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贵州开阳以东磷矿整装勘查区位处扬子陆块东南边缘,是中国富磷矿最集中分布区。通过对开阳磷矿沉积学、岩石学、地层学和古地理学综合研究认为,开阳地区磷矿成矿受黔中古陆长期剥蚀夷平形成的无障壁海岸的海滩环境控制,高品位磷块岩矿石岩相组合特征、矿物学特征和沉积规律指示了开阳磷矿动态“三阶段成矿作用”过程(即原始生物—化学成磷作用、波浪簸选(机械)成矿作用和暴露淋滤成矿作用),波浪簸选成矿作用是形成厚度大、品位高富磷矿床的主导因素。按照“三位一体”成矿地质理论,确定了以沿黔中古陆北缘开阔海滩相层状展布的磷矿体展布特征,建立了区域成矿模式和地质找矿预测模型,并圈定临滨带为富磷矿重点预测靶区,开展找矿预测。通过产—学—研联合攻关,实现了磷矿理论创新,突破了该区原有磷矿找矿理论瓶颈,成矿范围从250km2增至1000km2,预测资源量从0.9442×108t增至13×108t。通过部分区块的工程验证,获得估算磷矿资源量(推断量+预测量)5.4892×108t,尤其新增富磷矿3.57×108t,取得中国富磷矿找矿重大突破。 相似文献
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Enrichment mechanism of phosphorite deposits and significant breakthrough in “Triunity Model”for ore prospecting in the Sinian Doushantuo Formation of eastern Kaiyang region,Guizhou Province 
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下载免费PDF全文 Liu Jian-Zhong Wang Ze-Peng Du Yuan-Sheng Zhang Ya-Guan Wu Wen-Ming Chen Guo-Yong Fu Zhi-Kang Wan Da-Xue Wang Da-Fu Tan Dai-Wei 《古地理学报》1999,22(5):913-928
Package exploration area in the eastern Kaiyang region is located at the southeastern margin of the Yangtze block,which is the concentrated distribution area of high-grade phosphorite deposits in China. The comprehensive studies of sedimentology,petrology,stratigraphy and palaeogeography in Doushantuo phosphorite ore-bed of the Kaiyang region show that the phosphorite deposits were controlled by the open shallow coastal sedimentary environment formed by denudation and deplanation of the Central Guizhou Oldland. Phosphorite lithofacies associations,mineralogical features and sedimentary structures indicate that the phosphorites had experienced “three stages of mineralization process”in the Kaiyang region: The first pristine bio-chemical phosphogenesis stage,the second winnowing and reworking stage and the last exposure and leaching stage. The winnowing and reworking processes are the key mechanism to the formation of the thick and high-grade phosphorite. According to the “Triunity Model”metallogenic theory,the research team confirmed the bedded distribution along the open phosphatic shore in the north of the Qianzhong Oldland,constructed the metallogenic model and ore prospecting model,and determined that the shoreface is the major target area of high-grade phosphorite ore. The research team have achieved the innovation of phosphorite metallogenic theory and broke through the bottleneck of phosphorite deposits exploration by cooperating of industry-university-research,and the metallogenic range was expand from 250km2 to 1000km2 and quantity of predicted resources increased from 94.42megatons to 1.3 giga-tons. The prospection verification in the part of areas estimated the ore resources of phosphorite deposits(Inferred and predicted resources) of 548.92 megatons,especially the newly added high-grade phosphorites 357 megatons,achieving significant breakthrough of ore prediction of high-grade phosphorites in China. 相似文献
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鲕粒,豆粒磷块岩的显微结构和生成特点 总被引:4,自引:0,他引:4
晚震旦世陡山沱组和早寒武世渔户村组、辛集组磷矿中有各种鮞粒、豆粒磷块岩。豆粒、鮞粒内核的成分和结构复杂,有来自陆地的各种岩石砂屑、细砾,也有盆内沉积物破碎成的各种内碎屑。鮞粒、豆粒的壳层是同心纹层状磷灰石,它是内核在富磷海水扰动中逐层淀积而成。大部分豆粒、鮞粒在滨海高能浅水中与陆源砂、砾和岔内碎屑沉积在一起,少量鮞粒则沉积在滨外深水低能环境巾。豆粒、鮞粒和碎屑等沉积后又被不同物质胶结。 相似文献
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中国东部主要成矿时代磷块岩的组成 总被引:4,自引:1,他引:4
本文研究了我国震旦、寒武纪磷块岩的矿石岩石学,主要矿石矿物为碳氟磷灰石,重要伴生矿物为伊利石,白云石和自生石英。磷块岩的化学组成有三个显著特点,一是品位随矿石类型的不同而异;二是随成矿域不同而异;三是随成矿时代不同而异。成矿背景,成矿环境、磷块岩相以及矿石组成等因素的差异是导致上述矿石组成变化的主要原因。 相似文献
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The distribution of uranium was studied in supergene phosphorites from the zones of the weathering of sedimentary and endogenous rocks, as well as in nonmarine coprolitic phosphorites and, to a lesser extent, phosphorites from ocean islands. These phosphorites show a diversity of the composition of their carbonate-apatite and structural characteristics. The uranium content ranges mostly from 5 to 100 ppm, with minimum and maximum values of 0.5 and 790 ppm. There is no correlation between the uranium content of a phosphorite and the type of rock with which it is connected. Lacustrine coprolitic phosphorites show elevated uranium contents (about 200 ppm). The maximum uranium content was detected in finely laminated phosphorite encrustations. The correlation analysis of the whole data set (63 samples) showed that uranium content is not correlated with any other component of phosphorites at a confidence level of 0.95. In contrast, there is a correlation between U and P2O5, CaO, and F for the combined set of samples from southern Siberian deposits. The significant correlation of U with Na2O and CO2 is variable both for southern Siberia on the whole and for particular deposits from this region. 相似文献
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黔中陡山沱期磷块岩成因的系统研究 总被引:1,自引:0,他引:1
黔中成磷区是中国南方陡山沱成磷期磷块岩矿床的重要组成部分。包括瓮福、开阳两个大型磷块岩矿床和若干中小型磷矿床。本文从磷的来源、沉积和富集3个方面系统地揭示了该区磷块岩的成因。稀土元素分析表明,磷可能来自同期海底火山喷发物。海洋地球化学、生物化学及磷块岩的组构研究证明,藻类生物的吸收和固定作用是磷质沉积的主要途径。磷的富集的多阶段、多因素的,经历不同的富集阶段(或方式)形成不同的磷块岩类型。 相似文献
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滇东下寒武统生物磷块岩的形成机制 总被引:3,自引:0,他引:3
显微结构研究表明,广泛分布于滇东地区下寒武统的磷块岩,除少量生物介壳磷块岩外,其它类型的磷块岩(包括菌藻生物磷块岩、内碎屑磷块岩和次生(风化)磷块岩等的颗粒均由磷质菌藻生物组成。从而揭示了菌藻生物磷块岩是磷块岩的基本类型。本文重点论述了生物磷块岩的结构成因分类、时空展布规律,以及滇东磷块岩的菌藻生物成磷—富磷作用,并探讨了菌藻生物磷块岩的形成机制。 相似文献
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Cadmium is the most toxic admixture in mineral fertilizers. The Cd concentration in Mesozoic phosphorites, which are widespread in the East European Platform, has not been investigated. The present study was stimulated by the scanty and contradictory nature of the published data on this issue. We determined Cd concentration in 21 phosphorite samples from major deposits and checked the reliability of obtained results by external replicate analyses. It has been established that the Cd concentration in phosphorites varies from 5 ppm in the Late Jurassic–Early Cretaceous basin to 2 ppm in the Late Cretaceous basin. Cadmium does not enter the structure of phosphate and sulfide minerals. The Cd concentration is independent of the phosphorus abundance. However, all studied samples show a positive correlation of Cd with organic matter mainly contained in phosphates, supporting the biophilic nature of Cd. Mesozoic phosphorites of the East European Platform accumulated in epicontinental basins. They are significantly depleted in Cd relative to Mesozoic–Cenozoic phosphorites in pericontinental basins of the southern margin of the Tethys Ocean. The Cd concentration is more stable in Mesozoic phosphorites than in Mesozoic–Cenozoic deposits. 相似文献
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华南震旦纪和寒武纪磷块岩沉积环境探讨 总被引:1,自引:0,他引:1
本文从八方面探讨磷块岩沉积环境:(1)含磷岩系岩石组合;(2)磷块岩矿床与海水进退及构造运动的关系;(3)磷块岩的纬度分布与古气候条件;(4)磷块岩沉积的古地貌特点;(5)磷块岩沉积的地球化学条件;(6)磷块岩沉积的生物作用;(7)磷块岩沉积的水动力条件;(8)磷质来源。通过上述分析,不难看出,中国南方震旦纪及寒武纪磷块岩主要形成于热带-亚热带,岛屿罗列,呈半封闭状态的华南陆表海盆地。靠近古岛群的浅海湾、泻湖及水下隆起(高地)的周围,似乎是最有利的成矿坏境。 相似文献
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Iron and phosphorite ores are very common in the geological record of Egypt and exploitable for economic purposes. In some cases these deposits belong together to the same geographic and geologic setting. The most common deposits include phosphorites, glauconites, and iron ores. Phosphorites are widely distributed as a belt in the central and southern part of Egypt. Sedimentary iron ores include oolitic ironstone of Aswan area and karstified iron ore of Bahria Oasis. Glauconites occur in the Western Desert associated with phosphorites and iron ores. As these ores are exploitable and phosphorus in iron ores and iron in phosphorites are considered as gangue elements, the iron–phosphorus relationship is examined in these deposits to clarify their modes of occurrences and genetic relationship based on previously published results.Phosphorus occurs mainly as carbonate fluorapatite (francolite). Iron, on the other hand, occurs in different mineralogical forms such as glauconites, hematite, limonite and goethite.In P-rich rocks (phosphorites) no relationship is observed between iron and phosphorus, which in turn indicates that the FeP model is unlikely to interpret the origin of the late Cretaceous phosphorites and the association of phosphorites and glauconites in Egypt. In Fe-rich rocks (iron ores and glauconites) also no relationship between iron and phosphorus is observed. The present work, therefore, does not support the hypothesis that there is a genetic relationship between phosphorus and iron in sedimentary rocks. 相似文献
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An analysis of rare earth elements in various types of supergene phosphorites established the following sequence of increasing average total contents (ppm): phosphorite from Christmas Island in the Indian Ocean, 3.89; spelean coprolitic phosphorite, 21.98; phosphorite from the weathering zone of sedimentary rocks, 27.41; phosphorite from the weathering zone of endogenous rocks, 372.32; and lacustrine coprolitic phosphorite, 461.59. Supergene phosphorites, especially the most common among them from the weathering zone of sedimentary rocks, are significantly depleted relative to marine phosphorites both in average and maximum REE contents. The REE contents of supergene phosphorites are controlled by several factors, including the REE contents in the primary rocks affected by weathering, the physicochemical conditions of phosphorite formation, the presence of a biogenic component in the phosphatogenetic system, and the structural type of the phosphorites. There is a strong positive correlation within the group of light and, in part, middle REEs (La, Ce, Nd, Sm, and Eu) and between the heavy REEs Yb and Lu, whereas the correlation between these two groups is weaker or insignificant. Gd and Tb are well correlated with the elements of both groups. 相似文献
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震旦系陡山沱组沉积期形成的黔中开阳、瓮安富磷矿沉积区,矿石产量大、品位高,是国内外重要的磷矿资源产区。黔中磷矿主要分布于黔中古陆周缘的滨浅海环境中,矿石类型以碎屑状磷块岩为主,间夹原生泥晶磷块岩、生物结构磷块岩和次生土状结构磷块岩。开阳式高品位磷块岩的动态沉积成矿过程通常为“三阶段成矿”: 第一阶段为初始成磷作用阶段,在新元古代大规模成磷背景下,上升洋流携带深部富磷海水进入滨浅海地区,并通过生物化学作用使磷质聚集并形成原生磷块岩沉积;第二阶段为簸选成矿作用阶段,高能波浪、风暴水流对原生磷块岩持续的破碎、磨蚀、搬运和再沉积过程中,簸选去除了原生沉积物中的陆源细碎屑、砂泥质成分,保留并聚集磷质碎屑颗粒,形成品位较高的碎屑状矿石;第三阶段为淋滤作用阶段,海平面升降变化使之前形成矿石受暴露事件影响,遭受强烈的风化淋滤作用,碎屑状磷矿石内的碳酸盐岩胶结物和白云石条带被淋滤运移,导致矿层发育大量溶蚀孔洞,甚至形成土状磷块岩,矿石品位再次得到大幅度提升。三阶段成矿作用随古地理条件和海平面变化在沉积成岩过程中多期次、动态进行,最终形成工业价值极高的磷矿石。 相似文献
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The concentration of iodine in 31 Tertiary continental phosphorites from the Lahn region in Germany ranges from about 0.01% to 0.18%, the mean value of 0.044% being quite compatible with that of typical commercial-grade iodine deposits. Microscopic and X-ray diffractometric studies manifested three main mineral phases in these phosphorites viz. francolite, clay minerals (kaolinite, illite), and ferric oxides (goethite, hematite). These mineral phases were investigated for iodine distribution, mode of its fixation and possible source. Sample heating at 600°C evinced no appreciable organic matter in the sample and further showed that the iodine was non-volatile in character. Regression analysis revealed a good correlation between I and Al (Ti), practically no correlation with Fe and negative correlation with P2O5. It was thus deduced that the iodine content is inorganic in nature and bound principally and probably internally to Al-bearing minerals. An iodine content of about 150 ppm is believed to be associated with the apatite phase of the phosphorite.Devonian volcanic rocks are assumed to be the ultimate source of both phosphorus and iodine. Those elements were released during a Tertiary weathering period, their accumulation being controlled by chemical environment and karst topography of a Devonian reef limestone. 相似文献
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灯影组磷块岩有四种类型,即泥晶磷块岩、内碎屑磷块岩、藻磷块岩和细晶磷块岩。组成磷块岩的主要矿物是磷灰石、白云石、石英和少量伊利石等。磷块岩主要沉积在陆缘海内,它的沉积环境是与深水有联系的浅水地区。深水和浅水环境的地质背景分别为构造拗陷和碳酸盐岩台地。前者提供成矿物质,后者提供有利于磷质成矿的沉积环境。 相似文献
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The criteria for the evaluation of the REE composition of phosphorites and sedimentary rocks have been determined. These data are required to reconstruct depositional environments. Literature data on the geochemistry of some phosphorite deposits of Eurasia are considered. The REE patterns of Mesozoic phosphorites of the East European Platform are studied. On the basis of REE contents, the ratios of lanthanides and fields on the La–(Nd + Sm)–(Y + Dy), La–(Ce + Nd + Sm)–(Y + Dy), and LREE–MREE–(HREE×10) diagrams have been determined as indicators of climate and the depth and facies conditions of sedimentation. 相似文献
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Late Cretaceous epicontinental phosphorites, porcelanites/cherts, dark-coloured shales, glauconitic sandstones and bioclastic and fine-grained carbonate rocks in Egypt are examined in terms of their overall depositional and diagenetic framework and stable isotopic and organic geochemical characteristics. Two main depositional realms are interpreted and correlated through sequence stratigraphic analysis: (1) a shallow hemipelagic environment accompanying initial stages of marine transgression and conducive to the formation of organic carbon-rich shales, biosiliceous sediments and thick phosphorites, and (2) a relatively high energy depositional regime accompanying sea-level fall during which deltas advanced, glauconites were reworked seaward and prograding oyster banks became periodically exposed to episodes of fresh water diagenesis, thereby promoting solution-collapse phenomena in associated cherts. Lenticular to massive phosphorites are viewed as the result of current winnowing and concentration of authigenic grains initially precipitated in associated reducing shales and biosiliceous sediments. In eastern Egypt the phosphorites form winnowed lag layers, some of which may have been redeposited down slope in structural lows. In the west, these sands were concentrated into giant phosphorite sand waves built by reworking of penecontemporaneously deposited phosphatic muds during marine transgression. Carbon isotopic results substantiate interpretations from modern deposits for limitation of phosphate mineral precipitation with depth in sediments as a result of lattice poisoning. However, direct desorption of phosphorus to pore waters from detrital iron-oxyhydroxide phases also may have been important in the Cretaceous setting, the iron reduced in this process being available for incorporation in glauconites. The main locus for authigenic glauconite precipitation appears to be where iron fluxes from regions of lateritic weathering were highest and near the boundary between oxygenated and reduced waters. This study suggests a model for the common coexistence of glauconites and phosphorites in the geological record. Although upwelling is often advocated as the origin of nearly all giant phosphorite deposits, we suggest that some of these may have been strongly influenced by fluvially derived phosphorus borne on particulates and desorbed from these compounds upon flocculation and/or reduction in bottom waters or pore waters. 相似文献
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BAIOUM.H.M. 《中国地球化学学报》2002,21(3):215-226
The Campanian-Maastrichtian phosphatic deposits in Egypt,called the Duwi Forma-tion,comprise a part of the extensive Middle East to North African phosphogenic province of Late Cretaceous to Paleogene age.The province holds the greatest accumulation of phosphorites in the geological history,possibly in excess of 70 billion metric tons.The phosphate resources in Egypt alone exceed 3 billion metric tons.Two-third of these three billions occur only in the Abu-Tartur area.Among the phosphorite deposits in Egypt,the phosphorites of the Abu-Tartur area are characterized by high contents of iron ranging from 3% to 7% with an average of 5%.The detailed mineralogical and geochemical studies on the Abu-Tartur phosphorites revealed that iron is found in the form of pyrite,ankerite,clay minerals,microinclusions,and iron oxide.Pyrite,which is the major fraction,occurs as filling cement and partial to complete teplacement of phosphatic grains and confined to the fresh phosphorites while iron oxide occurs as cryp-tocrystalline aggregates of red to brown particles and is confined to the weathered outcrops.Ex-clusive relations between pyrite in the fresh phosphorite samples inside the Abu-Tartur mine and iron oxide in the equivalent horizon of the weathered exposure indicated that iron oxide was formed by the oxidation of pyrite as a result of weathering.All of these forms harm the quality of ore,manufacturing processes,and the produced phosphoric acid and fertilizers. 相似文献