Chemical and boron-isotope variations in tourmalines from an S-type granite and its source rocks: the Erongo granite and tourmalinites in the Damara Belt,Namibia   总被引：3，自引：0，他引：3  

R. B. Trumbull  M.-S. Krienitz  B. Gottesmann  M. Wiedenbeck 《Contributions to Mineralogy and Petrology》2008,155(1):1-18

Tourmaline is widespread in metapelites and pegmatites from the Neoproterozoic Damara Belt, which form the basement and potential source rocks of the Cretaceous Erongo granite. This study traces the B-isotope variations in tourmalines from the basement, from the Erongo granite and from its hydrothermal stage. Tourmalines from the basement are alkali-deficient schorl-dravites, with B-isotope ratios typical for continental crust (δ¹¹B average −8.4‰ ± 1.4, n = 11; one sample at −13‰, n = 2). Virtually all tourmaline in the Erongo granite occurs in distinctive tourmaline-quartz orbicules. This “main-stage” tourmaline is alkali-deficient schorl (20–30% X-site vacancy, Fe/(Fe + Mg) 0.8–1), with uniform B-isotope compositions (δ¹¹B −8.7‰ ± 1.5, n = 49) that are indistinguishable from the basement average, suggesting that boron was derived from anatexis of the local basement rocks with no significant shift in isotopic composition. Secondary, hydrothermal tourmaline in the granite has a bimodal B-isotope distribution with one peak at about −9‰, like the main-stage tourmaline, and a second at −2‰. We propose that the tourmaline-rich orbicules formed late in the crystallization history from an immiscible Na–B–Fe-rich hydrous melt. The massive precipitation of orbicular tourmaline nearly exhausted the melt in boron and the shift of δ¹¹B to −2‰ in secondary tourmaline can be explained by Rayleigh fractionation after about 90% B-depletion in the residual fluid. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.  相似文献   

Distribution of Boron in Some Egyptian Aquatic Environments     

Doaa Hassan Youssef 《Journal of Oceanography》2003,59(5):537-544

Concentrations of boron in seawater (from four regions along the Alexandria coastline, subjected to land disposal), brackish water (Lake Edku) and drains water (e.g. El-Umum Drain) were determined during the period from February to August 2000. Boron was determined spectrophotometrically by a modified curcumin method. For Lake Edku, boron concentration fluctuated between 0.023 and 0.105 mmol/l. There are several factors that affect the concentration of B in the Lake water: (a) effect of the drainage water via El-Khairy and Barsiek Drains, (b) utilization of boron by hydrophytes, and (c) water exchange through the sea-lake connection. It may be concluded that the level of boron in the Lake water cannot be considered a substantial hazard to the Lake organisms. Boron concentration varied from 0.392 to 0.522 mmol/l in seawater samples and from 0.141 to 0.458 mmol/l in the sites where the water from the drains (El-Umum Drain and El-Noubaria Canal) mixed with the seawater. The broader variation of boron (mmol/l)/salinity ratios for seawater samples (0.0106–0.0138) may be due to that the samples were collected from the upper seawater layers, where contributions from land run-off, atmospheric precipitation and differences in the biota affect the concentration. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

用新显色剂3-甲氧基-甲亚胺H光度测定海水中的硼     

潘教麦  王芳  徐钟隽 《海洋科学》1994,18(1):64-66

采用新试剂３－甲氧基－甲亚胺Ｈ测定海水中的硼，加入ＥＤＴＡ和酒石酸掩蔽各种干扰离子，不须分离可直接测定，方法简便、快速、准确。  相似文献   

Boron isotope variations in nature: a synthesis   总被引：9，自引：0，他引：9  

S. Barth 《International Journal of Earth Sciences》1993,82(4):640-651

The large relative mass difference between the two stable isotopes of boron, ¹⁰B and ¹¹B, and the high geochemical reactivity of boron lead to significant isotope fractionation by natural processes. Published ¹¹B values (relative to the NBS SRM-951 standard) span a wide range of 90. The lowest ¹¹B values around — 30 are reported for non-marine evaporite minerals and certain tourmalines. The most ¹¹B-enriched reservoir known to date are brines from Australian salt lakes and the Dead Sea of Israel with ¹¹B values up to +59. Dissolved boron in present-day seawater has a constant world-wide ¹¹B value of + 39.5. In this paper, available ¹¹B data of a variety of natural fluid and solid samples from different geological environments are compiled and some of the most relevant aspects, including possible tracer applications of boron-isotope geochemistry, are summarized.

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Résumé La grande différence relative de masse entre les isotopes stables du bore, ¹⁰B et ¹¹B, et la grande réactivité geochimique du bore ont pour conséquence un fractionnement isotopique naturel important. Les valeurs de ¹¹B publiées (par rapport au standard NBS SRM-951) varient de 90. Les valeurs de ¹¹B les plus basses (–30) correspondent aux evaporites non-marines et à certaines tourmalines. Le réservoir le plus enrichi en ¹¹B est représenté par les saumures des lacs salés d' Australie et par la Mer Morte en Israël, qui ont des valuers de ¹¹B allent jusqu'à + 59. L'eau de mer a une valeur de ¹¹B mondialement constante de + 39.5. Des valeurs de ¹¹B des solutions naturelles ainsi que des roches et minéraux de différentes origines, publiées jusqu'à présent, sont présentées ici. En outre quelques aspects importants concernant la géochimie des isotopes du bore y compris quelques applications sont exposés.

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Tourmalinites from the Eastern Sierras Pampeanas, Argentina     

S. M. Tourn  C. J. Herrmann  S. Ametrano  M. K. de Brodtkorb   《Ore Geology Reviews》2004,24(3-4):229

In the eastern Sierras Pampeanas, Central Argentina, tourmalinites and coticules are found in close association with stratabound scheelite deposits in metamorphic terranes. In Sierra Grande (Agua de Ramón and Ambul districts) and Sierra de Altautina, tourmalinites are associated with stratabound scheelite deposits related to orthoamphibolites. In the Pampa del Tamboreo area, tourmalinites are located in biotite schists stratigraphically related to acid to intermediate metavolcanic rocks and scheelite-bearing quartzites.The mineral chemistry and boron isotopic compositions of tourmalinite-hosted and vein-hosted tourmalines are investigated. Overall, the tourmalines belong to the dravite-schorl series and are generally aluminous; Fe/(Fe+Mg) ranges from 0.33 to 0.85, Al/(Al+Fe+Mg) from 0.66 to 0.76 and the amount of X-site vacancy (0.12–0.48) indicates significant foitite components. Their boron isotopic compositions (δ¹¹B) are from −24.0‰ to−15.0‰.Similar mineral chemistries and boron isotopic values for tourmaline in tourmalinites related to stratabound scheelite mineralisation and in tungsten-bearing quartz veins suggest a common source for the boron and probably the tungsten. The field, chemical and isotopic relationships are consistent with tungsten and boron in quartz-vein deposits being remobilised from stratabound scheelite and tourmalinite, dominantly by liquid-state transfer associated with regional shear zones. Tungsten and boron in the original sedimentary sequence (now meta-exhalites) are ascribed to volcanogenic exhalations.  相似文献   

青藏高原盐湖水化学及其矿物组合特征   总被引：23，自引：1，他引：22  

郑绵平  刘喜方 《地质学报》2010,84(11):1585-1600

青藏高原湖泊的矿化度与其湖泊演化所处的自然环境,特别是与气候条件关系密切,根据取得盐湖数量和卫片解译,本区湖泊矿化度在空间上变化的总趋势是由北、西北向南、东南趋向下降,大体上与现代高原年干燥度(年蒸发量/年降水量)呈同步变化。高原盐湖的pH值既与水化学类型有关,又与湖水矿化度有关,即由碳酸盐型→硫酸钠亚型→硫酸镁亚型→氧化物型,其pH值趋于下降,而湖泊的pH值与矿化度大体呈反相关。根据库尔纳可夫—瓦良什科分类法及作者对碳酸盐型的细分,对青藏高原盐湖水化学进行了全面细致划分,从而取得了清晰的规律性认识:本区盐湖水化学具有南北分带,东西分区的特点。不同的盐湖水化学类型,具有不同的专属性,碳酸盐型代表性成矿组合为硼砂(三方硼砂)或硼砂—扎布耶石,以及碱—芒硝组合;硫酸钠亚型代表性成矿组合为芒硝(无水芒硝)—石盐以及镁硼酸盐(库水硼镁石、柱硼镁石等)—钠硼解石—芒硝;硫酸镁亚型代表性成矿组合为硫酸镁盐(泻利盐、白钠镁矾)—石盐、镁硼酸盐—芒硝、芒硝—软钾镁矾—石盐以及大量石膏;氯化物型代表性成矿组合则为光卤石—水氯镁石—石盐、光卤石—石盐,个别盐湖共生南极石。由此可见,青藏高原各类型盐湖矿物组合基本上具有冷相组合特征,芒硝及与其共生的冷相盐类矿物,可成为研究古气候变化的重要标志物。目前已检出青藏高原盐湖水含有59种元素,其中B与Li、Cs、K、Rb有密切共生关系,其含量随湖水矿化度增长大致呈正相关;B、Li、Cs、K、Rb最高正异常落在羌南碳酸盐型带(Ⅰ2)西段—昂拉陵湖区为中心地区;并与本区中新世火山沉积岩系和地热水B、Li、Cs、Rb等高值区并行不悖。以上有力证明B、Li、Cs等特殊元素物质与深部来源有关。据近期大量地球物理和火山岩岩石地球化学研究,其成因与印度—欧亚陆陆碰撞引起的重熔岩浆作用有密切成因联系。南美科迪勒拉高原硼锂(铯)盐湖即生成于活动大陆边缘,两者均说明全球特定的活动构造带是造成天然水B、Li、Cs(K、Rb)高丰度及其成矿作用的主因。  相似文献   

Origin of boron in the Damxung Co Salt Lake(central Tibet):Evidence from boron geochemistry and isotopes     

Lü Yuanyuan  ZHENG Mianping  CHEN Wenxi  ZHANG Xuefei  LIU Xifang  WU Qian  YU Jiangjiang 《《地质学报》英文版》2014,88(Z1):151-152

正The origin of boron in boron-rich salt lakes in the Tibetan Plateau has long been the subject of debate.The Damzung Co Salt Lake in central Tibet has high boron concentrations(B=276–313 mg/L)and is an ideal site for  相似文献   

西藏错那洞电气石花岗岩中电气石化学组成、硼同位素特征及意义          下载免费PDF全文

代作文  李光明  丁俊  张林奎  曹华文  张志  梁维 《地球科学》2019,44(6):1849-1859

为了对西藏错那洞电气石花岗岩源区进一步约束,利用显微镜、电子探针和激光剥蚀多接收等离子质谱仪,对错那洞电气石花岗岩中电气石的形态、成分及硼同位素组成进行了研究.结果表明,错那洞电气石花岗岩中的电气石为碱族黑/铁电气石,直接结晶自富硼熔体,与熔体之间未发生明显的硼同位素分馏.电气石δ11B值主要在-6.91‰^-9.17‰之间,与大陆地壳平均δ11B值(-10‰±3‰)相近,表明错那洞电气石花岗岩主要源自变质沉积岩的部分熔融.然而,与起源于变质沉积岩的花岗岩相比,样品的δ11B值明显偏高,而与前人报道的雅拉香波淡色花岗岩(源自石榴石角闪岩部分熔融)的δ11B值相似.因此,错那洞电气石花岗岩源区中,除了变质沉积岩外,可能还混入了少量石榴石角闪岩.  相似文献   

国内盐湖卤水硼资源提取专利分析          下载免费PDF全文

李玉婷  李禾禾  倪颖  王瑜  葛飞 《盐湖研究》2020,28(3):109-114

基于中国盐湖硼资源开发动态,选择国家知识产权局专利数据,从盐湖卤水硼资源提取相关专利申请时间、地域分布、主要方法等方面进行分析。发现中国专利包含多种盐湖硼资源提取方法,并且逐步走向成熟,其中萃取法已成为研究重点。近期关于多种伴生资源综合开发的专利越来越受到关注。对国内盐湖硼资源提取技术后续开发和产业发展提出了建议。  相似文献   

柴达木盆地碱山深钻的硼同位素地球化学特征          下载免费PDF全文

卢胜城  韩文霞  韩凤清  马云麒  吕爽 《盐湖研究》2020,28(1):60-68

沉积物硼(B)同位素组成可以反映其地质成因及经历的地质过程,因此在许多领域的研究中都有较为广泛的应用。通过对位于柴达木盆地碱山背斜顶部的SG-1b钻孔沉积物(7.3～1.6 Ma)水溶组分的B同位素研究,发现钻孔沉积物B含量在38.55～172.3μg/g之间,平均含量为87.6μg/g;δ~(11)B值的变化范围在3.61‰～16.26‰之间,平均值为10.65‰,B含量与δ~(11)B值具有一定的正相关关系。进一步分析表明,受到碱山背斜构造隆升以及晚新生代以来气候干旱化的影响,柴西古湖逐渐咸化萎缩,沉积环境以及碳酸盐含量、粘土矿物含量及其矿物组合等也在发生变化,B含量和δ~(11)B值自钻孔底部向上的逐步增加以及后期的急剧增加,与水溶离子含量以及矿物和粒度等的变化一致,这说明柴达木盆地晚中新世以来湖泊沉积物的B含量和δ~(11)B值可以很好地反映研究区气候和湖水的演化过程,共同指示了研究区自7.3 Ma以来气候的持续干旱化和湖水盐度的逐步增加,以及3.3Ma以来干旱化和湖水浓缩过程的加剧。  相似文献