Our understanding of solid earth is from the surface, but the depth we can reach is very limited. So, most of the interpretations of geological processes and mechanisms extrapolated from all kinds of the surface pheno...Our understanding of solid earth is from the surface, but the depth we can reach is very limited. So, most of the interpretations of geological processes and mechanisms extrapolated from all kinds of the surface phenomena is greatly uncertain. Recently many researchers concentrate their efforts to the geological and geophysical studying of the deep processes of the solid earth. The International Lithosphere Project (ILP) started in 1981 now is also a frontier field. One of the concentrations of this project is the 3\|D structure, tectonic evolution and the dynamic models of lithosphere\|asthenosphere system (Li Xiaobo etc., 1997). The studying of the igneous rocks and bearing deep\|seated xenoliths, as one of the effective methods probing the structure and evolution of the lithosphere, plays a very important role in these aspects (Deng Jinfu et al., 1996; Lu Fengxiang, 1997).Commonly, magmas come to the surface in great speed and the covering lithosphere should be relatively thinner. For example, the thickness of the lithosphere in East China is about 60~80km in the era when the volcanoes erupted (Deng Jinfu et al. 1994). Recently, many deep\|seated xenoliths were found in several localities of southwest Tianshan (Han Baofu et al., 1998). But in Qinghai—Xizang plateau, “So far no any xenoliths of mantle rocks as peridotites, lherzolites and harzburgites and high pressure granulites were found (Deng Wanming et al., 1997)”.. But in the fieldwork of 1998 we find some deep\|seated xenoliths in Cenozoic basaltic rocks in Kangxiwa region, West Kunlun, China. This work is a part of the project “XinJiang DuShanZi—QuanShuiGou transect” managed by academician Xiao Xuchang.展开更多
Cenozoic potassic mafic volcanism (kamafugite magamtism) in West Qinling, Gansu province of China is a important section of Cenozoic volcanic belt of Qingzang (Tibet) plateau and adjacent area. The kamafugite magma sh...Cenozoic potassic mafic volcanism (kamafugite magamtism) in West Qinling, Gansu province of China is a important section of Cenozoic volcanic belt of Qingzang (Tibet) plateau and adjacent area. The kamafugite magma show near\|primary magma characteristics. Strong incompatible elements concentrations in the volcanic rocks infer the kamafugite magmas may be origined from a enrichment mantle sources earlier.Four groups of deep\|seated xenoliths were collected from a kamafugite lava in West Qinling, Gansu province, China: (1)spinel Iherzolite and garnet Iherzolite; (2) harzburgite; (3) dunite and (4) clinopyroxenite. All suite of peridotite xenoliths are Cr\|diopside series. The main textures of peridotite xenoliths are granoblastic, porphyroclastic and granular, but the textures of clinopyroxenite are mainly poikilitic. The textural characteristics, mineral chemical variations and mineral geothermometric data show that the mantle source region of the Cenozoic kamafugite magam are very complex and undertook partial melting and enrichment associated with alkaline metasomatism by fluid and carbonatite melts. Geothermometry indicates the equilibration p and T conditions of the spinel lherzolite and garnet lherzolite are 970℃, 18 9GPa and 1219℃,27 61GPa corresponding to depth of 62km and 92km representatively. We suggest, combining with geophysical data, the spinel lherzolite formed at the top of upper mantle, the garnet lherzolite represent the base of lithosphere or the top of asthenosphere, but the clinopyroxenite is formed by cumulation in shallower magma reservoir. Kamafugite magmas formed within the stability field of garnet lherzolite by partial melting, the partial melting degree is only about 1%~2%. There is a superheating condition in Cenozoic mantle of West Qinling, which may be related to strong uplift of Qingzang (Tibet) plateau since cenozoic and extrusion east forward of asthenosphere beneath the Qingzang (Tibet) plateau.展开更多
适用于地幔岩石的矿物压力计有石榴石-斜方辉石压力计、石榴石-单斜辉石压力计、橄榄石-单斜辉石压力计、铬尖晶石压力计、二辉石压力计等有限几类。本文通过将这些压力计应用于岩石学相平衡实验数据,检验了其精确度。再将它们应用到天...适用于地幔岩石的矿物压力计有石榴石-斜方辉石压力计、石榴石-单斜辉石压力计、橄榄石-单斜辉石压力计、铬尖晶石压力计、二辉石压力计等有限几类。本文通过将这些压力计应用于岩石学相平衡实验数据,检验了其精确度。再将它们应用到天然地幔岩石样品,包括石榴石相二辉橄榄岩、尖晶石相二辉橄榄岩、石榴石-尖晶石过渡相二辉橄榄岩、含金刚石和石墨的地幔岩石,检验了其准确度。初步结论是,现有的石榴石-斜方辉石压力计(Nickel and Green,1985;Taylor,1998;Breyet al.,2008)质量相对最优,石榴石-单斜辉石压力计(Nimis and Taylor,2000;Simakov and Taylor,2000)次之。在应用这些压力计时,可配合二辉石温度计(Brey et al.,1990;Taylor,1998)或石榴石-橄榄石温度计(Wu and Zhao,2007),来同时估算平衡压力和温度。其余的压力计精确度和准确度都还很不够,需要更精确深入的实验研究来标定质量优良的压力计。展开更多
It is known that large amounts of Cenozoic high potassium volcanic rocks occur on the Tibetan plateau. The question is where do those high potassium magmas come from? Since the plateau is being compressed by subductio...It is known that large amounts of Cenozoic high potassium volcanic rocks occur on the Tibetan plateau. The question is where do those high potassium magmas come from? Since the plateau is being compressed by subduction and collision from the surrounding continents,it is a puzzle for us what is the formational environment and tectonic setting of these volcanic rocks? In particular,what is the relationship between these special rocks and formation and uplift of the plateau? We recently carried out an investigation on these Cenozoic volcanic rocks in Hoh Xil,northern Tibetan plateau,including volcanic rocks in the Jingyuhu,Xiongyingtai and Shuangquanzi areas. In the region,some older lava flows occur as thick sheets with a flat surface and weathering crust; while some relatively younger lavas remain a relict volcanic cone or vent. Most of the relict cones are small (<100m in diameter) and some are over hundred meters,distributed along faults,particular strike\|slip fault,e.g.,East Kunlun strike slip fault. Relatively,intermediate\|acid volcanic rocks are prominent,and basic\|intermediate and acid are subordinate. Petrological and geochemical results show that these volcanic rocks have many common affinities,characterized by high contents of w (K 2O)+ w (Na 2O) (about 8%),and w (K\-2O)/ w (Na\-2O)>1 or close to 1,and mostly belonged to shoshonite\|trachyte association and some to ultra\|potassic rocks. The K\|Ar dating of whole rock and mica shows that the volcanism lasts from middle Miocene (15 47Ma) to Pleistocene (0 69Ma); they are 0 69Ma,13 77Ma and 15 47Ma in Jingyuhu; 11 05Ma,12 22Ma and 12 83Ma in Xiongyingai,; 1 58Ma,2 24Ma,5 23Ma,5 85Ma,8 20Ma,8 41Ma and 10 67Ma in Shuangquanzi.Two types of xenolith and xenocryst were found in Jingyuhu and Xiongyingtai,i.e..,crustal xenolith and mantle xenocryst.展开更多
文摘Our understanding of solid earth is from the surface, but the depth we can reach is very limited. So, most of the interpretations of geological processes and mechanisms extrapolated from all kinds of the surface phenomena is greatly uncertain. Recently many researchers concentrate their efforts to the geological and geophysical studying of the deep processes of the solid earth. The International Lithosphere Project (ILP) started in 1981 now is also a frontier field. One of the concentrations of this project is the 3\|D structure, tectonic evolution and the dynamic models of lithosphere\|asthenosphere system (Li Xiaobo etc., 1997). The studying of the igneous rocks and bearing deep\|seated xenoliths, as one of the effective methods probing the structure and evolution of the lithosphere, plays a very important role in these aspects (Deng Jinfu et al., 1996; Lu Fengxiang, 1997).Commonly, magmas come to the surface in great speed and the covering lithosphere should be relatively thinner. For example, the thickness of the lithosphere in East China is about 60~80km in the era when the volcanoes erupted (Deng Jinfu et al. 1994). Recently, many deep\|seated xenoliths were found in several localities of southwest Tianshan (Han Baofu et al., 1998). But in Qinghai—Xizang plateau, “So far no any xenoliths of mantle rocks as peridotites, lherzolites and harzburgites and high pressure granulites were found (Deng Wanming et al., 1997)”.. But in the fieldwork of 1998 we find some deep\|seated xenoliths in Cenozoic basaltic rocks in Kangxiwa region, West Kunlun, China. This work is a part of the project “XinJiang DuShanZi—QuanShuiGou transect” managed by academician Xiao Xuchang.
文摘Cenozoic potassic mafic volcanism (kamafugite magamtism) in West Qinling, Gansu province of China is a important section of Cenozoic volcanic belt of Qingzang (Tibet) plateau and adjacent area. The kamafugite magma show near\|primary magma characteristics. Strong incompatible elements concentrations in the volcanic rocks infer the kamafugite magmas may be origined from a enrichment mantle sources earlier.Four groups of deep\|seated xenoliths were collected from a kamafugite lava in West Qinling, Gansu province, China: (1)spinel Iherzolite and garnet Iherzolite; (2) harzburgite; (3) dunite and (4) clinopyroxenite. All suite of peridotite xenoliths are Cr\|diopside series. The main textures of peridotite xenoliths are granoblastic, porphyroclastic and granular, but the textures of clinopyroxenite are mainly poikilitic. The textural characteristics, mineral chemical variations and mineral geothermometric data show that the mantle source region of the Cenozoic kamafugite magam are very complex and undertook partial melting and enrichment associated with alkaline metasomatism by fluid and carbonatite melts. Geothermometry indicates the equilibration p and T conditions of the spinel lherzolite and garnet lherzolite are 970℃, 18 9GPa and 1219℃,27 61GPa corresponding to depth of 62km and 92km representatively. We suggest, combining with geophysical data, the spinel lherzolite formed at the top of upper mantle, the garnet lherzolite represent the base of lithosphere or the top of asthenosphere, but the clinopyroxenite is formed by cumulation in shallower magma reservoir. Kamafugite magmas formed within the stability field of garnet lherzolite by partial melting, the partial melting degree is only about 1%~2%. There is a superheating condition in Cenozoic mantle of West Qinling, which may be related to strong uplift of Qingzang (Tibet) plateau since cenozoic and extrusion east forward of asthenosphere beneath the Qingzang (Tibet) plateau.
文摘适用于地幔岩石的矿物压力计有石榴石-斜方辉石压力计、石榴石-单斜辉石压力计、橄榄石-单斜辉石压力计、铬尖晶石压力计、二辉石压力计等有限几类。本文通过将这些压力计应用于岩石学相平衡实验数据,检验了其精确度。再将它们应用到天然地幔岩石样品,包括石榴石相二辉橄榄岩、尖晶石相二辉橄榄岩、石榴石-尖晶石过渡相二辉橄榄岩、含金刚石和石墨的地幔岩石,检验了其准确度。初步结论是,现有的石榴石-斜方辉石压力计(Nickel and Green,1985;Taylor,1998;Breyet al.,2008)质量相对最优,石榴石-单斜辉石压力计(Nimis and Taylor,2000;Simakov and Taylor,2000)次之。在应用这些压力计时,可配合二辉石温度计(Brey et al.,1990;Taylor,1998)或石榴石-橄榄石温度计(Wu and Zhao,2007),来同时估算平衡压力和温度。其余的压力计精确度和准确度都还很不够,需要更精确深入的实验研究来标定质量优良的压力计。
文摘It is known that large amounts of Cenozoic high potassium volcanic rocks occur on the Tibetan plateau. The question is where do those high potassium magmas come from? Since the plateau is being compressed by subduction and collision from the surrounding continents,it is a puzzle for us what is the formational environment and tectonic setting of these volcanic rocks? In particular,what is the relationship between these special rocks and formation and uplift of the plateau? We recently carried out an investigation on these Cenozoic volcanic rocks in Hoh Xil,northern Tibetan plateau,including volcanic rocks in the Jingyuhu,Xiongyingtai and Shuangquanzi areas. In the region,some older lava flows occur as thick sheets with a flat surface and weathering crust; while some relatively younger lavas remain a relict volcanic cone or vent. Most of the relict cones are small (<100m in diameter) and some are over hundred meters,distributed along faults,particular strike\|slip fault,e.g.,East Kunlun strike slip fault. Relatively,intermediate\|acid volcanic rocks are prominent,and basic\|intermediate and acid are subordinate. Petrological and geochemical results show that these volcanic rocks have many common affinities,characterized by high contents of w (K 2O)+ w (Na 2O) (about 8%),and w (K\-2O)/ w (Na\-2O)>1 or close to 1,and mostly belonged to shoshonite\|trachyte association and some to ultra\|potassic rocks. The K\|Ar dating of whole rock and mica shows that the volcanism lasts from middle Miocene (15 47Ma) to Pleistocene (0 69Ma); they are 0 69Ma,13 77Ma and 15 47Ma in Jingyuhu; 11 05Ma,12 22Ma and 12 83Ma in Xiongyingai,; 1 58Ma,2 24Ma,5 23Ma,5 85Ma,8 20Ma,8 41Ma and 10 67Ma in Shuangquanzi.Two types of xenolith and xenocryst were found in Jingyuhu and Xiongyingtai,i.e..,crustal xenolith and mantle xenocryst.
