张宣地区大白阳金矿床包裹体特征及矿床剥蚀保存

华北克拉通破坏及其成矿事件已引起地学界的广泛关注,其中张宣地区是华北克拉通的重要金矿集中区之一,通过对张宣地区大白阳金矿成矿类型、成矿深度及剥蚀保存的探讨,为区内深部找矿提供了重要的参考依据。文章通过流体包裹体研究对大白阳金矿成矿温度及成矿深度进行计算,利用矿物压力计对矿区周边岩体侵位深度进行估算。流体包裹体研究结果显示大白阳金矿成矿温度160~220℃、盐度w（NaCl_eq）=9%~15%,密度0.78~0.97 g/cm³、压力46.3~104.6 MPa,成矿流体主要属于NaCl-H₂O体系,成矿过程中流体温度和盐度都呈现明显的降低趋势。采用黑云母压力计,针对大白阳金矿周边谷嘴子、杨家营以及前坝口花岗质岩体的侵位深度进行估算,并对大白阳金矿自形成以来的剥蚀保存情况进行了探讨,估算结果显示,谷嘴子岩体（236.0 Ma）成岩深度7.02 km、杨家营岩体（138.6 Ma）成岩深度2.66 km、前坝口岩体（140.2 Ma）成岩深度3.13 km。结合前人的裂变径迹结果,认为张宣地区自中生代以来剥蚀速率为0.022~0.029 km/Ma,剥蚀量为3 km。按照前述成矿压力46.3~104.6 MPa换算,大白阳金矿成矿深度6.93 km,剥蚀量小于矿床成矿深度,说明该矿深部仍具有良好的找矿前景。     

花岗质岩浆的变压结晶作用及其动力学意义:以北京房山岩体为例

北京房山岩体是华北克拉通东部典型的燕山期中酸性钙碱性侵入岩之一。为了更好地理解房山岩体的侵位机制和隆升-剥蚀历史,选取恰当的角闪石全铝压力计和角闪石-斜长石温度计计算其侵位压力和温度。结果表明,房山岩体的结晶压力为((0.39~0.28)±0.06)GPa,温度为655.9~733.7℃。基于该结果,认为房山岩体在侵位过程中经历了变压结晶作用。结合房山岩体各岩石单元的侵位温度、压力、岩石结构特征以及锆石U-Pb年龄,可知其在早期经历了缓慢的隆升剥蚀过程,而晚期的巨斑状中细粒花岗闪长岩单元遭受了快速的隆升剥蚀。根据本研究估算的侵位温度和压力,房山岩体在持续侵位过程中抬升了7~8 km,平均抬升速率为2.33~2.67 km/Ma。     

太行山阜平杂岩中麻棚-赤瓦屋岩体的时代、侵位深度及构造意义

中生代岩浆活动在太行山北段形成了一系列花岗岩体,其中的麻棚-赤瓦屋岩体侵位于穹窿状的阜平杂岩中,具有贫硅、富碱、高铝的钙碱性I型花岗岩特征。岩体分带明显,由边部向核部可以划分为石英闪长岩、花岗闪长岩、似斑状花岗岩3个相带,它们的锆石LA-ICP-MS U-Pb年龄分别为126.4±2.4 Ma、125.4±2.0 Ma和126.2±2.0 Ma,在误差范围内一致,指示岩体在早白垩世期间快速侵位、结晶。各相带样品的角闪石全铝平均值分别为1.018、0.880和0.871,对应的角闪石平均结晶压力分别为0.183、0.118和0.114 GPa,均值为0.141 GPa,对应的侵位深度约5 km,明显小于区域内元古界至侏罗系的地层厚度,表明在岩体侵位之前,阜平杂岩就已经具有穹窿状构造特征。结合相关资料,估计太行山早白垩世以来的平均隆升速率为0.07~0.08 km/Ma。     

青海香日德水文站岩体斜长石特征及其地质意义

在野外地质调查和岩相学研究基础上,运用电子探针技术对青海香日德水文站岩体中不同类型的斜长石及其环带进行研究,探讨了香日德水文站岩体中斜长石环带的成因,反演岩浆演化过程,计算了地表剥蚀和隆升速率。结果表明,香日德水文站岩体中斜长石具有正环带和韵律环带;石英闪长岩和包体中矿物结晶深度约12km;花岗闪长岩中矿物结晶深度约9km;由侵位深度计算的地表剥蚀速率为0.04km/Ma,20Ma以来隆升速率为0.6km/Ma,3.6 Ma以来隆升速率为3.0km/Ma。此外,研究得出斜长石环带由Ca2+!Na+,Al 3+!Si 4+的强交代作用和Fe3+!Si 4+的弱交代作用支配,认为香日德水文站岩体的演化不是简单的侵位模式,而是岩浆交替侵位、多次混合的过程。     

湘东北幕阜山地区燕山期岩浆演化与稀有金属成矿的关系

湘东北幕阜山地区分布传梓源(锂矿、铌钽矿)、仁里(钽铌矿)和虎形山(钨矿、铍矿)大型稀有金属矿床,是湖南省重要的伟晶岩型稀有金属矿集区。通过对幕阜山地区花岗岩和伟晶岩开展年代学和地球化学研究,探讨该区燕山期岩浆演化与稀有金属成矿的关系,结果表明: 该区岩浆活动自侏罗纪(154 Ma)持续到白垩纪(92 Ma),形成了复式花岗岩体和伟晶岩脉,伟晶岩空间具有含矿分带性; 伟晶岩的成矿年龄(130~127 Ma)与二云母二长花岗岩的成岩年龄(137~129 Ma)相近,成矿作用与岩浆高分异演化密切相关; 伟晶岩含矿分带性受成矿流体温度影响,矿流体温度由岩体向外成逐渐降低,形成了“岩体内伟晶岩型铍矿带—距岩体0~3 km伟晶岩型铌钽矿带—距岩体3~5 km伟晶岩型锂铌钽矿带—距岩体5~10 km石英脉型铍矿带”的环状分布格局。     

内蒙古金厂沟梁金矿床成矿时限与动力学背景探讨

华北克拉通北缘是中国重要的金成矿带之一,分布着数十个大中型金矿床,但这些矿床的形成时代及成因类型尚存争议。位于内蒙古赤峰市境内的金厂沟梁是该带最为重要的大型金矿床,其与二道沟和长皋沟金矿床围绕130～122Ma的西对面沟岩体分布。该矿床矿体呈脉状产出,矿脉多赋存在太古代变质岩中,少量产于安山玢岩中,在矿区南部可见矿脉被粗面安山岩切穿,指示成矿发生在安山玢岩之后,粗面安山岩之前。两套岩浆岩的锆石LA-ICP-MS U-Pb定年结果揭示,岩浆结晶年龄分别为129.4±0.9Ma和124.0±0.5Ma,限定金厂沟梁金矿床成矿作用发生在129～124Ma之间,与西对面沟岩体侵位年龄一致,暗示两者具有成因关系,也反映矿床形成于早白垩世中国东部大规模岩石圈减薄的陆内伸展环境。     

湘东北幕阜山地区燕山期岩浆演化与稀有金属成矿的关系

湘东北幕阜山地区分布传梓源(锂矿、铌钽矿)、仁里(钽铌矿)和虎形山(钨矿、铍矿)大型稀有金属矿床,是湖南省重要的伟晶岩型稀有金属矿集区。通过对幕阜山地区花岗岩和伟晶岩开展年代学和地球化学研究,探讨该区燕山期岩浆演化与稀有金属成矿的关系,结果表明: 该区岩浆活动自侏罗纪(154 Ma)持续到白垩纪(92 Ma),形成了复式花岗岩体和伟晶岩脉,伟晶岩空间具有含矿分带性; 伟晶岩的成矿年龄(130~127 Ma)与二云母二长花岗岩的成岩年龄(137~129 Ma)相近,成矿作用与岩浆高分异演化密切相关; 伟晶岩含矿分带性受成矿流体温度影响,矿流体温度由岩体向外成逐渐降低,形成了“岩体内伟晶岩型铍矿带—距岩体0~3 km伟晶岩型铌钽矿带—距岩体3~5 km伟晶岩型锂铌钽矿带—距岩体5~10 km石英脉型铍矿带”的环状分布格局。     

内蒙古安家营子金矿与侵入岩的关系及其地球动力学意义

位于华北陆块北缘金矿成矿带的安家营子中型金矿属赤峰-朝阳金矿化集中区。金矿体主要赋存于安家营子花岗岩岩体内。区内广泛分布着与金矿化相伴生的流纹斑岩脉。与金矿化密切相关的安家营子花岗岩具有轻稀土富集、重稀土亏损、较低的^87Sr／^86Sr初始比值、Ba—Sr含量高等特点，暗示该花岗岩浆形成深度较大。这些特点与我国胶东地区与金矿有关花岗岩的特征非常相似，但区别于较早期的喀喇沁花岗岩和成矿后的流纹斑岩脉。锆石U—Pb年龄表明，安家营子花岗岩侵位时代为132—138Ma，而穿切矿体的流纹斑岩岩脉的成岩时代为124．9—126，5Ma，进而金矿成矿时代可以限定在126．132Ma。这一年龄结果与华北克拉通中生代动力学体制发生转折的时间相吻合。研究表明，早中生代前后华北东部曾发生了动力学机制的重大转折，如挤压向伸展转变和岩石圈的减薄达到高峰导致岩浆作用增强等。华北克拉通绝大多数金矿床集中形成于这一转折时期暗示成矿作用可能与深部作用过程有关，即早白垩世地慢物质-能量强烈上涌的同时，使金等威矿元素活化迁移至地壳层次，并在有利的构造部位富集成矿。     

安徽铜陵凤凰山花岗闪长岩岩石学和矿物学特征及其地质意义

凤凰山花岗闪长岩与凤凰山铜矿床在成因上关系密切,通过对未蚀变花岗闪长岩中的角闪石和斜长石进行岩石学观察及详细的矿物成分分析,并利用角闪石-斜长石矿物平衡温压计反演角闪石、斜长石结晶时的温压条件,进一步探讨花岗闪长岩的形成条件及其成岩成矿意义。电子探针分析结果显示,角闪石分子中Si=6.37～7.16p.f.u.(p.f.u.为每单位晶胞),Mg/(Fe2++Mg)=0.63～0.76,Al(Ⅳ)T=0.84～1.63p.f.u.,属于镁角闪石和镁钙闪石。斜长石牌号An变化范围为:23～36,主要为更长石和中长石。通过角闪石-斜长石温压计的计算,得出早期角闪石结晶压力为446MPa～474MPa,对应的岩体侵位深度为14.72km～15.63km,结晶温度为1 066.39℃～1 070.55℃;晚期角闪石结晶压力为100MPa～191MPa,对应的岩体侵位深度为3.32km～6.32km,结晶温度为784.26℃～822.7℃。综合分析表明凤凰山花岗闪长岩是来自于深部幔源的岩浆沿断裂上侵至中下地壳(约15km),形成深部岩浆房,并发生结晶分异和同化混染作用,随后在构造扰动下,深部岩浆房中的岩浆沿构造薄弱面再次上侵至近地表(3km～6km),经冷凝固结形成的。矿物温压计算结果和区域地层学资料显示,自141 Ma以来,凤凰山矿区遭受剥蚀的主要是地层,岩体以及矿床的剥蚀程度较小,属于保存条件较为完好的成矿系统,而当前凤凰山铜矿勘探和开采深度不足1km,因此,深部具有较好的找矿前景。     

新疆尾亚—天湖地区花岗岩类剥蚀程度估算及对区域找矿的启示

尾亚—天湖地区位于新疆中亚造山带东南部的中天山地块内,晚古生代—中生代岩浆活动强烈,产出了战略性关键矿产尾亚钒铁磁铁矿。在详细岩相学观察的基础上,对尾亚、天湖和沙泉子南岩体中的角闪石和黑云母进行了电子探针(EMPA)测试分析,限定了3个岩体结晶的温压条件、氧逸度、含水量和含铁指数等要素,为解析中天山地块的岩浆-成矿物化条件及其区域找矿勘查工作提供参考。测试结果表明,该区花岗岩类中的角闪石富镁、钙、钠,贫钾,属于钙角闪石族;黑云母有高镁、钛、铝、钾和低硅、钠的特征为镁质黑云母。角闪石和黑云母的化学成分揭示其寄主岩浆为钙碱性造山带岩系,具有壳幔混源的特征,推测可能是板块俯冲背景下由地幔楔与大陆地壳物质混熔形成。根据角闪石-黑云母矿物温压计,估算出沙泉子南石英闪长岩的结晶温度为651~753 ℃,压力为31~79 MPa,尾亚二长花岗岩和钾长花岗岩的结晶温度为762~833 ℃,压力为85~215 MPa,天湖花岗闪长岩的结晶温度为668~812 ℃,压力为31~117 MPa。3个岩体岩浆结晶时的氧逸度lgf(O₂)范围为-15.7~-9.4,而且在角闪石结晶时岩浆具有较高的含水量。综合分析,认为该区的花岗岩类具有高温、低压、高氧逸度、富水和高含铁指数的特点,有利于Fe等成矿元素在流体中富集,具有良好的铁矿成矿条件。进一步利用角闪石-黑云母压力计,计算了花岗岩类岩体的侵位深度,从而估算出岩体的剥蚀程度处于2.2~5.5 km,且区域的隆升剥蚀量差异明显;结合现有的矿产地表展布特征,推测天湖岩体一带深部仍具有较好的铁矿找矿潜力。     

燕山及邻区晚白垩世以来山脉隆升历史的低温热年代学证据

本文根据以裂变径迹测年为主的低温热年代学方法，认为燕山及邻区在晚白垩世进入区域性伸展构造环境以来经历了造山带伸展裂解引发的6次强烈差异升降运动，分别发生在120～105Ma、95～85Ma、60～50Ma、38Ma左右、25～20Ma和10～5Ma，造成燕山及邻区约7～8km的剥蚀量。而在相邻两次强烈差异升降运动期之间的相对构造稳定期，则形成了燕山—太行山地5期夷平面以及周缘盆地多期沉积间断。燕山与邻区盆地之间晚中新世以来的快速差异升降运动导致燕山及邻区现今盆—山构造—地貌格局。     

Metamorphism and uplift of Alpine schist in the Franz Josef–Fox Glacier area of the Southern Alps, New Zealand

Geothermometry and geobarometry of 10 garnet–oligoclase zone schists in the Franz Josef–Fox Glacier area, Southern Alps, New Zealand, give temperatures ranging from 415 to 625°C and pressures from 5.2 to 9.2 kbar, indicating a T–P array of about 50°C/kbar and inferred peak temperature conditions over a c. 15-km-thick section at depths between c. 20 and 34 km. The present-day distribution of the schist samples implies that only about one-third of the original crustal section is now exposed.
The garnet–oligoclase zone schists represent the deeper part of a metamorphosed and deformed accretionary complex that was associated with late Palaeozoic–early Mesozoic subduction along the Gondwana continental margin. Partial uplift ( c. 0.2 m/Ma) and erosion of the complex during Jurassic–Cretaceous times (Rangitata uplift) was synchronous with D2 deformation and recrystallization, as recorded by the P–T array. Cenozoic (Kaikoura) uplift and exhumation of the schist since c. 30 Ma to form the Southern Alps was associated with oblique-slip movement on the Alpine Fault. The present-day position and steep eastward dip of isograds and D2 structures suggest considerable clockwise rotation during uplift associated with ductile attenuation and tectonic thinning by over two-thirds of the original schist sequence, largely due to simple shear along schistosity planes. As the schist generally shows only incipient greenschist facies retrograde recrystallization, an apparently complete (although contracted) prograde mineral sequence has been preserved by rapid uplift (>5 km/Ma) of hot rock and the effects of limited shear heating near the Alpine Fault.     

Petrogenesis of the Barcroft pluton, northern White-Inyo Mountains, east-central California

The White-Inyo Range lies within the regional transition from Paleozoic-Precambrian North American continental basement to outboard Mesozoic and younger accreted terranes and a superimposed Andean-type arc. In the central White Mountains, the metaluminous Barcroft granodiorite invaded a major NE-striking, SE-dipping high-angle reverse fault—the Barcroft break. Because it is a relatively isolated igneous body and is well exposed over an elevation range of 1,500–4,000 m, its thermal history and that of the surrounding superjacent section are clearer than those of nearly coeval, crowded plutons emplaced in the hotter Sierra Nevada belt. The Barcroft pluton was emplaced as a compositionally heterogeneous series of areally scattered melt pulses episodically injected over the approximate interval 167–161 Ma. The oldest dated rocks are relatively quartzofeldspathic, whereas the youngest is more ferromagnesian, suggesting progressive partial fusion of a relatively mafic protolith. Heavy rare earth-enriched zircons indicate that Barcroft melts were derived at mid-crustal depths from a previously emplaced metabasaltic protolith containing plagioclase but lacking garnet. Granodioritic magma genesis involved the possible mixing of mafic and felsic melts, as well as very minor assimilation of country rocks, but mainly by fractional fusion and crystallization. Bulk chemical, rare earth, and isotopic data suggest that analyzed Barcroft rocks are members of a single suite. Granodioritic rocks are slightly more magnetite-rich at higher elevations on the NE, nearer the roof of the pluton. Earlier thermobarometry chronicled cooling and re-equilibration of the Barcroft pluton from its margins inward, as well as from mid-crustal generation depths of ~25 km through ascent and stalling at ~10–12 km. Refractory phase assemblages crystallized along the pluton margins, whereas subsolidus minerals in the interior of the of body continued to exchange with upper crustal deuteric and surficial aqueous fluids during exhumation and cooling.     

晚中生代沂沭断裂带左旋韧性剪切与岩浆迁移规律

沂沭断裂带内部的岩浆侵入与断裂活动关系密切,开展沂沭断裂带内部岩浆年代学研究,对于沂沭断裂带构造背景研究具有积极的参考意义。选取沂沭断裂带内部的莒县浮来山正长岩体、边部的莒南官坊石英正长岩体及侵入该岩体的闪长玢岩脉,开展岩石学及年代学研究。首次发现晚中生代沂沭断裂带左旋韧性剪切,获得浮来山岩体的LA-ICP-MS锆石U-Pb年龄为(125.1±1.7) Ma,官坊岩体年龄为(125.6±2.0) Ma, 发生韧性变形的闪长玢岩脉年龄为(122.8±2.1) Ma。获得的125 Ma岩浆活动年龄与沂沭断裂带东侧的五莲变质核杂岩快速剥露(122~128 Ma)、诸城断陷盆地快速沉降的时间相吻合,该时期沂沭断裂带处于岩石圈减薄与破坏强烈的时期;闪长玢岩脉的122.8 Ma结晶年龄,与五莲变质核杂岩后构造岩体(石场、坊子岩体等)结晶年龄一致,该时期沂沭断裂带处于弱伸展状态,同时也说明胶东半岛岩石圈减薄具有时间上的一致性。晚中生代时期,沂沭断裂带两侧岩浆活动具有逆时针迁移的规律,这一规律可能与伊佐奈岐板块向欧亚板块俯冲的方向、角度、速度的变换有关。     

华北克拉通北缘张家口-宣化地区古生代-中生代岩浆构造活动与成矿作用

河北省张家口-宣化地区(张宣地区)位于华北克拉通北缘中段,区内自显生宙以来构造活动频繁,并产出大量岩浆岩和金矿床,是研究华北克拉通北缘岩浆-构造-成矿演化体系的重要对象。本文通过对张宣地区的水泉沟正长岩、响水沟似斑状花岗岩、井儿洼粗安岩-英安岩、象山花岗闪长岩、青羊沟黑云母二长花岗岩和张家口组流纹岩的锆石年龄、Lu-Hf同位素和地球化学组成进行研究,结合前人研究成果,获得区内古生代-中生代岩浆岩的侵位时期主要为海西期(峰值398Ma和373Ma)、印支期(峰值234Ma)和燕山期(峰值143Ma和130Ma)。张宣地区在古生代-中生代经历了古亚洲洋俯冲、华北克拉通破坏及古太平洋俯冲过程。早古生代时期,古亚洲洋向华北克拉通俯冲;到泥盆纪,白乃庙岛弧带和华北克拉通北缘发生弧陆碰撞,张宣地区处于弧陆碰撞后的伸展环境,富集地幔岩浆上涌并经历了地壳的同化混染和分离结晶的共同作用,形成大量碱性岩;二叠纪末期-三叠纪,各微陆块相互碰撞,张宣地区处于碰撞后伸展阶段,地幔岩浆引起加厚下地壳的部分熔融,基性、酸性岩浆混合,导致区内的基性岩与酸性岩共存;侏罗纪-白垩纪时期,华北克拉通发生减薄,形成区内大范围的侵入岩和火山岩。张宣地区产有大量金矿、铅锌矿、银矿及少量铜矿和钼矿,金矿集中产于宣化-崇礼-赤城交界处,而银铅锌多金属矿则成群成带环绕金矿化集中区分布。成矿时间主要为海西期和燕山期,印支期成矿尚未明确,但成矿潜力巨大。根据地质特征和同位素组成,可将张宣地区的金矿床划分为"东坪式"、"小营盘式"和"张全庄式"三类。古生代-中生代各时期岩浆活动对金成矿均有贡献,大部分金矿床与海西期和燕山期岩浆活动联系密切,多期次成矿及成矿叠加是形成张宣地区大量金矿床的重要因素。     

Exhumation of the Mesozoic Guojialing Granodiorite: Implication for the Preservation of Gold Deposits in the Jiaobei Terrane,China

Preservation conditions are very important for mineral systems and a suitable exhumation process is critical for endogenetic deposits, especially for those deposits formed in orogenic settings, where deposits are inclined to erode away due to strong uplift. The G uojialing batholith, intruding into the L inglong granites and the J iaodong G roup right before regional gold mineralization, is one of the most important gold ore‐hosting M esozoic intrusions in the J iaobei terrane. Gold deposits and the intrusion together underwent similar tectonothermal evolutionary processes. Exhumation and denudation process of the G uojialing granodiorite was constrained by biotite geobarometry and apatite fission track (FT ) analysis. Biotite geobarometric data yields an emplacement depth of 3.0 km, while denudation since 110 M a was calculated from the FT data at about 2.7 km. FT inverse modeling revealed a rapid uplift since ca 100 Ma. Compared with the gold ore‐forming depth which is confined between 2.5 and 9.5 km by fluid inclusion studies, great gold potential in the depths is inferred in the J iaobei terrane. Our result is consistent, to some extent, with the hypothesis of a M esozoic paleoplateau in E ast C hina.     

Exhumation of the Main Central Thrust from Lower Crustal Depths, Eastern Bhutan Himalaya

Geothermometry and mineral assemblages show an increase of temperature structurally upwards across the Main Central Thrust (MCT); however, peak metamorphic pressures are similar across the boundary, and correspond to depths of 35–45 km. Garnet‐bearing samples from the uppermost Lesser Himalayan sequence (LHS) yield metamorphic conditions of 650–675 °C and 9–13 kbar. Staurolite‐kyanite schists, about 30 m above the MCT, yield P‐T conditions near 650 °C, 8–10 kbar. Kyanite‐bearing migmatites from the Greater Himalayan sequence (GHS) yield pressures of 10–14 kbar at 750–800 °C. Top‐to‐the‐south shearing is synchronous with, and postdates peak metamorphic mineral growth. Metamorphic monazite from a deformed and metamorphosed Proterozoic gneiss within the upper LHS yield U/Pb ages of 20–18 Ma. Staurolite‐kyanite schists within the GHS, a few metres above the MCT, yield monazite ages of c. 22 ± 1 Ma. We interpret these ages to reflect that prograde metamorphism and deformation within the Main Central Thrust Zone (MCTZ) was underway by c. 23 Ma. U/Pb crystallization ages of monazite and xenotime in a deformed kyanite‐bearing leucogranite and kyanite‐garnet migmatites about 2 km above the MCT suggest crystallization of partial melts at 18–16 Ma. Higher in the hanging wall, south‐verging shear bands filled with leucogranite and pegmatite yield U/Pb crystallization ages for monazite and xenotime of 14–15 Ma, and a 1–2 km thick leucogranite sill is 13.4 ± 0.2 Ma. Thus, metamorphism, plutonism and deformation within the GHS continued until at least 13 Ma. P‐T conditions at this time are estimated to be 500–600 °C and near 5 kbar. From these data we infer that the exhumation of the MCT zone from 35 to 45 km to around 18 km, occurred from 18 to 16 to c. 13 Ma, yielding an average exhumation rate of 3–9 mm year^?1. This process of exhumation may reflect the ductile extrusion (by channel flow) of the MCTZ from between the overlying Tibetan Plateau and the underthrusting Indian plate, coupled with rapid erosion.     

Exhumation, strain localization, and emplacement of granitoids along the western part of the Central Bohemian shear zone (Bohemian Massif)

Emplacement of granitoid magmas and simultaneous exhumation of deeply buried rocks has been investigated along the western part of the Central Bohemian shear zone (CBSZ, Bohemian Massif). Combined structural, petrological and geochronological data of the steeply dipping shear zone suggest complex uplift and exhumation of deeply buried, high-temperature Moldanubian rocks, resulting in the juxtaposition against the supracrustal Teplá-Barrandian unit. Uplift of Moldanubian rocks from depths of probably more than 30 km was initiated after crustal stacking in Upper Devonian times. Syntectonic Lower Carboniferous emplacement of the Klatovy pluton into the pre-existing shear zone led to melt-controlled strain softening and localization. However, the major part of the total displacement of the CBSZ was accommodated within a late- to post-intrusive high-temperature shear zone in the uprising Moldanubian unit and a post-intrusive unexposed fault zone in the Klatovy pluton, respectively. During uplift of the Moldanubian rocks, strain was strongly partitioned into melt-bearing zones (Klatovy pluton, migmatites of the Moldanubian unit) resulting in a repeated shift of deformation in space and time.     

内蒙古乌拉山地区大桦背岩体SHRIMP锆石U—Pb年代学研究

大桦背花岗岩体位于内蒙古乌拉山地区,东距哈达门沟大型钾长石—石英金矿床约5km。前人对该岩体曾做过不少同位素年代学研究,所得结果相差较大,但是多数研究者认为大桦背岩体与区内金矿化具有成因联系。本文采用先进的高灵敏、高分辨率的离子探针(SHRIMP)对大桦背岩体进行了锆石U-Ph定点定年研究。结果表明,大桦背岩体的形成年龄为353±7Ma,应为海西旋回早期产物。此年龄比已得到的乌拉山金矿区成矿年龄大至少70Ma,因而推测大桦背岩体与金矿化之间不存在直接的成因联系。