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1.
A.D.Saraswat Raje 《大地构造与成矿学》1989,13(2):100-114
在印度三个时代不同的地洼区中,出现重要的赋存于沉积岩中的铀矿化作用。这些地洼区是:a)印度南部的元古代库达帕洼地;b)印度东北部梅加拉亚的白垩纪Madadek盆地;c)印度北部的晚第三纪喜马拉雅前渊。库达帕洼地呈新月形,沿南印度克拉通东缘沉积,紧邻东加茨活动带,面积达44,500km~2。该洼地由数个上升、下落断块组成。在这些断块内,浅水砂质(库达帕亚组)和钙质(库尔努尔组)沉积物厚度超过12km,同时从2,000—600Ma,至少有四期粒玄岩墙侵入。铀矿化作用主要呈沥青铀矿(含硫化物)和次生铀矿物形式,沿库达帕洼地面南缘出现于磷质碳酸盐岩和共生物的帕帕格尼组砂质岩、砾岩中。如Tummalapalli、Ammasripall,在梅加拉亚,约200米厚的河流相、海相砂质、泥质沉积物分布于1.5km高的西隆高原南缘的Mahadek盆地。该盆地的铀矿化限于河流相、边缘海相早白垩世“石英粗砂碎屑岩/亚长石砂岩”型Mehadek砾岩中,如Comasahat,Pdensashakap、Domiasiat,并呈沥青铀矿、水硅铀矿、钛钠矿形式。这些矿物与还原剂(如碳、生物成因黄铁矿)紧密共生。在喜马拉雅前渊,铀矿化赋存于河流相锡瓦利克砂岩中,并主要产于锡瓦利克砂岩的下-中或中-上接触面上,如Thein、Morni、Hamirpur,Naugajiarao等地。矿化主要呈沥青铀矿、水硅铀矿(与硫化物共生)和大量次生铀矿物形式——这主要是由于持续至现在的反复的活化作用和沉淀作用。这三个地洼区铀成矿作用的共同特点是河流相沉积物围岩(主要为砂岩,并来源于丰富的酸性源区)、远成热液成矿作用和原始成矿作用时的强烈还原环境。这特征可作为在地洼区寻找赋存于沉积岩中的铀矿化的标志。 相似文献
2.
T. P. S. Rawat G. B. Joshi Bhaskar Basu Nurul Absar 《Journal of the Geological Society of India》2010,75(5):709-714
Black shale type uranium deposits, though of low grade (<0.001 to 0.05% U3O8), contain large uranium resources because of their immense volume. The Neoproterozoic-Cambrian Krol-Tal Himalayan sequence
covering a cumulative area of about 1000 sq km in five different synclinal basins from Sirmour district, Himachal Pradesh
in the west to Nainital district, Uttar Pradesh in east contain such black shale horizons. The uranium mineralisation found
in black shale in the Nigalidhar syncline of Himachal Pradesh and its implication of being an indicator for search of such
uranium deposits in Himalayas is discussed. 相似文献
3.
Purnajit Bhattacharjee Sukanta Goswami Sangeeta Bhagat M B Verma 《Journal of Earth System Science》2018,127(8):114
The Cuddapah basin consists of generally well-preserved Palaeoproterozoic–Neoproterozoic sedimentary and associated volcanic rocks. The detailed lithological studies of sedimentary rocks of Vempalle Formation from the narrow linear belt of 15 km, in the southern margin, show the occurrence of layered gypsum in the cherty dolostone–shale intercalated facies, red shale and phosphatic dolostone facies of the Vempalle Formation. The petromineralogical studies reveal that gypsum is in close association with anhydrites. Microscopically, three different types of gypsum and anhydrite are identified, viz., lath-shaped, equant-shaped and anhedral-shaped grains. The equant variety corresponds to a granular gypsum, whereas the anhedral grains of gypsum exist as the granular and fibrous variety as seen in the hand specimen. The presence of gypsum/anhydrite has been confirmed by the petromineralogical, X-ray diffraction and chemical analytical data. The phosphatic dolostone is the host rock for stratabound type of uranium deposit at Tummalapalle, Cuddapah district, Andhra Pradesh, which is one of the most unique types of uranium mineralisation in the world. Abundant pseudomorphs of gypsum and anhydrite relicts and discontinuous gypsum layers within these dolostones, nodules of chert and gypsum indicate the interrelationship between the diagenesis and genesis of uranium mineralisation which indicates the carbonate precipitation in the sulphate-rich hypersaline environments. 相似文献
4.
南秦岭铀成矿带含铀层位主要是志留系迭部群、舟曲群、白龙江群,总体为一套海相碳硅泥岩建造。主要岩性为灰岩、炭质板岩、炭硅质板岩、硅质岩、硅灰岩,总厚5000—9000m。铀矿床(点)矿化类型以层控热水改造碳硅泥岩型为主,次为层控炭硅泥岩型。铀成矿以燕山晚期-喜山期为主。铀矿化在空间上可划分为迭部、舟曲-武都、文县-康县矿化集中区。铀矿体的空间展布具有分段集中,成群集结的特点。含铀层位分布广,厚度大,铀源丰富,铀矿床(点)带多且工作程度低,找矿前景好。 相似文献
5.
压溶角砾岩出现征构造带的较深部位并与构造角砾岩伴生,它是碳酸盐岩石构造破碎的一种特殊型式。压溶角砾岩由不同方向的缝合线发育而成,胶结物主要是碳酸盐岩的不溶残余物。碳酸盐岩中的铀含量主要与不溶残余物有关。在压溶作用发育过程中,岩层中的铀被活化、渗滤,在有利的物化环境中被炭、泥等吸附而富集,也可与其它成矿作用叠加而成矿。 相似文献
6.
A reconnaissance exploration survey over 14 000 km2 of Precambrian terrain in South Greenland using stream-sediment and stream-water samples delineated a central uranium district of 2000 km2 with enhanced uranium levels and smaller anomalous zones in the south of the field area.The area is underlain by Archean and Proterozoic gneisses, granites and metasediments all of which have been intruded by late Proterozoic alkaline intrusions (Gardar Province). The terrain is mountainous and the streams are either steep torrents or impeded drainages typical of glaciated terrains with boggy organic rich sediments.The central uranium district was defined by a high uranium background in both stream sediments (5–20 ppm) and stream waters (0.5–1.0 ppb) and a markedly higher frequency of very anomalous values in the order of 50–100's ppm in the stream sediments and 1–10 ppb in the stream waters. An areal correlation of uranium, in this district, with high pH and conductivity in the stream water in addition to a higher organic content noted in the stream sediment raised the question of a possible enhancement of uranium values due to secondary environmental effects. On the other hand, an areal correlation of uranium with niobium and other trace elements characteristically associated with alkaline rocks, and the geographic proximity of this uraniferous district to the alkaline intrusions suggested a genetic relationship between uranium mineralization and the alkaline igneous activity.Limited follow-up work located 8 pitchblende occurrences in this extensive district. The pitchblende is in veins which contain quartz, calcite, iron oxide, fluorite and minor sulphides. The isotopic (U-Pb) age of the pitchblende, which ranges from 1180-1090 Ma, corresponds to the late stages of Gardar alkaline igneous activity. It is concluded, therefore, that the reconnaissance geochemistry reflects a district-wide hydrothermal event related to the late volatile differentiates derived from the highly fractionated alkaline magma. A combination of primary and secondary features have complemented each other in enhancing the geochemical reconnaissance data and emphasized its importance but has not materially altered the interpretation.The south of the field area also has a relatively high uranium background in both the sample media with some discrete anomalous zones, usually with a slightly lower order of magnitude than the central area, but still with a distinct contrast of 5–10 times. Fine-grained uraninite has been found in the area occurring as disseminated grains in pegmatitic elements as in the central district. Isotopic ratios (U-Pb) suggest an age of 1728 ± 30 Ma which probably reflects the long cooling of the granite.It is concluded that the geochemical reconnaissance data delineated two uranium metallogenic districts characterized by distinctly different types of uranium mineralization. It is suggested that South Greenland may be part of a much wider uranium geochemical province which includes parts of Labrador. To the present plate-tectonic models, which suggest such a connection (Le Pichon et al., 1977), must be added the comparable reconnaissance geochemical results (G.S.C. Open Files nos. 748 and 749), and the similar 1730 Ma age of the Kitts uranium mineral occurrence in Labrador (Gandhi, S.S , 1978) to that of the uraninite found in the south of the field area in Greenland. 相似文献
7.
南岭成矿带是中国重要的铀矿基地,产出的铀矿床以花岗岩型为主,其次为碳硅泥岩型和少量砂岩型。本文通过搜集整理前人找矿勘查和科研成果,认为南岭成矿带多期多阶段构造演化为铀成矿作用提供了初始铀源、产铀花岗岩、断裂网络和含铀热液等有利的成矿条件。产铀花岗岩大多是由高硅、过铝、偏钾高碱的S型花岗岩,沿断裂分布的构造碎裂岩、蚀变岩和还原性地质体是有利的赋矿围岩。矿化与蚀变中心带发育沥青铀矿、黑色微晶玉髓、紫黑色萤石、胶状黄铁矿、赤铁矿、绿泥石等矿物组合。铀矿体形态多样,以中小规模、中低工业品位为主。南岭成矿带中新生代多阶段区域性拉张过程中形成了多阶段铀矿化。花岗岩型铀矿床分布于加里东隆起区花岗岩内部构造结和岩体接触带附近,矿体沿断裂与蚀变体一起赋存于氧化-还原界面和脆韧性构造转换面之间的"成矿壳层"内。南岭成矿带中新生代"空间全位"铀成矿模式显示,不同的构造层、不同的建造、不同的岩性及不同的部位均有铀成矿潜力,但由于具体成矿条件的不同组合而产出不同类型、不同规模、不同时间和不同强度的铀矿化。也就是说,难以排除某一空间部位不成矿的可能性。根据这一"全位"成矿的认识,从不同的角度对南岭成矿带中新生代铀成矿作用进行全面分析,找出尚未落实的"缺位",再根据工作区具体成矿条件指导铀矿找矿新突破。 相似文献
8.
Shailendra Kumar Madhupurna Roy Pradeep Pandey C. L. Bhairam P. S. Parihar 《Journal of the Geological Society of India》2013,81(3):369-376
In the westernmost part of the Bundelkhand Granitoid Complex (BGC), a mesa structure represents a unique outlier, surrounded by brecciated granite and filled with Vindhyan sedimentary rocks locally known as the Dhala Formation near Mohar village of Shivpuri district, Madhya Pradesh. Uranium mineralisation located in the area is mostly associated with rhyolite of peralkaline to peraluminous in nature, that has a high average uranium concentration (30 ppm). The mineralization is in or adjacent to caldera and is hydrothermal vein-type. Radioactivity is mainly due to coffinite with limited radioactivity due to U-Ti complex, uranium adsorbed in clay and labile uranium along fracture. Coffinite occurs in association with pyrite and chalcopyrite or chlorite with presence of fluorite. Features such as chloritisation, clay formation and sulfide mineralisation manifest hydrothermal alteration. Chemical analysis indicates the aluminous nature of the rock and their high K2O/Na2O (3.81–12.84) ratios are suggestive of predominance of potash feldspar over sodic. The alteration index varies from 49.88–92.40, which, reflects high intensity of hydrothermal alteration. Chlorite-carbonatepyrite index (CCPI), a measure of the intensity of replacement of sodic feldspars and glass by sericite, chlorite, carbonate, and pyrite associated with hydrothermal alteration proximal to the ore bodies varies from 3.84–49.66. On the basis of core study, geochemistry and mineralogy, it is envisaged that epigenetic hydrothermal solutions were responsible for concentration of uranium as coffinite, radioactive carbonaceous matter and adsorbed uranium phases in rhyolite with sulfide confined to weak planes. 相似文献
9.
J. A. Cooper 《Australian Journal of Earth Sciences》2013,60(4):483-486
Discordant uranium‐lead isotope measurements are reported for a sample of Nabarlek pitchblende. These are compared with earlier measurements on uranium minerals from the South Alligator River area. New interpretations suggest that regional uranium mineralisation took place either 710 or 815 m.y. ago; the lower of these calculations is based on the assumption of modern episodic lead loss, and the higher assumes lead loss by continuous diffusion. 相似文献
10.
The Baxingtu deposit is a typical redox front tabular-shaped uranium deposit hosted in sandstones of the Late Cretaceous Yaojia Formation deposited within a braided river environment during the post-rift stage of the Songliao Basin, in northeast China. This study proposes the first metallogenic model for the Baxingtu deposit and provides new data on genetic processes involved in the uranium mineralisation of sandstone-type deposits that were characterised through petrographic observations, whole-rock geochemistry, and geochemical and/or mineralogical study of iron disulphide, uranium minerals, Fe-Ti oxides (EPMA, LA-ICP-MS), and organic matter (REP). The δ34S value has been measured in situ by SIMS on the different generations of iron disulphide.Within regional primary reduced sandstones, pre-ore uranium enrichment (Umean = 7.6 ppm in whole rock) was identified on altered Fe-Ti oxides along with minor concentrations on organic matter (respectively 26.3% and 1.3% of the whole-rock U content), which together represent a significant source of uranium for the mineralisation. Additional pre-ore uranium concentrations may also be associated with clay minerals. Petrographic observations and REP data indicate that organic matter occurring in the host-sandstone is mainly inherited from land plants and corresponds to type III or type IV kerogens. Ore-stage iron disulphides largely occur as framboids and in replacement of organic matter or also as sub-idiomorphic to idiomorphic cement and crystal. Trace element signatures detected within framboids are likely indicative of formation mainly from a single event. Framboids and iron disulphide in replacement of organic matter have a light sulphur isotope signature characterised by δ34S values from −72.0 to −6.2‰, suggesting that sulphur originated from bacterial sulphate reduction, which was mainly responsible for (1) the liberation of U from Fe-Ti oxides and organic matter, (2) the generation of ore-stage iron disulphides, (3) the bioreduction of uranium and (4) the production of a secondary H2S-rich reducing barrier also involved in uranium reduction. Uranyl and sulphate ions were transported through the host sandstone by low-temperature oxygenated groundwater and U(IV) was precipitated at the redox interface as nano to microcrystals of pitchblende and coffinite, dominantly associated with bacterial substrate and as intergrowth with biogenic iron disulphide or directly associated with organic matter and residual Ti-Fe oxides. The uranium mineralisation does not replace ore-stage iron disulphides. Therefore, the combined mineralogical, geochemical, and isotopic characteristics of the Baxingtu tabular uranium deposit characterise dominantly biogenic processes for the genesis of the uranium mineralisation. 相似文献
11.
T. P. S. Rawat Madhuparna Roy G. B. Joshi 《Journal of the Geological Society of India》2018,91(1):25-31
Sonrai basin, located along the southwestern margin of Bundelkhand Granite-Gneiss Complex (BGC) is known for its base metal and phosphorite mineralization. Uranium mineralization of appreciable grade and thickness was reported in Pisnari block in the northern part of this basin during sub-surface exploration activity in 1976-97. This was in the form of uranium-bitumin association within fractures in the carbonate-terrigenous sediments of Gorakalan shale, Rohini carbonate and Bandai sandstone of Sonrai Formation of Bijawar Group. Similar mineralization was also noted within the lower chloritic shale member of Solda Formation of the same Group. During subsequent drilling activity at a later phase (2005-09), uranium rich zones within Rohini carbonate and chloritic shale members were corroborated by the interception of mineralized bands in two boreholes drilled near Pisnari. Petrographic study of radioactive core samples reveal that uranium mineralization is closely associated with globular carbonaceous matter and sulphides along the fractures. Uranium is either adsorbed in carbonaceous matter or occurs as ultrafine inclusions of coffinite within carbonaceous matter. An additional phase of secondary uranium mineral (uranophane) is also noted in one of the boreholes. The uranium minerals, in association with sulphides, fill up moderately dipping fractures (approximately 15o towards North) which are oblique to the core axis of the inclined borehole and thus, the mineralization is characterized as hydrothermal fracture-controlled vein type mineralisation. C-HN- S analysis of carbonaceous matter occurring in close association with the uranium minerals reveal heterogeneity in composition with respect to carbon and sulfur. The present paper aims at discussing the geological, petrological and radiometric aspects of this mineralization, so as to enhance the understanding of the same. 相似文献
12.
近年,在新疆西南天山乌恰县吉根地区首次发现锰矿带,长大于28km,向北延伸至吉尔吉斯斯坦。锰矿层沿锰矿带断续出露长约14km。博索果山锰矿位于锰矿带南部,已发现具一定规模的富锰矿体,有望评价一处中型锰矿床。锰矿赋存于下泥盆统萨瓦亚尔顿组第二段,层控特征明显,属沉积成因。含矿岩石组合为硅质岩、硅质板岩、炭质页岩、硅质粉砂质板岩,夹泥晶灰岩透镜体等。锰矿受控于博索果山背、向斜构造。向斜核部更有利于储存厚度大、品位高的锰矿体,剥蚀程度小,有较大的找矿前景。乌恰地区锰矿找矿标志明显,地表基本能快速发现。 相似文献
13.
为了进一步深化铀矿物的富集机理.利用α径迹放射性照相、扫描电镜、电子探针等方法对鄂尔多斯盆地北部铀矿床中铀矿物的赋存状态进行了系统研究.发现该区铀矿物主要为铀石,少量沥青铀矿和含铀钛矿物.沉积-成岩期碎屑铀矿物赋存在碎屑颗粒内部,吸附在锐钛矿周围,为铀储层中预富集的铀.成矿期铀矿物大部分赋存在碎屑颗粒填隙部位,与黄铁矿、碳质碎屑相伴生,与石英颗粒及方解石胶结关系密切;部分吸附在包裹碎屑颗粒的蒙脱石薄膜上.另外发现了,沥青铀矿-赤铁矿-黄铁矿的矿物组合,以及硒铅矿(PbSe)和白硒铁矿(FeSe2)与铀矿物相伴生,并伴有REE含量明显升高.分析得出,沥青铀矿形成于成矿早期,氧化酸性流体与还原碱性流体的过渡界面,偏向于氧化酸性一侧;而铀石主要形成于成矿晚期的还原碱性环境.双重铀源供给、丰富的还原介质、多源流体的耦合,局部的热液流体叠加改造,共同造就了鄂尔多斯盆地北部大矿、富矿的形成. 相似文献
14.
Brijraj K. Das 《Environmental Geology》2005,49(2):230-239
A study of the water and sediment chemistry of the Nainital, Bhimtal, Naukuchiyatal and Sattal Lakes of Kumaun, has shown that the water of these lakes are alkaline and that electrical conductivity, total dissolved solid and bicarbonate HCO
3
−
are much higher in Nainital than in the other three lakes. The weathering of limestone lithology and anthropogenic pollution, the latter due to the very high density of population in the Nainital valley, are the primary sources of enhanced parameters. The low pH of Nainital Lake water is due to low photosynthesis and enhanced respiration, increasing CO2 in the water and the consequent enhancement of Ca2+ and HCO
3
−
. The dissolved oxygen in Nainital Lake is less compared to other lakes, indicating anoxic conditions developing at the mud–water interface at depth. The PO
4
3−
content in Nainital is higher (124 μg/l), showing an increasing trend over time leading to eutrophic conditions. The trace metals (Cu, Co, Zn, Ni, Mn, and Sr) are present in greater amounts in the water of Nainital Lake than in the other three lakes, though Fe and Cr are high in Bhimtal and Fe in Naukuchiyatal. The higher abundance is derived from the leaching of Fe–Mg from metavolcanic and metabasic rocks. Most of the heavy metals (Cr, Ni, Cu, Mn, Fe, Sr, and Zn) significantly enrich the suspended sediments of the lakes compared to the bed sediments which due to their adsorption on finer particles and owing to multiple hydroxide coating and organic content, except for Fe, which is enriched in the bed sediments. The high rate of sedimentation, 11.5 mm/year in Nainital, compared to Bhimtal with 4.70 mm/year, Naukuchiyatal with 3.72 mm/year, and Sattal with 2.99 mm/year, has resulted in shorter residence time, poor sorting of grains, and lesser adsorption of heavy metals, leading consequently, their depletion in the bed sediments of Nainital Lake. 相似文献
15.
16.
修水董坑-东港盆地位于雪峰-九岭和修水-宁国-开化碳硅泥岩型铀矿成矿带交接部位的九瑞多金属矿集区中,盆地内已发现中、小型铀矿床各1处。姜坑地区与已知矿床分布区具有类似的岩相古地理环境和构造、岩性等成矿地质特征,显示着良好的找铀矿潜力。文章在总结近年来盆地深部找矿工作成果的基础上,通过类比分析,认为姜坑地区的铀矿成矿作用以热液叠加改造为主,受震旦系陡山沱组及其层间破碎带的联合控制,在西北部红色碎屑岩覆盖层之下有较大的找矿前景。 相似文献
17.
红石泉矿床位于龙首山铀成矿带的西段,是我国发现的最为典型的伟晶岩型铀矿床,具有岩体型矿化的特点,铀矿化发育于伟晶岩体内部和接触混染带内。通过对含矿主岩伟晶岩进行系统研究表明,红石泉矿床中铀以晶质铀矿、沥青铀矿和铀黑形式存在。在中条造山运动晚期(1 735±67) Ma形成初始铀矿化,并在海西期(356±46) Ma部分矿石发生了热液叠加改造。早期岩浆成矿阶段主要形成晶质铀矿,晚期热液叠加改造阶段主要形成沥青铀矿,并发育了与芨岭钠交代型铀矿床相似的“四位一体”蚀变组合,热液改造过程是一个去K、增Na的过程。 相似文献
18.
The Gümü
hane area near Artvin is highly characteristic due to a significant hydrothermal alteration zone genetically associated with a microdiorite stock and its late-stage derivatives in the form of porphyry plugs that intruded into all the pre-Middle Eocene lithologies. The porphyry intrusion is multi-stage, intermediate to felsic in composition, and divided into pre-ore feldspar porphyries and quartz–feldspar porphyries, syn-ore feldspar–amphibole porphyries, and post-ore feldspar porphyries. Sericitic alteration is dominant, but K-silicate alteration is also observed and is characterised mainly by secondary feldspars, biotites, quartz, anhydrite, magnetite and pyrite veinlets. The central part of the alteration and the porphyry system where syn-ore feldspar–amphibole porphyry outcrops coincides with intense quartz stock-working with anomalous but uneconomical Cu and Au values. In this zone, pyrite is ubiquitous and is accompanied by chalcopyrite and lesser sphalerite, sulphosalts, molybdenite, bornite and magnetite. Chemical analyses of surface and drill core samples show that overall Au and Cu values are around 0.5 ppm and 0.3%, respectively, and that they are in the ranges of 1–2 ppm and 0.3–0.4%, respectively, in the densest stock-work zones.Multi-phase intrusion of porphyries into Late Cretaceous limestone also caused replacement fronts along re-crystallised limestone and porphyry contacts. This type of mineralisation is enriched in Mn, Zn, Cu, Au and Ba, and contains on average 4.7% MnO, 3.2% FeO, 3.1% Zn, 0.95% Cu, 0.3% Pb, 200 ppb Au, 900 ppm Bi and 660 ppm Ba, present in Fe- and Mn-oxides, pyrite, chalcopyrite, sphalerite and lesser bornite, sulphosalts and gold. Supergene oxidation is well developed in these zones.Hydrothermal alteration mass change calculations reflect an intimate relationship between the two types of mineralisation. The lithologies near mineralised fronts are highly depleted in MnO and Zn, and the intensity of depletion is reduced away from the contact into the porphyry. The leached elements are added to the re-crystallised limestone block in which MnO and Zn show an 81-fold and 472-fold increase, respectively, over the least altered limestone. Au and Cu are enriched along the contact both in the porphyry and in the limestone, implying that they may have been derived either from other lithologies in the vicinity or the magma itself. 相似文献
19.
3701铀矿床成因的同位素地球化学研究 总被引:1,自引:0,他引:1
3701铀矿床赋存于L花岗岩体外接触带泥盆系灰岩中.成矿时代属燕山晚期及喜山期.根据铀-铅同位素体系演化特征以及硫、氧、碳同位素组成资料表明,该矿床的成矿物质是多源的,它们来自成矿围岩及花岗岩;矿液水主要来自大气降水.成矿过程经历了围岩成岩阶段铀的预富集、花岗岩侵入时地层中铀的活化转移和增值,围岩吸咐从花岗岩中淋出的铀.以及与燕山期、喜山期构造运动有关的热水溶液改造成矿作用.因此,它属多源、热液改造的层控铀矿床. 相似文献
20.
水口山-临武南北带铀成矿地质条件优越,前人经过多年的地质找矿工作,在带内先后发现了一批铀矿床(点)。笔者通过对该带铀矿床(点)的成矿地质背景、空间分布、矿化特征、成因类型等进行研究,总结了南北带内铀成矿特征及成矿规律。认为区域性隆起及边缘断陷带、深大断裂、背向斜和断层构造等是带内铀成矿的有利条件;带内成岩机制为"沉积变质-动力破碎-热液交代-再动力破碎-再热液交代";铀矿床成因类型主要有热液型、热液叠加型和淋积型3种;各类型铀矿床的成矿模式,总体分为硅质岩系列、花岗岩系列和碳酸盐岩系列。 相似文献