Diffusion of Sm-Nd in Scheelite and its Significance to Isotopic Dating and Tracing

As the principal ore mineral in various tungsten(-gold)deposits,scheelite(CaWO_(4))plays an important role in directly dating the timing of ore formation,and in tracing associated material sources through the study of its Sm-Nd geochronology and Nd isotopic characteristics.Since the retention of Sm-Nd systematics within scheelite is presently unconstrained,equivocal interpretations for isotopic data resulting from this method have occurred quite often in previous studies that apply these isotopic data.In order to better elucidate the closure of Sm-Nd in scheelite,the kinetics of Sm and Nd within this mineral lattice were investigated through calculation of diffusion constants presented herein.The following Arrhenius relations were obtained:D_(Nd)=4.00exp(-438 kJ·mol^(–1)/RT)cm^(2)/s D_(Sm)=1.85exp(-427 kJ·mol^(–1)/RT)cm^(2)/s showing diffusion rate of Nd is near identical to Sm in scheelite when at the same temperature.However,compared to other rare earth elements(REEs),which have markedly different atomic radii to either Nd or Sm,these are shown to exhibit a great variation in diffusivities.The observed trends in our data are in excellent agreement with the diffusion characteristics of REEs in other tetragonal ABO4 minerals,indicating that ionic radius is a key constraint to the diffusivity of REEs in the various crystal lattices.With this in mind,the same substitution mechanism and a very slight discrepancy in radii will allow us to infer that significant Sm/Nd diffusional fractionation in scheelite is unlikely to occur during most geological processes.Based upon the diffusion data determined herein,Sm and Nd closure temperatures and retention times in scheelite are discussed in terms of diffusion dynamics.Those results suggest that closure temperatures for Sm-Nd within this mineral are relatively high in contrast to the temperature ranges of ore-formation responsible for scheelite-related deposits,and any later thermal environments.It is likely,therefore,that relevant isotopic information could be easily retained under most geological conditions,since initial crystallization of the scheelite.In addition,comparison of this mineral-element pair over a range of temperatures with some other common minerals used as geochronometers(e.g.,zircon and apatite)indicates that Sm-Nd system has a slower diffusive rate in scheelite than for Sr in apatite or Ar in quartz,and only a little faster than for Pb in zircon.It should be noted,within most hydrothermal deposits where zircon has crystallized,its size is typically no more than 100μm,whereas scheelite commonly occurs as macroscopic grains.For this reason,the larger dimensions of scheelite would provide a robust Sm-Nd system more able to resist perturbations,relating to any later thermal process.As such Sm-Nd investigations of scheelite are akin to U-Pb within zircon samples used in isotopic dating.These observations indicate that Sm-Nd age and isotopic information can provide reliable data in all but the most extreme case,especially when data are extracted from macroscopic grains of scheelite that are chosen to be“pristine”(i.e.,free of surface alteration and/or fractures).

Rb-Sr and Sm-Nd Isochron Ages of the Dongmozhazhua and Mohailaheng Pb-Zn Ore Deposits in the Yushu area, southern Qinghai and Their Geological Implications

Located on the northeast margin of the Qiangtang terrane between the Jinshajiang suture zone and Bangonghu-Nujiang suture zone,the Dongmozhazhua and Mohailaheng Pb-Zn deposits in the Yushu area of Qinghai Province are representative Pb-Zn deposits of the Pb-Zn-Cu polymetallic mineralization belt in the northern part of the Nujiang-Lancangjiang-Jinshajiang area,which are in the front belt of the Yushu thrust nappe system.The formed environments of these two deposits are different from those of sediment-hosted base metal deposits elsewhere in the world.The authors hold that they were formed during the Indian-Asian continental collision and developed within the fold-thrust belt combined with thrust and strike-slip-related Cenozoic basins in the interior of the collisional zone.Studying on the metallogenic epochs of these two deposits is helpful to the understanding of ore-forming regularity of the regional Pb-Zn-Cu mineralization belt and also to the search for new deposits in this region.The age of the Dongmozhazhua deposit has been determined by the Rb-Sr isochron method for sphalerite residues,whereas the age of the Mohailaheng deposit has been determined by the Rb-Sr isochron method for sphalerite residues and the Sm-Nd isochron method for fluorite.The age of the Dongmozhazhua deposit is 35.0-±0.0 Ma （（87Sr/86Sr）0=0.708807） for sphalerite residues.The age of the Mohailaheng deposit is 32.2±0.4 Ma （（87Sr/86Sr）o=0.708514） for sphalerite residues and 31.8±0.3 Ma （（143Nd/144Nd）o=0.512362） for fluorite with an average of 32.0 Ma.Together with the regional geological setting during mineralization,a possible tectonic model for metallogeny of the Dongmozhazhua and Mohailaheng Pb-Zn deposits has been established.These two ages are close to the ages of the Pb-Zn deposits in the Lanping and Tuotuohe basins,indicating that it is possible that the narrow 1000-kilometer-long belt controlled by a thrust nappe system on the eastern and northern margins of the Tibetan plateau could be a giant Pb-Zn mineralized belt.

U-Th-Pb monazite and Sm-Nd dating of high-grade rocks from the Grove Mountains, East Antarctica: further evidence for a Pan-African-aged monometamorphic terrane

The Grove Mountains, 400 km south of the Chinese Antarctic Zhongshan Station, are an inland continuation of the Pan-African-aged （i.e., Late Neoproterozoic/Cambrian） Prydz Belt, East Antarctica. In this paper we carried out a combined U-Th-Pb monazite and Sm-Nd mineral-whole-rock dating on para- and orthogneisses from bedrock in the Grove Mountains. U-Th-Pb monazite dating of a cordierite-bearing pelitic paragneiss yields ages of 523 ？ 4 Ma for the cores and 508 ？ 6 Ma for the rims. Sm-Nd mineral-whole-rock isotopic analyses yield isochron ages of 536 ？ 3 Ma for a coarse-grained felsic orthogneiss and 507 ？ 30 Ma for a fine-grained quartzofeldspathic paragneiss. Combined with previously published age data in the Grove Mountains and adjacent areas, the older age of ~530 Ma is interpreted as the time of regional medium- to low-pressure granulite-facies metamorphism, and the younger age of ~510 Ma as the cooling age of the granulite terrane. The absence of evidence for a Grenville-aged （i.e., Late Mesoproterozoic/Early Neoproterozoic） metamorphic event indicates that the Grove Mountains have experienced only a single metamorphic cycle, i.e., Pan-African-aged, which distinguishes them from other polymetamorphic terranes in the Prydz Belt. This will provide important constraints on the controversial nature of the Prydz Belt.

Dating Model of Illite Grain Rb-Sr Isochron and Its Application to Precambrian Stratigraphy

This paper discusses the Rb-Sr geochemical behaviour of illites in the sedimentary process, and points out that illites of the lmd and lm types could reach Sr-isotopic equilibrium with its environmental medium during the sedimentary process and initial stage of diagenesis, and illite grains of different sizes have various Rb contents. A new dating method for sedimentary rocks----a dating model of illite grain Rb-Sr isochron----is established, in consideration of the geochemical process of Sr-isotopic homogenization and differentiation in the course of their formation and evolution. In addition, the paper concerns the application of the dating model to the Precambrian unmetamorphosed sedimentary rocks in western Henan Province, which gives satisfactory results coincident with the geological facts.

川西沙坝麻粒岩的Sm-Nd和Rb-Sr同位素年龄及其地质意义

首次测定扬子板块西缘古老的结晶基底岩石沙坝麻粒岩Sm Nd矿物等时线年龄为 114 0± 110Ma ,代表中元古代末期麻粒岩相变质作用时代。Rb -Sr矿物等时线年龄为 2 18± 11Ma ,可能为晚古生代至早中生代基性岩浆侵入的热扰动改造年龄。其亏损地幔模式年龄TDM 为115 8Ma ,表明沙坝麻粒岩的原岩在成岩之后不久即经受麻粒岩相变质作用。根据上述年龄以及紫苏辉石中Nd同位素封闭温度和40 Ar/ 3 9Ar年龄等资料的计算表明 。

贵州织金含稀土磷矿床的Sm-Nd同位素年龄及其地质意义

为探讨贵州织金含稀土磷矿床的形成时间和成矿物源,利用Sm-Nd同位素稀释法对该矿床磷块岩中6个小壳化石及胶磷矿样品进行了年龄测定.样品的质谱分析测试结果显示,样品的147Sm/144Nd与143Nd/144Nd构成了一条相关性良好的线性等时线;计算结果表明织金含稀土磷矿床具有533±22Ma的Sm-Nd等时年龄,εNd(t)值为-2.44～-2.77,表明它们具有相同的成因和相近的形成时代,本次测得年龄代表着真实的成矿年龄;二阶段Nd的模式年龄为1313～1338Ma.结合前人对该矿床稀土元素地球化学的研究成果表明,织金含稀土磷矿床的成矿物源有新生地幔物质组分的加入.

四川攀西红格矿区辉长岩和正长岩的SHRIMP U-Pb和Sm-Nd定年及其地质意义

用SHRIMP U-Pb和Sm-Nd定年技术,对攀西红格矿区含矿层状辉长岩、碱性正长岩进行了年龄测定。获得红格辉长岩中3种不同晶形锆石的U-Pb年龄分别为258.4±4.1Ma、1841±34Ma、2487±12Ma,由辉长岩、辉石和磷灰石所构成的Sm-Nd等时线年龄为253±14Ma;碱性正长岩中锆石的U-Pb年龄为257.2±1.5Ma。结果表明,红格辉长岩中具有典型基性岩锆石特征的锆石U-Pb年龄(258Ma)与同一地质样品的Sm-Nd年龄(全岩+矿物内部等时线年龄),以及同一矿区的正长岩锆石U-Pb年龄在测定误差范围内一致。鉴于层状辉长岩和碱性正长岩在空间上密切共生,在形成时间上一致,可以认为它们都属于晚二叠世末岩浆活动的产物;而1841Ma和2487Ma的锆石,可能是在基性-超基性岩浆的上侵过程中,从基底所捕获的岩浆锆石和继承锆石,其年龄信息,揭示了康滇地轴岩浆岩带的下部或结晶基底存在元古代甚至新太古代末期的岩石或物质。

地幔榴辉岩包体的同位素定年方法研究进展

地幔榴辉岩包体是寄主岩浆从地球深部地幔携带到地表的俯冲洋壳碎片,作为一种高压变质岩,它可能记录着有关大洋地壳原岩、板块俯冲以及后期交代变质过程等重要信息,因此其年龄也显得格外重要。通过统计全球超过500个已发表的地幔榴辉岩包体的年龄结果,对比几种常用的地幔榴辉岩包体同位素定年方法,讨论了不同方法的优缺点及适用情况。结果表明:金红石U-Pb和全岩Rb-Sr、Sm-Nd、Lu-Hf全岩等时线法一般给出的是寄主岩浆的年龄或地幔交代的时间,而榴辉岩中的硫化物Re-Os等时线年龄,锆石U-Pb上交点年龄,Sm-Nd、Lu-Hf石榴子石-单斜辉石双矿物等时线年龄以及锆石Hf亏损地幔模式年龄对于其原岩年龄及板块俯冲时代有较为可观的应用前景;地幔榴辉岩包体最古老年龄的峰值分布在3.1~2.8 Ga,与Kaapvaal和西伯利亚克拉通构造拼合的时间吻合,可能代表着全球地幔榴辉岩包体的最早形成时代,也预示着板块构造可能于中太古代开启。

阿尔金山巴什考供地区斜长角闪岩的岩石地球化学和Sm-Nd,Ar同位素特征

阿尔金山地区巴什考供以北、阿尔金山北缘断裂以南为一套变质程度达角闪岩相的片岩、大理岩夹少量斜长角闪岩。地球化学研究表明 ,这些斜长角闪岩原岩为玄武质成分 ,具有拉班玄武岩的特点。斜长角闪岩全岩Sm -Nd同位素等时线年龄为 1185± 130 (2σ)Ma ,其INd=0 .5 114 0 ,εNd(t) =+5 .8± 0 .6 ,表明原岩形成于中元古代晚期 ,源自亏损地幔。斜长角闪岩中角闪石4 0 Ar - 39Ar同位素分析显示变质作用发生在 6 12± 5 .8Ma之前 ,进一步表明其原岩应该形成于前寒武纪。这些年龄的确定 。

Sm-Nd ISOTOPIC AGE OF LAMPRO PHYRES IN THE GEZHEN GOLD BEARING SHEAR ZONE ON HAINAN ISLAND AND ITS GEOLOGICAL IMPLICATIONS

Sm Nd isotopic compositions of eight lamprophyre samples, which come from the Gezhen gold bearing shear zone on western Hainan Island, are measured. The Sm Nd isochron age is 495.98±13.14 Ma, (143Nd/144Nd)0=0.512094, εNd(t) ranges from +1.80 to +2.00 and TDM from 982 Ma to 1196 Ma (average: 1060 Ma). The authors point out that the whole rock Sm Nd isochron age (495.98±13.14 Ma) really represents the petrogenetic age of lamprophyre and the time of magmatism during subsequent subduction.

Petrogenesis and Rb-Sr Isotopic Characteristics of Paleo-Mesoproterozoic Mirgarani Granite Sonbhadra Uttar Pradesh India:Geodynamics Implication for Supercontinent Cycle

The Rb-Sr whole-rock isochron,age 1636±66 Ma of Mirgarani granite,is the one of the oldest granite dated in the northwestern part of the Chhotanagpur Granite Gneiss Complex(CGGC).The initial Sr ratio is 0.715±0.012(MSWD=0.11),showing an S-type affinity.The Mirgarani granite has intruded the migmatite complex of the Dudhi Group and forms the Mirgarani formation comparable to the granites of the Bihar Mica Belt around Hazaribagh(1590±30 Ma).The present studies have established the chronostratigraphy of the Dudhi Group and adjoining areas in CGGC.Petro-graphic and geochemical studies revealed that the granite is enriched in Rb(271 ppm),Pb(77 ppm),Th(25 ppm),and U(33 ppm)and depleted in Sr(95 ppm),Nb(16 ppm),Ba(399 ppm)and Zr(143 ppm)contents as compared to the normal granite.The Mirgarani granite is a peraluminous(A/CNK=1.23),high potassic(K_(2)O 6.42%),Calc-Alkalic to Alkali-Calcic{(Na_(2)O+K_(2)O)-CaO=6.29}S-Type granite,a feature supported by the presence of modal garnet and normative corundum(2.68%).The Mirgarani granite is considered to have been formed by the anatexis of a crustal sedimentary protolith at a depth of approximately 30 km with temperatures ranging from 685-700℃ during the Co-lumbian-Nuna Supercontinent.

赣南燕山早期双峰式火山-侵入杂岩的Rb-Sr同位素定年及意义

通常认为中国东南大陆中生代时地壳裂解作用发生在燕山晚期。对赣南地区广泛分布的双峰式火山岩和A型花岗岩进行了Rb -Sr同位素定年研究 ,确定基性端元玄武岩的Rb -Sr等时线年龄为 170～ 180Ma ,酸性端员流纹岩和A型花岗岩的Rb -Sr等时线年龄为 160～ 180Ma ,表明它们形成于中侏罗世早期。由此提出东南大陆中生代时最早的裂解作用应该始于燕山早期。

吉林夹皮沟金矿带岩脉和蚀变绢云母定年及金矿成矿时代

吉林夹皮沟金矿床的矿化年龄一直存在争议。采用先进的SHRIMP测年方法测得夹皮沟二道沟金矿床的花岗闪长岩脉锆石的2 0 6Pb/ 2 3 8U年龄为 (2 2 3± 2 )Ma ;八家子金矿床的石英正长斑岩锆石的2 0 6Pb/ 2 3 8U年龄为 (2 41± 6 )～ (2 18± 6 )Ma。这一结果与前人测得的K Ar年龄基本相符。这两条岩脉与含金石英脉同构造空间 ,形成时代相近 ,因此上述岩脉年龄大体反映了金矿化年龄。同时还测得八家子金矿床蚀变绢云母的 4 0 Ar 3 9Ar等时线年龄为(2 0 3 975± 0 5 2 7)Ma ,进一步证明金矿化发生在中生代印支期。矿石中含有大量的方铅矿 ,还存在矿物及元素的分带 ,这些特征表明夹皮沟金矿床不太可能是新太古代或元古代形成的变质热液矿床 。

江西安远路迳金伯利质煌斑岩筒的Rb-Sr同位素年龄及其地质意义

报道了赣南安远县路迳金伯利质煌斑岩筒的 Rb-Sr等时线地质年龄 :t=( 3 7.6± 2 .2 ) Ma,初始值 [n( 87Sr) / n( 86Sr) ] i=0 .70 5 17± 0 .0 0 0 12。

东准噶尔和尔赛斑岩铜矿成岩成矿时代与形成的构造背景

东准噶尔和尔赛铜矿是近年来新发现的斑岩型铜矿,位于野马泉-琼河坝古生代岛弧带东段。成矿岩体为侵位于花岗闪长岩中的花岗闪长斑岩,花岗闪岩中包含有钾长花岗岩体。锆石CAMECA U-Pb测年结果显示,钾长花岗岩年龄为429Ma,并含有405Ma的锆石;花岗闪长岩年龄为411Ma,并含432Ma的碎屑锆石;花岗闪长斑岩主体年龄为410.5Ma。研究区经历了3期岩浆与热液活动,且至少在早志留世就已开始,琼河坝岛弧是开始于早古生代的岛弧。辉钼矿Re-Os等时线年龄为409Ma,与花岗闪长斑岩年龄一致。和尔赛斑岩铜矿的主成岩成矿时代为早泥盆世,年龄约为410Ma。和尔赛铜矿的花岗闪长岩和花岗闪长斑岩具有埃达克岩与岛弧岩浆岩的地球化学特征,包括63.79%～68.86%SiO2、14.91%～17.48%Al2O3、0.68%～2.35%MgO、高Sr(383×10-6～971×10-6)与Sr/Y比值(48.3～111)、低Y(7.92×10-6～9.69×10-6)与Yb(0.76×10-6～0.98×10-6),Ba、U、K、Sr等大离子元素富集,Th、Nb、Ta、Ti等高场强元素亏损,较低的(87Sr/86Sr)i值(0.703852～0.704565)、正的εNd(t)值(6.1～7.4)、与亏损地幔接近的较低的初始铅同位素比值((206Pb/204Pb)i=17.58～17.91,(207Pb/204Pb)i=15.40～15.48,(208Pb/204Pb)i=37.25～37.47)。这些地球化学特征说明其形成于岛弧环境,可能为古俯冲洋壳部分熔融的产物。琼河坝地区以花岗闪长岩和花岗闪长斑岩为代表的岩浆岩带是形成和寻找斑岩铜矿的有利地区。

雷州半岛第四纪火山岩激光^(40)Ar/^(39)Ar等时线定年研究

雷州半岛是我国新生代火山岩最重要的分布地区之一,火山活动主要集中在中晚更新世。前人对雷州火山岩的年代学研究以K-Ar法为主。研究表明,雷州火山岩测年结果大致分布在0.38～3.04Ma范围内。根据地层和火山岩层的叠置关系,雷州第四纪火山岩由于覆盖在被确定是1.87Ma和0.76Ma沉积的地层之上,故火山岩年龄应小于该地层年龄。K-Ar法定年结果与雷州地区地层叠置关系存在矛盾。本文通过对雷州半岛第四纪火山岩进行野外考察及采样,利用激光40Ar/39Ar年代学方法进行了精细定年。结果表明,雷州火山岩的喷发主要集中18万年前后。定年结果还表明,对于年轻样品,基于尼尔值计算的K-Ar年龄及40Ar/39Ar表观年龄偏老,等时线年龄相对较为可靠。对同一样品的斑晶、基质作斑晶-基质等时线计算,只有在斑晶基质满足同源条件时才有意义。本文首次提出,通过对比未照射样品的初始36Ar/38Ar值的均一性,以检验样品是否同源,确认斑晶-基质等时线年龄的可信度。据此,等时线的处理方法可以推广应用于特定区域内全部同源同时样品。

河南下蒿坪金矿Pb同位素特征及Rb-Sr等时线年龄的地质意义

下蒿坪金矿位于全国十大产金县之一的嵩县境内,金矿中黄铁矿的206Pb/204Pb值介于7.114 9～17.201 2之间,207Pb/204Pb比值介于15.443 7～15.451 4之间,208Pb/204Pb比值介于37.881 05～37.968 87之间,各比值相对稳定,仅存在微小变化。铅同位素的模式年龄为756Ma～810Ma,未呈现明显变化。铅同位素模式年龄远大于矿床的形成年代(约143Ma),推测模式年龄代表了古商丹洋向北俯冲到中秦岭地体之下的板块碰撞事件。在构造图解上,样品投点于造山带及克拉通地壳,与中生代秦岭造山带的大规模岩浆侵入背景相一致。4件黄铁矿样品的87 Rb/86Sr变化在0.656 2～13.967 6之间,对应的87Sr/86Sr为0.716 506～0.750 193,两个参数间有较好的正相关性,应用ISOPLOT获得的等时线年龄值为129Ma±45Ma,87Sr/86Sr初始比值0.724 9±0.004 8,证实下蒿坪金矿的成矿时代为燕山晚期。

湖北凹子岗锌矿床Rb-Sr同位素测年及其地质意义

凹子岗锌矿床位于黄陵背斜东部,是近年来在湘西鄂西地区发现的代表性矿床。锌矿体呈似层状-透镜状产出,赋存于灯影组二段,含矿岩性为一套角砾状泥粉晶云岩,严格受地层层位及岩性控制。文章运用闪锌矿Rb-Sr同位素测年方法,测得凹子岗锌矿床成矿年龄为431-434 Ma,相当于早志留世,代表了矿床的主成矿阶段年龄。闪锌矿具有较高的Sr同位素初始比值（0.71119-0.71136）,反映成矿物质或成矿流体由基底岩石和震旦系碳酸盐岩地层共同提供。凹子岗锌矿床早期成矿作用与早志留世的裂谷盆地伸展运动关系密切,晚期成矿作用与加里东运动关系密切,是伸展环境盆地流体运移的产物。加里期运动与黄陵周缘铅锌矿的成矿作用关系密切。凹子岗锌矿床成因类型为热液喀斯特成因,可分为深埋藏成岩成矿阶段和热液喀斯特化成矿阶段。

江西梅树坪钨钼矿床地质、成岩成矿时代与找矿方向

梅树坪钨钼矿床位于南岭成矿带崇余犹矿集区内,矿体发育于九龙脑岩体南缘接触带,构造上受北北东向断裂控制,矿化类型主要为石英脉型钨钼矿化,并发现了细粒花岗岩中浸染状白钨矿化,与成矿有关的岩浆岩以中粗粒斑状黑云母花岗岩为主。本文在矿床地质工作基础上,利用LA-ICP-MS锆石U-Pb法获得中粗粒斑状黑云母花岗岩的年龄为(157.2±1.70)Ma;并利用辉钼矿Re-Os同位素测年,获得黑钨矿化石英脉中的辉钼矿的年龄为(156.2±0.93)Ma。研究表明梅树坪花岗质岩浆活动与成矿作用基本同时,均为燕山晚期,成矿紧随岩浆就位发生。结合前人的研究成果,梅树坪钨钼矿与华南地区钨多金属大规模成矿作用时间150~160 Ma一致。梅树坪钨矿与西华山钨矿等具有相同的成矿时代、成矿背景和相似的成矿条件,预测矿区隐伏岩体南延之内接触带和震旦系变质砂岩外接触带具有很好的找矿潜力。

张宣隆起核部的转枝莲辉石闪长岩

位于冀西北张家口-宣化地区的转枝莲辉石闪长岩侵入水泉沟正长岩杂岩体中。该岩石由紫苏辉石、次透辉石、黑云母、中长石、正长石以及磷灰石、钛铁矿等副矿物组成。全岩分析结果SiO_253％～59％。本文根据上述两点将其命名为辉石闪长岩,通过岩石成因、稀土元素分布模式和岩石的Sr-Nd同位素组成研究,认为岩体是上地幔和下地壳物质部分熔融的产物,辉石闪长岩的Rb-Sr等时线年龄为143Ma。