eclogites probably represents the continental deep subduction time in this area.
