Deep crustal rocks of the Early Proterozoic orogenic belt (DCR)in Daqingshan area mainly included the synorogenicmetamorphic khondalite series and reworked Archeanbasement granulites. During the early stage about 1900...Deep crustal rocks of the Early Proterozoic orogenic belt (DCR)in Daqingshan area mainly included the synorogenicmetamorphic khondalite series and reworked Archeanbasement granulites. During the early stage about 1900~1800 Ma, the DCR consisted of five huge slices which obducted over and stacked up along a series of hightemperature shear zone (HTSZ), and were subsequently uplifted from the deep crustal level to the middle one accompanied with granuliteamphibolite facies retrometamorphic reworking in HTSZ. From 1800~1700 Ma, some slices and HTSZ mentioned above were oveprinted by several lowtemperature shear zone (LTSZ), of which the lowangle oblique thrusts caused these DCR to uplift again from the middle crustal level to the shallow one, and experienced retrometamorphic reworking of greenschist facies. These two stages of uplifting processes should be included in an entire Early Proterozoic orogenic cycle.展开更多
Through a systematic study on trace elements and REE geochemistry of mudstonedeposited in the basin and lower slope environments during Upper Proterozoic to Triassic in theSouthwest Yangtze Massif, three gaxhemical ab...Through a systematic study on trace elements and REE geochemistry of mudstonedeposited in the basin and lower slope environments during Upper Proterozoic to Triassic in theSouthwest Yangtze Massif, three gaxhemical abnormal horizons of which the gerehemicalcharacteristics are quite different from those of other horizons have been established for the firsttime. They are the Lower Cambrian, the Upper Devonian and the Upper Permian. As compared with the crustal evolution in this area, these three geochemical abnormal horizons are correspoding to the pullingapart perieds of gcotectonic cycles, which illustrates that the uncommon depositional sources Pouring into the basin from the earth’s interior may be one of themost important causes to originate the geochemical anomalies in these horizons. Thus it can berealized that the gaxhemistry of opst-Archean sedimentary rocks has a great deal to do with thecrustal evolution and it can be used as a tracer to analyze the crustal evolution. The elements inthis area are mainly concentrated in these geochemical abnormal horizons, and the degree of enrichment and deficiency of trace elements in other horizons is very limited. A series of researchon mineralization indicates that the main strata-bound ore deposits discovered in the SouthwestYangtze Massif occur in the Cambrian, Devonian and Permian-Triassic strata. The results ofisotope tracer research have also proved that most of the metallogenic elements in these ore dePosits came from the host strata, which illustrates that the geochemical abnormal horizons mayhave made great contributions to these ore-forming processes. Thus it can be concluded that itis only the particular horizons corresponding to the particular periods of earth’s evolution thatcan they be the significant source beds because only in these uncommon horizons there can behighly enriched metallogenic elements, which may be one of the most important reasons for explaining the time-bound nature of mineralization.展开更多
Proterozoic granitoid rocks in Zhejiang Province were formed in the Shengongian period (1. 8-1.9 Ga) and the Late Jinningian period (0. 6 -0. 9 Ga), respectively. Petrogenetic problems are discussed based on chemical ...Proterozoic granitoid rocks in Zhejiang Province were formed in the Shengongian period (1. 8-1.9 Ga) and the Late Jinningian period (0. 6 -0. 9 Ga), respectively. Petrogenetic problems are discussed based on chemical (major, trace elements and REEs) and Nd-Sr isotopic compositions. The Shengongian granites resulted from partial melting of the Badu Groupand the Late Jinningian granites are of mantle dedvation with or without conednation of Crustalmaterial. The crust in Zhejiang had undergone three major periods of growth during 2. 6 - 2. 7Ga,0. 8 - 1. 1 Ga and 0. 10 - 0. 12 Ga after it was generated in Archean time. Compositional fractionation in the process of crust evolution is not evident. The presence of Late Jinningian granites of mantle- and man tie-crust-derivation along the JiangShan-Shaoxing Fault is indication ofcrust subduction at that time.展开更多
长城系是华北克拉通统一结晶基底形成后的首套沉积盖层,其碎屑锆石U-Pb年代学及其Hf同位素特征分析对探讨地层形成时代、源区特征以及基底演化均具重要研究意义。本文对华北克拉通中部黎城地区长城系下部地层的碎屑锆石进行了U-Pb年龄...长城系是华北克拉通统一结晶基底形成后的首套沉积盖层,其碎屑锆石U-Pb年代学及其Hf同位素特征分析对探讨地层形成时代、源区特征以及基底演化均具重要研究意义。本文对华北克拉通中部黎城地区长城系下部地层的碎屑锆石进行了U-Pb年龄和Hf同位素分析。结果表明,该区长城系碎屑锆石U-Pb年龄呈现了2.55~2.45Ga、2.15~2.0Ga和~1.92Ga等三个主峰期,同时存在3.5~3.1Ga和2.9~2.7Ga的年龄次峰期。最年轻碎屑锆石的207 Pb/206 Pb加权平均年龄限定了该区长城系沉积发生于1.76Ga之后。碎屑锆石的年龄分布和Hf同位素特征与华北克拉通中、南部基底物质记录的地质事件高度相似,区内长城系地层与南部熊耳地区长城系地层可对比性强,证明太行山南段在1.76Ga后已与南部熊耳裂谷盆地相连,其沉积物质均主要来自华北克拉通中、南部地区。其中,3.5~3.4Ga的古老碎屑锆石εHf(t)=-8.6~-4.6,揭示中、南部地区存在古太古代地壳物质。新太古代早期2.9~2.7Ga的锆石εHf(t)以正值为主(占比85%),它们的t C DM=3190~2774Ma,与其结晶年龄相同或接近,证明华北克拉通南部在新太古代早期以新生地壳生长为主。新太古代晚期2.55~2.45Ga峰期的锆石也以正的εHf(t)值为主(占比69%),而2.15~2.0Ga峰期锆石的εHf(t)值大多偏负(占比56%),说明华北克拉通南部地区从新太古代末期的新生地壳增生为主伴有陆壳再造转变为古元古代中期以古老陆壳物质再造为主,并有少量新生陆壳增生;古元古代晚期~1.92Ga年龄峰期的碎屑锆石εHf(t)=-11.9~+2.0,揭示至古元古代末期华北克拉通中南部进入到以古老陆壳物质再造为主的演化阶段。展开更多
In the Alborz Mountains of the eastern Roodbar (north of Iran), Tertiary volcanic rocks have a variety of composition between olivine basalt, basaltic andesite, pyroxene andesite and andesite. The presence of differen...In the Alborz Mountains of the eastern Roodbar (north of Iran), Tertiary volcanic rocks have a variety of composition between olivine basalt, basaltic andesite, pyroxene andesite and andesite. The presence of different xenoliths and xenocrysts is among the evidence of crustal contamination of these rocks. The positive correlations of CaO/Al<sub>2</sub>O<sub>3</sub> vs to MgO and Al<sub>2</sub>O<sub>3</sub> vs. SiO<sub>2</sub> are of signs of the olivine and clinopyroxene fractionation in the variation trend of the area rocks. Positive correlations K<sub>2</sub>O/P<sub>2</sub>O<sub>5</sub> vs with SiO<sub>2</sub> and La/Sm vs. K<sub>2</sub>O/P<sub>2</sub>O<sub>5</sub> demonstrate contamination of magma with the continental crust. The incompatible trace element patterns and their comparison with crustal contents indicate contamination of the rocks of the area with the lower and upper continental crust. Linear trends in the variation diagram of Nb/Y vs. Zr/Y, introduce two different source regions: a MORB source and the other continental crust for the rocks which are the genesis. The variations of Y/Nb vs. Zr/Nb and Rb/Y vs. Nb/Y reveal a crustal contamination of the magma originated from the MORB source. Geochemical studies represent that the area’s rocks were derived from the 15% melting of a mantle source of MORB type with spinel facies within a continental environment, which was contaminated by varying degrees of continental crustal rocks.展开更多
Compositional peculiarities of the siliceous high-Mg series(SHMS)rocks formed at the Archean-Paleoproterozoic boundary as a function of plume activity are discussed using example of Early Paleoproterozoic mafic volcan...Compositional peculiarities of the siliceous high-Mg series(SHMS)rocks formed at the Archean-Paleoproterozoic boundary as a function of plume activity are discussed using example of Early Paleoproterozoic mafic volcanic rocks of the Vodlozero Domain,Fennoscandian Shield.These rocks are characterized by wide variations in Mg#(33-67)and Cr contents(25-1123 ppm),LREE enrichment,and weakly negative_(εNd)(from-0.7 to-2.9).The high Gd/Yb ratio in the primitive high-Mg rocks of the Vodlozero Domain suggests their generation from a garnet-bearing source.At the same time,their negative _(εNd)in combination with LREE enrichment points to the crustal contamination.A new model was proposed to explain the remarkable global-scale similarity of SHMS.Such rocks can be generated by the contamination of a high-degree(30%)partial melt derived from a depleted mantle.The lower crustal sanukitoid-type rocks can be considered as a universal crustal contaminant.Modeling showed that such mixing can provide the observed narrow_(εNd)variations in Early Paleoproterozoic volcanics.The Neoarchean sanukitoid suites,which are widespread on all cratons,presumably composed the lower crust at the beginning of the Paleoproterozoic.Therefore,this mechanism can be considered universal for the genesis of the SHMS rocks.The high-to low-Cr rock series can be produced by the fractionation of the mafic melt coupled with an insignificant crustal assimilation of felsic end members of the sanukitoid suite of the Vodlozero Domain en route to the surface,as suggested by the positive correlation of_(εNd)with Cr and Mg#,negative correlation with Th,and slight decrease of_(εNd)in the more evolved varieties.展开更多
The well preserved eclogitic rocks of the Tso Morari dome in eastern Ladakh, northwest Himalaya, provide information relevant to the exhumation of high pressure/low temperature rocks, and the early stage of the Himala...The well preserved eclogitic rocks of the Tso Morari dome in eastern Ladakh, northwest Himalaya, provide information relevant to the exhumation of high pressure/low temperature rocks, and the early stage of the Himalayan orogeny. The Tso Morari unit outcrops south of the Indus suture zone (Fig.1). The eclogitic dome is underlined on its eastern part by the Zildat normal fault where serpentinite lenses and partially hydrated peridotites are abundant. The close association of the high pressure rocks and serpentinites suggests a possible role of serpentinites in the exhumation of ultrahigh\|pressure rocks. To evaluate this possibility, geochemical analyses were carried out on the serpentinites closely associated with the Tso Morari eclogites.展开更多
扬子地块黄陵背斜南部出露的花岗闪长质片麻岩是太古宙TTG片麻岩的重要组成单元,具有高Al2O3、Na2O、Sr以及低Rb、Nb等特征,属于高铝TTG系列,且具埃达克质岩石属性。结合片麻岩微量元素蛛网图显示的Nb、Ta和Hf等高场强元素富集以及Th、P...扬子地块黄陵背斜南部出露的花岗闪长质片麻岩是太古宙TTG片麻岩的重要组成单元,具有高Al2O3、Na2O、Sr以及低Rb、Nb等特征,属于高铝TTG系列,且具埃达克质岩石属性。结合片麻岩微量元素蛛网图显示的Nb、Ta和Hf等高场强元素富集以及Th、Pb和U等大离子亲石元素亏损的特征,本文认为该岩石形成于俯冲环境下玄武质洋壳的部分熔融作用。黄陵背斜北部出露的2.9~3.0 Ga TTG片麻岩和弧性质角闪岩,反映该时期是扬子地块陆壳生长的一次重要阶段,且以洋壳俯冲产生岛弧或安第斯型岩浆作用的陆壳水平增生为主,通过微陆块拼贴或规模较小的板块构造模式而形成。展开更多
文摘Deep crustal rocks of the Early Proterozoic orogenic belt (DCR)in Daqingshan area mainly included the synorogenicmetamorphic khondalite series and reworked Archeanbasement granulites. During the early stage about 1900~1800 Ma, the DCR consisted of five huge slices which obducted over and stacked up along a series of hightemperature shear zone (HTSZ), and were subsequently uplifted from the deep crustal level to the middle one accompanied with granuliteamphibolite facies retrometamorphic reworking in HTSZ. From 1800~1700 Ma, some slices and HTSZ mentioned above were oveprinted by several lowtemperature shear zone (LTSZ), of which the lowangle oblique thrusts caused these DCR to uplift again from the middle crustal level to the shallow one, and experienced retrometamorphic reworking of greenschist facies. These two stages of uplifting processes should be included in an entire Early Proterozoic orogenic cycle.
文摘Through a systematic study on trace elements and REE geochemistry of mudstonedeposited in the basin and lower slope environments during Upper Proterozoic to Triassic in theSouthwest Yangtze Massif, three gaxhemical abnormal horizons of which the gerehemicalcharacteristics are quite different from those of other horizons have been established for the firsttime. They are the Lower Cambrian, the Upper Devonian and the Upper Permian. As compared with the crustal evolution in this area, these three geochemical abnormal horizons are correspoding to the pullingapart perieds of gcotectonic cycles, which illustrates that the uncommon depositional sources Pouring into the basin from the earth’s interior may be one of themost important causes to originate the geochemical anomalies in these horizons. Thus it can berealized that the gaxhemistry of opst-Archean sedimentary rocks has a great deal to do with thecrustal evolution and it can be used as a tracer to analyze the crustal evolution. The elements inthis area are mainly concentrated in these geochemical abnormal horizons, and the degree of enrichment and deficiency of trace elements in other horizons is very limited. A series of researchon mineralization indicates that the main strata-bound ore deposits discovered in the SouthwestYangtze Massif occur in the Cambrian, Devonian and Permian-Triassic strata. The results ofisotope tracer research have also proved that most of the metallogenic elements in these ore dePosits came from the host strata, which illustrates that the geochemical abnormal horizons mayhave made great contributions to these ore-forming processes. Thus it can be concluded that itis only the particular horizons corresponding to the particular periods of earth’s evolution thatcan they be the significant source beds because only in these uncommon horizons there can behighly enriched metallogenic elements, which may be one of the most important reasons for explaining the time-bound nature of mineralization.
文摘Proterozoic granitoid rocks in Zhejiang Province were formed in the Shengongian period (1. 8-1.9 Ga) and the Late Jinningian period (0. 6 -0. 9 Ga), respectively. Petrogenetic problems are discussed based on chemical (major, trace elements and REEs) and Nd-Sr isotopic compositions. The Shengongian granites resulted from partial melting of the Badu Groupand the Late Jinningian granites are of mantle dedvation with or without conednation of Crustalmaterial. The crust in Zhejiang had undergone three major periods of growth during 2. 6 - 2. 7Ga,0. 8 - 1. 1 Ga and 0. 10 - 0. 12 Ga after it was generated in Archean time. Compositional fractionation in the process of crust evolution is not evident. The presence of Late Jinningian granites of mantle- and man tie-crust-derivation along the JiangShan-Shaoxing Fault is indication ofcrust subduction at that time.
文摘长城系是华北克拉通统一结晶基底形成后的首套沉积盖层,其碎屑锆石U-Pb年代学及其Hf同位素特征分析对探讨地层形成时代、源区特征以及基底演化均具重要研究意义。本文对华北克拉通中部黎城地区长城系下部地层的碎屑锆石进行了U-Pb年龄和Hf同位素分析。结果表明,该区长城系碎屑锆石U-Pb年龄呈现了2.55~2.45Ga、2.15~2.0Ga和~1.92Ga等三个主峰期,同时存在3.5~3.1Ga和2.9~2.7Ga的年龄次峰期。最年轻碎屑锆石的207 Pb/206 Pb加权平均年龄限定了该区长城系沉积发生于1.76Ga之后。碎屑锆石的年龄分布和Hf同位素特征与华北克拉通中、南部基底物质记录的地质事件高度相似,区内长城系地层与南部熊耳地区长城系地层可对比性强,证明太行山南段在1.76Ga后已与南部熊耳裂谷盆地相连,其沉积物质均主要来自华北克拉通中、南部地区。其中,3.5~3.4Ga的古老碎屑锆石εHf(t)=-8.6~-4.6,揭示中、南部地区存在古太古代地壳物质。新太古代早期2.9~2.7Ga的锆石εHf(t)以正值为主(占比85%),它们的t C DM=3190~2774Ma,与其结晶年龄相同或接近,证明华北克拉通南部在新太古代早期以新生地壳生长为主。新太古代晚期2.55~2.45Ga峰期的锆石也以正的εHf(t)值为主(占比69%),而2.15~2.0Ga峰期锆石的εHf(t)值大多偏负(占比56%),说明华北克拉通南部地区从新太古代末期的新生地壳增生为主伴有陆壳再造转变为古元古代中期以古老陆壳物质再造为主,并有少量新生陆壳增生;古元古代晚期~1.92Ga年龄峰期的碎屑锆石εHf(t)=-11.9~+2.0,揭示至古元古代末期华北克拉通中南部进入到以古老陆壳物质再造为主的演化阶段。
文摘In the Alborz Mountains of the eastern Roodbar (north of Iran), Tertiary volcanic rocks have a variety of composition between olivine basalt, basaltic andesite, pyroxene andesite and andesite. The presence of different xenoliths and xenocrysts is among the evidence of crustal contamination of these rocks. The positive correlations of CaO/Al<sub>2</sub>O<sub>3</sub> vs to MgO and Al<sub>2</sub>O<sub>3</sub> vs. SiO<sub>2</sub> are of signs of the olivine and clinopyroxene fractionation in the variation trend of the area rocks. Positive correlations K<sub>2</sub>O/P<sub>2</sub>O<sub>5</sub> vs with SiO<sub>2</sub> and La/Sm vs. K<sub>2</sub>O/P<sub>2</sub>O<sub>5</sub> demonstrate contamination of magma with the continental crust. The incompatible trace element patterns and their comparison with crustal contents indicate contamination of the rocks of the area with the lower and upper continental crust. Linear trends in the variation diagram of Nb/Y vs. Zr/Y, introduce two different source regions: a MORB source and the other continental crust for the rocks which are the genesis. The variations of Y/Nb vs. Zr/Nb and Rb/Y vs. Nb/Y reveal a crustal contamination of the magma originated from the MORB source. Geochemical studies represent that the area’s rocks were derived from the 15% melting of a mantle source of MORB type with spinel facies within a continental environment, which was contaminated by varying degrees of continental crustal rocks.
基金supported by the Russian Foundation for Basic Research (Project Nos.16-05-00708 and 15-05-01214)
文摘Compositional peculiarities of the siliceous high-Mg series(SHMS)rocks formed at the Archean-Paleoproterozoic boundary as a function of plume activity are discussed using example of Early Paleoproterozoic mafic volcanic rocks of the Vodlozero Domain,Fennoscandian Shield.These rocks are characterized by wide variations in Mg#(33-67)and Cr contents(25-1123 ppm),LREE enrichment,and weakly negative_(εNd)(from-0.7 to-2.9).The high Gd/Yb ratio in the primitive high-Mg rocks of the Vodlozero Domain suggests their generation from a garnet-bearing source.At the same time,their negative _(εNd)in combination with LREE enrichment points to the crustal contamination.A new model was proposed to explain the remarkable global-scale similarity of SHMS.Such rocks can be generated by the contamination of a high-degree(30%)partial melt derived from a depleted mantle.The lower crustal sanukitoid-type rocks can be considered as a universal crustal contaminant.Modeling showed that such mixing can provide the observed narrow_(εNd)variations in Early Paleoproterozoic volcanics.The Neoarchean sanukitoid suites,which are widespread on all cratons,presumably composed the lower crust at the beginning of the Paleoproterozoic.Therefore,this mechanism can be considered universal for the genesis of the SHMS rocks.The high-to low-Cr rock series can be produced by the fractionation of the mafic melt coupled with an insignificant crustal assimilation of felsic end members of the sanukitoid suite of the Vodlozero Domain en route to the surface,as suggested by the positive correlation of_(εNd)with Cr and Mg#,negative correlation with Th,and slight decrease of_(εNd)in the more evolved varieties.
文摘The well preserved eclogitic rocks of the Tso Morari dome in eastern Ladakh, northwest Himalaya, provide information relevant to the exhumation of high pressure/low temperature rocks, and the early stage of the Himalayan orogeny. The Tso Morari unit outcrops south of the Indus suture zone (Fig.1). The eclogitic dome is underlined on its eastern part by the Zildat normal fault where serpentinite lenses and partially hydrated peridotites are abundant. The close association of the high pressure rocks and serpentinites suggests a possible role of serpentinites in the exhumation of ultrahigh\|pressure rocks. To evaluate this possibility, geochemical analyses were carried out on the serpentinites closely associated with the Tso Morari eclogites.
文摘扬子地块黄陵背斜南部出露的花岗闪长质片麻岩是太古宙TTG片麻岩的重要组成单元,具有高Al2O3、Na2O、Sr以及低Rb、Nb等特征,属于高铝TTG系列,且具埃达克质岩石属性。结合片麻岩微量元素蛛网图显示的Nb、Ta和Hf等高场强元素富集以及Th、Pb和U等大离子亲石元素亏损的特征,本文认为该岩石形成于俯冲环境下玄武质洋壳的部分熔融作用。黄陵背斜北部出露的2.9~3.0 Ga TTG片麻岩和弧性质角闪岩,反映该时期是扬子地块陆壳生长的一次重要阶段,且以洋壳俯冲产生岛弧或安第斯型岩浆作用的陆壳水平增生为主,通过微陆块拼贴或规模较小的板块构造模式而形成。
