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1.
Tin deposits in the form of cassiterite occur in precambrian zoned pegmatite bodies intrusive into Archean metabasic and metasedimentary rocks in Bastar, MP. The associated economic minerals include columbite-tantalite, lepidolite, beryl etc. As a major part of the area is covered by a thick overburden, termite mounds have been used as geochemical sampling medium in view of their significant potentiality in tropical areas with overburden, and also because of the low cost and ease of sampling. Though many elements have been used as pathfinders for tin, tin itself acts as the best indicator of its deposits. The present work has given encouraging results, and therefore can be applied for tin prospecting and possibly for heavy metals like Nb, Ta, W, etc., in this and other areas where termite mounds have a good spatial distribution. 相似文献
2.
介绍了湘南地区云英岩的产出类型以及云英岩体型钨锡多金属矿床和云英岩体型铀多金属矿床的矿床特征。 相似文献
3.
The areal distribution of stream sediment and source-rock heavy mineralogy was studied to determine the mineralogical relations between source and derived sediment in the Piney Creek drainage basin of Wyoming. Heavy-mineral distribution in the streams was characterized using factor analysis. The results of analyses show that for an actively degrading stream system, the heavy-mineral composition of stream sediment is controlled to a considerable extent by the composition of local sediment sources and by continuous addition of detritus from bank cutting. Only the most common minerals from upstream sources persist as statistically significant variables downstream. In some cases the heavy-mineral mineral composition of stream sediment can be controlled by comparatively few, or volumetrically rare source rocks, even though more abundant source rocks supply a wide range of heavy minerals. Specific drainage configurations such as lakes and proximity of streams to major sediment sources significantly modify sediment mineralogy immediately downstream. 相似文献
4.
R. L. Linnen 《Mineralium Deposita》1998,33(5):461-476
The most important tin mineralization in Thailand is associated with the Late Cretaceous to Middle Tertiary western Thai granite
belt. A variety of deposit types are present, in particular pegmatite, vein and greisen styles of mineralization. A feature
common to most of the deposits is that they are associated with granites that were emplaced into the Khang Krachan Group,
which consists of poorly sorted, carbonaceous, pelitic metasediments. Most of the deposits contain low to moderately saline
aqueous fluid inclusions and aqueous-carbonic inclusions with variable CH4/CO2 ratios. Low salinity aqueous inclusions represent trapped magmatic fluid in at least one case, the Nong Sua pegmatite, based
on their occurrence as primary inclusions in magmatic garnet. Aqueous-carbonic inclusions are commonly secondary and neither
the CO2 nor NaCl contents of these inclusions decrease in progressively younger inclusions, implying that they are not magmatic in
origin. Reduced carbon is depleted in the metasediments adjacent to granites and the δD values greisen muscovites are variable,
but are as low as −134 per mil, indicative of fluid interaction with organic (graphitic) material. This suggests that the
aqueous-carbonic fluid inclusions represent fluids that were produced, at least in part, during contact metamorphism-metasomatism.
By comparing the western Thai belt with other Sn-W provinces it is evident that there is a strong correlation between fluid
composition and pressure in general. Low to moderately saline aqueous inclusions and aqueous-carbonic inclusions are characteristic
of mineralization associated with relatively deep plutonic belts. Mineralized pegmatites are also typically of deeper plutonic
belts, and pegmatite-hosted deposits may contain cassiterite that is magmatic (crystallized from granitic melt) or is orthomagmatic-hydrothermal
(crystallized from aqueous or aqueous-carbonic fluids) in origin. The magmatic aqueous fluids (those that were exsolved from
granitic melts) are interpreted to have had low salinities. As a consequence of the low salinities, tin is partitioned in
favour of the melt on vapour saturation. Thus with a high enough degree of fractionation, the crystallization of a magmatic
cassiterite (or different Sn phase such as wodginite) is inevitable. Because tin is not partitioned in favour of the vapour
phase upon water saturation of the granitic melts, it is proposed that relatively deep vein and greisen systems tend to form
by remobilization processes. In addition, many deeper greisen systems are hosted, in part, by carbonaceous pelitic metasediments
and the reduced nature of the metasediments may play a key role in remobilizing tin. Sub-volcanic systems by contrast are
characterized by high temperature-high salinity fluids. Owing to the high chlorinity, tin is strongly partitioned in favour
of the vapour and cassiterite mineralization can form by of orthomagmatic-hydrothermal processes. Similar relationships between
the depth of emplacement and fluid composition also appear to apply to other types of granite-hosted deposits, such as different
types of molybdenum deposits.
Received: 8 September 1997 / Accepted: 28 October 1997 相似文献
5.
The composition of accessory minerals from granites of the second phase, quartz-muscovite (+fluorite), and quartz-muscovite-topaz
greisens from the Primorsky rapakivi granite complex, West Baikal region, were studied using backscattered scanning electron
microscopy. Ilmenite from granites contains inclusions of cassiterite, titanocolumbite, fergusonite-(Y), polycrase-(Y), and
betafite. Allanite-(Ce), bastnaesite-(Ce), xenotime-(Y), Y- and Zr-thorite, zircon, and cyrtolite have been identified in
granites. Greisens contain cassiterite, ferrocolumbite (Ta/Nb = 0.02−0.06), pyrochlore-group minerals, ilmenorutile, rutile,
wolframite, polycrase-(Y), monazite-(Ce), fluocerite-(Ce), bastnaesite-(Ce), cerphosphorhuttonite, thorite, and other minerals.
The ferrocolumbite + ilmenorutile assemblage is typical of quartz-muscovite greisen, whereas the rutile + ilmenorutile + wolframite
+ W-columbite assemblage is contained in the quartzmuscovite-topaz greisen as a result of an increase in Eh and decrease in
pH and potassium activity of solution in the back zone. The compositions of Th- and REE-bearing minerals indicate the important
role of phosphate and fluorine complexes in the transport of these elements. 相似文献
6.
云南个旧锡多金属矿床处于滇东南锡矿带的西端,是全球最大的锡多金属矿床之一。锡石作为个旧锡矿床中最主要的矿石矿物,其矿物化学特征对矿床成因具有重要的指示意义。本文运用扫描电镜、电子探针等手段对个旧锡多金属矿床中6种不同类型矿石中的锡石进行了详细的内部结构和矿物化学特征研究,并对其可能的成因进行了探讨。扫描电镜研究结果发现,除层间氧化矿型锡石较破碎外,其余类型锡石内部均发育有明显的环带结构。电子探针分析结果显示:各类型矿石中锡石的SnO2质量分数变化范围为97.700%~101.728%;Ta2O5、FeO、ZrO2、HfO2平均质量分数较高,指示锡石形成于高温热液环境;(Fe+Mn)/(Nb+Ta)显示个旧锡矿区各类型矿石中的锡石具有热液锡石的特征,且各类型锡石中Nb2O5和MnO的质量分数极低,说明成矿热液可能来自于高度分异的花岗质岩浆,而Nb、Ta质量分数说明成矿作用发生于酸性-弱酸性环境中;In2O3质量分数显示了成矿温度及压力从块状硫化物型矿石、矽卡岩型矿石、电气石细脉带型矿石、含锡白云岩型矿石到层间氧化矿型矿石有逐渐降低的趋势;云英岩型矿石中锡石的In2O3质量分数较高还需进一步论证。锡石形成过程中岩浆热液物理化学条件的变化导致其内部环带结构的形成,电子探针数据显示锡石的环带结构中化学成分呈"锯齿状"变化,显示成矿作用发生于动荡的环境中,说明锡石沉淀具有多期多阶段的特征。 相似文献
7.
云南腾冲锡矿带是近几年才发现的。以往许多地质学者把东南亚锡矿向北延伸仅与云南境内的个旧锡矿相连接,因那时腾冲地区是个处女地。自七十年代末,本区开展了1/20万区调,发现了若干锡石重砂异常,与此同时,第四地质大队对旧矿点、老窿和铁帽露头取样分析,找到和评价了一批锡矿床,从而揭示了在滇西找锡的良好前景。 相似文献
8.
以云南大屯选矿厂锡粗精矿为研究对象,采用化学分析、X射线衍射分析及光学显微镜分析等手段对该粗精矿的化学组成、矿物组成、矿物嵌布粒度特征等进行了详细的研究。结果表明,锡粗精矿中有价元素锡的品位为13.80%,锡矿物主要以锡石形式产出。锡粗精矿中TFe含量为30.78%,主要以褐铁矿、磁黄铁矿的形式存在,磁黄铁矿是导致粗精矿含硫高的主要原因。锡粗精矿中主要的脉石矿物有白云石、透闪石、电气石、石英、白云母、萤石等,且脉石矿物与锡石均有不同程度的毗邻连生、包裹共生关系。本次工艺矿物学研究认为,大屯选矿厂锡粗精矿宜采用浮选预先脱硫,除去其中的硫化物,再对浮选尾矿采用重选工艺提高锡品位和回收率。该研究结果可以为大屯选矿厂工艺流程改造和合理开发利用锡资源提供科学依据。 相似文献
9.
略论个旧锡矿床地质找矿的新发现及其途径 总被引:11,自引:0,他引:11
个旧锡矿区是个矿产资源丰富,开采历史悠久的老矿区。据历史记载,矿床发现约在汉代(距今2100a左右)。元、明两代有少量开采,清康熙(1700a)以前多采冶银、铅,至清乾隆(1740a)以后采锡增加,清末产锡量已居世果第四位。解放后三十年来开展了大规模的地质勘探,探明了五大矿田几十处矿床,探获锡、铜、铅、钨等金属储量数百万吨。七十年代以来,随着勘探工作和矿山开采程度日益加深,地质找矿面临“深、新、隐”等问题。通过不断学习、探索和试验研究。我们在地质认识、找矿效果和方法手段等方面又取得了一些新进展。 相似文献
10.
癞子岭岩体具有极好的垂向分带性,从下部到顶部包括了花岗岩、云英岩和伟晶岩,其中云英岩以其厚度巨大,云母类型属于铁锂云母,黄玉含量高,W-Sn-Nb-Ta含量高,而区别于其他地区云英岩。通过对癞子岭云英岩进行岩石学、地球化学和矿物学的研究,本文得出:癞子岭云英岩是高硅的强过铝质岩石类型,全碱含量低(3~4.3 wt%),富集挥发组分,全岩Zr/Hf(~8)和Nb/Ta(~1.7)比值低。造岩矿物铁锂云母中Nb(~74×10~(-6))、Ta(~66×10~(-6))、W(~23×10~(-6))、Sn(~75×10~(-6))等成矿元素含量较高。副矿物锆石自形且成分均一,含有HfO_2约10 wt%,Zr/Hf比值最低为5,与云英岩下部的癞子岭钠长花岗岩中的锆石成分有连续过渡的关系。这些特征与南岭地区高演化稀有金属花岗岩或伟晶岩相当,体现了相近的演化程度。癞子岭云英岩中有明显的Nb-Ta-W-Sn成矿作用发生,主要形成铌铁矿族矿物、锡石和黑钨矿,成分和结构均具有岩浆成因特征。花岗质熔体中含有大量挥发组分Li和F,结晶出黄玉和Li-F云母,F在稀有金属的成矿作用和云英岩的成岩过程中发挥了非常重要的作用,成矿作用发生在岩浆演化的晚期并伴随有流体作用。因此,云英岩可能是钠长花岗岩高度分异演化之后的特殊产物,这为研究花岗岩岩浆-热液体系成岩成矿过程提供了新的窗口。 相似文献
11.
湖南界牌岭锡多金属矿床位于南岭成矿带中段,是近年来新发现的以锡和萤石为主,伴生锂、铍、铌、钽、锌等重要资源的大型矿床。该矿床矿化元素多且规模大、矿化分带性强、成矿时代也较新(~90 Ma),使其在湘南钨多金属矿集区内独具特色。文章在详细的矿床地质工作基础上,对界牌岭不同矿化段的萤石和锡石进行了矿物学研究和微区原位微量元素对比分析。研究结果显示,萤石由深到浅表现为明显的正Ce异常向负Ce异常、负Eu异常向正Eu异常转变,指示成矿流体向上运移过程中氧逸度逐渐升高。浅部矿体与深部花岗斑岩中萤石的稀土元素配分特征一致,指示两者均为深部富F花岗质岩浆的产物。相较于南岭地区云英岩型和石英脉型锡矿,界牌岭锡石中Nb-Ta含量偏低,但高于矽卡岩型锡矿,具有富Fe、贫W的特征,较低的Zr/Hf值(平均为2.76)。对比研究认为,界牌岭锡矿体仍处于该岩浆热液系统中-远端,推测其深部至隐伏岩体仍具较大找矿空间。结合前人研究,文章综合构建了界牌岭锡萤石矿床成矿模式,并提出了相应的勘查标识,圈定了界牌岭深部近花岗岩体矽卡岩型-云英岩型-石英细脉型锡(钨)铌钽矿、北北东向主断裂北段深部锡多金属矿、斑岩体内及深部接触带锡锂铌钽矿3个方向的找矿预测靶区。 相似文献
12.
. Toverud 《Journal of Geochemical Exploration》1984,21(1-3)
Since the late part of the 19th century prospecting for W in the western world has been based mainly on the mechanical concentration of heavy minerals in sediments (panning), followed by visual and chemical analyses of the heavy-mineral fraction. Since the early 1970's, W prospecting in Sweden has been based on the use of heavy-mineral concentrates from till.In tests performed in a scheelite-mineralized area in the Bergslagen area of central Sweden, samples from the A- and C-horizon of the podzolic profile have been collected along grid lines across the ore as well as down-ice along the direction of final glacial transport from the ore. The purpose of the study was to test which sample types should be used in geochemical prospecting for W in the region.The results show that all the sample types studied can be used in geochemical prospecting for W in southern central Sweden. The heavy-mineral concentrate of till is primarily recommended for use at a regional and local scale. Humus is given the lowest priority of the sample types studied because of the poor analytical reproducibility for some samples with high values of W. 相似文献
13.
桐木山云英岩型锡矿床是湘东锡田锡多金属矿田中一个典型矿床,在详尽的野外考察、矿石结构观察以及流体包裹体岩相学研究的基础上,采用流体包裹体组合的研究方法,利用冷热台、激光拉曼等测试手段,对矿床中锡石中流体包裹体进行直接测定,同时开展与锡石共生的石英及切割矿体的后期石英脉石英中流体包裹体对比研究。结果显示,锡石中流体包裹体的组分、均一温度、盐度与共生的石英存在明显差异,表明锡石与石英形成的P-T-X条件不同。切割矿体的石英脉为成岩成矿后流体作用的产物。与锡石形成相关的流体为中高温、中低盐度的Na Cl-H_2O流体体系,与石英形成相关的流体为复杂的含碳流体。流体体系的冷却作用及流体与围岩的反应可能是导致锡石沉淀的主要因素,与石英形成相关的流体在演化过程中则经历了明显的流体不混溶作用。 相似文献
14.
广东始兴南山钨钼多金属矿床的发现及其意义 总被引:3,自引:0,他引:3
南岭东段是世界著名的钨多金属矿集区,多轮的地质工作使区内找矿和研究程度极高,找矿难度极大。南山钨钼多金属矿床是近年来中国地质调查局在该区实施钨多金属矿调查评价中根据岩体型(地下室)找矿模型找到的具有中大型远景的钨钼多金属矿床。钻探验证成果显示该矿床除地表分布的石英脉型钨钼多金属矿体外,在深部燕山晚期岩体中发育了大规模的岩体型(云英岩型和花岗岩型)钨钼多金属矿体,矿区燕山晚期花岗岩自上而下分为白云母化、绿泥石化和钾长石化三带,云英岩型钨钼多金属矿体分布在白云母化带,赋矿岩体为细粒二云母花岗岩;花岗岩型钨钼多金属矿体分布在绿泥石化带和钾长石化带,矿体为细粒浸染状黑云母二长花岗岩和细粒钾长石花岗岩,矿石矿物主要有黑钨矿、辉钼矿、锡石、辉铋矿、方铅矿、闪锌矿、白钨矿、黄铜矿、黄铁矿等;初步研究表明该岩体型钨钼多金属矿体可能为深部含矿岩浆经分异作用形成,矿床具有品位一般、规模大的特点,成矿元素复杂,主要为W - Mo - Sn - Bi 组合,并富含Pb,Zn,Ag,Nb 等。该矿床的发现不仅填补了南岭东段地区找矿新突破,而且对整个南岭乃至华南地区钨钼多金属矿找矿具有重要的指导作用。 相似文献
15.
中国锡矿床时空分布特征与潜力评价 总被引:1,自引:0,他引:1
锡矿是中国传统优势矿种,但是近年来遇到了找矿潜力区不足和找矿方向不明等问题,急需进一步分析和总结其地质特征、成矿规律和资源潜力,为今后地质找矿工作提供借鉴。文中采用矿床模型综合地质信息预测方法,在各省区锡矿资源潜力预测成果的基础上,以MapGIS为平台,进行数据库汇总与综合分析研究。首先,基于全国893处锡矿产地数据的统计分析,初步总结了中国锡矿时空分布特征,岩浆岩、构造和地层等控矿因素。其次,根据锡矿床及预测区的空间分布和大地构造单元,划分了44个锡矿成矿区带。再次,将锡矿的预测类型划分为石英脉型、锡石硫化物型、夕卡岩型、云英型、伟晶岩型、火山岩型和砂矿型,并建立了主要锡矿类型的预测模型。最后,在全国范围累计圈定1 179个最小预测区,累计预测资源量1 861.13×104 t。根据锡矿区域成矿特征,将最小预测区归并为405个二级预测区,并进一步合并为109个锡矿三级预测区,其中找矿潜力大的湖南香花岭-千里山和塔山-大义山、云南个旧和薄竹山-都龙、内蒙古黄冈梁等5个三级预测区可优先部署锡矿勘查工作。预测结果还表明锡矿在500 m以浅的找矿空间里仍有很大资源潜力,因此,找矿工作应注重深浅结合,在重视老矿山深部外围找矿的同时,还应重视覆盖区和非传统锡矿类型等新领域的找矿勘查。 相似文献
16.
喜马拉雅琼嘉岗超大型伟晶岩锂矿的形成时代、源区特征及分异特征 总被引:1,自引:0,他引:1
喜马拉雅新生代淡色花岗岩带是近年来提出的与高度结晶分异、异地深成淡色花岗岩有关的稀有金属战略远景区,目前其金属组合以铍-铌-钽(-锡-钨)为主。秦克章等(2021a)报道了在高喜马拉雅带珠峰地区发现的琼嘉岗锂矿,是喜马拉雅首例具有工业价值的伟晶岩型锂矿。本次研究重点揭示喜马拉雅琼嘉岗伟晶岩型锂矿的成矿特征、形成时代和源区特征。琼嘉岗矿区矿石矿物主要为锂辉石、铌铁矿-铌锰矿、少量锡石和绿柱石,特征性长柱状锂辉石主要产于块体微斜长石+锂辉石带和分层细晶岩带内。琼嘉岗锂辉石伟晶岩各结构分带的K/Rb含量较为相似,锂含量从边部细粒钠长石带(~100×10-6)到分层细晶岩带(~1000×10-6),再到块体微斜长石+锂辉石带(>3000×10-6)逐渐升高,而Cs含量逐渐降低。独居石和铌钽铁矿族矿物LA-ICPMS定年结果显示,琼嘉岗锂辉石伟晶岩形成于新喜马拉雅阶段早期(25~24Ma),与高喜马拉雅地区淡色花岗岩时代相近。矿物化学和独居石Nd同位素结果显示该稀有金属伟晶岩结晶于高度演化的花岗伟晶岩熔体,源区特征与高喜马拉雅结晶岩系一致。本研究所揭示的琼嘉岗成矿特征、形成时代和源区特征将为高喜马拉雅其它地区找寻大型花岗伟晶岩型锂矿提供重要借鉴意义。 相似文献
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协库斯特伟晶岩位于新疆阿尔泰可可托海镇,属于典型的Li-Cs-Ta(LCT)伟晶岩,发育大量锂的磷酸盐矿物和硅酸盐
矿物。文章利用电子探针和X射线衍射等分析手段,结合野外观察,系统研究了协库斯特伟晶岩中锂的矿物学行为,探讨
花岗质岩浆—热液过程中锂矿物的结晶演变与热液蚀变过程。研究表明:协库斯特伟晶岩中锂矿物结晶于两个阶段,花岗
质岩浆阶段,锂矿物主要有锂辉石、磷锂铝石与磷锰锂矿,而锂电气石、多硅锂云母、锂白云母等形成于岩浆—热液过渡
阶段至热液阶段。磷锰锂矿与羟磷锂铝石团块包体反映协库斯特伟晶岩中锂的磷酸盐熔体与硅酸盐熔体的不混溶机制。磷
锰锂矿逐渐蚀变形成黄白色—红色的结构相似的矿物相,揭示了磷锰锂矿的氧化过程以及锂的释放过程。早期锂辉石、磷
锰锂矿、磷锂铝石等锂矿物热液蚀变释放出Li进入热液,这种富Li热液作用形成了次生富锂矿物,显示了协库斯特伟晶岩
内部Li的地球化学循环过程。 相似文献
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《International Geology Review》2012,54(11):1020-1039
The Shizhuyuan deposit is the largest among the economically important polymetallic tungsten deposits in China. The deposit occurs within the thermal aureole of Yanshanian felsic intrusions that were emplaced into Devonian carbonates and marls. The mineralization can be divided into three phases that are genetically associated with three episodes of granitic emplacement-pseudoporphyritic biotite granite, equigranular biotite granite, and granite porphyry. During the emplacement of pseudoporphyritic biotite granite, thermal metamorphism and subsequent skarnization developed around the stock. The pure limestone was transformed to marble, whereas marls and argillite interlayers were changed to a series of metamorphic rocks such as grossular-diopside hornfels, wollastonite hornfels, diopside hornfels, wollastonite-vesuvianite hornfels, muscovite-K-feldspar-anorthite hornfels, and prehnitevermiculite hornfels. Because of the subsequent strong skarn development, most hornfelses later were transformed into skarns. The skarns distributed around the granite stock are mainly calcic. They are massive in structure, and are composed mainly of garnet, pyroxene, vesuvianite, and wollastonite, with interstitial fluorite, scheelite, and bismuthinite. Although there is no cassiterite in the early skarns, their tin contents average 0.1%. The distribution and compositional and mineralogical relationships of skarn minerals suggest that they formed as a result of progressive reactions of a hydrothermal solution with a limestone of generally constant composition, and that the dominant process was progressive removal of Ca and addition of other constituents to the rocks. Following the primary skarn formation, some of the assemblages were retrograded to new assemblages such as fluorite-magnetite-salite rock, magnetite-fluorite-amphibole rock, and magnetite-fluorite-chlorite rock. The retrograde alteration of the skarns is characterized by a progressive addition of fluorine, alkali components, silica, tin, tungsten, and bismuth. A zonation from garnet-pyroxene skarn or garnet skarn, through fluorite-magnetite-salite rock, to magnetite-fluorite-chlorite rock frequently can be recognized in the deposit. All retrograde-altered rocks contain scheelite, cassiterite, molybdenite, and bismuthinite. During the emplacement of equigranular biotite granite, skarn veins several tens of centimeters wide were developed; they contain large crystals of garnet and vesuvianite, and interstitial scheelite, wolframite, cassiterite, and molybdenite. This second stage of mineralization occurs predominantly as coarse and fine stockwork greisens, which were superimposed on the massive skarns and surrounding marble. Such W-Sn-Mo-Bi-bearing greisens can be divided into topaz greisen, protolithionite greisen, muscovite greisen, and margarite greisen. Besides calcic skarn veins and greisens, manganese skarn veinlets also were developed; they consist of rhodonite, spessartine-almandine solid solution, spessartine, and helvite. The distribution of greisens is responsible for a metal zonation—i.e., W-Sn-Mo-Bi and Sn-Be-Cu-F zones from the contact boundary between the granite stock and skarns outward in the deposit. A third stage of mineralization is represented by lead-zinc veins, which also are accompanied by manganese skarns consisting of spessartine, rhodonite, manganese-rich pyroxene, helvite, tephroite, fluorite, tourmaline, and manganese-rich phlogopite. 相似文献
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松山锡矿位于滇西临沧花岗岩基的西北侧。矿体主要赋存于临沧黑云母二长花岗岩与松山组绢云石英片岩接触带矽卡岩以及花岗岩和围岩的裂隙中。由于缺乏精确的成矿年代学数据,在一定程度上限制了对矿床成因的认识,并制约了进一步的找矿勘查工作。本文首次利用LA-SF-ICP-MS微区原位U-Pb同位素测年技术对松山锡矿床矽卡岩型和电气石石英脉型矿石中的锡石矿物开展了 U-Pb年代学研究获得2件锡石样品的~(207) Pb/~(206)Pb-~(238) U/~(206) Pb谐和年龄分别为76.6±1.5Ma和79.6±3.6Ma,说明松山锡矿锡的成矿作用主要发生在晚白垩世,与临沧花岗岩主体侵位时间(三叠纪)明显不同。结合地质特征和前人年代学研究成果本文认为该地区存在明显的晚白垩世锡的成矿事件,研究区下一步的找矿工作应围绕岩体与围岩接触带,以及岩体和围岩中的断裂展开。 相似文献