Age and geochemical evolution of granite magmatism in Olkhon region from Caledonian syncollisional ore-free granite to the rare metal granite and pegmatite of Middle Paleozoic intraplate setting

The detailed description of two granite complexes in the Olkhon subterrane is given.The Early Paleozoic Sharanur complex was formed by granitization of gneisses of the Olkhon series.It includes migmatites,granite-gneisses,granites and pegmatites of normal alkalinity;they belong to the type of syncollisional granites.The Middle Paleozoic Aya granite complex includes mother Aya massif of amazonite-bearing granites and several types of rare-metal pegmatites.They have elevated alkalinity,low of Ba,Sr,and high LILE and HFSE elements contents.The Aya pegmatites lie in northwest cracks of stretching and associated with the rise of the territory under the influence of the North Asian plume.These cracks and pegmatites mark the beginning of a new intraplate geodynamic setting.Two geochemical types are distinguished among the pegmatites of this complex.These are amazonite pegmatites of Li-F type with Ta mineralization and complex type pegmatite with Be-Rb-Nb-Ta and Li-F mineralization(the Ilixin vein).The Tashkiney pegmatite vein is similar to Ilixin,but lies in the gneisses of the Olkhon series.It shows high concentrations of Be,Nb,Ta,as well as W,Sn,but lacks Li and F,due to a greater depth and higher temperature of the melt crystallization of this pegmatite.

Tectonic Taphrogenesis and Paleoseismic Records from the Yishu Fault Zone in the Initial Stage of the Caledonian Movement

The Yishu fault zone （mid-segment of the Tanlu fault zone） was formed in the Presinian. Periodic tectonic activities and strong seismic events have occurred along the fault zone. During the initial stage of the Caledonian Movement, with the proceeding of the marine transgression from the Yishu paleo-channel to the western Shandong, uneven thick sediments, composed mainly of sand, mud and carbonates of littoral, lagoon, and neritic facies, were deposited in the Yishu fault zone and western Shandong, and constructed the bottom part of the Lower Cambrian consisting of the Liguan and Zhushadong formations. Through field observations and the lab-examinations, various paleoseismic records have been discovered in the Liguan Formation and the Zhushadong Formations of the Yishu fault zone and its vicinity, including some layers with syn-sedimentary deformation structures that were triggered by strong earthquakes （i.e. seismite, seismo-olistostrome, and seismo-turbidite）. Paleoseismic records developed in the Zhushadong Formation are mainly seismites with soft-sediment deformation structures, such as liquefied diapir, small liquefied-carbonate lime-mud volcano, liquefied vein, liquefied breccia, convolute deformation （seismic fold）, graded fault, soft siliceous vein, and deformation stromatolite, as well as seismites with brittle deformation structures of semiconsolidated sediments. Paleoseismic records preserved in the Liguan Formation are not only seismo-olistostrome with a slump fold, load structure, and ball-and-pillows, but also seismo-turbidite with convolution bedding, graded bedding and wavy-bedding. However, in the western Shandong area, the closer to the Yishu fault zone, the greater the thickness of the Liguan Formation and the Zhushadong Formation, the greater the number and type of layers with paleoseismic records, and the higher the earthquake intensity reflected by associations of seismic records. This evidence indicates that tectonic taphrogenesis accompanied by strong earthquake events occurred in the Yishu fault zone during the initial stage of the Caledonian Movement, which embodied the break-up of the Sino-Korean Plate along the Paleo-Tanlu fault zone at that time.

Precise Dating and Geological Significance of the Caledonian Shangyou Pluton in South Jiangxi Province

The zircon SHRIMP dating age for the Shangyou granites is 464±11 Ma. The geological feature of the pluton is consistent with the isotopic age, which shows that it is a product of Caledonian orogenesis. The Shangyou granites are regarded as peraluminous crust-derived granites to possess the typical geochemical characteristics of calc-alkaline rocks on the active continental margin with enriched Si, K, Al （A/CNK -- 1.11 on average）, HREE, Rb, U, Th and heavily depleted V, Cr, Co, Ni, as well as Ti-Y, Nb-Ta, Zr, Sr, P and Ba, to be commonly corundum normative （av C -- 1.44）. The Shangyou granites with higher 87Sr/86Sr ratios （0.707126-0.712186）, ENd（t） values （-7.29 to -10.22） and （tDM） values （1.52-1.63 Ga）, which are considered to result from partial melting of continental crust metamorphic sedimentary rocks with relatively low of crust maturation degree corresponding to the Middle Proterozoic, to have some possible contributions of mantle-derived components. The Shangyou granites are regarded as post-collision granites, which were formed in a transitional tectonic setting from compression to extension in the Middle Ordovician period after the Yangtze plate was subducted beneath the Cathaysian plate. The Ar-Ar total ages of K-feldspar and biotite are 292.1 Ma and 295.5 Ma respectively, which have recorded information of a late-stage thermal alteration event.

Isotopic Geochronological Evidence for the Caledonian Xiongdian Eclogite in the Northwestern Dabie Mountains,China

A typical HP/MT (high pressure/medium temperature) eclogite from Xiongdian, northwestern Dabie Mountains, has been geochronologically studied using the single-zircon U-Pb, 40Ar-39Ar and Sm-Nd methods. Prismatic zircons occurring as inclusions within garnets define a minimum crystallization age of 399.5±1.6 Ma. 40Ar-39Ar dating on amphibole gives a plateau age.of 399.2 ± 4 Ma, which is interpreted as a retrogression age of amphibolite facies. This integrated study enables us to conclude that the age of high-pressure metamorphism is older than 399.5 ± 1.6 Ma, suggesting Caledonian collision between the North China and Yangtze plates. Round zircon within the aggregate of quartz and muscovite gives a concordant age of 301± 2 Ma, reflecting a later retrogression event. An age profile of post-eclogite metamorphism is documented, including amphibolite facies metamorphism at 399.2 Ma shortly after eclogitization and later retrogressive metamorphism at 301 Ma. Sm-Nd mineral isochron of garnet+omphacite gives an unreasonable age of 544 ± 23 Ma. which is quite older than that of prismatic zircon and may be attributed to isotopic disturbance by retrogression.

Petrographic and SHRIMP Studies of Zircons fromthe Caledonian Xiongdian Eclogite, NorthwesternDabie Mountains

The Xiongdian eclogite occurring in the Sujiahe tectonic melange zone at Luoshan County, Henan Province, in the western Dabie Mountains, is typical high-pressure (HP)-ultrahigh-pressure (UHP) and medium-temperature eclogite. The occurrence, internal texture and surface characteristics of zircons in eclogite were studied rather systematically petrographically combined with the cathodoluminescence (CL) and scanning electron microscope (SEM) methods. Zircons are mainly hosted in garnet and other metamorphic minerals with sharp boundaries, have a multifaceted morphology and are homogeneous or exhibit a metamorphic growth texture in the interior, thus indicating that they are the product of metamorphism. SHRIMP analyses give zircon 206Pb/238U ages of 335 to 424 Ma and show a certain degree of radiogenic Pb loss; therefore it may be inferred that the age of 424? Ma represents the minimum age of a HP-UHP metamorphic age. From the above analyses coupled with previous Sm-Nd, 40Ar-39Ar, U-Pb and 207Pb/206Pb age data, it is suggested that the peak metamorphic age of the Xiongdian eclogite should be between 424 and 480 Ma. This study further validate the view of the existence of a Caledonian HP-UHP metamorphic event in the western Dabie Mountains.

Geochronological Study of Caledonian Granulite and High-Pressure Gneiss in the Dabie Mountains

: Using the single—zircon evaporation technique and U—Pb method, the authors have conducted an isotope geochonological study of the Huilanshan granulite and Shima garnet-bearing plagioclase gneiss (“country rocks” of the Shima eclogite) in the Dabie Mountains. The study shows that these rocks have peak metamorphic ages of 443–455 Ma, which are essentially consistent with that of the Caledonian high—ultrahigh pressure eclogites. This indicates the existence of the Caledonian collisional orogeny in the Dabie Mountains.

A New Potential Caledonian–Indosinian Ore Concentration Area:Evidence from Diagenesis and Mineralization Ages of the Miao'ershan–Yuechengling Region

Objective The Miao＇ershan-Yuechengling composite granite, located in northern Guangxi at the western section of the Nanling Range, is a multi-period and multi-stage composite pluton with an exposed area of more than 3000 km2 （Fig. 1）. Paleozoic and Proterozoic strata are exposed around it, and magmatic activities mainly occurred during the Caledonian and Indosinian periods. Till now, more than one hundred W-Sn-Mo-Pb-Zn-Cu （U） deposits and ore occurrences have been discovered along the inner and outer contact zones of this granite. Through recent years＇ research, we infer that this area is not only a preferred area for studying granite and mineralization in Caledonian and lndosinian periods, but also a potential Caledonian- lndosinian ore-concentrated area.

WUGONG MTS.REGION AS A CALEDONIAN MEDIUM-HIGH PRESSURE METAMORPHIC BELT:EVIDENCE FROM b_0 VALUES OF WHITE MICAS

The Wugong Mts. region may have experienced three stages of metamorphism in Early Paleo-zoic, which may be closely related to the generations of regional deformation. The first stage ismedium-pressure metamorphism, the second medium- and high-pressure one with stress on high-pressure metamorphism, and the third low-pressure and high-temperature metamorphism. Theregion, as a whole, is a Caledonian medium-high pressure metamorphic belt.

Caledonian Low-Temperature Granulite-Facies Metamorphism in the West Kunlun Orogenic Belt-SHRIMP Chronological Evidence from Zircon

The West Kunlun orogenic belt is located at the conjunction of the paleo\|Asian tectonic system and the Tethys tectonic system. Petrological and mineralogical studies of the Early Cambrian metamorphic surface crust in this region have shown that in case the metamorphism reached low\|temperature granulate facies, the typical mineral assemblage is biotite\|garnet\|silimanite\|K feldspar\|plagioclase\|quartz. The peak metamorphic temperatures are within the range of 720-740℃ and the pressure is \{0.6\} GPa±. Three types of metamorphic zircon have been detected in the metamorphic rocks: the complex inclusion\|bearing type; the early relic zircon inclusion\|bearing type; and the inclusion\|free type. SHRIMP age determination of these three types of metamorphic zircon have revealed that these zircons were formed principally during 400-460 Ma, indicating that pre\|Cambrian metamorphic surface crust rocks underwent low\|temperature granulite facies metamorphism during the Caledonian. In combination with the geological characteristics of this region, it is considered that when the oceanic basin was closed, there occurred intense intracontinental subduction (type A), bringing part of the Early Cambrian metamorphic basement in this region downwards to the lower crust. Meanwhile, there were accompanied with tectonic deformation at deep levels and medium\| to high\|grade metamorphism. This study provided important chronological and mineralogical evidence for the exploration of the evolutionary mechanism and process of the West Kunlun Early Paleozoic.

Late Caledonian Orogenic Extensional Deformation and Metamorphic Core Complexes in Xuefengshan Area,Southern China

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Precise Timing of Caledonian Structural Deformation Chronology and Its Implications in Southeast Qilian Mountains, China

The middle Qilian orogenic belt and Lajishan orogenic belt, both of which were formed in the Caledonian, strike NW-SE direction across southeast Qilian Mountains and their basement consists of pre-Caledonian metamorphic rocks with lozenge-shaped ductile shear zones in the crystalline basement. The blunt angle between the conjugated ductile shear zones ranges from 104° to 114°, indicating approximate 210° of the maximum principal stress. The plateau ages of muscovite ^40Ar/^39Ar obtained from the mylonitized rocks in the ductile shear zones of Jinshaxia-Hualong-Keque massif within the middle Qilian massif are （405.1±2.4） Ma and （418.3±2.8） Ma, respectively. The chronology data confirm the formation of ductile shear zones in the Caledonian basement metamorphic rocks during the Caledonian orogeny. Furthermore, on the basis of basement rock study, precise timing for the closing of the Late Paleozoic volcanic basin （or island-arc basin） and Lajishan ocean basin is determined. This provides us a new insight into the closing of ocean basin in the structural evolution of orogenic belt.

Zircon age depth-profiling sheds light on the early Caledonian evolution of the Seve Nappe Complex in west-central J?mtland

The Scandinavian Caledonides comprise nappe stacks of far-travelled allochthons that record closure of the Iapetus Ocean and subsequent continental collision of Baltica and Laurentia.The Seve Nappe Complex(SNC)of the Scandinavian Caledonides includes relics of the outermost Baltoscandian passive margin that were subducted to mantle depths.The earliest of the deep subduction events has been dated to ca.500-480 Ma.Evidence of this event has been reported from the northern exposures of the SNC.Farther south in the central and southern segments of the SNC,(ultra)high-pressure rocks have yielded younger ages in the range of ca.470-440 Ma.This study provides the first record of the early Caledonian event in the southern SNC.The evidence has been obtained by depth profiling of zircon grains that were extracted from the Tv?r?klumparna microdiamond-bearing gneiss.These zircon grains preserve eclogite facies overgrowths that crystallized at 482.6±3.8 Ma.A second,chemically-distinct zircon overgrowth records granulite facies metamorphism at 439.3±3.6 Ma,which corroborates previous geochronological evidence for granulite facies metamorphism at this time.Based on these results,we propose that the entire outer margin of Baltica was subducted in the late Cambrian to early Ordovician,but the record of this event may be almost entirely eradicated in the vast majority of lithologies by pervasive late Ordovician to early Silurian metamorphism.

Confirmation and Significance of Caledonian Metallogenic Epoch for Gold Deposits in South China

Caledonian gold deposits are widely distributed in South China. They are developed in both South China Caledonian fold belt and adjacent Proterozoic Jiangnan uplift. The host rocks are Proterozoic metamorphosed microclastic rocks in the Jiangnan uplift and Proterozoic and Cambrian strata, as well as Chengjiang and Caledonian igneous bodies in the South China fold belt. The distinct differences between the Caledonian and the most developed Yenshanian gold deposits in South China are reflected in age and host-rock type, relations to Yenshanian magmatic activities, element association, mineral assemblage and gold deposit type. The studies have proven that the Caledonian epoch is a principal metallogenic period of gold deposits in South China. This conclusion is of very important enlightening significance in exploration of Caledonian gold deposits in South China as well as in other Caledonian fold belts and adjacent uplifts in China.

东昆仑昆仑河泥盆纪过铝质花岗岩成因和找矿意义

昆仑河地区是东昆仑造山带过铝质花岗岩分布相对集中的地区,昆仑河过铝质花岗岩分布区形成了Li、Be、Sn等元素高背景区,部分地区具明显的异常,可为东昆仑造山带古生代碰撞造山过程的研究和相关稀有金属矿产成矿预测提供重要的依据。本文通过对昆仑河地区花岗岩岩相学、地球化学、同位素年代学及Hf、Sr同位素研究发现:昆仑河地区新发现的花岗岩形成时代为早泥盆世(418~416Ma),其岩性为黑云母花岗闪长岩、二云母花岗闪长岩和二云母花岗岩,暗色矿物均为黑云母(≤5vol%);为富钠弱过铝高钾钙碱性系列,Na_(2)O/K_(2)O平均值是1.13,A/CNK为1.03~1.10,富集LREE,(La/Yb)_(N)为9.7~28.1,重稀土弱亏损,Y为8.69×10^(-6)~23.4×10^(-6),Yb为0.67×10^(-6)~2.43×10^(-6);Eu具较明显的负异常(Eu/Eu^(*)=0.48~0.86),Rb/Sr比值(0.34~1.12)和Rb/Ba比值(0.18~0.32)较低;(^(87)Sr/^(86)Sr)_(i)为0.7045~0.7083,ε_(Nd)(t)为-4.94~-1.64,t_(DM2)为1.56~1.29Ga;锆石ε_(Hf)(t)值分布在-3.3~2.7之间,t_(DM2)为1.61~1.28Ga;岩浆源于古老元古代地壳的部分熔融,源区有地幔物质或源于地幔的新生地壳物质的参与。结合以往研究成果,昆仑河地区存在晚志留世(425~422Ma)和早泥盆世(418~416Ma)两期过铝质花岗岩,两者与东昆仑加里东期碰撞造山带俯冲岩石圈板片断离、幔源岩浆底侵引发的地壳熔融相关。根据1/25万化探数据做概要分析,该花岗岩分布区显示了较好的Li、Be、Sn等矿的找矿前景。

Skarn-type tungsten mineralization associated with the Caledonian(Silurian) Niutangjie granite, northern Guangxi, China

The Niutangjie tungsten deposit is a bedded skarn-type scheelite deposit and is located at the junction between Ziyuan and Xingan counties in the north of Guangxi,China.The deposit is genetically related to a fine-grained two-mica granite within the orefield.Zircon LA-ICP-MS U-Pb dating of the granite yielded a Silurian(Caledonian)age of 421.8±2.4 Ma,which is contemporaneous with the adjacent Yuechengling batholith.Mineralization within the skarn is associated with a quartz,garnet,and diopside gangue,and scheelite is present in a number of different mineral assemblages,such as quartz-scheelite and quartz-sulfide-scheelite;these assemblages correspond to oxide and sulfide stages of mineralization.Sm-Nd isotope analysis of scheelite yielded an isochron age of 421±24 Ma.Although the uncertainty on this date is high,this age suggests that the scheelite mineralization formed during the Late Caledonian,at a similar time to the emplacement of the Niutangjie granite.Zircons within the granite have?Hf(t)values and Hf two-stage model ages of?6.5 to?11.6,and 1.79 to 2.11 Ga,respectively.These data suggest that the magma that formed the granite was derived from Mesoproterozoic crustal materials.Scheelite?Nd(t)values range from?13.06 to?13.26,also indicative of derivation from ancient crustal materials.Recent research has identified Caledonian magmatism in the western Nanling Range,indicating that this magmatism may be the source of contemporaneous tungsten mineralization.

塔河油田良里塔格组迷宫型岩溶洞穴系统发育特征

为了明确塔河油田上奥陶统良里塔格组迷宫型岩溶洞穴系统的样式和结构,利用古地貌恢复、古水系刻画、测井地层对比、构造断裂解析、地震属性刻画等方法,进行了塔河油田11区的古水文地貌恢复、岩溶层组格架构建、岩溶洞穴识别和成因模式分析。结果表明:塔河油田南部加里东运动中期Ⅱ幕古地貌西北高、东南低,发育北北西—南南东向树枝状地表深切沟谷,良里塔格组发育近水平状分布、闭合管道结构及溶蚀强度较高的迷宫型岩溶洞穴系统;良里塔格组岩溶洞穴系统与澳大利亚Judbarra地区Bullita洞穴系统成因相似,属于典型的表生岩溶扩散下渗型迷宫型岩溶洞穴系统;上奥陶统恰尔巴克组泥岩段为隔水层,控制了良里塔格组迷宫型岩溶洞穴系统的侧向溶蚀作用;沟通地表水系的断裂为岩溶水主要下渗溶蚀通道,随着区域基准面下降,岩溶水沿断裂下渗进入中奥陶统,中奥陶统一间房组形成断溶体。塔河油田加里东运动中期Ⅱ幕表生岩溶“双层”迷宫型岩溶洞穴系统的认识对上奥陶统油藏开发具有重要意义。

桂东南莲垌和古龙岩体加里东期Ⅰ型花岗岩类的岩石成因及构造意义

早古生代加里东造山运动使整个华南板块产生了广泛的岩浆活动,而关于华南早古生代的构造属性是俯冲碰撞还是陆内造山尚存争议。对钦杭结合带的I型花岗岩成因研究对揭示桂东南地区早古生代地球动力学背景及其构造演化具有重要的地质意义。本文对桂东/南莲垌和古龙岩体中的花岗岩样品进行了全岩地球化学分析、LA-ICP-MS锆石U-Pb定年和Lu-Hf同位素分析。莲垌和古龙岩体花岗岩的形成时代相近,分别为435~434和436~435 Ma。莲垌和古龙岩体均为花岗闪长岩,并具有相似的地球化学特征:10000Ga/Al值为2.07,w(Zr+Nb+Ce+Y)值为183×10^(-6),A/CNK为0.87~1.1,平均值为0.97,εHf(t)值为-2.2~1.8,主要集中在0~2,对应的T DM2年龄主要分布在1.6~1.2 Ga,峰值在1.5~1.3 Ga,Nb/Ta值为11.47~14.66,平均值为12.80,Rb/Sr值为0.22~0.52。以上分析结果表明:莲垌和古龙岩体均为钙碱性I型花岗岩,来源于中元古代基底变质火成岩的部分熔融,并可能含一定的幔源物质。其主要形成过程为:华南板块南部与冈瓦纳北缘大规模碰撞所产生的应力,自南向北、自东向西传入华南板块,引发华南板块陆内造山作用。加厚的岩石圈经历了造山后伸展减薄,地幔物质上涌为下地壳部分熔融提供了热量,形成新生地壳熔融型(如古龙岩体)或新生地壳与古老地壳混合熔融型(如莲垌岩体)的母岩浆;在陆内造山作用期后的伸展环境下,母岩浆沿通道上涌,形成了具有俯冲碰撞特征的I型花岗岩。

桂北加里东期越城岭岩体和都庞岭西体黑云母矿物化学特征对比及对成岩成矿指示

加里东期越城岭岩体和都庞岭西体同处于南岭西段W-Sn-Cu多金属成矿带,但二者成矿能力不同。越城岭岩体以铁质黑云母为主,形成于相对低温(平均531℃)和高压(平均277 MPa)环境,具有贫镁(MgO平均8.05%、X_(Mg)=0.39),富铁(FeOT平均22.4%、I_(Fe)=0.61)、铝(Al_(2)O_(3)平均16.8%)等特征;都庞岭西体以镁质黑云母为主,形成于高温(平均687℃)和低压(平均194 MPa)环境,具有富镁(MgO平均11.9%、X_(Mg)=0.56),贫铁(FeOT平均17.0%、I_(Fe)=0.45)、铝(Al_(2)O_(3)平均15.5%)等特征。综合岩相学和前人全岩分析结果表明,越城岭岩体具有S型花岗岩特征,其岩浆可能主要来自上地壳变质泥岩的部分熔融,而都庞岭西体具有I-S过渡型花岗岩的特征,其岩浆可能主要来自壳幔混合源区岩浆岩的部分熔融。越城岭岩体具有变质泥岩源区岩浆岩属性、低氧逸度(log f_(O_(2))=-23.6)、富氟(F平均1.10%、IV(F)=1.62、IV(F/Cl)=6.00,log(f_(H_(2)O)/fHF)^(fluid)=4.78)、高铁指数(XFe=0.58)及高结晶分异程度(log(f_(H_(2)O)/f_(HCl))^(fluid)=5.10,log(fHF/f_(HCl))^(fluid)=0.10)等特征,指示其具有较好的钨及一定的铜成矿潜力;而都庞岭西体具有壳幔混合源区岩浆岩属性、较低的氧逸度(log f_(O_(2))=-17.3)、富氯(Cl平均0.04%,log(fHF/f_(HCl))^(fluid)=-0.36)、中等铁指数(XFe=0.41)及较低的结晶分异度(log(f_(H_(2)O)/f_(HCl))^(fluid)=4.41,log(fHF/f_(HCl))^(fluid)=-0.36)等特征,指示其局部可能有一定的铁成矿潜力。综合分析认为,岩石成因、源区性质以及成岩过程的物化条件是制约越城岭岩体和都庞岭西体不同类型金属成矿能力的重要因素。

SHRIMP dating of zircons from the Caledonian Xiong-dian eclogite,western Dabie Mountains,China

This note reports the SHRIMP U-Pb data of zircons from the Caledonian Xiongdian eclogite, western Dabie Mountains. Zircons from the rock occur mainly in garnet and other metamorphic minerals with sharp boundaries and exhibit textures growing under metamorphic conditions. Analyses of 7 grains give 206Pb/238U ages ranging from 335 to 424 Ma, showing a certain degree of radiogenic lead loss. This suggests a minimum age of (424±)Ma for the metamorphic zircons, as well as the high-pressure metamorphic event. The outer peripheral zone of a zircon gives 206Pb/238U age of about 300 Ma. Combined with Sm-Nd, 40Ar-39Ar, U-Pb and 207Pb/206Pb ages, the peak metamorphism of the Xiongdian eclogite is documented between 424-480 Ma.

赣中相山地区加里东期细粒花岗岩成因及其对钼多金属矿的找矿意义

华南燕山期成矿事件频发,形成于该时期的花岗岩研究程度较高,而关于加里东期的花岗岩研究相对薄弱。赣中相山矿田及其周边深部岩浆与铀多金属成矿作用复杂。近些年,在对相山地区开展进一轮找矿突破过程中,其周边陆续发现了铅锌、钼、锡等金属矿化点,其深部均出露了块状细粒花岗岩。为查明该套花岗岩与多金属矿化的关系,本文对其开展了锆石LA-ICP-MS U-Pb年代学、微量元素地球化学以及辉钼矿Re-Os年代学等方面研究。该细粒花岗岩形成于加里东晚期410±2.5 Ma,与辉钼矿年龄接近(405±1.2 Ma)。结合焦坪单元花岗岩锆石微量元素特征,得到锆石的Ti结晶温度为572℃~585℃,氧逸度ΔFMQ=-9.62~-2.52,(Ce^(4+)/Ce^(3+))_(锆石)=0.9,说明焦坪单元花岗岩成岩温度较低、氧逸度较低;(Ce/Nd)/Y比值(0~0.012)较低,Dy/Yb比值(0.23~0.42)较高,指示岩浆含水量不高,预示着该套花岗岩虽然与钼多金属关系密切,但并不具备形成大型钼多金属矿床的条件。赣中古塘地区加里东期大地构造背景复杂,在大地构造背景判别图解中,样品主要落在板内/非造山环境与岩浆弧/造山环境的过渡范围内,但通过总结前人赣中地区加里东期花岗岩石地球化学数据发现:430 Ma是赣中加里东期花岗岩差异性分化的时间节点,加里东早期以造山期挤压环境为主,晚期以后造山伸展环境为主。