The Zaibian mafic-ultramafic rock is located in the transitional zone of the Yangtze craton and south China fold system,where is the southwest of Jiangnan orogenic belt(Zeng et al.,2003;Wang et al.,in press).
The East Kunlun located in the northern margin of the Qinghai-Xizang(Tibet)Plateau,is a composite orogenic belt which has underwent multi-stages tectonic evolution(e.g.Wang and Chen,1987;Jiang et al.,1992;Yang et al.,...The East Kunlun located in the northern margin of the Qinghai-Xizang(Tibet)Plateau,is a composite orogenic belt which has underwent multi-stages tectonic evolution(e.g.Wang and Chen,1987;Jiang et al.,1992;Yang et al.,1996,2009).The East Kunlun orogenic belt(EKOB)is bounded by Altyn Tagh Fault in the west and Wenquan Fault in the east,bounded by the south margin of Qaidam展开更多
The U-Pb isotope geochemical study of the pyroxenite-gabbro intrusion in the Dabie Mountains shows that the post-collisional mafic-ultramafic rocks of the Dabie Mountains are char-acterized by relative high Pb content...The U-Pb isotope geochemical study of the pyroxenite-gabbro intrusion in the Dabie Mountains shows that the post-collisional mafic-ultramafic rocks of the Dabie Mountains are char-acterized by relative high Pb contents, low U contents and low U/Pb ratios. These characters may be results of interaction between lithosphere or depleted asthenospheric mantle (DMM) and lower crust, but have nothing to do with mantle plume and subducted continental crust. It was first ob-served that some samples with lower 206Pb/204Pb and higher 207Pb/204Pb ratios show typical char-acters of the LOMU component. The Pb, Sr, and Nd isotopic tracing shows that three components are needed in the source of the Zhujiapu pyroxenite-gabbro intrusion. They could be old enriched sub-continental lithospheric mantle (LOMU component), lower crust and depleted asthenospheric mantle. The crust-mantle interaction process producing primitive magma of post-collisional ma-fic-ultramafic rocks in the Dabie Mountains could be described by a lithospheric delamination and magma underplating model. After continent-continent collision, delamination of the thickened lithosphere induced the upwelling of depleted asthenospheric mantle, which caused partial melting of asthenospheric mantle and residual sub-continental lithospheric mantle. The basaltic magma produced in this process underplated in the boundary between the crust and mantle and interacted with lower crust resulting in the geochemical characters of both enriched lithospheric mantle and lower crust.展开更多
The Fanjingshan mafic-ultramafic rocks in the west Jiangnan Orogen of South China are considered to be a potential target for mineral exploration. However, the petrogenesis and magma evolution of these rocks are not y...The Fanjingshan mafic-ultramafic rocks in the west Jiangnan Orogen of South China are considered to be a potential target for mineral exploration. However, the petrogenesis and magma evolution of these rocks are not yet clearly constrained, let along their economic significance. The compositions of platinum group elements(PGE) in the Fanjingshan mafic-ultramafic rocks can provide particular insight into the generation and evolution of the mantle-derived magma and thus the potential of Cu-Ni-PGE sulphide mineralization. The Fanjingshan mafic-ultramafic rocks have relatively high Pd-subgroup PGE(PPGE) relative to Ir-subgroup PGE(IPGE) in the primitive mantle-normalized diagrams. Meanwhile, the Fanjingshan mafic-ultramafic rocks have low Pd/Ir(11–28) ratios, implying relatively low degree of partial melting in the mantle. Low Cu/Pd ratios(545–5 216) and high Cu/Zr ratios(0.4–5.8 with the majority greater than 1) of Fanjingshan ultramafic rocks indicate that the S-undersaturated parental magma with relatively high PGE was formed. Although the Fanjingshan mafic rocks have remarkably higher Cu/Pd ratios(8 913–107 016) likely resulting from sulphide segregation, the degree of sulphide removal is insignificant. Fractionation of olivine rather than chromite and platinum group minerals or alloys governed the fractionation of PGE and produced depletion of IPGE(Os, Ir and Ru) relative to PPGE(Rh, Pt and Pd), as supported by the positive correlation between Pd/Ir and V, Y and REE. Collectively, original S-undersaturated magma and insignificant crustal contamination during magma ascent and emplacement result in the separation of immiscible sulphide impossible and thus impede the formation of economic CuNi-PGE sulphide mineralization within the Fanjingshan mafic-ultramafic rocks.展开更多
On the basis of the study on the REE geochemistry of the ore minerals and host rocks of the Kalatongke Cu-Ni deposit, Xinjiang, it is indicated that the major ore minerals, sulfides, were sourced from the host mafic-u...On the basis of the study on the REE geochemistry of the ore minerals and host rocks of the Kalatongke Cu-Ni deposit, Xinjiang, it is indicated that the major ore minerals, sulfides, were sourced from the host mafic-ultramafic magma. Characterized by low REE content of sulfide, such a Cu-Ni sulfide deposit occurring in the orogen is obviously different from that on the margin of the craton. Because the mafic-ultramafic rocks from the Cu-Ni sulfide deposit occurring in the orogen is water-rich and the REEs of some sulfides show a particular 'multiple-bending' pattern, which suggests coexistence of multiple liquid phases (fluid and melt), the sulfide melt possibly contains a great deal of hydrothermal fluids and increasingly developed gases and liquid-rich ore-forming fluids after the main metallogenic epoch (magmatic segregation stage).展开更多
The relation between edogite and mafic-ultramafic rocks of Maowu, Bixiling and Nanshanling in Dabie Mountains represents three different kinds of occurrence relations. Their protoliths are bedded cumulate formed by cr...The relation between edogite and mafic-ultramafic rocks of Maowu, Bixiling and Nanshanling in Dabie Mountains represents three different kinds of occurrence relations. Their protoliths are bedded cumulate formed by crystallization differentiation of basic magma, which experienced ultrahigh-pressure metamorphism under the mantle condition at the depth of more than 120- 150km during the colli-sion-subduction between the Yangtze Plate and North China Plate. Ti-dinohumite + Ti-chondrodite + magnesite + Al-poor pyroxene is the typical high-pressure mineral assemblage of mafic-ultramafic rocks which reveals the participation of H2O, CO2 and other volatiles-containing fluid in the ultrahigh-pressure metamorphism.展开更多
This study investigated the degradation mechanism of the surrounding rock of a heavy-haul railway under a water-rich condition,based on the construction of the Taihangshan tunnel for the Wari Railway,a heavy-haul rail...This study investigated the degradation mechanism of the surrounding rock of a heavy-haul railway under a water-rich condition,based on the construction of the Taihangshan tunnel for the Wari Railway,a heavy-haul railway that used standard construction practices for axle loads of 30 t.Remote monitoring demonstrated that the coupling effect between the dynamic load of a heavy-haul train and the groundwater leads to the deterioration and hollowing of the surrounding rock.This study clarified the void evolution process and deterioration mechanism of the basement rock under the comprehensive influence of the groundwater–train dynamic load using a refined discrete element numerical simulation.The results revealed that the groundwater was the primary influencing factor in the deterioration of the lower part of the heavy-haul railway tunnel.Rock particles were gradually lost under the effects of long-term erosion due to groundwater and heavy-haul trains,which inevitably damaged the basement rock after the construction was completed.Based on this observation,the critical conditions for the deterioration and attenuation law of the physical parameters of the basement rock were obtained.The results of this study can provide ideas and serve as a reference for the forecasting and disaster treatment of basement rock damage in heavy-haul railway tunnels.展开更多
A group of Rb-Sr ages, i.e. plagioclase-whole rock (WR) isochron age of (205±7) Ma,hornblende-WR isochron age of (164±10) Ma and biotite-WR isochron age of (123.4±1.2)Ma, for one pyroxenite sample from ...A group of Rb-Sr ages, i.e. plagioclase-whole rock (WR) isochron age of (205±7) Ma,hornblende-WR isochron age of (164±10) Ma and biotite-WR isochron age of (123.4±1.2)Ma, for one pyroxenite sample from Renjiawan in North Dabie Terrane (NDT) are reported. According to the closure temperature of 600℃ for plageoclase and 300℃ for biotite, the Renjiawan pyroxenite should intrude into the NDT before 205 Ma, and the younger Rb-Sr ages may reflect the cooling history of the intrusion or reset by the very strong Cretaceous thermal event in NDT.展开更多
基金National Basic Research Program of China(No.2007CB411402)Cooperation Program of Institute of Geochemistry and Guizhou Geology and Minerals Bureau 102 Geology Group
文摘The Zaibian mafic-ultramafic rock is located in the transitional zone of the Yangtze craton and south China fold system,where is the southwest of Jiangnan orogenic belt(Zeng et al.,2003;Wang et al.,in press).
基金supported by National Natural Science Foundation of China(41072026,41272052)the China Geological Survey project(1212010918003,1212011120158)
文摘The East Kunlun located in the northern margin of the Qinghai-Xizang(Tibet)Plateau,is a composite orogenic belt which has underwent multi-stages tectonic evolution(e.g.Wang and Chen,1987;Jiang et al.,1992;Yang et al.,1996,2009).The East Kunlun orogenic belt(EKOB)is bounded by Altyn Tagh Fault in the west and Wenquan Fault in the east,bounded by the south margin of Qaidam
基金This research was supported by the National Natural Science Foundation of China(Grant No.49873006)Major State Basic Research Development Program(Grant No.1999075503)Chinese Academy of Sciences(Grant No.KZCXZ-107).
文摘The U-Pb isotope geochemical study of the pyroxenite-gabbro intrusion in the Dabie Mountains shows that the post-collisional mafic-ultramafic rocks of the Dabie Mountains are char-acterized by relative high Pb contents, low U contents and low U/Pb ratios. These characters may be results of interaction between lithosphere or depleted asthenospheric mantle (DMM) and lower crust, but have nothing to do with mantle plume and subducted continental crust. It was first ob-served that some samples with lower 206Pb/204Pb and higher 207Pb/204Pb ratios show typical char-acters of the LOMU component. The Pb, Sr, and Nd isotopic tracing shows that three components are needed in the source of the Zhujiapu pyroxenite-gabbro intrusion. They could be old enriched sub-continental lithospheric mantle (LOMU component), lower crust and depleted asthenospheric mantle. The crust-mantle interaction process producing primitive magma of post-collisional ma-fic-ultramafic rocks in the Dabie Mountains could be described by a lithospheric delamination and magma underplating model. After continent-continent collision, delamination of the thickened lithosphere induced the upwelling of depleted asthenospheric mantle, which caused partial melting of asthenospheric mantle and residual sub-continental lithospheric mantle. The basaltic magma produced in this process underplated in the boundary between the crust and mantle and interacted with lower crust resulting in the geochemical characters of both enriched lithospheric mantle and lower crust.
基金supported by the National Natural Science Foundation of China (No. 41572170)"Thousand Youth Talents Plan" grant to Wei WangMOST Special Fund from the State Key Laboratory of Geological Processes and Mineral Resources (No. MSFGPMR11 and 01-1)
文摘The Fanjingshan mafic-ultramafic rocks in the west Jiangnan Orogen of South China are considered to be a potential target for mineral exploration. However, the petrogenesis and magma evolution of these rocks are not yet clearly constrained, let along their economic significance. The compositions of platinum group elements(PGE) in the Fanjingshan mafic-ultramafic rocks can provide particular insight into the generation and evolution of the mantle-derived magma and thus the potential of Cu-Ni-PGE sulphide mineralization. The Fanjingshan mafic-ultramafic rocks have relatively high Pd-subgroup PGE(PPGE) relative to Ir-subgroup PGE(IPGE) in the primitive mantle-normalized diagrams. Meanwhile, the Fanjingshan mafic-ultramafic rocks have low Pd/Ir(11–28) ratios, implying relatively low degree of partial melting in the mantle. Low Cu/Pd ratios(545–5 216) and high Cu/Zr ratios(0.4–5.8 with the majority greater than 1) of Fanjingshan ultramafic rocks indicate that the S-undersaturated parental magma with relatively high PGE was formed. Although the Fanjingshan mafic rocks have remarkably higher Cu/Pd ratios(8 913–107 016) likely resulting from sulphide segregation, the degree of sulphide removal is insignificant. Fractionation of olivine rather than chromite and platinum group minerals or alloys governed the fractionation of PGE and produced depletion of IPGE(Os, Ir and Ru) relative to PPGE(Rh, Pt and Pd), as supported by the positive correlation between Pd/Ir and V, Y and REE. Collectively, original S-undersaturated magma and insignificant crustal contamination during magma ascent and emplacement result in the separation of immiscible sulphide impossible and thus impede the formation of economic CuNi-PGE sulphide mineralization within the Fanjingshan mafic-ultramafic rocks.
基金the National Key Basic Research Program of China(No.2001CB409806).
文摘On the basis of the study on the REE geochemistry of the ore minerals and host rocks of the Kalatongke Cu-Ni deposit, Xinjiang, it is indicated that the major ore minerals, sulfides, were sourced from the host mafic-ultramafic magma. Characterized by low REE content of sulfide, such a Cu-Ni sulfide deposit occurring in the orogen is obviously different from that on the margin of the craton. Because the mafic-ultramafic rocks from the Cu-Ni sulfide deposit occurring in the orogen is water-rich and the REEs of some sulfides show a particular 'multiple-bending' pattern, which suggests coexistence of multiple liquid phases (fluid and melt), the sulfide melt possibly contains a great deal of hydrothermal fluids and increasingly developed gases and liquid-rich ore-forming fluids after the main metallogenic epoch (magmatic segregation stage).
基金Project supported by the National Natural Science Foundation of China.
文摘The relation between edogite and mafic-ultramafic rocks of Maowu, Bixiling and Nanshanling in Dabie Mountains represents three different kinds of occurrence relations. Their protoliths are bedded cumulate formed by crystallization differentiation of basic magma, which experienced ultrahigh-pressure metamorphism under the mantle condition at the depth of more than 120- 150km during the colli-sion-subduction between the Yangtze Plate and North China Plate. Ti-dinohumite + Ti-chondrodite + magnesite + Al-poor pyroxene is the typical high-pressure mineral assemblage of mafic-ultramafic rocks which reveals the participation of H2O, CO2 and other volatiles-containing fluid in the ultrahigh-pressure metamorphism.
基金the National Natural Science Foundation of China(5108098,51508475)The Chongqing Education Commission science and technology research project(KJQN201901509)Sichuan University Key Laboratory Fundation of Bridge Nondestructive Testing and Engineering Calculation(2018QYJ06).
文摘This study investigated the degradation mechanism of the surrounding rock of a heavy-haul railway under a water-rich condition,based on the construction of the Taihangshan tunnel for the Wari Railway,a heavy-haul railway that used standard construction practices for axle loads of 30 t.Remote monitoring demonstrated that the coupling effect between the dynamic load of a heavy-haul train and the groundwater leads to the deterioration and hollowing of the surrounding rock.This study clarified the void evolution process and deterioration mechanism of the basement rock under the comprehensive influence of the groundwater–train dynamic load using a refined discrete element numerical simulation.The results revealed that the groundwater was the primary influencing factor in the deterioration of the lower part of the heavy-haul railway tunnel.Rock particles were gradually lost under the effects of long-term erosion due to groundwater and heavy-haul trains,which inevitably damaged the basement rock after the construction was completed.Based on this observation,the critical conditions for the deterioration and attenuation law of the physical parameters of the basement rock were obtained.The results of this study can provide ideas and serve as a reference for the forecasting and disaster treatment of basement rock damage in heavy-haul railway tunnels.
文摘A group of Rb-Sr ages, i.e. plagioclase-whole rock (WR) isochron age of (205±7) Ma,hornblende-WR isochron age of (164±10) Ma and biotite-WR isochron age of (123.4±1.2)Ma, for one pyroxenite sample from Renjiawan in North Dabie Terrane (NDT) are reported. According to the closure temperature of 600℃ for plageoclase and 300℃ for biotite, the Renjiawan pyroxenite should intrude into the NDT before 205 Ma, and the younger Rb-Sr ages may reflect the cooling history of the intrusion or reset by the very strong Cretaceous thermal event in NDT.
