Post-collision interactions and the polarization effect in (e, 2e) collisions of helium

A modified distorted-wave Born approximation （DWBA） method is used to calculate the triple differential cross sections （TDCSs） in a coplanar asymmetric geometry for the electron impact single ionization of a He （ls2） atom at intermediate and lower energies. The post-collision interaction and the polarization effect in （e, 2e） collisions of helium are considered in the calculations. The polarization potentials from the damping method and density functional theory （DFT） are compared. Theoretical results are compared with the recent experimental data.

Carboniferous Post-collisional Rift Volcanism of the Tianshan Mountains, Northwestern China

The Tianshan Carboniferous post-collisional rift volcanic rocks occur in northwestern China as a large igneous province. Based on petrogeochemical data, the Tianshan Carboniferous post-collisional rift basic lavas can be classified into two major magma types: (1) the low-Ti/Y type situated in the eastern-central Tianshan area, which exhibits low Ti/Y (<500), Ce/Yb (<15) and SiO2 (43-55%), and relatively high Fe2O3T (6.4-11.5%); (2) the high-Ti/Y type situated in the western Tianshan area, which has high Ti/Y (>500), Ce/Yb (>11) and SiO2 (49-55%), and relatively low Fe2O3T (5.8-7.8%). Elemental data suggest that chemical variations of the low-Ti/Y and high-Ti/Y lavas cannot be explained by fractional crystallization from a common parental magma. The Tianshan Carboniferous basic lavas originated most likely from an OIB-like asthenospheric mantle source (87Sr/86Sr(t) ≈ 0.703-0.705, eNd(0 = +4 to +7). The crustal contamination and continental lithospheric mantle have also contributed significantly to the formation of the basic lavas of the Tianshan Carboniferous post-collisional rift. The silicic lavas were probably generated by partial melting of the crust. The data of this study show that spatial petrogeochemical variations exist in the Carboniferous post-collisional rift volcanics province in the Tianshan region. Occurrence of the thickest volcanics dominated by tholeiitic lavas may imply that the center of the mantle-melting anomaly (mantle plume) was in the eastern Tianshan area at that time. The basic volcanic magmas in the eastern Tianshan area were generated by a relatively high degree of partial melting of the mantle source around the spinel-garnet transition zone, whereas the alkaline basaltic lavas are of the dominant magma type in the western Tianshan area, which were generated by a low degree of partial melting of the mantle source within the stable garnet region, thus the basic lavas of the western Tianshan area might have resulted from relatively thick lithosphere and low geothermal gradient.

Post-collisional Adakitic Porphyries in Tibet:Geochemical and Sr-Nd-Pb Isotopic Constraints on Partial Melting of Oceanic Lithosphere and Crust-Mantle Interaction

The distribution of Neogene felsic porphyries intruding in earlier granitic batholiths was mainly controlled by north-south-tending rifting zones and normal faults. The main rock types of the felsic porphyries include granodiorite-porphyry, monzonitic granite-porphyry and quartz monzonitic porphyry. The porphyries are characterized by high SiO2 ((?)64.26%) and Al2O3 (>15% at 70% SiO2), low Y and HREE (Yb) contents, strong enrichment of LILE and LERR, especially K and ST. Geochemical features of the porphyries show distinct adakitic magma affinity. Nd, Sr and Pb isotopic compositions of the porphyries form a linear alignment from MORB to EM2, suggesting a mixing of the MORB reservoir with the metasomatized mantle reservoir. Considering also the geochemical characteristics of the porphyries and the sequence of observable structural-thermal-magmatic events at Gangdise, it is thought that the Neogene porphyries were formed by partial melting of dead subducted oceanic crust in a post-collision setting. K-enrichment in the porphyries is attributed to the interaction of slab-derived melts, i.e., adakites, with the metasomatized mantle during the ascent. There might be a delamination of residual eclogites or amphibole eclogites before the eruption of potassic lava on the Tibetan plateau since 13 Ma.

Geochemical characterization of Granitoids in Katchuan Irruan area: further evidence for peraluminous and shoshonitic compositions and post-collisional setting of granitic rocks in the Precambrian Basement Complex of Nigeria

Petrographic studies on Granitoids from Katchuan Irruan and adjoining areas,southeastern Nigeria,has shown that they are garnetiferous biotite granite,aplitic granite,porphyritic hornblende biotite granite,porphyritic muscovite biotite granite,weakly foliated leucogranodiorite and simple pegmatite.They are closely associated with the Precambrian Basement Complex rocks which they intruded.Modal analysis shows that the rocks consist of quartz(10%-25%),oligoclase(10%-30%),K-feldspar(15%-35%),biotite(3%-25%),with occasional garnet,hornblende,muscovite,and accessory chlorite,haematite and magnetite.Geochemical data indicates that the rocks are generally shoshonitic,alkali-calcic to calcic,ferroan and peraluminous.They are enriched in large ion lithophile elements as well as high field strength elements(Hf,Ta,Yb,Sm,Zr and Y).Their trace elements and REE patterns are similar,indicating that they are co-genetic.They are characterized by high fractionation factor(La/Yb)N(3.04-228.44)and pronounced negative Eu anomalies(Eu/Eu*)(0.23-0.71).Their overall geochemical features indicate that they were most likely derived from partial melting of crustal materials in an orogenic(post-collisional)tectonic setting.They are therefore related to the Pan-African granites,otherwise known as the Older Granites which were emplaced during the Pan African orogenic event.

Crashworthiness design and experimental validation of a novel collision post structure for subway cab cars

This paper proposes a novel collision post structure designed to improve the crashworthiness of subway cab cars.The structure provides two innovative features:1)a simpler connection between the post and the car roof,which gives a more reasonable load transfer path to reduce the stress concentration at the joint;and 2)a stiffness induction design that provides an ideal deformation model to protect the safe space of the cab cars.The novel collision post structure was evaluated with finite element analysis,and a prototype cab car was mechanically tested.The results demonstrate that the deformation response was stable and agreed well with the expected ideal mode.The maximum load was 874.17 kN and the responses remained well above the elastic design load of 334 kN as required by the design specification.In addition,there was no significant tearing failure during the whole test process.Therefore,the novel collision post structure proposed has met the requirements specified in new standard to improve the crashworthiness of subway cab cars.Finally,the energy absorption efficiency and light weight design highlights were also summarized and discussed.

Late syn-to post-collisional magmatism in Madagascar:The genesis of the Ambalavao and Maevarano Suites

The East African Orogen involves a collage of Proterozoic microcontinents and arc terranes that became wedged between older cratonic blocks during the assembly of Gondwana.The Ediacaran-Cambrian Ambalavao and Maevarano Suites in Madagascar were emplaced during the waning orogenic stages and consist of weakly deformed to undeformed plutonic rocks and dykes of mainly porphyritic granite but also gabbro,diorite and charnockite.U-Pb geochronological data date emplacement of the Ambalavao Suite to between ca.580 Ma and 540 Ma and the Maevarano Suite to between ca.537 Ma and522 Ma.Major and trace element concentrations are consistent with emplacement in a syn-to postcollisional tectonic setting as A-type(anorogenic) suites.Oxygen(δ^(18)O of 5.27‰-7.45‰) and hafnium(ε(Hf)(t) of-27.8 to-12.3) isotopic data from plutons in the Itremo and Antananarivo Domains are consistent with incorporation of an ancient crustal source.More primitive δ^(18)O(5.27‰-5.32‰) andε(Hf)(t)(+0.0 to+0.2) isotopic values recorded in samples collected from the Ikalamavony Domain demonstrate the isotopic variation of basement sources present in the Malagasy crust.The Hf isotopic composition of Malagasy zircon are unlike more juvenile Ediacaran-Cambrian zircon sou rces elsewhere in the East African Orogen and,as such,Madagascar represents a distinct and identifiable detrital zircon source region in Phanerozoic sedimentary provenance studies.Taken together,these data indicate that high-T crustal anatexis,crustal assimilation and interaction of crustal material with mantle-derived melts were the processes operating during magma emplacement.This magmatism was coeval with polyphase deformation throughout Madagascar during the amalgamation of Gondwana and magmatism is interpreted to reflect lithospheric delamination of an extensive orogenic plateau.

胶辽吉造山带碰撞后岩浆作用:来自辽东-吉南地区巨斑状和球粒状花岗岩的约束

胶辽吉造山带辽东-吉南地区卧龙泉、双岔、八河川等巨斑状花岗岩体形成于造山峰期之后,记录了造山带演化的重要信息,对于探讨整个胶辽吉造山带构造演化具有重要意义。通过对巨斑状花岗岩研究,识别出局部侵入其中的球粒状花岗岩,并对采集自造山带东部和西部典型岩体的3件巨斑状花岗岩和1件球粒状花岗岩开展了岩相学、锆石U-Pb年代学、Lu-Hf同位素及主微量元素研究。结果显示巨斑状花岗岩具有硅含量相对较低、全碱较高、A/CNK值变化较大(0.86~1.19)等特征。虽然双岔巨斑状花岗岩中见有石榴子石,但全岩地球化学特征表现出准铝质、锆饱和温度较高等A型花岗岩特征;宝甸地区花岗岩中也有石榴子石,显示了S型花岗岩地球化学特征。卧龙泉和双岔巨斑状花岗岩体侵位时代为1880~1895Ma,球粒状花岗岩形成于1870±13Ma,宝甸地区巨斑状含石榴花岗岩侵位于1845±13Ma左右;来自这些锆石的原位εHf(t)值介于-3.6~+4.2之间,相应的二阶段模式年龄为2474~2730Ma。本研究认为,辽吉造山带碰撞后花岗质岩石成因较为复杂:球粒状花岗岩反映了岩浆过冷度较大、快速侵位至浅表过程;宝甸地区巨斑状花岗岩具有S型花岗岩特征;具有A型花岗岩特征的巨斑状花岗岩则反映了深部物质和加厚地壳均有贡献。结合前期报道的同时代碰撞后I型和A型花岗岩以及变质岩的研究等,本文认为辽东半岛巨斑状和球粒状花岗岩的产出与胶辽吉造山带碰撞后强烈的下地壳作用有关,反映了造山带去根垮塌、岩石圈伸展过程,代表了碰撞后花岗质岩浆作用。

吉林红旗岭晚三叠世镁铁超镁铁质侵入体矿物化学和岩石地球化学特征:对镍铜成矿的启示

吉林红旗岭镁铁超镁铁质侵入岩群位于中亚造山带东段南缘,由3个北西向岩带(I、II、III)组成,包括30多个小岩株,其中I-岩带的部分岩体伴有铜镍矿化,并且其1和7号岩体分别形成了中型和大型岩浆铜镍硫化物型矿床。矿床主要容矿岩石为辉橄岩、橄辉岩、斜方辉石岩、二辉石岩、苏长岩和辉长岩。主量元素方面,红旗岭岩群具有富镁(w(MgO)=20.7%~31.1%)、低钛(w(TiO_(2))=0.33%~0.79%)、低碱(w(K 2 O+Na 2 O)=0.60%~2.29%)和硅(w(SiO_(2))=40.0%~53.0%)变化范围大的特征;微量元素方面,红旗岭岩群呈现弱富集LREE和LILE(Th)以及亏损HREE和HFSE(Nb-Ta-Ti)。岩相学、地球化学和矿物(橄榄石、斜方辉石、单斜辉石、尖晶石、斜长石和角闪石)主微量元素特征表明,红旗岭岩群明显不同于洋岛型玄武岩、阿拉斯加型环状杂岩和科马提岩,但与岛弧玄武岩以及中亚造山带西段的“黄山西”和“黄山东”铜镍硫化物矿床的容矿超镁铁质岩相似,其母岩浆是一种富Mg、亏损Nb-Ta的岛弧拉斑玄武质熔体,形成于晚三叠世古亚洲洋闭合后伸展环境,演化过程中经历了地壳混染和分离结晶作用,含矿母岩浆可能经历了硫化物的“二次熔离”,最终形成了铂族元素(PGE)亏损型岩浆铜镍硫化物矿床。

东昆仑东段各玛龙闪长岩年代学、地球化学特征及成因分析

各玛龙地区位于东昆仑造山带东段南部,该地区构造活动与岩浆活动强烈。本文以两件花岗闪长岩和两件英云闪长岩为研究对象,开展LA-ICP-MS锆石U-Pb年代学和岩石全岩元素组成研究,探讨岩石成因类型和岩浆源区特征,分析闪长岩的构造演化环境。研究结果表明:两件具有代表性的闪长岩样品成岩年龄分别为405.3±1.1 Ma和405.8±1.2 Ma,说明成岩时代为早泥盆世;4件闪长岩样品具有高硅、高铝、高碱、贫钙、贫镁、弱过铝质特征,属于弱过铝质高钾钙碱性系列岩石;4件样品中未发育S型花岗岩的代表性矿物,并且Rb/Sr值为0.32~0.43,均小于0.9,A/CNK值为0.98~1.09,均小于1.1,符合I型花岗岩的地球化学特征;通过分析La-La/Sm图解与(Zr+Nb+Ce+Y)-(Na_(2)O+K_(2)O)/CaO图解,同时结合Nb/Ta、Zr/Hf、Nb/U、Rb/Sr、Ti/Y、Ti/Zr值,可以得知各玛龙地区闪长岩是由地壳岩石部分熔融形成的,并且可能伴有幔源物质的参与。结合前人研究及(Y+Nb)-Rb图解与Rb/30-Hf-Ta*3图解可知,各玛龙地区闪长岩形成于早泥盆世东昆仑造山带的后碰撞伸展环境。

内蒙古达茂旗东北部比旗格淖复式岩体的形成年龄、地球化学特征及成因

达茂旗东北部比旗格淖复式岩体位于内蒙古中部,该岩体由两期侵入体组成,岩性分别为花岗闪长岩和二长花岗岩,前者为岩体主体岩性。主体花岗闪长岩主要由斜长石(An=14~30)、石英、钾长石和普通角闪石组成,内部发育暗色微粒包体;补体二长花岗岩主要由石英、钾长石和斜长石(An=12~23)组成。LA-ICPMS锆石U-Pb定年显示岩体形成于晚二叠世,形成年龄为259±2 Ma。主体花岗闪长岩SiO_(2)=66.37%-68.70%、为准铝质—弱过铝质(A/CNK=0.99~1.01),地球化学上显示出富集轻稀土、大离子亲石元素,亏损重稀土和高场强元素的特征,属于I型花岗岩;其中闪长质暗色微粒包体呈浑圆状或拉长扁平透镜状,年龄与寄主花岗闪长岩一致,为岩浆混合的产物;补体二长花岗岩,高硅(SiO_(2)=71.51%~73.09%)、富碱(Na_(2)O+K_(2)O=7.91%~8.61%),为弱过铝质—强过铝质(A/CNK=1.07~1.11),属分异I型花岗岩。比旗格淖复式岩体锆石εHf(t)分布范围为-3.0~3.4,对应的Hf同位素二阶段模式年龄为1473~1057 Ma。具有相对较低的[n(87Sr)/n(86Sr)]i值(0.704829~0.705327),εNd(t)值为-5.85~-8.86,对应的Nd的二阶段模式年龄为1.69~1.45 Ga。结合区域研究资料,认为比旗格淖复式岩体为亏损地幔组分与受其诱发的部分熔融的古老地壳物质混合形成,属于后碰撞型花岗岩,这类岩体的形成标志了古亚洲洋在兴蒙造山带南缘的闭合,并发生造山后伸展作用。

拉萨地块西部碰撞后富钾火山作用CO_(2)释放规模初探

估算地质历史时期火山活动的CO_(2)释放量对于理解地球深部碳释放及其气候环境效应具有重要意义。本文聚焦青藏高原拉萨地块西部的碰撞后富钾火山作用,以雄巴、赛利普、布嘎寺和麦嘎4个地区的富钾火山岩为例,开展了橄榄石、辉石等斑晶矿物中熔体包裹体的CO_(2)含量与脱气特征研究,结合火山岩体积和年龄等参数,估算了拉萨地块碰撞后富钾火山活动的CO_(2)释放量。结果表明,研究区火山岩熔体包裹体气泡中的CO_(2)含量约为0.61%~5.38%,雄巴、赛利普、布嘎寺和麦嘎火山岩的CO_(2)年释放量分别为(5.1±0.9)×10^(-5)Pg/yr、(1.3±0.6)×10^(-5)Pg/yr、(2.5±0.5)×10^(-4)Pg/yr和(1.5±0.2)×10^(-7)Pg/yr,共计约(3.2±0.6)×10^(-4)Pg/yr。粗略推算结果表明,拉萨地块碰撞后富钾火山作用的CO_(2)总释放规模约为0.006±0.001Pg/yr,与大陆碰撞带深部碳释放通量模型的计算结果相一致。本文的研究结果为地质历史时期印度-亚洲大陆碰撞导致的深部碳释放模拟提供了初步的实测数据参考。未来仍需在获取更多数据的基础上优化研究结果,以减小碰撞后火山作用的岩浆成分、规模、时空分布不均等导致的不确定性。

Extensional Tectonic Framework of Post High and Ultrahigh Pressure Metamorphism in Dabieshan,China

The most prominent feature of the extensional tectonic framework of post high pressure (HP) and ultrahigh pressure (UHP) metamorphism in Dabieshan is the development of the multi layered extension detachment zones surrounding the core of the Luotian dome, and the separation of the UHP, HP and epidote blueschist units by the detachment zones, which form the vertically stacking sheet like slices of the HP and UHP metamorphic rocks. From the core outwards, exist the HP and UHP rock barren Dabie complex, UHP unit, HP unit and epidote blueschist unit. The extension tectonics of post HP and UHP metamorphic event constrain the distribution and present configuration of the HP and UHP metamorphic rocks, and the extensional tectonic framework bears some similarities to the Cordillera metamorphic core complex. It is suggested that partial melting happened in the Dabie gneiss complex (DGC) and UHP unit contemporaneously with the extrusion of UHP metamorphic rocks into the lower-middle crust. The formation and emplacement of the migmatite and granites are the response to the change in thermal state, facilitating the transfer from the compressive regime to extensional regime in the crust. The large scale crustal extension and uplift and the accompanying anatexis in Dabieshan are probably related to the delamination and magmatic underplating in the mantle and the lower crust.

滇西点苍山印支期花岗岩的成因及其大地构造意义

滇西三江造山带属于特提斯构造域的重要组成部分,金沙江-哀牢山构造带作为古特提斯的演化产物之一,记录了古特提斯洋演化的重要信息。然而,关于该带古特提斯洋的属性、时空演化方式和最终闭合的精细时间仍没有得到很好的约束。本文选择金沙江与哀牢山构造带衔接处的点苍山中部偏东北和南部地区的花岗质岩石开展详细的LA-ICP-MS锆石U-Pb定年、微量元素和Hf同位素分析以及全岩主-微量元素研究。锆石定年和Hf同位素结果显示,点苍山南部的片麻状花岗岩的形成时代为240.3±1.4Ma,对应的ε_(Hf)(t)值为-16.2~-8.7;中部偏东北的两个淡色花岗岩的形成时代分别为241.2±2.3 Ma和240.1±2.2 Ma,对应的ε_(Hf)(t)值分别为-12.0~-5.5和-15.2~-11.7。元素和锆石Hf同位素特征显示,点苍山南部的片麻状花岗岩属于A型花岗岩,起源于该区新元古代变基性岩的部分熔融;而中部偏东北的淡色花岗岩显示出典型的S型花岗岩属性,为泥质碎屑岩在中-低温条件下脱水部分熔融而成。进一步结合整个金沙江-哀牢山岩浆-变质-构造和沉积作用的研究结果,精细地刻画了金沙江-哀牢山古特提斯洋的属性及其闭合和碰撞后开启的时限,即金沙江-哀牢山洋在晚二叠世之前开始发生俯冲,整个洋盆的闭合在254Ma已经完成,并不是前人认为的由东南向西北剪刀式逐步闭合;洋盆闭合后的陆-陆碰撞发生在254~247Ma,247Ma峰期碰撞后俯冲的特提斯洋壳发生断离,247~220Ma整个造山带进入碰撞后的伸展阶段。我们在点苍山新识别的A型花岗岩为造山带碰撞后伸展作用提供了至关重要的约束。

华北克拉通新太古代末期的克拉通化:冀东昌黎碱性花岗质岩石的岩石学、锆石年代学和元素地球化学

冀东地区是华北克拉通早前寒武纪地质研究的经典地区,赋存有丰富的地球早期地壳演化和太古宙板块构造信息。本文对出露于冀东昌黎地区的一套新太古代碱性花岗质岩石进行了系统的研究。其主要矿物组成为碱性长石、石英和霓辉石,以及榍石、磷灰石等副矿物,偶见紫苏辉石。LA-ICP-MS锆石U-Pb同位素测年显示其成岩年龄为2531~2518Ma。该套碱性花岗质岩石具有高SiO 2(70.2%~73.0%)、K 2O+Na 2O(10.1%~11.0%)、Sr/Y值(44.3~103.5),低CaO(0.48%~0.94%)、MgO(0.14%~0.33%)、Cr(4.96×10^(-6)~10.9×10^(-6))、Ni(2.46×10^(-6)~4.62×10^(-6))的特征,稀土元素配分模式与冀东-辽西地区闪长质及二长-正长花岗质岩石相似,同时显示Eu的正异常(Eu/Eu*=1.02~1.49)以及岩浆分异的稀土元素分布特征。根据以上元素地球化学特征以及微量元素的模拟计算,本文认为这套岩石来自增厚镁铁质下地壳的部分熔融,并经历了以磷灰石为主同时包括榍石、褐帘石等副矿物的分离结晶。结合前人对区域内同时代变质表壳岩岩石地球化学以及变质作用的研究,认为增厚下地壳的部分熔融与岩石圈地幔镁铁质岩浆的底垫和侵入有关。陆块发生碰撞后,岩石圈包括下地壳不断增厚,岩石圈地幔下部沉入软流圈,引起了软流圈的上涌以及残余岩石圈地幔的部分熔融。昌黎碱性花岗质岩石形成于新太古代末期碰撞后的拉张环境,暗示了华北克拉通新太古代末期的克拉通化。

川西李家沟锂多金属矿区晚三叠世花岗细晶岩脉的成因:地球化学、锆石U-Pb年龄和Hf同位素的证据

李家沟锂多金属矿床位于松潘-甘孜褶皱造山带东南缘,是近年来在区内发现的超大型锂多金属矿床,矿区内广泛发育花岗细晶岩脉。本文对花岗细晶岩脉进行了全岩地球化学测试、锆石U-Pb定年和Hf同位素分析,探讨其岩石成因及地质意义。花岗细晶岩锆石U-Pb加权平均年龄为200±2 Ma,属晚三叠世—早侏罗世。岩石具高硅(w(SiO_(2))=73.27%~75.14%)、富铝(w(Al_(2)O_(3))=14.8%~15.25%)、富碱(w(Na_(2)O+K_(2)O)=4.86%~8.08%)、贫钙(w(CaO)=0.45%~1.45%)的特征,A/CNK值均大于1.1,属中钾-高钾钙碱性强过铝质S型花岗岩。微量元素表现出Rb、Th、U、K的正异常和Ba、Sr、P、Ti相对负异常。稀土元素显示轻稀土富集、重稀土亏损及弱的负Eu异常(δEu=0.68~0.81)。岩石中锆石ε_(Hf)(t)值和对应的二阶模式年龄(t_(DM2))较为均一,分别为-6.36~-3.39和1 424~1 616 Ma。研究表明,花岗细晶岩脉形成的构造背景为松潘-甘孜洋(古特提斯支洋)闭合后的后碰撞造山阶段,源岩为古老地壳变杂砂岩。结合前人研究成果,认为锂矿化花岗伟晶岩与花岗细晶岩为同一源区不同源岩(变泥质岩和变杂砂岩)部分熔融的产物。

滇西北铜厂沟矽卡岩−斑岩型钼铜矿床中石榴子石地球化学、U−Pb年代学及地质意义

滇西北铜厂沟矽卡岩−斑岩型Mo−Cu矿床是扬子地块西缘新发现的大型钼铜矿床。矽卡岩在铜厂沟矿区广泛发育,是矿区最主要的赋矿岩石。笔者以铜厂沟矽卡岩中石榴子石(Grt)为研究对象,利用电子探针和LA−ICP−MS原位技术开展成分和年代学测试分析。根据矿物镜下特征,将矿区石榴子石分为早期(Grt Ⅰ)和晚期(Grt Ⅱ)两个世代。Grt Ⅰ为浅黄色−黄白色、无环带石榴子石,Grt Ⅱ为褐色−红褐色、具有明显环带的石榴子石。两期石榴子石的SiO_(2)(34.41%~38.45%)、CaO(32.7%~35.25%)、Al_(2)O_(3)(6.64%~12.57%)和FeO(12.03%~22.63%)含量指示,二者均属于钙铁榴石−钙铝榴石系列(And34-64Gro34-58)。Grt Ⅰ和Grt Ⅱ均呈轻稀土和重稀土亏损、中稀土富集的“驼峰型”配分模式。相比于Grt Ⅰ,Grt Ⅱ具有更低的U含量和变化范围更大的Eu异常,分别指示晚期矽卡岩矿化流体氧逸度较高和pH变化较大。Grt Ⅱ中显著的环带结构及变化较大的主量成分指示晚期石榴子石化经历了更为强烈的水岩反应,与pH值变化较大的特征一致。因此,铜厂沟两期石榴子石记录了矽卡岩体系由相对封闭到开放、逐渐氧化的过程。此外,Grt Ⅰ原位LA−ICP−MS U−Pb年代学分析获得的年龄为(85.4±5.6)Ma(MSWD=0.91),直接限定铜厂沟矽卡岩的形成时代为晚白垩世。铜厂沟矽卡岩作用与矿区内斑岩体侵位及钼矿化时代在误差范围内一致,表明铜厂沟Mo−Cu矿床记录了完整的斑岩−矽卡岩矿化过程。结合区域构造演化历史,提出铜厂沟及区域上同时代的Cu−Mo−W等多金属矿床是晚白垩世碰撞后斑岩热液体系的产物。

内蒙古沙麦钨矿花岗岩岩石地球化学、锆石U-Pb年代学及其地质意义

沙麦钨矿床位于内蒙古东乌旗地区,是该区目前已探明的中型岩浆热液型钨矿床。矿体主要赋存在黑云母二长花岗岩和黑云母二长花岗斑岩中,对这两种花岗质岩石的岩相学、岩石地球化学和LA-ICP-MS锆石U-Pb年代学进行了研究。结果表明,黑云母二长花岗岩锆石U-Pb年龄为135.6±1.6 Ma和136.3±1.8 Ma,黑云母二长花岗斑岩锆石U-Pb年龄为138.6±1.1 Ma,二者侵位时间均为早白垩世。两种花岗质岩体具有富SiO2(73.73%~78.23%)、高钾钠(Na2O+K2O)(7.56%~8.89%)、贫MgO(0.09%~0.20%)、贫CaO(0.51%~0.89%)、贫TiO2(0.03%~0.12%)的特征,属于过铝质-高钾钙碱性系列;微量元素富集Rb、K、Th和U,相对亏损Sr、Ba、Nb、P和Ti元素,具有强烈的Eu负异常,具有较高的FeOT含量,较高的FeOT/MgO和FeOT/(FeOT+MgO)值显示A型花岗岩的特征。结合区域构造背景和地质资料,认为沙麦花岗岩锆石U-Pb年龄与中国东部大规模成矿事件年龄范围一致,形成于燕山期造山后伸展构造环境中,与区域内大规模岩石圈减薄和伸展背景有关。

北祁连造山带红石泉岩体地球化学特征及其构造意义

红石泉岩体地处北祁连造山带的龙首山成矿带西南缘,区内发育伟晶岩型铀矿床。本文对红石泉岩体进行岩相学、岩石地球化学研究,探讨其岩石成因、岩浆来源,厘定其构造环境。元素地球化学结果显示:岩体具中硅、富铝,富钠特征,为准铝质高钾碱性正长岩系列。在微量元素图解中,样品富集Rb、U、K、Nd等元素,亏损高场强元素Nb、Ta、Ti及元素P等;在稀土元素球粒陨石标准化图解中,样品富集轻稀土,轻重稀土分馏明显,Eu显示正异常。样品显示高的Zr+Nb+Ce+Y的值,属A型花岗岩。结合其元素地球化学特征及区域内岩浆岩的演化,厘定岩体为祁连板块与阿拉善板块碰撞后拉张环境下,壳源岩浆与幔源岩浆混合形成。

Petrology, Age and Geodynamic Implication of the Panafrican Granitoids Associated with the Glito-Kpatala Shear Zone (South-East Togo)

The granitic plutons associated with the Glito-Kpatala shear zone are composed of biotite and amphibole granodiorites, biotite granites, two-mica granites and aplitic granites, which are very poorly represented. The chemical and mineralogical compositions of these facies indicate that they are I type and belong to high-K calc-alkaline series, with a chemical metaluminous character displayed by the granodiorites relative to the biotite and two-mica facies whose chemical compositions vary between metaluminous and peraluminous caracter. The Th/Ta (14.04 - 43.82 ppm, mean = 26.05), Th/U (2.58 to 15.05 ppm, mean = 5.85 ppm), Zr/Hf (25.27 to 37.21, mean = 30.67 ppm) and Rb/Sr (0.16 to 4.32;mean = 1.67 ppm) ratios of these granitoids reveal a strong crustal involvement in their magmatogenesis. Variations in CaO/Na2O (0.47 - 1.44 ppm), Rb/Sr (0.14 - 0.27 ppm), Rb/Ba (0.07 - 0.14 ppm) and Sr/Y (38.21 - 174.42 ppm) ratios indicate that biotite and amphibole granodiorites with their excessive Ni (135.37 - 139.51 ppm) and Cr (395.73 - 447.74 ppm) were derived from a mafic to intermediate lower continental crust where garnet and/or amphibole were stable residual assemblage minerals. The moderate Sr/Y ratios (1.81 - 9.47 ppm) and low transition elements Ni (1 - 6.44 ppm) and Cr (7.89 - 13.47 ppm) contents in both the two-mica and biotite granites are consistent with their emplacement at relatively shallow depths in the upper to mean continental crust, at pressures below 10 Kbar. In the two-mica granites, moderate CaO/Na2O (0.20 - 0.57 ppm, mean = 0.38 ppm) and Rb/Ba (0.39 - 1.37, mean = 0.84 ppm) ratios and quite varied Rb/Sr (1.53 - 4.23 ppm, mean = 2.85 ppm) ratios indicate a predominant derivation from psammitic and pelitic metasediments rather than metagreywackes. These low ratios (0.25 ≤ CaO/Na2O ≤ 0.32, mean = 0.28 ppm;0.31 ≤ Rb/Ba ≤ 0.44, mean = 0.39 ppm;1.11 ≤ Rb/Sr ≤ 1.78, mean = 0.39 ppm) in biotite granites are more consistent with melting from a metagreywacke-derived source. Evidence for the contribution of mantle-derived mafic magma with granitic magma in the plutons studied is materialized by the presence of magmatic enclaves in both granodiorites and two-mica granites, the volcanic arc geochemical signatures displayed by the plutons in geotectonic diagrams and Nb/Ta ratios (14.14 - 34.61 ppm) closer to mantle estimates. Geochemical data and radiometric dating elements suggest that the granitoids studied can be integrated into the pan-African late magmatic episode, which corresponds between 606 and 583 Ma, to the activity of transcurrent ductile strike-slips and to the synchronous emplacement of high K calc-alkaline plutons in a post-collisional context.

新疆准噶尔晚古生代陆壳垂向生长(Ⅰ)——后碰撞深成岩浆活动的时限

准噶尔是新疆北部古生代造山带的重要组成部分,以广泛发育晚古生代后碰撞花岗岩为特征,是中亚造山带中显生宙陆壳生长作用非常显著的地区之一。根据新近获得的SHRIMP锆石U-Pb年龄,并参考已经发表的锆石U-Pb年龄,本文重新厘定了准噶尔晚古生代后碰撞深成岩浆活动的时限。按照最新的国际地质年表中石炭纪和二叠纪划分方案(Gradstein et al．,2004),准噶尔后碰撞深成岩浆活动是从早石炭世中-晚维宪期开始、于早二叠世末期结束的。东准噶尔后碰撞深成岩浆活动发生在330～265Ma之间,而西准噶尔后碰撞深成岩浆活动的时限在340～275Ma之间,持续时间分别约65Ma。但是,在东准噶尔,后碰撞深成岩浆活动集中在330～310Ma和305～280Ma两个时段发生,而在西准噶尔,后碰撞深成岩浆活动的高峰发生在310～295Ma之间。准噶尔晚古生代后碰撞深成岩浆活动在空间上没有受到重要地质界线(如蛇绿岩带)的分隔控制,在有的地方花岗岩还可以侵位在蛇绿岩带之中。而晚古生代后碰撞深成岩浆活动不但在准噶尔分布广泛,而且在准噶尔北邻的阿尔泰造山带和南邻的天山造山带中均有出现,具有广泛的区域性。