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1.
Concentrations of rare earth elements (REE) and yttrium (Y), and major metals (Al, Fe and Mn) were measured in suspended particulate matter (SPM) and bottom sediments of the Kali estuary, western India, for their distribution and fractionation. The contents of SPM and metals in it were more uniform along the longitudinal transect during the monsoon. During the post- and pre-monsoons, low SPM in the upper/middle estuary coincided with high Fe and Mn and total REE (∑REE). But in the lower estuary SPM and its ∑REE content increased seaward, while Fe and Mn decreased. The Y/Ho ratios decreased seaward during the monsoon but increased during the post-monsoon. Sm/Nd ratios were more uniform along the transect during monsoon but decreased marginally seaward in other seasons. The Post-Archean Average Australian Shale (PAAS)-normalized REE patterns exhibited middle REE and heavy REE enrichment with positive Ce (\({\text{Ce}}/{\text{Ce}}^{*}\)), Eu (\({\text{Eu}}/{\text{Eu}}^{*}\)) and Y anomalies. The \({\text{Ce}}/{\text{Ce}}^{*}\) increased but \({\text{Eu}}/{\text{Eu}}^{*}\) decreased marginally seaward. The fine-grained sediments showed higher ∑REE and lower Y/Ho ratios than in coarse-grained sediments. The PAAS-normalized REE patterns of sediment were similar to that of SPM. The results revealed two processes, colloidal flocculation and coagulation of metals in the low-salinity zone and an estuarine turbidity maximum in the high salinity zone. Rare earths and yttrium (REY) in SPM and sediments primarily reflected the source rock composition than that of chemical weathering. Apart from physico-chemical processes, the mineralogy and grain size of sediments controlled the distribution and fractionation of REY in the estuary. 相似文献
2.
Fluorite from Mississippi Valley Type (MVT) deposits in the South Pennine Orefield, England, displays significantly different distributions of rare earths and yttrium (REY) compared to fluorite from similar MVT deposits in the North Pennine Orefield. Samples from the South Pennine Orefield display negative Ce and positive Gd and Y anomalies but lack any Eu anomaly, indicating that the REY were mobilized from relatively pure marine sedimentary carbonates. In marked contrast, fluorite from the North Pennine Orefield lacks any Ce and Gd anomalies but shows a pronounced positive Eu anomaly, suggesting that the REY were provided by different source rock(s), that the mineralizing hydrothermal fluid had experienced higher temperatures prior to fluorite precipitation, and that it was derived from deeper crustal levels in the north compared to the south. The isotopic composition of Sr in Blue John fluorite from the South Pennine Orefield suggests that Sr was mobilized from Lower Carboniferous (Tournaisian) limestones, whereas Pb isotopes suggest that in contrast to REY and Sr, Pb was derived from aluminosilicate rocks. Neither Nd nor Sr or Pb isotopes can be used to radiometrically date the formation of Blue John fluorite. All isotope systems studied indicate that the limestone host rock of this fluorite mineralization did not contribute to the trace element budget of the hydrothermal fluid. Our results show that different solutes in a natural water (hydrothermal fluid, groundwater, etc.) may be derived from different sources, and that the study of a small set of elements or isotope ratios may not provide full insight into the genesis or history of a mineralization or a hydrothermal fluid. Our data provide evidence for the uncoupling of Sr, Nd and Pb during fluid-rock interaction and fluid migration, and show that the use of plots such as 87Sr/86Sr vs. Nd. to learn about mixing relationships (as is commonly done in igneous geochemistry) is unreliable when applied to natural waters and their precipitates.Editorial handling: B. Lehmann 相似文献
3.
The Tumen molybdenite–fluorite vein system is hosted by carbonate rocks of the Neoproterozoic Luanchuan Group, located on the southern margin of the North China Craton (NCC) in central China. Previous studies divided the mineralization into four stages according to the crosscutting relationships between veinlets and their mineral assemblages. In this contribution, two distinctive types of fluorite mineralization are recognized: 1) the first type (Type 1) includes colourless, white or green fluorite grains present in Stage 1 veins; and 2) the second type includes Type 2a purple fluorite present in Stage 2 veins and does not coexist with sulfides, and Type 2b purple fluorite crystals associated with sulfides in Stage 2 veins. The rare earth element (REE) content in the fluorite ranges between 13.8 and 27.9 ppm in Type 1, 16.9 and 27.2 ppm in Type 2a, and 42.5 and 75.1 ppm in Type 2b, which suggests that the fluorite was precipitated from acidic fluids (given that REEs are mobile in saline HCl-bearing fluids at high temperature (~ 400 °C)). Comparing the REE chemistry of the Stage 1 against Stage 2 fluorite, the LREE/HREE ratios decrease from 9.8 to 4.0, La/Yb ratios decrease from 16.0 to 6.9 and La/Ho ratios decrease from 10.2 to 3.0, indicating that the hydrothermal process was at high-T and low-pH conditions. The Eu/Eu* ratios in the fluorite decrease from 1.11 ± 0.35 for Type 1 through 0.89 ± 0.19 for Type 2a to 0.75 ± 0.17 for Type 2b, suggesting a gradual increase in oxygen fugacity (fO2) and pH of the mineralising fluid. The Tb/Ca, Tb/La and Y/Ho ratios of the fluorite types indicate that they were formed from the interaction between magmatic fluids and carbonate wallrocks. The fluorite samples show similar REE + Y (REY) patterns to those of dolostone units in the Luanchuan Group and the nearby Neoproterozoic syenite, suggesting that the REY in the fluorite was mainly sourced from the host-rocks, although the syenite could be an additional minor source. 相似文献
4.
The fluorite-bearing hydrothermal mineralization in Sardinia mainly occurs within Paleozoic volcanic and metasedimentary rocks. Only 3 occurrences are located in volcanic and siliciclastic Cenozoic rocks. Most Sardinian fluorites exhibit relatively high rare earth and Y (REY) contents, strong positive Y anomalies, slightly negative Ce and generally positive Eu anomalies. These features indicate that the REY were mobilized mainly from non-carbonate rocks. Neither Sr nor Nd isotopes can be used to date radiometrically the Sardinian fluorites. However, the measured Sr-isotope ratios of the fluorites hosted by Paleozoic rocks fit mixing lines in the 1000/Sr versus 87Sr/86Sr plot once recalculated at 280 Ma, suggesting that the age inferred for the correction probably represents that of the formation of the fluorite mineralization. Mixing likely occurred between diluted surficial waters and brines circulating mainly through the Lower Paleozoic metasedimentary basement. The Cenozoic fluorites exhibit chemical and isotopic features similar to those of the Paleozoic fluorites, except the Nuraghe Onigu fluorite displaying a possible contribution of Sr from Cenozoic magmatic rocks. The initial εNd values of the Paleozoic fluorites fit the age proposed for the formation of the deposits. Moreover, the values suggest that radiogenic Nd was provided to the fluids from the Ordovician siliciclastic basement, except for 3 deposits where the potential source rocks of Nd were mainly Ordovician acidic magmatic rocks. The initial εNd values of the Cenozoic fluorites suggest a provenance of Nd essentially from the leaching of Variscan granitoids. 相似文献
5.
萤石经常以脉石矿物存在于各类金属矿床中,但以矿石矿物与金属矿物共存较为少见。布拖小洞子铅锌矿体和萤石矿体是赋存在震旦系灯影组不同部位的典型矿床,受四开-交际河断裂的次级断层带控制,是该区较为特殊,研究程度较低的一类矿床。其中萤石矿床产于与黑色燧石条带白云岩相关的断裂构造,矿石矿物以萤石为主。本文通过对震旦系灯影组下部萤石矿床开展稀土元素地球化学研究,结果表明轻稀土元素富集,重稀土元素略亏损,LREE/HREE介于0.96~1.61,(La/Yb)_N为1.19~3.23,稀土元素配分图表现出略微右倾的特征,具Eu正异常和Ce负异常特征。Tb/Ca-Tb/La、Y/Ho-La/Ho及La/Yb-∑REE等图解表明小洞子萤石矿床主要为同一体系不同阶段的热液产物,破碎带充填交代型矿床成因,其成矿物质来源与灯影组地层和峨眉山玄武岩热液有关。 相似文献
6.
This study examines the rare earth elements and yttrium (REY) concentrations of twenty-five samples from the reef outcrop exposed along the Lianglitage Mountain in the Ordovician, Tarim Basin in China. The concentration analysis provides constraints on the paleoenvironment during reef deposition. Based on the detailed sedimentology and petrographic work, we divide the reef facies into four sub-facies: the base facies, reef-core facies, reef-flank facies, and sealing facies. The geochemical data (such as major and trace elements, carbon and oxygen isotopes, and REYs) are further used to study the coeval seawater characteristics as well as potential diagenesis overprints. The result indicated that the diagenesis has little effect on the REY patterns of the reefal limestones. The REY concentrations of the reefal limestones are overall low (ranging from 3.69 to 19.60 ppm, arithmetic mean=10.22 ppm, SD=5.4). The PAAS-normalized REY patterns are consistently flat compared to the typical well-oxidized, shallow marine water patterns. However, the light REE (LREE) depletions, positive La anomalies, negative Ce anomalies and positive Y anomalies, suggest that these reefal limestones are likely an indicative of contemporaneous seawater REY signals. The seawater-like Y/Ho ratios (average at 37.51) further support that REY signals in these limestones are likely a reflection of seawater with little diagenetic modifications. The low Y/Ho ratios presented only in the reef-flank facies and sealing facies are likely a suggestion of detrital contamination. Hence, this study confirms that REY patterns of the limestones at the base facies and reef-core facies can record ancient seawater information, and reefs can be used as a potential geochemical proxy for paleoenvironment studies throughout the Earth’s history. 相似文献
7.
Fluorite mineralization occurs along fractures and cracks of Middle Eocene and Pliocene limestones and marls in the north and northeast of the Pöhrenk region (Çiçekdagi, Kirsehir). Tb/Ca – Tb/La and Y/Ho ratios were obtained from REE contents of fluorites which have revealed that mineralization is of hydrothermal type. Negative Ce anomalies and positive Eu anomalies reflect that hydrothermal solutions once had high oxygen fugacity. Fluid inclusion studies indicate that homogenization temperatures of mineralization varied between 90°C and 200°C, and hydrothermal solutions are composed of NaCl + KCl + MgCl2 + H2O. In addition, salinity measurements show that hydrothermal solutions were mixed with meteoric or rock formation water. Geologic setting, REE geochemistry and fluid inclusion studies suggest that mineralization was deposited from a solution generated by mixing of magmatic and meteoric water under epithermal conditions. 相似文献
8.
辽东辽河群大石桥组碳酸盐岩稀土元素地球化学及其对Lomagundi事件的指示 总被引:6,自引:4,他引:2
2.33~2.06Ga期间发生了全球性大气圈充氧作用及其相关的占δ~(13)C_(carb)正异常,被称为Lomagundi事件.2.2~2.174Ga的辽河群大石桥菱镁矿及其围岩显示了δ~(13)C_(carb)正异常,是运用REY(REE+Y)指纹技术研究Lomagundi事件的良好对象.本文研究表明,6件白云岩围岩样品∑REE为0.988×10-6~2.744×10-6;Y/Ho比值为37.9~49.4(平均42.5±4.7);(La/La~*)_(SN)为1.075±0.317,(Gd/Gd~*)_(SN)为1.390±0.166,均为正异常;HREE富集(Nd_(SN)/Yb(_SN)=0.38~0.78).所有上述特征与现代海水REY配分模式一致,表明这些样品记录了Lomagundi时期海水的REY特征.6件菱镁矿样品∑REE为4.549±2.239,高于围岩白云岩;HREE弱亏损(Nd_(SN)/Yb_(SN)=1.141±0.265),Y/Ho平均值为40.2±3.2;(La/La~*)_(SN)为0.657~1.149(平均0.919±0.203),(Gd/Gd~*)_(SN)=1.036±0.081,正异常程度弱于白云岩,但仍显示以海水来源为主.矿体顶板滑石白云岩∑REE含量最高(10.758);页岩标准化稀土配分模式为平坦型,(Eu/Eu~*)_(SN)正异常高达1.97,Gd和Y正异常最小,Y/Ho比值最低(31.3),(Nd/Yb)_(SN)为0.89,显示受后期热流体交代影响.菱镁矿(Sm/Yb)_(CN)值(2.61±0.45)高于白云岩(1.19±0.27),指示海水由深变浅,大石桥菱镁矿及其围岩白云岩REY主要来自陆源溶解物,洋底热液贡献微弱,制约REY特征的主导因素为大气圈-水圈的性质,如fO_2,pCO-2等.白云岩和菱镁矿(Ce/Ce~*)_(SN)值平均分别为1.11±0.13和1.04±0.08,表明2.2~2.174Ga期间大陆风化作用加剧,海水呈碱性,pH值>8.2.2.33Ga前的化学沉积物(Eu/Eu~*)_(SN)>1.53,2.06Ga后的化学沉积物(Eu/Eu~*)_(SN)<1.53,大石桥组白云岩和菱镁矿(Eu/Eu~*)_(SN)均值分别为1.44±0.11和1.58±0.20.表明2.2~2.174Ga时海相沉积物(Eu/Eu~*)_(SN)≈1.53,2.33~2.06Ga是地球水圈-气圈系统由还原向氧化转变的关键时期. 相似文献
9.
Mansour Rezaei Azizi Ali Abedini Samad Alipour Hashem Bagheri 《Arabian Journal of Geosciences》2018,11(22):719
The Laal-Kan fluorite deposit (west of Zanjan city, NW Iran) mainly occurred as some open-space filling and vein/veinlet in the schist of the Paleozoic age. Mineralogically, calcite, fluorite types (white, smoky, and violet), and quartz are the principal constituents accompanied by a number of minor accessory minerals such as hemimorphite, hematite, barite, and clays. Based on chemical analyses, fluorites of various colors were found to have low rare earth element (REE) concentrations (4.16–25.67 ppm). The chondrite-normalized REE patterns indicated that early fluorites were enriched in LREE, relative to HREE, whereas late fluorites were enriched in HREE relative to LREE. This study, therefore, indicated that fugacity of oxygen likely played a significant role in the occurrence of positive Ce and negative anomaly in the late fluorite. Furthermore, the Gd behavior of the fluorite samples could be attributed to the Gd-F complex in ore-forming fluids. On the other hand, low pH hydrothermal fluids under alkaline conditions were probably the main mechanism responsible for the deposition of the early fluorites in this district. Fluorite-hosted fluid inclusion analyses also indicated that fluorite-forming fluids consisted of NaCl, MgCl2, CaCl2, and LiCl with a narrow TH (118–151 °C) and high salinities (18.96–23.47 wt.% NaCl equiv.). Further, the diagram of Tb/La-Tb/Ca ratios revealed that fluorites were predominantly deposited in the hydrothermal environment and the late stage fluorites could be considered as the product of the secondary mineralization of the early fluorites due to the interaction of the fluid with the early fluorites. 相似文献
10.
Nasser Mourad Mahdy Mahmoud Hany Shalaby Hassan Mohamed Helmy Ali Farage Osman El Sayed H. El Sawey Ehab Korany Abu Zeid 《Arabian Journal of Geosciences》2014,7(7):2573-2589
Uranium mineralizations occur and form in a broad range of geologic setting and age, including magmatic to surfacial conditions, and there are numerous controls on their transportation and deposition, such as redox, pH, ligand concentration, complexation, and temperature. These temporal and spatial variations have caused a range of ore deposit mineral assemblages. Consequently, understanding their conditions of formation is still in its infancy. This research reports rare earth elements (REE) and trace elements of fluorite associated with hexavalent uranium mineralizations and tests of genetic models for the deposits. These data contribute to a better understanding of the variables controlling fluorite formation and uranium ore composition through understanding the evolution of these ore-forming hydrothermal systems. Fluorite in Gabal Gattar granite occurs as disseminations and/or thin veinlets and encrustations filling some uranium mineralized fissures and fractures along the northern margin of host granite mass. In the U-poor samples, fluorite forms well-developed large crystals that are commonly zoned. The zones are represented by alternating colorless and violet zones, and the outer zones are frequently dark violet. In the U-rich samples, fluorite is usually anhedral, unzoned, and has a dark violet color. The results of analysis of REE and trace element contents of fluorites using laser ablation inductively coupled plasma mass spectrometry indicate that total REE in the anhedral unzoned fluorite are elevated compared to the well developed zoned fluorite, and also total REE in dark violet zones of zoned fluorite are elevated with respect to the colorless zones. The fluorites and host granite are generally characterized by strongly negative Eu anomalies and slightly negative or chondritic Ce anomalies. Accordingly, REE patterns of the fluorite and host granite are roughly alike, indicating that the source of REE and trace elements of hydrothermal fluids is the host granite leached by fluids. Y/Y*, Ce/Ce,* and Eu/Eu* patterns show that fluorite clearly records the compositional evolution of the hydrothermal solutions that have transferred trace and REE from host granite during the fluid–wall rocks interactions. The high uranium contents of fluorite in Gabal Gattar granite suggest that parent fluids bearing fluorine have interacted with host granite to leach uranium from the accessory minerals of granite and tetravalent uranium minerals in reduced or weakly oxidized zones. 相似文献
11.
通过对西太平洋34件海水样品的稀土元素(REY:REE+Y)测试及其与研究区富钴结壳稀土耦合特征分析,揭示了海水稀土特征及其成因.海水的稀土含量随水深呈现逐渐增加的趋势,∑ REY范围为14.0×10-12~65.5×10-12,平均值为31.9×10-12,其中Y的绝对值(均值为6.0×10-12~24.1×10-12)和相对值((Y/Ho)N均值为1.98)均较高,La含量次之(均值为1.8×10-12~11.6×10-12),Ce含量相对较低(均值为2.4×10-12~8.8×10-12),δCe范围为0.33~1.03(均值为0.66),(La/Yb)N平均值为0.71.海水稀土元素北美页岩标准化后显示左倾模式,具有显著的Ce负异常、Y正异常和无明显的Eu异常特征.研究区普遍发育水成成因的富钴结壳,即其稀土元素和其他组分均源自海水.富钴结壳的稀土含量相对海水富集6~7个数量级,其Ce正异常和Y负异常的稀土模式与海水构成良好的耦合关系,指示富钴结壳类组分对海水稀土清扫具有选择性,是造成海水稀土模式的重要因素.海山上发育的磷块岩以及周围盆地深海泥中的磷酸盐组分,它们具有较高的稀土含量和类似于海水的稀土模式,指示海洋磷酸盐消耗稀土时并未分馏而是继承海水模式.海水独特的稀土模式特征是补给与消耗平衡作用的结果,铁锰氧化物和海洋磷酸盐是两种典型的海洋自生组分,它们对海水稀土特征的形成至关重要. 相似文献
12.
Nicolas Dauphas Mark van Zuilen Aivo Lepland Philip E. Janney 《Geochimica et cosmochimica acta》2007,71(19):4745-4770
The iron isotope, trace and major element compositions of Eoarchean supracrustal rocks from southern West Greenland (Isua Supracrustal Belt, the islands of Akilia and Innersuartuut) were analyzed in order to identify protoliths and characterize the imprints of metamorphism and metasomatism. Banded iron formations (BIFs) from the Isua Supracrustal Belt (ISB) have trace element characteristics that are consistent with seawater derivation, including high Y/Ho ratios, positive Eu/Eu∗ anomalies, positive La/La∗ anomalies, and concave upward REE patterns. These rocks also have heavy Fe isotopic compositions relative to surrounding igneous rocks (∼+0.4‰/amu). The most likely interpretation is that this signature was inherited from partial oxidation in a marine setting of Fe emanating from a source similar to modern mid-ocean ridge hydrothermal vents (∼−0.15‰/amu).Banded quartz-rich rocks from the island of Akilia with high Fe/Ti ratios share many similarities with bona fide BIFs from Isua (heavy Fe isotopic compositions up to +0.4‰/amu, elevated Y/Ho ratios compared to igneous rocks, sometimes positive Eu/Eu∗ anomalies) suggesting a chemical sedimentary origin.Iron-poor metacarbonates from the southwestern part of the ISB have light Fe isotopic compositions (∼−0.4‰/amu). This is consistent with derivation of these rocks by fluid flow through surrounding ultramafic rocks and deposition as metasomatic carbonates. Iron-rich metacarbonates from the northwest and northeast parts of the ISB have Fe isotopic compositions (from +0.1 to +0.4‰/amu) and trace element patterns (high Y/Ho ratios, positive Eu/Eu∗ and La/La∗ anomalies, and concave upward REE) similar to associated BIFs. The most likely interpretation is that these iron-rich metacarbonates were derived from mobilization of Fe in BIFs by metasomatic fluids. 相似文献
13.
"岩浆侵入对淮北花沟西煤中稀土元素分布的影响"(高校地质学报,2013,19(4):671-676页)和"岩浆侵入对袁店二井煤矿72煤中稀土元素的影响"(煤炭工程,2014,46(5):119-122页)两文均表明"岩浆侵入致使煤中稀土元素含量增加,使煤中稀土元素发生了二次迁移与富集,且岩浆组分对煤中稀土元素的迁移富集具有一定程度的影响",而经重新整理原作者数据,并对其中镧系元素和钇(REY)的含量特征、上陆壳标准化分配模式的分析后,则得出完全不同的结论:淮北煤田煤中REY平均118mg/kg,天然焦中REY平均128mg/kg,侵入岩中REY平均326mg/kg;煤层侵入岩REY含量高于煤和天然焦,而煤和天然焦中REY含量无显著差别。煤层侵入岩上陆壳标准化的REY分配模式均显著富集LREY,且明显与煤和天然焦的REY分配模式不同,这表明岩浆侵入对煤中镧系元素和钇的影响甚微,且煤中的HREY较LREY和MREY富集。总结得出:对煤中稀土元素地球化学的研究须将钇元素一并分析,且将REY三分(LREY,MREY和HREY)便于更细致的对比;稀土元素分配模式标准化的参考应该尽量选择与煤近似的地质体(如北美页岩、上陆壳、中国煤等),不应均以球粒陨石为标准,方可更准确地解析稀土元素的来源及其在成煤及变质过程中的分异等。 相似文献
14.
The formation of Parzán fluorite-lead «extension-type» vein (Spanish Central Pyrenees) is related to the post-Hercynian hydrothermal activity widespread not only in the Pyrenees but in Western Europe as well. The lode was later strongly deformed during the Alpine orogeny with textural modifications and destruction of primary fluid inclusions. In order to determine if geochemical signatures of the vein were disturbed during Alpine deformation, post-ore fluid inclusions and quartz oxygen-isotopes have been addressed. Microthermometry and X-ray microanalysis of frozen inclusions confirm the Na-Ca-Cl character of post-ore fluid circulations and indicate that they were originally derived from a single source: Triassic connate waters. Oxygen isotope data on quartz formed during deformation along with trace element geochemistry suggest that the geochemical signatures of the vein (mainly REE and 87Sr/86Sr) were apparently not reset during deformation. The REE content of fluorites is very high (up to 0.12%); the chondrite normalized REE patterns display a continuous decrease from La to Lu. Sulphur isotope data for the Parzán vein is outside the typical “deep seated” range, suggesting dominantly crustal sources of sulphur for sulphides, while formation waters may be proposed for barite. Parzán fluorites have the most radiogenic Sr values of all the investigated fluorite deposits in Central Pyrenees. They scatter in the range of both the igneous rocks and the Cambrian-Ordovician and Triassic detrital sequences of the Parzán area. If REE contents and 87Sr/86Sr ratios reflect the primary stage of vein filling as suggested by the good correlation between both geochemical signatures, the linear array between 87Sr/86Sr and 1/ΣREE is suggestive of a mixing process. The δ34S, δ18O and 87Sr/86Sr parameters in barite, which postdates the fluorite, also provide strong evidence that barite deposition is a result of fluid mixing. Such an interpretation is in line with present-day ideas for the genesis of many of the F-Ba-Pb-Zn vein deposits in the Hercynian belt of Iberia. 相似文献
15.
The Gardar failed-rift Province is world-famous for its (per-)alkaline plutonic rocks. Elevated contents of F in the mantle source and F-enrichment in the parental melts have been suggested to account for the peculiarities of the Gardar rocks (e.g. their rare mineralogy, extreme enrichment of HFSE elements, Be or REE in the Ilímaussaq agpaites, and the formation of the unique Ivigtut cryolite deposit). To constrain the formation and chemical evolution of F-bearing melts and fluids, fluorides (fluorite, cryolite, villiaumite, cryolithionite), calcite and siderite from the Ilímaussaq, Motzfeldt and Ivigtut complexes were analysed for their trace element content focusing on the rare earth elements and yttrium (REE).The various generations of fluorite occurring in the granitic Ivigtut, agpaitic Ilímaussaq and miaskitic to agpaitic Motzfeldt intrusions all share a negative Eu anomaly which is attributed to (earlier) feldspar fractionation in the parental alkali basaltic melts. This interpretation is supported by the abundance of anorthositic xenoliths in many Gardar plutonic rocks.The primary magmatic fluorites from Ilímaussaq and Motzfeldt display very similar REE patterns suggesting a formation from closely related parental melts under similar conditions. Hydrothermal fluorites from these intrusions were used to constrain the multiple effects responsible for the incorporation of trace elements into fluorides: temperature dependence, fluid migration/interaction and complexation resulting in REE fractionation. Generally, the REE patterns of Gardar fluorides reflect the evolution and migration of a F/CO2-rich fluid leading to the formation of fluorite and fluorite/calcite veins. In certain units, this fluid inherited the REE patterns of altered host rocks. In addition, there is evidence of an even younger fluid of high REE abundance which resulted in highly variable REE concentrations (up to three orders of magnitude) within one sample of hydrothermal fluorite.The REE patterns of the granitic Ivigtut intrusion show flat to slightly heavy-REE-enriched patterns characterised by a strong tetrad effect. This effect is interpreted to record extensive fluid–rock interaction in highly fractionated, Si-rich systems.Interestingly, the fluorides appear to record different source REE patterns, as the spatially close Motzfeldt and Ilímaussaq intrusions show strong similarities and contrast with the Ivigtut intrusion located 100 km NE. These variations may be attributed to differences in the tectonic position of the intrusions or mantle heterogeneities. 相似文献
16.
The factors determining the REE distribution in natural hydrothermal systems are studied by a numerical experiment. The behavior of REE is examined based on the composition of ore-bearing hydrothermal solutions and the parameters of ore formation processes at different fluorite deposits. These data were obtained in studies of fluid inclusions. Some regularities of the REE behavior during the formation of fluorite deposits have been revealed. It is shown that the REE distribution in fluorites is related mainly to changes in the composition of mineral-producing fluid solution. 相似文献
17.
18.
Rare earth element (REE) abundances in eudialytes and co-existing feldspars and mafic minerals from six alkaline intrusions ranging from mildly to strongly peralkaline indicate large scale complexing of the REE and yttrium. The eudialyte-bearing stages of these intrusions are characterized by a low Ce/Y ratio. This enrichment in the heavy REE is not due to the high REE content of the mineral eudialyte but appears to be related to the importance, duration and type of REE and other element complexing during differentiation. Feldspar and mafic mineral REE abundances reflect this low Ce/Y ratio and are often altered by late stage magmatic, metasomatic or hydrothermal fluids enriched in the heaviest REE and yttrium. 相似文献
19.
This paper focuses on reasons for the appearance of tetrad effects in chondrite-normalized REE distribution patterns of granitoids
(Li-F granites, peralklaine granites, ongonites, fluorine-rich rhyolites, and granitic pegmatites). The analysis of published
data showed that the alteration of such rocks by high- and/or low-temperature metasomatic processes does not result in most
cases in the appearance or enhancement of M-type tetrad effects in REE patterns. These processes are accompanied by the removal
or addition of lanthanides, a W-type sag appears between Gd and Ho, and negative or positive Ce anomalies develop sometimes
in REE patterns. The formation conditions of peculiar rocks enriched in Ca and F from the Ary Bulak ongonite massif (eastern
Transbaikalia) and the character of REE distribution in these rocks and melt inclusion glasses were discussed. Based on the
obtained data and the analysis of numerous publications, it was concluded that REE tetrad effects in rare-metal granitoids
are caused by fluoride-silicate liquid immiscibility and extensive melt differentiation in the accumulation chambers of fluorine-rich
magmas. A considerable increase in fluorine content in a homogeneous granitoid melt can cause its heterogenization (liquation)
and formation of fluoride melts of various compositions. The redistribution of lanthanides between the immiscible liquid phases
of granitoid magma will result in the formation of M-type tetrad effects in the silicate melts, because the REE patterns of
fluoride melts exhibit pronounced W-type tetrad effects. The maximum M-type tetrad effect between La and Nd, which is observed
in many rare-metal granitoids, is related to the character of REE partitioning between fluoride and silicate melts and F-
and Cl-rich magmatic fluids. The low non-chondritic Y/Ho ratio (<15) of many rare-metal granitoids may be indicative of a
contribution of fluoride melts to the differentiation of F-rich silicic magmas, from which these rocks were formed. The influence
of high-temperature F-Cl-bearing fluids on melts and/or granitoid rocks results in an increase in Y/Ho ratio owing to the
elevated solubility of Ho in such fluids. 相似文献
20.
Associated with the Cretaceous Okorusu carbonatite complex (Namibia) is a hydrothermal fluorite mineralization hosted in Pan-African country rock marbles, which resulted from fluid-rock reaction between the marbles and orthomagmatic, carbonatitic fluids expelled from the carbonatite. Yellow fluorite I was deposited in veins up to 5 cm away from the wallrock contact, followed by purple and colorless fluorite II, smoky quartz and barite, a Mn-rich crust on early calcite, and pure calcite. This clear-cut sequence of mineral growth allows an investigation into fluid-rock interaction processes between the marble and the migrating carbonatitic fluid, and element fractionation patterns between the fluid and subsequent hydrothermal precipitates.Fluorite I shows a progressive change in color from dark yellow to colorless with purple laminations over time of deposition. Subsequent fluorite I precipitates show an increase in Ca, and a continuous decrease in F, Sr, REE, Y, Th, U and Pb contents. The ratios (Eu/Eu*)cn, Th/Pb and U/Pb increase whereas Y/Ho, Th/U and (La/Yb)cn decrease. The Sr-isotopic composition remains constant at 87Sr/86Sr = 0.70456-0.70459, but with varying, highly radiogenic Pb (206Pb/204Pb = 32-190, 238U/204Pb = 7-63). Fluorite II has 87Sr/86Sr = 0.70454-0.70459, 206Pb/204Pb = 18.349, and 207Pb/204Pb = 15.600, and a chemical composition similar to youngest fluorite I. The Mn-rich crust on early calcite accumulated REE, Ba, Pb, Zr, Cs, Th and U, developing into pure calcite with a prominent negative Ce anomaly and successively more radiogenic Sr. The calculated degrees of fluid-rock interaction, f = weight fraction of fluid/(fluid + marble), decrease from fluorite I and most fluorite II (f = 0.5) to calcite (f = 0.2-0.3) and hydrothermal quartz (f ? 0.1). A crush-leach experiment for fluid inclusions in the hydrothermal quartz yielded a Rb-Sr isochron age of 103 ± 12 Ma. Crush-leach analysis for the carbonatitic fluid trapped in the wallrock yielded a trend from the fluid leachate to the host quartz (206Pb/204Pb = 18.224 and 18.602, 207Pb/204Pb = 15.616 and 15.636, respectively) extending from carbonatite towards crustal rocks.Calculated trace element distribution coefficients fluorite/fluid are below unity throughout, and increase from La to Yb. Elements largely excluded from fluorite (Ba, Pb, LREE relative to HREE) were incorporated later into the Mn-rich crust on calcite. The trace element patterns of the hydrothermal minerals are related to changing aCO2 and aF− in the fluid during continued fluid-marble reaction. A predominance of carbonate over fluoride complexing in the fluid as reactions proceeded controlled the Y/Ho, Th/U and REE patterns in the fluid and the crystallizing phases. Deviations from these trends indicate discontinuous processes of fluid-rock reaction. 相似文献