321 resultados para 700
Resumo:
Granulites from Huangtuling in the North Dabie metamorphic core complex in eastern China preserve rare mineralogical and mineral chemical evidence for multistage metamorphism related to Paleoproterozoic metamorphic processes, Triassic continental subduction-collision and Cretaceous collapse of the Dabieshan Orogen. Six stages of metamorphism are established, based on detailed mineralogical and petrological studies: (I) amphibolite facies (6.3–7.0 kbar, 520–550 °C); (II) high-pressure/high-temperature granulite facies (12–15.5 kbar, 920–980 °C); (III) cooling and decompression (4.8–6.0 kbar, 630-700 °C); (IV) medium-pressure granulite facies (7.7–9.0 kbar, 690–790 °C); (V) low-pressure/high-temperature granulite facies (4.0–4.7 kbar, 860–920 °C); (VI) retrograde greenschist facies overprint (1–2 kbar, 340–370 °C). The P–T history derived in this study and existing geochronological data indicate that the Huangtuling granulite records two cycles of orogenic crustal thickening events. The earlier three stages of metamorphism define a clockwise P–T path, implying crustal thickening and thinning events, possibly related to the assembly and breakup of the Columbia Supercontinent ca. 2000 Ma. Stage IV metamorphism indicates another crustal thickening event, which is attributed to the Triassic subduction/collision between the Yangtze and Sino–Korean Cratons. The dry lower crustal granulite persisted metastable during the Triassic subduction/collision due to lack of hydrous fluid and deformation. Stage V metamorphism records the Cretaceous collapse of the Dabieshan Orogen,possibly due to asthenosphere upwelling or removal of the lithospheric mantle resulting in heating of the granulite and partial melting of the North Dabie metamorphic core complex. Comparison of the Huangtuling granulite in North Dabie and the high-pressure (HP)–ultrahigh-pressure (UHP) metamorphic rocks in South Dabie indicates that the subducted upper (South Dabie) and lower (North Dabie) continental crusts underwent contrasting tectonometamorphic evolution during continental subduction–collision and orogenic collapse. High-pressure granulites are generally characterized by the absence of orthopyroxene. However, the Huangtuling felsic granulite rarely preserves the high-pressure granulite facies assemblage of garnet + orthopyroxene + biotite + plagioclase + K-feldspar + quartz. To investigate the effects of bulk rock composition on the stability of orthopyroxene-bearing, high-pressure granulite facies assemblages in the NCKFMASHTO (Na2O–CaO–K2O–FeO–MgO–Al2O3–SiO2–H2O–TiO2–Fe2O3) system, we constructed a series of P–T–X pseudosections based on the melt-reintegrated composition of the Huangtuling felsic high-pressure granulite. Our calculations demonstrate that the orthopyroxene-bearing, high-pressure granulite facies assemblages are restricted to low XAl [Al2O3/(Na2O + CaO + K2O + FeO + MgO + Al2O3) < 0.35, mole proportion] or high XMg [MgO/(MgO + FeO) > 0.85] felsic–metapelitic rock types. Our study also reveals that the XAl values in the residual felsic–metapelitic, high-pressure granulites could be significantly reduced by a high proportion of melt loss. We suggest that orthopyroxene-bearing high-pressure granulites occur in residual overthickened crustal basement under continental subduction–collision zones and arc–continent collision belts.
Resumo:
The fluvio-lacustrine sequence in the Nihewan Basin is an important archive of late Pliocene-Pleistocene climate and environment changes in temperate northern China, which provides excellent sources of early human settlements in high latitude East Asia. The recent years have witnessed a considerable progress in the paleomagnetic dating of its stratigraphy, which has notably increased our understanding of a series of important issues such as the early human occupation in the Old World, the infilling history of the Nihewan Basin, and the chronological sequence of the Nihewan faunas. Up to now, the long-term paleoenvironmental changes directly retrieved from this basin, which might influence the evolution and expansion of early humans in the Nihewan Basin, are still poorly constrained, although several paleoclimatic records have been retrieved from this area. In this study, a combined mineral-magnetic and geochemical investigation was carried out on the fluvio-lacustrine sequence from the Dachangliang section at the eastern margin of the basin in order to reveal its rock magnetic and environmental magnetic characteristics and its implications for early human evolution in East Asia. The major findings and conclusions are listed as the following: First, there is an increased cooling coupled with an intensified aridification recorded in the fluvio-lacustrine sequence of the Dachangliang section. The cooling is related to an up-section decrease in propensity to chemical weathering as inferred from an increase in low-field susceptibility after cycling to 700 °C. Close to 700 °C, reacting chlorite is providing the iron source for newly formed very fine-grained ferrimagnetic minerals which enhances the susceptibility signal. The reactivity of chlorite after annealing at temperatures above 600 °C is documented with X-ray diffraction. Second, degrees of chemical weathering in the Nihewan Basin are further estimated by clay mineralogy (i.e. chlorite and illite contents and chlorite/illite ratio) and a series of major element proxies (i.e. Na2O/Al2O3 versus K2O/Al2O3 diagram, Al2O3-(CaO + Na2O)-K2O ternary diagram (A-CN-K), chemical index of alteration (CIA), (CaO + Na2O + MgO)/TiO2, (CaO + Na2O + MgO + K2O)/(TiO2 + Al2O3), CaO/Al2O3 and CaO/TiO2). The up-section decrease in propensity to chemical weathering suggested by the aforementioned rock mangetic measurement is further confirmed by these geochemical analyses. Combining the chemical weathering records from the Nihewan Basin, Chinese Loess Plateau, South China Sea and eastern China, we find that the consecutive decreasing trend in chemical weathering intensity during the late Cenozoic is ubiquitous across China. This pattern may result from a long-term decreasing East Asian summer monsoon and increasing East Asian winter monsoon, and thus a consecutive increasing of aridification and cooling in Asia during the Quaternary. Furthermore, the chemical weathering intensity increased from South China to North China during the Quaternary, in line with the decreasing East Asian summer monsoon and increasing East Asian winter monsoon and thus the gradually intensified aridification and cooling from South China to North China. Third, a combined mineral-magnetic and geochemical investigation provides evidences that the large-amplitude alterations of concentration of magnetic minerals mainly result from preservation/dissolution cycles of detrital magnetic minerals in alternately oxic and anoxic depositional environments. The preservation/dissolution model implies that the high-magnetic and low-magnetic cycles of this sedimentary sequence represent glacial and interglacial climate cycles, respectively. This contribute significnatly to our understanding of the link between climate and magnetic properties. Finally, the paleoclimatic implications of these rock magnetic and geochemical characteristics significantly increase our understanding of the general setting of early humans in high northern latitude in East Asia. We propose that the cold and dry climate may have contributed significantly to the expansion and adaptation of early humans, rather than bringing hardship, as is often thought. The relationship between magnetic properties and climate possibly provides valuable information on the climatic context of the Paleolithic sites in the basin, especially whether the occupation occurred during an interglacial or glacial period.
Resumo:
The South continent of China lies to southeast of Eurasia block. It is an active area from the view of crust growth and continent spread and is a transition zone between continental crust and oceanic crust. The compressional wave velocities and anisotropies of typical crustal metamorphic rocks were determined at high temperature (up to 1000 ℃) and high pressure(up to 800MPa). The experimental results show that the velocities generally increase with pressure, and is unaffected by temperature up to around 550 ℃. But the velocities of all experimental samples start to drop above a temperature point. For an example, this greatly reduce the speed of wave propagation in amphibolite and serpentinite above 760 ℃ and above 550 ℃ respectively, which may be due to dehydrate of amphibole and serpentine. P-wave anisotropy coefficients of those rocks range from 2% to 10% at 800MPa and 500 ℃. The anisotropies decrease with increasing pressure at room temperature, but hardly change as function of temperature at constant 800MPa or 600MPa pressure. The average velocity of the six crustal rocks is 6.28km/s under the condition of 800MPa and 550 ℃, which is consistent with the result of deep seismic sounding data. Based on this experimental result, we deduce there may exist a lot of felsic granulites and amphibolites at the depth of 15-25km underground. With increasing temperature and pressure, the deformation behavior of the rocks undergoes from localized brittle fracture, semi-brittle deformation (cataclastic flow or semi-brittle faulting, semi-brittle flow) to homogeneous crystal-plastic flow. This transition is associated with mechanical behavior and micro-mechanism. It is very important to understanding earthquake source mechanics, the strength of the lithosphere and the style of deformation. The experiments were conducted at temperature of 600-1000 ℃, confining pressure of 500MPa, and stain rates of 10~(-4)-10~(-6) S~(-1). For fine-grained natural amphibolite, the results of experiments show that brittle faulting is major failure mode at temperature <600 ℃, but crystal-plastic deformation is dominate at temperature >800 ℃, and there is a transition with increasing temperature from sembrittle faulting to cataclastic flow and sembrittle flow at temperature of 670-750 ℃. For medium-grained natural Felsic granulite, the results of experiments show that brittle faulting is major failure mode at temperature <500 ℃, but crystal-plastic deformation is dominate at temperature >700 ℃, and there is a transition with increasing temperature from semibrittle faulting to cataclastic flow and sembrittle flow at temperature of 500-600 ℃.
Resumo:
In this paper, we studied the secular variations of the main geomagnetic field during 1900-2000 in details. Emphasis is put on three aspects of the secular variations, i.e. westward drifts and intensity variations of non-dipole part, the decay of the dipole field. Firstly, we introduced the method of correlation analysis of moving random pattern into Geomagnetism in order to overcome the weakness of available methods on westward drift studies. We had committed testing and modifying the method, and analyzed the westward drifts and intensity variations of the non-dipole parts of geomagnetic field and 6 planetary-scale geomagnetic anomalies by this way. The globe and area characters of the westward drifts and intensity variations were discussed in detail. Second, the lat-dependence and dispersion of drift velocities were examined carefully. The results showed the velocities of the different wavelengths (from m = 1 to m = 10) geomagnetic potential were changing with the latitude. The lat-dependence of drift velocities is related to the latitude distributing of the geomagnetic potential. There was a negative dispersion in the westward drift, namely, the components of long wavelength drift faster than that of short wavelengths. Finally, we calculated the moments of the geomagnetic dipole, and found that the intensity of the dipole fields has been decreasing. Linking to the results in paleomagnetism, we draw a conclusion that the geomagnetic polarities may be reversed in 700 years.
Resumo:
Transition from brittle fracture to ductile creep of the Gaojiabian diabase is investigated as a function of temperature and water content. Experiments are conducted at 500 MPa confining pressure, with strain rate being 1 * 10~(-4) and temperature from 300 ℃ to 800 ℃. The transition from semibrittle to ductile flow of dry diabase occurs at temperatures between 700 ℃ and 750 ℃, while the transition of wet diabase takes place at about 500 ℃. The transition temperature in the wet diabase is about 200 ℃ lower than in the dry diabase. The strength of both dry and wet samples is temperature insensitive in brittle-semibrittle regime and temperature sensitive in ductile regime. At the same conditions, water within the sample could weaken the strength of wet samples. The microstructures of dry and wet samples are different. In experimental conditions, feldspars show two different deformation mechanisms, the first acting in brittle and semibrittle regime and the second acting in plastic regime, and water must have greatly affected the two mechanisms. Strength of pyroxene is lower than that of feldspar at low temperature. Pyroxene can be transformed to hornblende in deformation process and this transformation is quite temperature and water dependent. Feldspar plays a key role in the deformation in its first mechanism regime, and no dominant minerals are identified in the second mechanism regime of feldspar. The result of FTIR analysis show that water exists in wet sample in the form of -OH.
Resumo:
Kunyushan composite granite pluton is located in northeast part of the Sulu UHP collisional belt, Jiaodong peninsula, eastern China. It is regarded as the boundary of the Jiaodong block and the Sulu UHP collisional belt. The body is unique in the Dabieshan-Sulu UHP collisional orogen for its feature of multiple intrusions of diverse types granitoid rocks in a long span after UHP the collision between the North China and the Yangtze plates in late Triassic. It can be grouped into four series on the basis of petrology and petrochemistry. They are mid-K calc-alkaline granitoids, strongly peraluminous granites, high-K calc-alkaline granitoids and syenitic granite of shoshonitic series. In this thesis, the later three types of rocks are investigated geochronologically in detail. The grain zircon U-Pb isotope dilution dating technique has been employed in this study. Zircon morphology are presented and discussion on the chemical and physical conditions of the granite formation have been carried out in addtion. Strongly peraluminous granites comprises foliated monzogranite and garnet bearing leucogranite. They occupy more than half of the area of the Kunyushan composite body. Three zircon samples of foliated monzogranites have been analyzed, they yield lower intercept ages mainly in the range of 140-150 Ma. The formation of these rocks was likely to be at 700-600 ℃, implied by zircon morphology. Two zircon samples of the garnet bearing leucogranite yield lower intercept ages from 130 Ma to 140 Ma. Zircon morphology indicate that the liquidus temperature of the magma was about 750 °C. Syenitic granite of shoshonitic series occur in the north central part of the body, and the volume is quite small contrast to other types. One zircon sample was chosen from this rock, and yield lower intercept age of 121+1.8/-2.1 Ma. Zircon morphology indicate that the liquidus temperature of this rock is up to 900 °C, which is much higher than others'. High-K calc-alkaline granitoids can be divided into two types on the basis of rock texture and structure. One is Kf-porphyritic monzogranite. It's outcrop is quite small. Zircon ages of one sample constrain the emplacement of this rock at about 112 Ma. The other is medium-grain to coarse-grain monzogranite. Zircons from it yield lower intercept age of 100.5+2.9/-4.6 Ma. The variation of zircon morphology suggest that these two monzogranites were outcomes of a single magma at different stage. The former emplaced earlier than the latter. The liquidus temperature of the magma was about 800 ℃ Inherited zircon is ubiquitous in the Kunyushan composite body. Most of the samples yield upper intercept ages of late Proterozoic. It was considered that only the Yangtze plate underwent a crustal growth during late Proterozoic among the two plates which involved into the UHP collision. Inherited zircon of about 200 Ma can also be observed in strongly peraluminous and high-K calc-alkaline granitoids. Two samples out of eight yield upper intercept ages of Achaean.
Resumo:
Superfine mineral materials are mainly resulted from the pulverization of natural mineral resources, and are a type of new materials that can replace traditional materials and enjoy the most extensive application and the highest degree of consumption in the present day market. As a result, superfine mineral materials have a very broad and promising prospect in terms of market potential. Superfine pulverization technology is the only way for the in-depth processing of most of the traditional materials, and is also one of the major means for which mineral materials can realize their application. China is rich in natural resources such as heavy calcite, kaolin, wollastonite, etc., which enjoy a very wide market of application in paper making, rubber, plastics, painting, coating, medicine, environment-friendly recycle paper and fine chemical industries, for example. However, because the processing of these resources is generally at the low level, economic benefit and scale for the processing of these resources have not been realized to their full potential even up to now. Big difference in product indices and superfine processing equipment and technologies between China and advanced western countries still exists. Based on resource assessment and market potential analysis, an in-depth study was carried out in this paper about the superfine pulverization technology and superfine pulverized mineral materials from the point of mineralogical features, determination of processing technologies, analytical methods and applications, by utilizing a variety of modern analytical methods in mineralogy, superfine pulverization technology, macromolecular chemistry, material science and physical chemistry together with computer technology and so on. The focus was placed on the innovative study about the in-depth processing technology and the processing apparatus for kaolin and heavy calcite as well as the application of superfine products. The main contents and the major achievements of this study are listed as follows: 1. Superfine pulverization processing of mineral materials shall be integrated with the study of their crystal structures and chemical composition. And special attention shall be put on the post-processing technologies, rather than on the indices for particle size, of these materials, based on their fields of application. Both technical feasibility and economic feasibility shall be taken into account for the study about superfine pulverization technologies, since these two kinds of feasibilities serve as the premise for the industrialized application of superfine pulverized mineral materials. Based on this principle, preposed chemical treatment method, technology of synchronized superfine pulverization and gradation, processing technology and apparatus of integrated modification and depolymerization were utilized in this study, and narrow distribution in terms of particle size, good dispersibility, good application effects, low consumption as well as high effectiveness of superfine products were achieved in this study. Heavy calcite and kaolin are two kinds of superfine mineral materials that enjoy the highest consumption in the industry. Heavy calcite is mainly applied in paper making, coating and plastics industries, the hard kaolin in northern China is mainly used in macromolecular materials and chemical industries, while the soft kaolin in southern China is mainly used for paper making. On the other hand, superfine pulverized heavy calcite and kaolin can both be used as the functional additives to cement, a kind of material that enjoys the biggest consumption in the world. A variety of analytical methods and instruments such as transmission and scanning electron microscopy, X-ray diffraction analysis, infrared analysis, laser particle size analysis and so on were applied for the elucidation of the properties and the mechanisms for the functions of superfine mineral materials as used in plastics and high-performance cement. Detection of superfine mineral materials is closely related to the post-processing and application of these materials. Traditional detection and analytical methods for superfine mineral materials include optical microscopy, infrared spectral analysis and a series of microbeam techniques such as transmission and scanning electron microscopy, X-ray diffraction analysis, and so on. In addition to these traditional methods, super-weak luminescent photon detection technology of high precision, high sensitivity and high signal to noise ratio was also utilized by the author for the first time in the study of superfine mineral materials, in an attempt to explore a completely new method and means for the study of the characterization of superfine materials. The experimental results are really exciting! The innovation of this study is represented in the following aspects: 1. In this study, preposed chemical treatment method, technology of synchronized superfine pulverization and gradation, processing technology and apparatus of integrated modification and depolymerization were utilized in an innovative way, and narrow distribution in terms of particle size, good dispersibility, good application effects, low consumption as well as high effectiveness of superfine products were achieved in the industrialized production process*. Moreover, a new modification technology and related directions for producing the chemicals were invented, and the modification technology was even awarded a patent. 2. The detection technology of super-weak luminescent photon of high precision, high sensitivity and high signal to noise ratio was utilized for the first time in this study to explore the superfine mineral materials, and the experimental results can be compared with those acquired with scanning electron microscopy and has demonstrated its unique advantages. It can be expected that further study may possibly help to result in a completely new method and means for the characterization of superfine materials. 3. During the heating of kaolinite and its decomposition into pianlinite, the diffraction peaks disappear gradually. First comes the disappearance of the reflection of the basal plane (001), and then comes the slow disappearance of the (hkl) diffraction peaks. And this was first discovered during the experiments by the author, and it has never before reported by other scholars. 4. The first discovery of the functions that superfine mineral materials can be used as dispersants in plastics, and the first discovery of the comprehensive functions that superfine mineral materials can also be used as activators, water-reducing agents and aggregates in high-performance cement were made in this study, together with a detailed discussion. This study was jointly supported by two key grants from Guangdong Province for Scientific and Technological Research in the 10th Five-year Plan Period (1,200,000 yuan for Preparation technology, apparatus and post-processing research by using sub-micron superfine pulverization machinery method, and 300,000 yuan for Method and instruments for biological photon technology in the characterization of nanometer materials), and two grants from Guangdong Province for 100 projects for scientific and technological innovation (700,000 yuan for Pilot experimentation of superfine and modified heavy calcite used in paper-making, rubber and plastics industry, and 400,000 yuan for Study of superfine, modified wollastonite of large length-to-diameter ratio).
Resumo:
在密闭体系中, 400~700℃和1~3 GPa的条件下进行了褐煤加水的模拟实验, 分析了实验产物中芳烃的演化特征, 并讨论了高压高温对有机质的演化的影响. 实验结果表明, 高压抑制了液态烃的裂解, 压力升高有利于有机质降解产物的环化、聚合和芳构化; 温度升高, 芳烃的成熟度增加, 压力增加会抑制或延迟油气的生成和有机质成熟, 并且温度越低, 抑制作用越明显. 高压对有机质热演化的影响是非线性的. 该研究结果不仅加深了对俯冲带地幔有机质稳定性的认 识, 而且对认识深层油气成藏及保存也有启示意义.
Resumo:
在密闭体系中压力高达3 GPa, 温度高达700℃的条件下进行了褐煤加水的模拟实验, 分析了实验产物中的烷烃生物标志化合物的变化规律, 并讨论了高压高温对有机质演化的影响. 实验结果表明, 高压抑制了液态烃的生成, 使高峰值后移; 相同压力条件下, 温度升高有利于有机质的成熟演化; 压力增加会抑制或延迟油气的生成和有机质成熟. 高碳数烷烃在地幔高压力条件下仍可以存在, 这不仅突破了“生油窗”的传统概念, 而且还加深了在异常高压高温区寻找油带富集区的认识.
Resumo:
文章应用三维荧光光谱技术对洱海沉积物孔隙水中的溶解有机质进行了研究。结果表明,所有样品均含有4个明显的荧光峰,其中A和C为类腐殖酸荧光,B和D为类蛋白荧光。荧光强度在沉积物-水界面特别强,在1cm处急剧下降,之后随着沉积深度呈上升趋势。孔隙水溶解有机质均具有强的类蛋白荧光,揭示了溶解有机质中含有大量色氨酸、酪氨酸等芳环结构的类蛋白物质,并且在早期成岩过程中随着沉积深度呈积累趋势;类蛋白荧光与类腐殖酸荧光之间具有一定的相关关系,r(A,C)值在0.94-1.79之间,随着沉积深度逐渐下降,r(D,B)值在0.9-1.75之间,与r(A,C)值极为接近,且随着沉积深度有着类似的变化趋势,说明在洱海沉积物孔隙
Resumo:
中国南方早震旦世大塘坡期锰矿的形成一直存在热水成因、生物成因、或化学成因的争议。本文通过对贵州松桃早震旦世大塘坡期锰矿的碳、硫同位素和藻类化石的研究,认为早震旦世大塘坡期锰矿的成因是在700-695Ma全球性Sturtian冰期后,由于大气中含有很高的CO2与海洋中的Ca2+, Mn2+反应,造成大量CaCO3和MnCO3快速沉淀,形成“碳酸盐岩帽”(碳酸锰)所致。同时,对大塘坡组藻类化石研究表明,在含锰矿的层位,藻类化石很少,而锰矿层上下,微体藻类化石都很丰富,这说明锰矿成矿与藻类关系并不那么密切。
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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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拉拉铜矿床位于扬子地块西缘的康滇隆起中段,赋存于经历变质的古元古代河口群海相火山-沉积岩系中,是我国重要的受变质热液叠加或改造的火山成因块状硫化物矿床(VHMS)之一,也是四川省最大的铜矿生产基地。本论文以该矿床为研究对象,在系统整理前人资料的基础上,进行了深入细致的野外地质考察和系统采样,选取代表性样品,运用电子探针分析技术、元素地球化学、同位素地球化学(Rb-Sr、Sm-Nd、S)、锆石U-Pb定年等方法手段,对矿区新元古代大规模区域变质作用的变质条件、变质原岩、广泛分布于矿区多个赋矿层位的辉长辉绿岩脉、岩石及矿石性质、硫源、成矿时代等主要岩石学及矿床学问题进行了系统研究,并结合前人研究成果,探讨了矿床的成因机制。论文主要取得以下几点认识: (1)矿区变质火山岩的成岩年龄为1695±20Ma,岩浆在上升侵位的过程中捕获了古元古代早期地壳物质,后期变质改造的时代约为700-800Ma。 (2)基于石榴石黑云母片岩中石榴石黑云母矿物对的电子探针分析数据,利用石榴石-黑云母地质温度计和多硅白云母地质压力计确定了矿区新元古代大规模区域变质作用的变质条件:变质温度为530-580℃,变质压力上限为0.66-0.76GPa,对应于高绿片岩相。 (3)矿区出露的岩石类型以云母片岩类和钠长岩类岩石为主,二者共同构成了矿区的围岩及赋矿岩石,通过对代表性样品的元素地球化学、同位素地球化学研究,采用DF函数判别法、(Al/3-K)-(Al/3-Na)图解法、La/Yb-TR图解法,并结合岩矿鉴定及结构构造特征,恢复了矿区的变质原岩。其中,矿区的云母片岩类样品的变质原岩为沉积岩,以页岩为主,主要来自大陆岛弧及上地壳物质的风化;而钠长岩类样品的变质原岩为火山岩,源自富集地幔,包括“右倾型”钠长岩和“平坦型”钠长岩,前者为分离结晶作用早期并经历一定程度地壳混染的产物,后者主要形成于分离结晶作用晚期,Nb、Ta、Zr、Hf、P、Ti等达到饱和并以副矿物晶出。 (4)综合矿区变质沉积岩及变质火山岩的构造环境判别结果,确定了二者形成于大陆岛弧的弧后盆地环境。 (5)通过对矿区变质火山岩性质、形成机制及硫同位素研究,讨论了矿床中成矿元素可能的富集机制,即地幔中大量的亲铜元素及硫元素进入母岩浆并随之上升形成区域分布的火山岩,为矿床的形成提供了必要条件。 (6)侵入河口群地层并广泛出露于矿区多个赋矿层位的辉长辉绿岩脉的化学成分与板内碱性玄武岩类似且形成于大陆裂谷环境下的类似OIB源区,是高温地幔柱部分熔融的产物,幔源岩浆在上升侵位过程中受到了地壳物质尤其是上地壳物质较小程度的混染,表明新元古代Rodinia超大陆裂解对拉拉地区的成矿作用有重要影响。 (7)拉拉铜矿床主要存在两个成矿期次,即火山喷气-沉积成矿期(1700 Ma左右)和变质热液成矿期(700-800Ma)。矿区主要存在两种类型矿石,即条纹、条带状矿石和块状、浸染状矿石,前者主要赋存于变质火山岩中,可能形成于火山喷气-沉积成矿期,后者主要赋存于变质沉积岩中,可能为变质热液成矿期的产物。
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本文通过辉长岩在高温、高压下的进变质作用过程的模拟,实现了辉长岩向榴辉岩的转变。在800,2.5Gpa以下,辉长岩生成了石榴石+辉石+长石±尖晶石的矿物组合,在800,2.5Gpa以上,辉长岩则生成石榴+辉石石英的榴辉岩组合。辉长岩向榴辉岩转变过程中存在一个过渡带,过渡带主要的特征是:随压力升高,石榴石逐渐增加,而斜长石逐渐减少。生成的石榴石中,镁铝榴石分子含量随压力的增大而增加,其成因分类属于地幔成因;生成的单斜辉石主要为富镁普通辉石,辉石中硬玉的含量较低。将实验结果与大别山榴辉岩形成条件相比,可以证实:1.大别山榴辉岩形成的温、压条件是在700-900 ℃,2.5Gpa以上;2.大别山柯石英榴辉岩的形成深度至少在80km以上。
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本论文选取了斜长角闪岩和榴辉岩作为实验样品,在压力为1.0-3.0 GPa和温度为室温-1300 ℃的条件下,进行了弹性纵波速度和弹性波衰减的实验研究。实验是在YJ-3000吨压力机上进行的,利用超声脉冲透射的方法,首次获得了在压力大于1.0GPa和温度高于800 ℃的条件下的岩石的声波衰减及其各向异性的实验数据。取得如下主要结论:1.榴辉岩的Vp值随压力的升高而增大,在P < 2.0GPa时,上升的速率较快,表明微裂隙逐渐闭合;当P > 2.0GPa时,上升的速率变慢,且表现出很好的线性趋势,这时测得的纵波速度表明了榴辉岩本征的纵波速度,这与前人的实验结果相同。斜长角闪岩的Vp值随压力的变化与榴辉岩的变化相似,不同的是斜长角闪岩的微裂隙闭合压力为1.5GPa。榴辉岩的Vp的Av_p(%)随压力的升高基本保持不变,而斜长角闪岩的Av_p(%)随压力的升高逐渐增大。2.榴辉岩和斜长角闪岩在1.0-3.0 GPa压力下的Vp值随温度的升高而降低,但Vp值在不同的温度阶段,不同的方向上降低的速率和形式不同。如在1.0GPa压力下,当温度小于500 ℃时,Vp值下降较快,说明温度对纵波速度的影响较小;当T > 500 ℃时,Vp值下降的缓慢,说明榴辉岩内部可能发生了结构和应力状态的变化。斜长角闪岩在升温的初始阶段,Vp缓慢下降,并表现出很好的线性趋势。当T > 647 ℃时,Vp下降的速率增大,线性趋势也较好,当T > 1051 ℃时,Vp下降的速率又变小,且比初始时下降的速率要小。榴辉岩Vp的Av_p(%)值随温度的升高而下降,在不同的压力上其下降的速率不同。如在1.0GPa条件下,Av_p(%)随温度的升高而快速下降;在3.0GPa条件下,Av_p(%)值随温度下降缓慢。而斜长角闪岩的Vp的Av_p(%)随温度的变化较复杂,如在1.0GPa条件下,当T < 647 ℃时,Av_p(%)值随温度的升高缓慢增加,当T > 647 ℃时,Av_p(%)值快速增大,当温度达到922 ℃时,Av_p(%)上升到最大值,此后又随温度而减小。3.榴辉岩和斜长角闪岩的弹性波的Q值随压力的升高而增大,其增大的速率和幅度与Vp值的增大形式相同。榴辉岩的Q值的A_Q(%)随压力而升高,而斜长角闪岩的Q值的A_Q(%)随压力基本保持不变。4.榴辉岩和斜长角闪岩的弹性波的Q值随温度的升高而降低,在不同的压力下其降低的速率不同。如在1.0GPa压力下,Q值降低的速率较大;3.0GPa压力下,当T < 300 ℃时,榴辉岩的Q值快速下降,随后下降的幅度减慢,当T > 700 ℃时,榴辉岩的Q值很低,且减小的幅度很小。斜长角闪岩的Q值随温度的变化在1.0-3.0GPa条件下,Q值很小的幅度和趋势相似:当T < 647 ℃时,Q值下降的缓慢,当647 ℃ < T < 1051 ℃时,Q值快速下降,随后下降速率又变小。榴辉岩Q值的A_Q(%)随温度的升高而降低,在1.0和2.0GPa压力下降低较快;3.0GPa压力下A_Q(%)降低较缓慢。斜长角闪岩Q值的A_Q(%)随温度的升高开始缓慢降低,当647 ℃ < T < 105l ℃时,A_Q(%)快速增大,当T > 105l ℃时,A_Q(%)又降低。
