489 resultados para Yunnan.
Resumo:
The Study on rheology of the lithosphere and the environments of the seismogenic layer is currently the basic project of the international earthquake research. Yunnan is the ideal place for studying this project. Through the multi-disciplinary comprehensive study of petrology, geophysics, seismo-geology, rock mechanics, etc., the depth-strength profiles of the lithosphere have been firstly constructed, and the seismogenic layer and its geophysical and tectonic environments in Yunnan have been systematically expounded in this paper. The related results achieved are of the important significances for further understanding the mechanism of strong earthquake generation, dividing the potential foci and exposing recent geodynamical processes in Yunnan. Through the comprehensive contrast of the metamorphic rocks in early and middle Proterozoic outcropping on the surface, DSS data and experimental data of rock seismic velocity under high temperature and high pressure, the petrological structure of the crust and upper mantle has been studied on Yunnan: the upper, middle and lower crust is composed of the metamorphic rocks of greenschist, amphibolite and granulite facies, respectively or granitoids, diorites and gabbros, respectively, and the upper mantle composed of the peridotites. Through the contrast studies of the heat flow and epicenters of the strong earthquakes, the distribution of the geotemperature and the data of focal depth, the relationship of between seismicity and geothermal structure of the lithosphere in Yunnan has been studied: the strong earthquakes with magnitude M ≥ 6.0 mainly take place at the geothermal gradient zone, and the seismic foci densely distribute between 200~500 ℃ isogeotherms. On the basis of studies of the rock properties and constituents of the crust and upper mantle and geothermal structure of the lithosphere, the structure of the rheological stratification of the lithosphere has been studied, and the corresponding depth-strength profiles have been constructed in Yunnan. The lithosphere in majority region of Yunnan has the structure of the rheological stratification, i.e. the brittle regime in the upper crust or upper part of the upper crust, ductile regime in the middle crust or lower part of the upper crust to middle crust, ductile regime in the lower crust and ductile regime in the subcrustal lithosphere. The rheological stratification has the quite marked lateral variations in the various tectonic units. The distributions of the seismogenic layer have been determined by using the high accurate data of focal depth. Through the contrast of the petrological structure, the structure of seismic velocity, electric structure, geotemperature structure, and rheological structure and the study of the focal mechanism in the seismogenic layer, the geophysical environments of the seismogenic layer in Yunnan have been studied. The seismogenic layer in Yunnan is located at the depths of 3 ~ 20 km; the rocks in the seismogenic layer are composed of the metamorphic rocks of greenschist to amphibolite facies (or granites to diorites); the seismogenic layer and its internal focal regions of strong earthquakes have the structure of medium properties with the relatively high seismic velocity, high density and high resistivity; there exists the intracrustal low seismic velocity and high conductivity layer bellow the seismogenic layer, the geotemperature is generally 100~500 ℃ in the depth range in which the seismogenic layer is located. The horizontal stress field predominates in the seismogenic layer, the seismogenic layer corresponds to the brittle regime of the upper crust or brittle regime of the upper crust to semibrittle regime of the middle crust. The formation of the seismogenic layer, preparedness and occurrence of the strong earthquakes is the result of the comprehensive actions of the source fault, rock constituent, structure of the medium properties, distribution of the geotemperature, rheological structure of the seismogenic layer and its external environments. Through the study of the structure, active nature, slip rate, segmentation of the active faults, and seismogenic faults, the tectonic environments of the seismogenic layer in Yunnan have been studied. The source faults of the seismogenic layer in Yunnan are mainly A-type ones and embody mainly the strike slip faults with high dip angle. the source faults are the right-lateral strike slip ones with NW-NNW trend and left-lateral strike slip ones with NE-NEE trend in Southwestern Yunnan, the right-lateral strike slip ones with NNW trend and left-lateral strike slip ones with NNE trend (partially normal ones) in Northwestern Yunnan, the right-lateral strike slip ones with NWW trend in Central Yunnan and left-lateral strike slip ones with NW-NNW trend in Eastern Yunnan. Taking Lijiang earthquake with Ms = 7.0 for example. The generating environments of the strong earthquake and seismogenic mechanical mechanism have been studied: the source region of the strong earthquake has the media structure with the relatively high seismic velocity and high resistivity, there exists the intracrustal low velocity and high conductivity layer bellow it and the strong earthquakes occur near the transitional zone of the crustal brittle to ductile deformation. These characteristics are the generality of the generating environments of strong earthquakes. However, the specific seismogenic tectonic environments and action of the stress field of the seismic source in the various regions, correspondingly constrains the dislocation and rupture mechanical mechanism of source fault of strong earthquake.
Resumo:
As a typical geological and environmental hazard, landslide has been causing more and more property and life losses. However, to predict its accurate occurring time is very difficult or even impossible due to landslide's complex nature. It has been realized that it is not a good solution to spend a lot of money to treat with and prevent landslide. The research trend is to study landslide's spatial distribution and predict its potential hazard zone under certain region and certain conditions. GIS(Geographical Information System) is a power tools for data management, spatial analysis based on reasonable spatial models and visualization. It is new and potential study field to do landslide hazard analysis and prediction based on GIS. This paper systematically studies the theory and methods for GIS based landslide hazard analysis. On the basis of project "Mountainous hazard study-landslide and debris flows" supported by Chinese Academy of Sciences and the former study foundation, this paper carries out model research, application, verification and model result analysis. The occurrence of landslide has its triggering factors. Landslide has its special landform and topographical feature which can be identify from field work and remote sensing image (aerial photo). Historical record of landslide is the key to predict the future behaviors of landslide. These are bases for landslide spatial data base construction. Based on the plenty of literatures reviews, the concept framework of model integration and unit combinations is formed. Two types of model, CF multiple regression model and landslide stability and hydrological distribution coupled model are bought forward. CF multiple regression model comes form statistics and possibility theory based on data. Data itself contains the uncertainty and random nature of landslide hazard, so it can be seen as a good method to study and understand landslide's complex feature and mechanics. CF multiple regression model integrates CF (landslide Certainty Factor) and multiple regression prediction model. CF can easily treat with the problems of data quantifying and combination of heteroecious data types. The combination of CF can assist to determine key landslide triggering factors which are then inputted into multiple regression model. CF regression model can provide better prediction results than traditional model. The process of landslide can be described and modeled by suitable physical and mechanical model. Landslide stability and hydrological distribution coupled model is such a physical deterministic model that can be easily used for landslide hazard analysis and prediction. It couples the general limit equilibrium method and hydrological distribution model based on DEM, and can be used as a effective approach to predict the occurrence of landslide under different precipitation conditions as well as landslide mechanics research. It can not only explain pre-existed landslides, but also predict the potential hazard region with environmental conditions changes. Finally, this paper carries out landslide hazard analysis and prediction in Yunnan Xiaojiang watershed, including landslide hazard sensitivity analysis and regression prediction model based on selected key factors, determining the relationship between landslide occurrence possibility and triggering factors. The result of landslide hazard analysis and prediction by coupled model is discussed in details. On the basis of model verification and validation, the modeling results are showing high accuracy and good applying potential in landslide research.
Resumo:
The Cenozoic high-Potassium alkaline magma rocks are widely distributed in the eastern margin of Qinghai-Xizang (Tibet) plateau, such as Mangkang, Deqin, Jianchuan, Haidong in the western Yunnan Province, Yanyuan, Muli in the western Sichuan province, including syenite, minette and trachyte and lamprophyres, which formaed a large alkaline-rich magmatic rock zone along the Jinshajiang-Ailaoshan fault. Here we present detailed Geochemical and Geochronology study for the Cenozoic high-K alkline magma rocks from Mangkang, Deqin, Jianchuan, Haidong and Muli, Yanyuan, Yanbian, Yaoan (western Yangtze craton). Rocks of our target area include syenite, minette and trachyte. Geochronologic dating and compilation of existing age data suggest magmatism occurred at 32-38Ma and distribute along the Jinsha suture, from Jinping, Daping, Zhenyuan to Haidong, Jianchuan, Deqin, Mangkang, Zaduo to Qiangtang Bandaohu, Zhentouya. They all share same geochemical features such as rich in potassium and alkaline, rich in LREE, slightly negative Eu anomalies, negative anomalies in Nb, Ta, Ti,. These indicate they come from EMU mantle. Geochronologic dating on western Yangtze craton minette surgest minette in Haidong, Yanyuan, Yanbian, Yaoan, Deqin ocurred at 30-37Ma, well minette in Muli ocurred at IMa. Need more detailed geology study to find differece of these two episode magmatism.
Resumo:
This dissertation that includes most of the P. PH.D research work during 2001~2002 covers the large-scale distribution of continental earthquakes in mainland China, the mechanism and statistic features of grouped strong earthquakes related to the tidal triggering, some results in earthquake prediction with correlativity analysis methods, and the flushes from the two strong continental earthquakes in South Asia in 2001. Mainland China is the only continental sub-plate that is compressed by collision boundaries at its two sides, within which earthquakes are dispersive and distributed as seismic belts with different widths. The control capability of the continental block boundaries on the strong earthquakes and seismic hazards is calculated and analyzed in this dissertation. By mapping the distribution of the 31282 ML:3s2,0 earthquakes, I found that the depth of continental earthquakes depend on the tectonic zonings. The events on the boundaries of relatively integrated blocks are deep and those on the new-developed ruptures are shallow. The average depth of earthquakes in the West of China is about 5km deeper than that in the east. The western and southwestern brim of Tarim Basin generated the deepest earthquakes in mainland China. The statistic results from correlation between the grouped M7 earthquakes and the tidal stress show that the strong events were modulated by tidal stress in active periods. Taking Taiwan area as an example, the dependence of moderate events on the moon phase angles (£>) is analyzed, which shows that the number of the earthquakes in Taiwan when D is 50° ,50° +90° and 50° +180° is more than 2 times of standard deviation over the average frequency at each degree, corresponding to the 4th, 12th and 19th solar day after the new moon. The probability of earthquake attack to the densely populated Taiwan island on the 4th solar day is about 4 times of that on other solar days. On the practice of earthquake prediction, I calculated and analyzed the temporal correlation of the earthquakes in Xinjinag area, Qinghai-Tibet area, west Yunnan area, North China area and those in their adjacent areas, and predicted at the end of 2000 that it would be a special time interval from 2001 to 2003, within which moderate to strong earthquakes would be more active in the west of China. What happened in 2001 partly validated the prediction. Within 10 months, there were 2 great continental earthquakes in south Asia, i.e., the M7.8 event in India on Jan 26 and M8.1 event in China on Nov. 14, 2001, which are the largest earthquake in the past 50 years both for India and China. No records for two great earthquakes in Asia within so short time interval. We should speculate the following aspects from the two incidences: The influence of the fallacious deployment of seismic stations on the fine location and focal mechanism determination of strong earthquakes must be affronted. It is very important to introduce comparative seismology research to seismic hazard analysis and earthquake prediction research. The improvement or changes in real-time prediction of strong earthquakes with precursors is urged. Methods need to be refreshed to protect environment and historical relics in earthquake-prone areas.
Resumo:
These are two parts included in this report. In the first part, the zonation of the complexes in its series, lithofacies, the depth of magma source and chambers is discussed in detailed for the first time based on the new data of petrol-chemistry, isotopes, tectono-magma activity of Mesozoic volcano-plutonic complexes in the southern Great Hinggan Mts. Then, the genetic model of the zonality, double overlapped layer system, is proposed. The main conclusions are presented as follows: The Mesozoic volcanic-plutonic complexes in the southern Great Hinggan were formed by four stages of magma activity on the base of the subduction system formed in late Paleozoic. The Mesozoic magmatic activity began in Meso-Jurassic Epoch, flourished in late Jurassic Epoch, and declined in early Cretaceous Epoch. The complexes consist dominantly of acidic rocks with substantial intermediate rocks and a few mefic ones include the series of calc alkaline, high potassium calc alkaline, shoshonite, and a few alkaline. Most of those rocks are characterized by high potassium. The volcano-plutonic complexes is characterized by zonality, and can be divided mainly into there zones. The west zone, located in northwestern side of gneiss zone in Great Xinggan mountains, are dominated of high potassium basalts and basaltic andesite. The middle zone lies on the southeast side of the Proterozoic gneiss zone, and its southeast margin is along Huangganliang, Wushijiazi, and Baitazi. It composed of dominatly calc-alkaline, high potassium calc-alkaline rocks, deep granite and extrusive rhyolite. The east zone, occurring along Kesheketong Qi-Balinyou Qi-Balinzuo Qi, is dominated of shoshonite. In generally, southeastward from the Proterozoic gneiss zone, the Mesozoic plutons show the zones-mica granitites zone, hornblende-mica granitite zone, mica-hornblende granitite zone; the volcanic rocks also display the zones of calc alkaline-high potassium calc alkaline and shoshonites. In the same space, the late Paleozoic plutons also display the same zonality, which zones are combined of binary granite, granodiorite, quartz diorite and diorite southeast wards from the gneiss. Meso-Jurassic Epoch granite plutons almost distribute in the middle zone on the whole. Whereas late Jurassic Epoch volcanic rocks distribute in the west and east zone. This distribution of the volcano-plutonic complexes reveals that the middle zone was uplifted more intensively then the other zones in Meso-Jurassic and late Jurassic Epoches. Whole rock Rb-Sr isochron ages of the high potassium calc-alkaline volcanic rocks in the west zone, the calc-alkaline and high potassium calc-alkaline granite the middle zone, shoshonite in the east zone are 136Ma, 175Ma and 154Ma, respectively. The alkaline rocks close to the shoshonite zone is 143Ma and 126Ma. The isochron ages are comparable well with the K-Ar ages of the rocks obtained previously by other researchers. The compositions of Sr ans Nd isotopes suggest that the source of Mesozoic volcanic-plutonic complexes in Great Hinggan Mts. is mostly Paleo-Asia oceanic volcanic-sedimentary rocks, which probably was mixed by antiquated gneiss. The tectonic setting for Mesozoic magmatism was subductive continental margin. But this it was not directly formed by present west Pacific subduction. It actully was the re-working of the Paleozoic subduction system( which was formed during the Paleo-Asia ocean shortening) controlled by west Pacific subduction. For this reason, Although Great Hinggan Mts. is far away from west Pacific subduction zone, its volcanic arc still occurred echoing to the volcanic activities of east China, it, but the variation trend of potassium content in volcano-plutonic complexes of Great Hinggan is just reverse to ones of west Pacific. The primitive magmas occurred in the southern Great Hinggan Mts. Include high-potassium calc-alkaline basalt, high potassium calc-alkaline rhyolite, high potassium rhyolite, non-Eu negative anomaly trachy-rhyolite et al. Therefore, all of primitive magmas are either mafic or acid, and most of intermediate rocks occurring in the area are the products of Mesozoic acid magma contaminated by the Paleozoic volcanic- sedimentary rocks. The depth of those primitive magma sources and chambers gradually increase from northwest to southeast. This suggests that Paleozoic subduction still controlled the Mesozoic magmatism. In summary, the lithosphere tectonic system of the southern Great Hinggan Mts. controlling Mesozoic magmatism is a double overlapped layer system developing from Paleozoic subduction system. For this reason, the depth of crust of the southern Great Hinggan Mts. is thicker than that of its two sides, and consequently it causes regional negative gravity abnormity. The second part of this report shows the prolongation of the research work carried on in my doctor's period. Author presents new data about Rb-Sr and Sm-Nd isotopic compositions and ages, geochamical features, genesis mineralogy and ore deposit geology of the volcanic rocks in Kunyang rift. On the base of the substantial work, author presents a prospect of copper bearing magnetite ore deposit. The most important conclusions are as follows: 1. It is proved that all of these carbonatites controlled by a ringing structure system in Wuding-Lufeng basin in the central Yunnan were formed in the Mesoproterozoic period. Two stages could be identified as follows: in the first stage, carbonatitic volcanic rocks, such as lavas(Sm-Nd, 1685Ma), basaltic porphyrite dykes(Sm-Nd, 1645Ma), pyroclastic rocks and volcaniclastic sedimentary rocks, formed in the outer ring; in the second stage, carbonatitic breccias and dykes(Rb-Sr, 1048 Ma) did in the middle ring. The metamorphic age of the carbonatitic lavas (Rb-Sr, 893 Ma) in the outer ring was determined. The magma of carbonatitic volcanic rocks derived mainly form enriched mantle whose basement is depleted mantle that had been metasomated by mantle fluid and contaminated by Archaean lower crust. Carbonatitic spheres were discovered in ore bearing layers in Lishi copper mining in Yimen recently, which formed in calcite carbonatitic magma extrusion. This discovery indicates that the formation of copper ore deposit genesis relates to carbonatitic volcanic activity. The iron and copper ore deposits occurring in carbonatitic volcanic- sedimentary rocks in Kunyang rift results from carbonatitic magmatism. Author calls this kind of ore deposits as subaqueous carbonatitic iron-copper deposit. The magnetic anomaly area in the north of Lishi copper mining in Yimen was a depression more lower than its circumference. Iron and copper ores occurrig on the margin of the magnetic anomaly are volcanic hydrothermal deposit. The magnetic body causing the magnetic anomaly must be magnetite ore. Because the anomaly area is wide, it can be sure that there is a large insidious ore deposit embedding there.
Resumo:
Yuanmou area lies on the southeastern edge of the Tibetan Plateau, the middlesegment of Yunnan-Sichuan North-South Extending Tectonic Belt and the upper reaches of the Yangztze River, which is renowned for its thick late Cenozoic fluvial-lacustrine sequences that yield rich mammalian fossils including hominoid and early human. The sediments provides great potentials for understanding the relationships between uplift of the Tibetan Plateau, evolution of hominoids and other mammalian and evolution and formation of basins in Southwest China since late Miocene. However, lithostratigrphic and chronologic views on them are controversial and hinder further discussion of the relationships of them. To this end, we selected the Baozidongqing section and the Dapoqing section to carry out systematic lithostratigraphic, magnetostratlgraphic and environmental magnetism researches in this area.The Baozidongqing section was dated to about 10.95-7.17 Ma. The age estimation of the topmost hominoid-bearing layer was about 7.43-7.17 Ma. Rock magnetic results show that the dominant magnetic carrier is hematite, with minor amount of magnetite. Both the composition and concentration of magnetic minerals strongly correlate with the lithostratigraphy, indicating that Yuanmou basin is characterized by alternating of long-term torrid-humid climate and short-term dry-hot climate. But the pattern of these short-term hot-dry events, including both the lasting time and the frequency of their occurrence dramatically changed since -8.1 Ma. Our results infer that the drying process of the Asian west interior and a significant uplift of the Tibetan Plateau would have probably caused jointly the extinction of hominoids, or the emigration of hominoids from Yuanmou to adjacent relatively torrid-humid areas.The strata between the upper of the Dapoqing section, the Niujianbao Hill and Shangnabang area can be linked by three mark layers of conglomerate, which is rather continuous and coherent than physical disturbance by new tectonic activities. Rock magnetic studies indicate that hematite is the main magnetic carriers. The section is dated back to about 2.8-1.37 Ma. Its paleocurrent flowed northeastward, which was a close and stagnant river and swamp environment about 2.2 Ma ago. Then it ran northwestward and turned into an open overflown and braid river sedimentary face during 2.2 to 1.57 Ma. Since 1.57 Ma, the paleocurrent flowed intensely northwestern and about 1.37 Ma ago, it ended the basically continuous fluvial-lacustrine deposition.
Resumo:
矿产资源开采利用过程中导致的重金属环境污染问题日益严重。我国铅锌矿资源丰富,其开采利用过程中镉的环境污染也日益突出。本文通过对云南兰坪金顶Pb-Zn矿区矿床开采利用过程中镉等重金属元素的环境地球化学行为及矿区生态环境的研究,得出如下主要结论。 1. 矿石淋滤实验表明矿区部分氧化铅锌矿石可以很快被再次氧化或者被溶解并释放出大量镉等有害元素,滤出元素可以迅速发生沉淀或被沉淀物包裹,其释放能力表现为Zn>Pb>Cd。铅锌氧化矿石中菱锌矿组分含量是影响镉淋失的主要因素。在开放体系的水-岩作用下,矿区岩石、矿物的自然风化极易造成当地水系统中镉污染。 2. 矿区不同岩(矿)石中镉含量分布差异比较大,围岩中镉含量为50-650 ppm,平均310 ppm,原生矿中镉含量为14-2800 ppm,平均767 ppm,氧化矿中镉含量为110-8200 ppm,平均1661 ppm,其平均值最高。Zn、Cd地球化学性质的差异导致了二者在原生矿和氧化矿中的不同地球化学分配特点,原生矿Zn/Cd高于氧化矿Zn/Cd,表明氧化环境中镉更容易在氧化矿中富集,而锌更容易被氧化析出到环境中。氧化矿中Cd与Ca呈负相关,这表明Cd的富集和Ca的氧化淋失是同时进行的,并且还可能有Cd对Ca的类质同像代替存在。 3. 矿区上游对照区土壤中的高含量Cd浓度是因土壤母质层重金属高背景值造成的,而非人为污染。矿区中心区土壤受到严重Cd污染,可能与选厂、采场废石堆、尾矿库和露采矿山大范围暴露有关。矿区沿沘江下游两岸土壤中Cd含量远远超出上游土壤背景值和金顶全区土壤背景值,这可能是与污水灌溉有关。通过加权综合污染指数评价法发现矿区土壤污染的主要因子是Cd,其次是Zn和Pb,矿区土壤重金属污染贡献顺序为:Cd>Zn>Pb。矿区土壤污染主要表现为:矿区土壤污染有从中心区向沘江下游扩散区土壤中蔓延的趋势。 4. 矿区水体中出现较高含量的镉,高出天然河流中镉含量的50-100倍。矿区架崖山、北厂和跑马坪等采矿区水体中镉浓度范围在15-30 µg/L之间。矿区水体中镉含量水平表现为:矿山浅层地下水>矿山溪流水>沘江河水。研究结果表明,矿区沘江下游河段水体明显受镉污染,其中水体中镉的平均含量为15.7 µg/L,悬浮物中镉含量为49.3 mg/kg,沉积物中镉含量为203.7 mg/kg。矿区载镉岩石和矿物的自然风化是造成矿区水环境中镉污染的直接原因。 5. 跑马坪采场的废弃石具有较低的Cd含量,而北厂、架崖山采场的废弃石具有较高的Cd浓度,可能与废弃矿石类型本身差异有关。尾矿剖面中的Cd含量,在表层中随剖面深度呈递减趋势,在中层随剖面深度变化不明显,而在底层中明显富集。尾矿库表层尾矿样品中弱酸提取态和可还原态Cd高于底层尾矿样品,相比之下,表层尾矿中Cd等重金属元素易于释放到环境中,对环境的潜在危害大。老尾矿库尾矿砂中Cd金属总量高于新尾矿库尾矿砂,可能还是因为选矿工艺、技术的差异造成的。 6. 矿区污染段水体中硫同位素值较低,远远低于上游非污染区硫同位素值。矿区水体中δ34S值保持了金顶铅锌矿山源区矿山物质硫同位素的特征,显示了矿山来源物质的影响。根据水体硫酸盐中硫同位素稀释原理,研究发现沘江下游水体SO42-中85 %的硫来源于矿山物质。 7. 从矿区筛选出Cd、Zn、Pb的超富集植物共有4种:其中Cd超富集植物有2种,分别是本地生条裂萎陵菜(Potentilla lancinata Card. In Lecomte)和辣子草(Galinsoga parviflora Cav.);Zn超富集植物仅发现有1种植物,为节节草(Equisetum ramosissmum Desf.);Pb超富集植物发现了1种植物,为毛莲菜(Picris hieracioides L.)。这些植物均具备了超富集植物的基本特征,在污染土壤治理与修复方面具有一定的实践意义。 8. 建立了金顶铅锌矿山(床)地质环境模型。Cd的释放、迁移扩散模式为:雨水淋滤时,矿山固体废弃物产生富Cd的酸性或弱酸性矿山排水,通过下渗淋滤发生测向和垂向迁移,进入周边水体和土壤,然后被水系沉积物中针铁矿、方解石等吸附,并在沉降物中沉淀富集,导致矿区主要河流沘江水体的自净能力下降,加速水体的进一步恶化,破坏生物生存环境。矿区受污染水体、土壤和大气中的有害物质通过生物链进入动植物体内,进而危害人类健康。
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南温河花岗岩分布于中-越接壤处的云南省马关县、麻栗坡县老君山地区穹隆状变形-变质岩系的内核部位,大地构造位置位于华南褶皱带西端与上扬子地块、哀牢山褶皱带和印支地块的接合部位,是研究华南大陆形成与演化及特提斯构造域时空发展的关键地区。前人对本地区花岗岩的研究,更多的集中在燕山期老君山花岗岩的研究上,而对南温河花岗岩的研究还没有引起足够的重视,还停留在初步的岩石学和地球化学阶段。 本文对滇东南老君山地区南温河花岗岩进行了U-Pb、Rb-Sr同位素年代学和主微量、Sr-Nd同位素地球化学的系统研究,取得了以下主要认识: 1、通过对南温河花岗岩 SHRIMP锆石U-Pb、TIMS锆石U-Pb年代学和全岩Rb-Sr年代学的研究,确定了南温河花岗岩主体的结晶年龄为440Ma左右,少量结晶为420Ma左右, 属于广西运动产物。在同位素年代学和岩石学研究基础上,重新对南温河花岗岩进行了岩石单元划分,归并为猛洞河单元和南加河单元两个单元。南捞片麻岩并非如1:50000麻栗坡县幅、都龙幅所认为的新元古代岩浆岩,也同属加里东期岩浆岩,应归属于猛洞河单元。 2、南温河序列花岗岩成分来源主要为上部地壳的泥质岩、粉砂岩、杂砂岩的部分熔融,可能还有少量地幔物质和下部地壳物质的加入。成因上主要属于S型花岗岩,少量属于 I型花岗岩。 形成的构造环境上,主要为同碰撞环境,少部分为造山后环境。 继承锆石年龄和Sr-Nd同位素地球化学特征显示,源区存在古元古代的古老地壳。 3、结合SHRIMP和TIMS锆石U-Pb年代学两种测年方法的差异,确定了后期的主变质年龄为 230Ma左右,提出了确定后期中-浅变质作用年龄的一种新思路。 4、通过南温河花岗岩热年代史反演,恢复了本区加里东期以来的构造历史,并初步探讨了本区加里东期的大地构造环境。
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中甸格咱地区是在晚三叠世甘孜-理塘洋盆向西俯冲过程中所形成的中甸弧的主弧带,区内岛弧火山活动和岩浆侵入活动均非常强烈,广泛分布有印支期斑岩体,同时发育有众多的与其有关的斑岩型和矽卡岩型矿床或矿点。普朗斑岩铜矿就是近年来在该区发现的一个大型乃至超大型矿床,目前已圈定5个矿化体,7个工业矿体,其中,主矿体探明铜资源量436.5万吨。 本论文主要从区域地质背景、矿床地质特征、元素地球化学、同位素地球化学、流体包裹体地球化学、矿床年代学及成矿机理等角度对普朗斑岩铜矿进行了较为系统的研究,主要获得如下认识: 普朗复式岩体具明显的多次脉动侵入特征,可分为三期:第一期为大面积分布的石英闪长玢岩(部分为二长闪长玢岩),第二期为岩体中心的石英二长斑岩和花岗闪长斑岩,第三期为岩脉状闪长玢岩。岩体具有典型的斑岩铜矿蚀变分带特征,由内向外依次为强硅化带(局部)→钾化硅化带→绢英岩化带→青磐岩化带。 矿化石英二长斑岩的锆石离子探针U-Pb年龄约为226~228Ma;钾化硅化带中黑云母的40Ar-39Ar坪年龄约为210~216Ma;含矿石英脉中辉钼矿Re-Os等时线年龄约为214Ma。 普朗岩体总体显示I型花岗岩类特征,属典型的钙碱性系列岩石。锶、钕、铅同位素特征显示其岩浆源区具有幔源物质(占主要地位)与壳源物质较为均匀混合的特征。金属硫化物的硫、铅同位素特征显示成矿元素与岩体具有密切的亲缘关系。脉石矿物的氢、氧、碳同位素特征和流体包裹体特征显示成矿流体自钾化阶段至网脉状矿化阶段均具岩浆流体特征。 根据不同期次的含矿石英脉中的流体包裹体特征,主要发现有四种流体:高盐度岩浆流体(盐度:34~54wt%NaCl)、含CO2低盐度流体(盐度:2.7~6.4wt%NaCl,XCO2:0.04~0.25)、中等盐度流体(盐度:19~25wt%NaCl)以及低盐度水溶液(盐度:<10wt%NaCl)。这些流体可能主要是原始岩浆流体演化至不同阶段的产物。 原始岩浆流体可能有两种来源:其一是斑岩侵入过程中自身分异的流体,其二是岩浆房中分异的流体。其中,岩浆房来源的岩浆流体对普朗岩体的蚀变及矿化作用起到了主导性作用。主成矿期金属硫化物的沉淀主要与流体系统开放后因其物理化学条件的变化而产生的流体相分离作用及流体对围岩的蚀变作用有关。
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白牛厂矿床是超大型银多金属矿床,除银储量(>7000t)达到超大型规模外,铅、锌、锡储量均达大型规模,同时伴生大量的分散元素(In、Cd、Ge、Ga等)。矿床位于滇东南个旧和都龙矿田之间,赋存于华南加里东褶皱系滇东南褶皱带西北缘的中寒武统细碎屑岩系之中,北西面以弥勒断裂与扬子地块分界,南西以红河断裂为界与哀牢山断块毗邻,南连越北古陆,东部文麻断裂与南岭褶皱系连为一体,区内地质构造、岩浆活动和矿化作用均较复杂,各构造单元的构造演化对白牛厂银多金属矿床均有不同程度的影响。 白牛厂银多金属矿床自80年代后期被发现以来,已有多家单位和个人在该区开展了一系列的研究工作。但是,在成矿物质及流体来源、矿床成因、矿床与花岗岩的关系等方面都存在诸多争议。本文在深入细致的野外地质工作基础上,对矿石进行了系统的显微镜鉴定,并对部分矿物做了电子探针定量及面扫描分析,详细研究了矿床成矿元素特征及主量元素、微量元素、稀土元素、同位素地球化学特征,主要取得以下结论性成果: 1. 银矿物的赋存状态及形成阶段。银主要以硫盐或复硫盐矿物的形式出现,方铅矿是主要的载银矿物。原生银矿物明显分为两组:一组为Ag的黝铜族矿物和Ag的锑硫盐矿物,产于方铅矿的内部或与方铅矿连生形成文象状连晶,与方铅矿具有相似的物源,属热水沉积成因;另一组为Ag的锡硫盐矿物,产于方铅矿边部,往往伴随锡石、黄锡矿、辉锑锡铅矿产出,可见黄锡矿交代锡石形成镶边结构,暗示了其岩浆热液成因。 2. 花岗岩特征及其与成矿的关系。白牛厂矿区花岗岩具有富硅、富碱及高钾低钠特点,属铝过饱和钙碱性岩,与花南改造型花岗岩相似,属同碰撞S型花岗岩,成岩物源主要是基底变质岩重熔作用形成的花岗岩浆,Ag、Pb、Zn、Sn等成矿元素含量较高;与矿石稀土元素对比研究表明,花岗岩稀土配分模式与矿区东南部穿心洞、对门山和阿尾矿段矿石相似,而与矿区西北部白羊矿段矿石相差较大,暗示后期岩浆叠加改造作用主要发生在矿区东南部诸矿段。 3. 矿床含矿沉积建造地球化学特征。通过与中国大厂、个旧典型热水沉积硅质岩,加拿大沙利文矿山的条带状富电气石热液沉积岩和加拿大Agnico-Eugle矿山的铁建造中的条带状燧石岩以及现代海底热水沉积物对应的主量元素、微量元素及稀土元素对比研究,为白牛厂矿床含矿沉积建造提供了热水沉积成因的地球化学证据,指出该区中寒武世可能发生了广泛的热水沉积事件。 4. 成矿物质及成矿流体来源。系统的铅、硫同位素研究表明,中寒武世热水沉积成矿期金属成矿元素及硫主要是由下地壳古老变质岩淋滤出来的;燕山期花岗岩也在矿区东南部叠加改造较强的部位提供了Sn等部分金属成矿元素及硫。碳、氧同位素及矿石稀土元素反映矿床早期成矿流体源于深部岩浆,晚期主要来源于燕山期花岗岩浆。 5. 矿床分散元素特征。分散元素In、Cd、Ga含量较高,平均含量分别为33.21×10-6、389.8×10-6、10.18×10-6,初步估计该矿床In、Cd、Ga储量分别大于180t、20000t、600t,闪锌矿是分散元素In、Cd、Ga主要的载体矿物。 6. 可能的矿床成因模式。白牛厂银多金属矿床是长期以来多种地质作用综合的产物,具有多来源、多期次成矿特点,经历了广泛且具有重要成矿意义的中寒世热水沉积成矿作用和燕山晚期岩浆热液叠加改造作用,热水沉积成矿作用形成了层状、似层状矿体,燕山期岩浆热液在矿区东南部对矿床强烈叠加改造,白牛厂银多金属矿床应属“热水沉积+岩浆热液叠加改造”成因。
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都龙锡锌多金属矿床位于云南省马关县都龙镇,是我国最大的锡石硫化物矿床之一。在野外地质和岩矿鉴定基础上,本文对该矿床的绿泥石、鲕状黄铁矿、磁黄铁矿异构交生体、铁闪锌矿的“黄铜矿疾病”等矿物和特殊组构,开展了比较系统的电子探针、拉曼光谱和X光衍射等微束分析,结合对该矿床的黑云母Ar-Ar年代学、锡石TIMS法U-Pb年代学研究,基本明确了矿床各个成矿期次的具体成矿特点,丰富和完善了该矿床的成矿模式。论文取得的主要认识有: (1)绿泥石与锡矿化同为燕山期岩浆热液作用的产物。绿泥石的形成温度(231~304oC)和环境(还原环境)表明,岩浆热液叠加成矿环境为中、低温的还原环境。 (2)鲕状黄铁矿为热水沉积期的特征矿物,是Fe、Zn、S等成矿元素的主要物源。 (3)磁黄铁矿主要在区域变质晚期,由黄铁矿(主要为鲕状黄铁矿)变质脱硫而成。辣子寨矿段单斜磁黄铁矿的出现,说明燕山期岩浆热液叠加成矿温度在该矿段以中低温为主。 (4)铁闪锌矿的“黄铜矿疾病”主要是黄铜矿交代铁闪锌矿的结果,其中的Fe主要来自变质期形成的铁闪锌矿和磁黄铁矿,而Cu主要来自岩浆热液。 (5)自然铋、自然银、锡石、黄铜矿、方铅矿等矿物广泛共生,且交代、穿切其他矿物,表明岩浆热液期的成矿元素组合主要为Bi+Ag+Sn+Cu+Pb。在该矿床首次发现的自然铋和自然银,指示岩浆热液期为低硫、中低温的还原环境。 (6)利用远红外(IR-Laser)阶段加热技术,获得黑云母的低温段和高温段坪年龄,分别为179.0± 5 .0Ma和195.7± 6.6Ma。在黑云母组构显微分析的基础上,认为179.0± 5 .0Ma大致代表了变质成矿作用的年龄。 (7)都龙锡锌多金属矿床属于多成因复成矿床,其形成主要经历了热水沉积、变质改造和岩浆热液叠加三个过程。热水沉积成矿作用形成的鲕状黄铁矿,可能是后期成矿作用中Fe、Zn、S等成矿元素的主要物源。变质改造成矿作用与印支期晚期区域变形-变质作用有关,形成了大量铁闪锌矿、磁黄铁矿,可能对应于造山后伸展事件。岩浆热液叠加成矿作用与燕山晚期老君山花岗岩有关,发生大规模的锡、铜、银、铅、铋矿化。 另外,本次研究在该矿床中首次发现了自然铋、自然银等自然元素,其矿床成因意义有待进一步研究。
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云南省大红山铁铜矿床位于康滇地轴南端西缘,介于红河深断裂与绿汁江深断裂所夹持的滇中台坳内,赋存于中元古代大红山群海相火山喷流-沉积岩系中,是我国典型的火山岩型块状硫化物(VHMS)矿床之一。该矿床包括一系列与火山喷发-岩浆侵入活动相关但成因有一定差别的矿床,被统称为“大红山式”铁铜矿床。该矿床经济价值巨大,铁、铜储量均达超大型矿床规模,但其研究程度较低,多停留在矿区地质特征层面上,地球化学研究较为薄弱。本次工作系统地研究了大红山层状铜矿床中各类岩石的岩相学特征,对特征矿物做了电子探针定性和定量分析,挑选火山质岩石中锆石做定年分析,系统分析了岩石的主量元素和微量元素,测定了硫化物的硫和铅同位素,并选取了与富集型硫化物相关的石英脉矿物和碳酸盐矿物分别做流体包裹体和碳、氧同位素研究。论文取得的主要认识如下: 1.红山群曼岗河组火山喷流-沉积年代约为1687±8Ma,即形成于早-中元古代,因此不可能遭受如前人所说的吕梁运动改造作用。在700 ~ 800Ma左右,即晋宁运动期本区遭受了强烈的变质变形以及流体蚀变改造作用。 2.层状铜矿中岩石类型主要为黑云母片岩、白云石钠长石岩和白云石大理岩。黑云母片岩中主要矿物为黑云母、钠长石、铁白云石和石榴子石;白云石钠长石岩中主要矿物为钠长石、铁白云石、石榴子石及少量的黑云母;白云石大理岩中主要矿物为铁白云石,含少量的钠长石和黑云母。岩石原岩恢复表明,三类岩石原岩为火山物质、泥质沉积物和喷流热水沉积混合组成,其中黑云母片岩以泥质为主,包含火山质物质和喷流热水沉积物质;白云石钠长石岩以火山物质和喷流热水为主,含少量的泥质;白云石大理岩以热水喷流沉积为主。 3.本区至少遭受过三期变质作用:区域高温变质作用、流体蚀变改造作用和变形变质作用。区域高温变质作用变质温度最高可达可达660℃,主要集中在600 ~ 630℃之间,形成压力约为4.9 ~ 5.0Kbar。三期变质改造使原岩发生了绿帘-角闪岩相的变质作用,变质过程中,稀土元素(特别是轻稀土元素)和部分高场强元素发生了迁移;流体蚀变改造富集了早期的贫铜矿胚,使之形成工业矿床。 4.硫化物硫同位素研究显示,其δ34S值为-0.6 ~ +10.9‰,主要集中在+5.0 ~ +10.9‰之间。这一组成表明富集型硫化物大体继承了早期硫化物硫源特征,并在改造过程中富集重硫。早期硫化物硫源主要来自岩浆硫和海水无机还原硫。硫化物铅同位素范围为:206Pb/204Pb= 18.985 ~ 23.318,均值为21.222;207Pb/204Pb=15.581 ~ 15.904,均值为15.747;208Pb/204Pb=39.803 ~ 45.652,均值为42.540。显然,本区硫化物具有极高含量的放射性成因铅,部分放射性成因铅含量稍低的样品与前人所圈定的改造型矿床的硫化物铅同位素范围较为吻合。分析认为,本区硫化物铅同位素代表了两种不同铅源的混合,即早期硫化物的普通铅和围岩中的放射性成因铅。硫铅同位素示踪以及矿相学研究表明,本区早期铜质来源于海底火山喷流-沉积,而晚期富集型铜矿铜质继承了早期铜质,同时也不排除晚期流体中所带来的铜质。 5.流体包裹体研究表明,本区改造型流体中包括三种流体体系:①中-低盐度H2O-NaCl±KCl±FeCl3 ±CaCl2流体,盐度范围为0.53 ~ 24.59 % NaCl equiv.,密度为0.80 ~ 1.16 g/cm3;②高盐度高密度H2O-NaCl±CaCl2流体,盐度为31.2 ~ >59.76% NaCl equiv,密度为1.14 ~ 1.45 g/cm3;③纯液相CO2流体,流体密度为0.77 ~ 1.09 g/cm3。流体包裹体均一温度在100 ~ 456℃之间,主要集中在150 ~ 260℃和260 ~ 456℃两个温度区间。方解石碳、氧同位素范围分别为-5.6 ~ -3.1‰和12.4 ~ 15.5‰。综合分析表明,流体主要来自海底下伏岩浆房的出溶或喷流的高温高盐度流体,部分与海水混合。流体在热液改造过程中活化富集了早期硫化物,经过短距搬运而沉积形成了晚期富集型硫化物。 6.本次研究确定该矿床的成矿机制为:早-中元古代,本区的陆内裂谷作用为火山喷发提供了构造条件,海底火山喷流-沉积形成了早期的贫铜矿胚。元古代末期,本区遭受了强烈的区域变质、变形和流体蚀变改造作用,使原先的贫铜矿胚得到活化富集,形成了工业矿床。
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老厂矿床位于三江成矿带南段昌宁—孟连裂谷的次级澜沧断陷盆地中,昌宁—孟连裂谷是三江成矿带南段的重要成矿段之一,其大地构造位于保山―掸邦微陆块东缘,兰坪—思茅盆地、临沧地块西缘,属东特提斯构造域,是冈瓦纳古陆与欧亚大陆巨型缝合带的组成部分。 矿床开采历史悠久,始于明朝永乐二年(1404年),至今已605年。古时炼银弃铅,最高年产白银30万两。解放后主要开采古人废弃的高铅炉渣,并对深部原生矿体进行了初步勘探,90年代至今对深部银铅矿体进行了详细勘查,深部矿体是矿床主要的开采对象。它以独特的成矿地质特征、富银(铅锌矿石中平均含量为629×10-6,方铅矿中平均2069×10-6)、伴生元素多(In、Se、Te、Ga、Cd、Bi)、规模大(In、Se、Te、Cd已达大型规模)、含Sn等特征而受到广大地质工作者的关注。它是“三江”成矿带南段最具代表性的铅银矿床类型之一,也是昌宁—孟连裂谷内目前探明的唯一大型银铅锌多金属矿床,具有十分重要的研究价值。 虽然前人已从矿床地质、成矿条件、控矿因素等方面对老厂大型银铅锌多金属矿床进行过研究,但研究工作较为零散,在成矿物质与成矿流体来源、矿床成因、花岗斑岩与成矿等方面还存在较大争议。本文在深入细致的野外地质工作基础上,利用多种现代分析测试技术,对矿床进行了较为系统的矿物学、岩石学、年代学和矿床地球化学研究,进而查明了矿床成矿物质与成矿流体来源、揭示了成矿地球动力学背景、探讨了矿床的成因、初步建立了矿床成因模式。论文取得的主要成果如下: 1.查明了硫化物的物质组分及形成阶段。闪锌矿以高铁(早期平均11.51%,晚期平均8.41%)为基本特征,并伴生多种特征的微量元素,早期闪锌矿是Fe、In的主要载体,Cu、Cd、Mn则主要富集在晚阶段闪锌矿中;方铅矿是Ag的主要载体,其早期富Ag、Te、Bi,含Se、Cu,中期主要富Ag,晚期以含As、Bi为特征;其它硫化物成分较单一。 2.揭示了伴生元素赋存状态和富集规律。矿床伴生元素含量高,闪锌矿中Cd平均4293.19×10-6,In平均555.37×10-6,方铅矿中Te平均143.81×10-6,As、Se、Bi、Ga含量也很高。初步估算金属储(万吨)量分别为: Ga 0.097,Cd1.84, In0.13,Se0.06 ,Te0.15,Bi1.28,As4.31。闪锌矿是Ga、In、Cd主要载体,Te、Bi主要赋存在方铅矿中,Se则主要在铅锌、黄铁矿石中富集。 3.首次获得了精确的成矿年代学数据。单颗粒闪锌矿—黄铁矿Rb-Sr法获得矿床成矿年龄t=(45±3.6)Ma,(87Sr/86Sr)i=0.70977±0.00034。证实了矿床成矿与隐伏花岗斑岩关系密切,矿床形成是三江成矿带南段对喜马拉雅碰撞造山成矿运动的响应。 4.首次系统研究了花岗斑岩的地质、地球化学特征。矿床花岗斑岩具高硅、超钾、富碱、贫钠和低镁、钙、铁、磷的特征,岩石为过铝质岩石;其轻稀土富集、Eu为弱负异常、基本无Ce异常、岩石富集大离子亲石元素,具有较高的锶初始值和较低εNd及高的Nd模式年龄,与三江地区富碱斑岩具有相似的地球化学特征。岩浆主要来源于加厚下地壳重熔,成岩过程中有地幔物质的加入,为同碰撞构造环境下形成。 5.首次探讨了容矿沉积建造及矿石、矿物的地球化学特征。矿床碳酸盐岩轻稀土富集、Eu正异常及Ce异常和其微量元素特征与热水沉积岩石相似,表明了碳酸盐岩的热水沉积成因,同时矿石及其硫化物微量和稀土元素特征也指示了在早石炭世矿区发生了广泛的火山喷流热水沉积成矿作用。 6.查明了成矿物质及成矿流体来源。成矿元素研究显示矿床成矿物质具有多来源的特征,Pb同位素研究表明矿床Pb可能来自不同地层岩石的淋滤, S同位素组成显示其可能主要来源于海水对下伏火山岩地层的淋滤与海水硫酸盐的还原,花岗斑岩岩浆也可能提供了部分S。C-O、H-O同位素和矿石及其硫化物稀土元素反映矿床早期成矿流体主要源于深部岩浆,晚期主要来源于喜山期花岗斑岩岩浆热液。 7.初步建立了成矿模式。老厂矿床是长期以来多种地质作用下的综合产物,具有成矿物质多来源,成矿阶段多期次特点。经历了早石炭世火山喷流热水沉积成矿和喜山期花岗斑岩岩浆热液叠加改造成矿作用,热水成矿作用下形成了以黄铁矿为主的块状硫化物矿床,喜山期富碱花岗斑岩岩浆热液流体携带了大量的Cu、Mo、Ag、Pb等成矿元素,在它的叠加改造作用下形成了老厂银多金属矿床。总之矿床为火山喷流沉积—岩浆热液叠加改造成因。
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滇东南地区北西以弥勒-师宗断裂与扬子地块分界,南西以红河断裂为界与哀牢山断块毗邻,南连越北古陆,东部文麻断裂与南岭褶皱系连为一体,是我国重要的锡、银、铅、锌等矿产基地,自西向东分布着个旧、白牛厂和都龙三个超大型银锡多金属矿床,在这三个大型矿床附近各分布着一个大花岗岩体,个旧和老君山岩体已有相当多的研究,而对于薄竹山岩体、薄竹山岩体接触带周边矿床和与临近白牛厂矿床的研究则相对薄弱。本文主要对薄竹山岩体进行岩石学、地球化学研究,并且借助铅同位素,对薄竹山岩体接触带矿床和白牛厂矿床的成矿物质来源作了分析,阐明这些矿床的形成与薄竹山花岗岩体的关系。 薄竹山花岗岩体分两期侵入,第一期岩石类型主要为中粒黑云母二长花岗岩,属于过铝质花岗岩,主要形成于同碰撞阶段;第二期主要为细粒二长花岗岩,形成于板内的伸展环境。与第一期相比,第二期花岗岩更加富硅富碱、贫钙贫镁,稀土配分曲线显示Eu亏损更加强烈,更加富集Rb、Ta、Tb、Y,而亏损Ba、Sr、La、Ce等元素。Sr-Nd同位素显示,两期花岗岩可能分别来源于中元古界地壳和太古宙古老基底。 薄竹山岩体长石铅同位素组成均一,其接触带矿床矿石铅与岩体长石铅分布趋势一致,所以接触带矿石铅可能主要由薄竹山岩体提供。对于白牛厂矿床,除个别样品外,矿区内西北白羊矿段和东南部其他矿段矿石铅组成一致,说明整个白牛厂矿区的矿石铅来源比较单一,并且与薄竹山附近矿化点矿石具有相似的铅同位素分布范围,说明两种矿石铅来源可能相同,都来源于薄竹山花岗岩浆。白牛厂矿区内赋矿地层铅与矿石铅同位素演化趋势完全不同,所以赋矿地层不可能为矿石铅的重要来源。 综合薄竹山岩体及矿石的铅同位素组成特征,我们发现白牛厂矿区内矿石铅主要来自薄竹山岩体,主要为矿区内隐伏岩体提供。白牛厂矿床早期可能发生过喷流沉积作用,但没有带来大量银、铅、锌等成矿物质,后来燕山期花岗岩浆侵入,带来大量银、铅、锌等成矿物质,形成了现在的白牛厂矿床。
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滇西兰坪中新生代盆地是我国著名“三江”构造带的重要组成部分,盆地内矿产资源丰富,金顶超大型铅锌多金属矿床及其周围的铜多金属矿床构成了我国西南地区重要的多金属大型矿集区之一。本文重点研究了兰坪中新生代盆地的演化、矿集区的成矿作用以及盆地演化与矿集区形成的藕合关系;同时对盆地上三叠统三合洞组的沉积环境以及盆地沉积岩源区构造背景和物源属性也进行了分析。研究结果表明:上三叠统三合洞组的沉积环境属浅海局限台地相,沉积时古海水的温度介于26.7℃-32.1℃,反映上三叠统三合洞组沉积时兰坪盆地处于炎热的热带区;盆地沉积岩源区构造属被动大陆边缘环境和大陆岛弧环境,原始物源来自上地壳,以长英质岩石为主,兰坪中新生代盆地属典型的大陆型盆地;盆地演化经历了三个原型盆地即裂陷盆地(T2-J1)、坳陷盆地(J2-K1)和走滑盆地(E-N)的演化过程,三个原型盆地的形成和演化明显受特提斯洋演化和印度板块与欧亚板块碰撞作用的制约;矿集:区内矿床的成矿物质源自地壳(盆地基底和盆地地层)、成矿流体为盆地热卤水:沥自盆地生油岩地层的有机质参与了成矿作用;矿集区矿床形成时间为56Ma左右或3OMa左右,两时间分别与印度板块和欧亚板块发生碰撞和后续的强烈挤压阶段的时间相一致;中新生代兰坪盆地演化过程也是多金属大型矿集区形成的过程。在裂陷和坳陷盆地演化阶段是大型矿集区形成的预备阶段,形成了成矿物质、成矿流体和成矿流.体通道及矿石堆积场所;走滑盆地演化过程中,强烈的构造活动等使区内成矿能量快速积聚,同时进一步富集成矿物质、成矿流体进一步汇聚以及形成成矿流体的运移通道和矿石堆积的场所,在印度板块和欧亚板块发生碰撞时和后续的强烈挤压阶段分别发生成矿作用,最后形成多金属大型矿集区。
