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1.
白云鄂博稀土超大型矿床的成矿时代及其主要地质热事件 总被引:26,自引:0,他引:26
于白云鄂博矿床的主、东矿体及附近地区采集用于测定同位素年龄样品,通过镜下含稀土矿物的矿石结构构造的研究,选取了相同世代的独居石=氟碳铈矿、钠闪石等单矿物进行Th-Pb、Sm-Nd 和 40Ar/39Ar 同位素分析。其结果表明:独居石-氟碳铈矿7个点构成一条较好的Sm-Nd等时线,等时年龄 t=1313±41(2σ)Ma,143Nd/144Nd(INd)=0.210919±13(2σ),εNd(t)=-0.5±0.3(2σ).1313Ma 应为白云鄂博矿床的稀土成矿时代。主矿北和都拉哈拉的独居石分别测定了 相似文献
2.
白云鄂博稀土矿床形成年龄的新数据 总被引:25,自引:0,他引:25
白云鄂博铁铌稀土矿床的形成年龄是一个争论的问题,采自该矿床生、东矿的13个稀土矿石样品和5个明显为后期形成的脉体矿物样品被进行Sm-Nd同位素分析。对矿区北部侵入地层中的碳酸岩脉也做了工作。由矿石样品得出的Sm-Nd等时年龄为1286±91(2σ)Ma,Ind=0.51089±4(2σ),εNd(t)=-0.06±0.78.脉体矿物样品给出的等时年龄为422±18(2σ)Ma,INd=0.511263±13(2σ),εNd(t)=-16.3±0.2.采自矿区北部碳酸岩的等时年龄为 1223±65(2σ)M 相似文献
3.
河北矾山钾质碱性超镁铁岩—正长岩杂岩体Sm—Nd年龄和Sr、Nd同位素特征 总被引:13,自引:11,他引:13
河北矾山侵入杂岩,由层状钾质超镁铁岩--正长岩组成,已知它含有大型磁铁矿磷灰石矿床.现在已测定了岩体的岩石和矿物的Sm-Nd同位素资料,并获得了杂岩体的Sm-Nd同位素年龄.4个矿物样品和2个全岩样品Sm-Nd等时线年龄为243.4±9.7Ma,INd=0.512045,εNd(t)=-5.4;4个矿物样品和7个全岩样品等时线年龄为239±19Ma,INd=0.512055,εNd(t)=-5.3.这些年龄资料表明,矾山岩体可能侵位于早三叠.而矾山岩体的Rb-Sr等时线年龄为218±8Ma,Isr=0.70554,εsr=18.4的事实可能暗示矾山岩体在中三叠才完全固结并达到Rb-Sr体系封闭的温度.上述矾山岩体的Sr、Nd同位素特征表明,矾山岩体的物质源自富集的上地幔. 相似文献
4.
白云鄂博矿床白云岩的Sm—Nd、Rb—Sr同位素体系 总被引:17,自引:4,他引:17
白云鄂博矿床的年龄和成因长期争论.本文报道了白云鄂博矿床白云岩及其组成矿物的Sm-Nd、Rb-Sr同位素分析结果.采自该矿床主、东矿等地的15个白云岩样品的Sm-Nd同位素分析结果呈现一条等时线,等时年龄1273±100(2σ)Ma,INd=0.510919士36(2d),MSWD1.01.全岩Rb-Sr同位素分析结果分散,不构成等时线.87Rb/86Sr0~2.092×100-2,87Sr/86Sr0.70341~0.70541.白云岩矿物的Sm-Nd同位素分析结果给予了与全岩类似的Sm-Nd等时年龄,t=1250士210(2σ)Ma,1Nd=0.510914±77(2σ),MSWD
0.56.白云鄂博矿床可能是中元古代末期大离子亲石微量元素略为富集地幔源区部分熔融岩浆活动产物. 相似文献
5.
6.
贵州织金新华含稀土磷矿床稀土元素地球化学研究 总被引:8,自引:0,他引:8
对贵州织金新华含稀土磷矿床进行的稀土元素及微量元素分析结果表明,磷块岩中普遍富集稀土元素,含稀土总量∑REE较高,并富集Y、La、Nd等重稀土及轻稀土元素.LREE/HREE比值较高,但低于上部围岩之值.含稀土磷块岩普遍具Ce的负异常,显示其对源区的继承性,也指示成磷环境处于氧化程度相对较高状态.稀土元素球粒陨石标准化模式曲线、北美页岩标准化模式曲线、Ce元素异常、LREE/HREE比值、微量元素特征及岩石矿物特征表明,织金新华含稀土磷矿床具以正常海相生物-化学沉积等为主伴有海相热水沉积混合成因的特征.文中讨论了含稀土磷块岩氧化矿石中稀土元素的迁移富集规律及特征. 相似文献
7.
《矿物学报》2016,(3)
苗龙金锑矿床位于贵州三都-丹寨金锑汞成矿带,矿体赋存于上寒武统三都组海相碳酸盐岩中。本文对该矿床的成矿期方解石微量元素含量、Sr-Nd同位素组成进行了研究。结果表明,该矿床成矿期方解石稀土元素总量变化范围大(5.98~139μg/g,平均值为43.7μg/g),在球粒陨石标准化稀土元素配分模式图中大多数方解石样品具有轻稀土富集特征((La/Yb)_N=1.84~9.18,(Gd/Yb)_N=2.55~6.14),少量样品表现为中稀土富集特征((La/Yb)_N=0.33~1.39,(Gd/Yb)_N=1.29~2.24)。该矿床成矿期方解石样品不具有Ce异常(δCe=0.97~1.19),但具有Eu异常(δEu=0.61~1.72),指示其形成于相对还原条件下。方解石样品的~(87)Sr/~(86)Sr值为0.7108~0.7144,平均值为0.7119,高于赋矿围岩的~(87)Sr/~(86)Sr值(0.7090),表明成矿流体相对富放射成因锶,其不可能主要由赋矿的三都组灰岩提供,而可能来自富放射成因锶的前寒武纪基底。Sm-Nd同位素研究表明,该矿床成矿期方解石样品可构筑两条Sm-Nd等时线,其对应的等时线年龄分别为273±14 Ma和272±43 Ma,但与地质背景不符,因此该次方解石Sm-Nd同位素定年等时线无地质意义。这种假等时线现象可能是由成矿流体初始~(143)Nd/~(144)Nd不均一造成的。方解石ε_(Nd)(0)(-14.02~-9.48)远小于0,指示成矿流体中的Sm和Nd来源于陆壳。 相似文献
8.
长期以来,对玄武岩精确测年一直是困扰地质学家的重大科学问题。玄武岩结构和组成特殊,岩石中矿物组成单一、锆石十分稀少,颗粒很细,采用物理方法挑选单矿物和锆石十分困难,很难应用内部等时线法和锆石U-Pb法研究其成岩时代。而全岩样品间因岩浆分异产生的147Sm/144Nd比值差别很小,等时线年龄相对误差较大;Rb含量很低,Rb/Sr比值很小,全岩Sm-Nd法、Rb-Sr法常常不能给出正确可信的年龄。根据内部等时线法原理,本文通过化学方法,采用王水和氢氟酸-硝酸对玄武岩样品进行分步溶解,分别对同一件样品的王水溶解相、王水不溶相和全岩开展Sm-Nd同位素组成分析。结果表明:通过不同酸介质分步溶解,可提取玄武岩中石英、透辉石、长石等矿物组合,该组合与其全岩具有相同的εNd(t)和一致的Nd同位素模式年龄;矿物与全岩构筑的内部等时线中,147Sm/144Nd比值的变化由全岩之间的0.005扩大到0.11,143Nd/144Nd值的变化由全岩的0.512500~0.512547扩大到0.512500~0.513145。通过该方法获得了与已有锆石U-Pb年龄在误差范围内一致的Sm-Nd等时线年龄:t=(991±21)Ma(MSWD=2.1)。通过对比研究,本文认为:玄武岩分相Sm-Nd内部等时线定年方法,适用于前寒武纪及更古老的玄武岩样品的年龄测定。该方法的建立不仅有效提高玄武岩Sm-Nd等时线定年成功率,也为其他隐晶质且不易挑出单矿物样品的年龄测定提供了新的思路。 相似文献
9.
元宝山金矿床位于新疆鄯善县境内,属于东天山康古尔塔格金矿带,受秋格明塔什-黄山韧性剪切带控制。为探讨元宝山金矿床的成矿时代及其地质意义,本次研究开展了矿石石英Rb-Sr年代学、含矿围岩Rb-Sr、Sm-Nd及锆石U-Pb同位素年代学分析。(255.6±1.0)Ma的含矿围岩Rb-Sr同位素等时线年龄以及(256±14)Ma的石英Rb-Sr等时线年龄,限定了该矿床的形成时代,而(334.7±9.8)Ma的含矿围岩锆石U-Pb年代学数据表明,该矿床的含矿围岩为中石炭统。Sr、Nd同位素特征表明,成矿物质来源具有幔源特征并有壳源物质参与,而区内韧性剪切带右行走滑剪切及随后的抬升作用导致的压力和温度的降低应是元宝山金矿床形成的动力学背景。 相似文献
10.
渣滓溪W-Sb矿床位于湘西雪峰山弧形构造带的中段,是典型脉状W-Sb矿床.本文对渣滓溪矿区的白钨矿进行了Sm-Nd同位素研究.研究表明,其白钨矿的Sm/Nd变化范围为0.2175~0.3485,在白钨矿的147Sm/144Nd-1433Nd/144Nd图解中,对应的等时线年龄为(227.3±6.2)Ma,MSWD=1.6,是白钨矿的形成年龄,代表了渣滓溪W-Sb矿床的主成矿年龄,属于晚三叠纪.渣滓溪W-Sb矿床白钨矿的εMd(t)值为-11.81~-11.91,不同于沃溪W-Sb-Au矿床白钨矿的εNd(t),暗示两者在成矿物质来源上具有一定差异.本次白钨矿Sm-Nd同位素等时线年龄研究结果进一步明确了渣滓溪W-Sb矿成矿年龄,为研究湘西W-Sb多金属矿床成矿年龄及湘西的成矿时空特征提供了可靠和有用的数据,而渣滓溪W-Sb矿床晚三叠纪成矿时代的确定对于区域找矿也具有重要意义. 相似文献
11.
Sm-Nd isotopic compositions of eight lamprophyre samples, which come from the Gezhen gold-bearing shear zone on western Hainan Island, are measured. The Sm-Nd isochron age is 495.98±13.14 Ma, (143Nd/144Nd) 0=0.512094, εNd(t) ranges from +1.80 to +2.00 and TDM from 982 Ma to 1196 Ma (average: 1060 Ma). The authors point out that the whole-rock Sm-Nd isochron age (495.98 ± 13.14 Ma) really represents the petrogenetic age of lamprophyre and the time of magmatism during subsequent subduction. 相似文献
12.
选取庙垭铌-稀土矿床中5件新鲜的碳酸岩样品,依据内部等时线法原理,依次采用醋酸、王水、氢氟酸对其进行分步溶解,并分别对其醋酸溶解相、王水溶解相、氢氟酸溶解相和全岩进行了Sm-Nd 同位素组成分析。结果显示不同溶解相之间147Sm/144Nd同位素比值变化全岩之间由0.02 扩大为0.09,5件样品共计17个点拟合获得的等时线年龄为233±12 Ma (MSWD=2.7),其中单件样品的分相Sm-Nd等时线定年结果为235±17 Ma (MSWD=1.4)。这些结果与在该套碳酸岩中的独居石SHRIMP U-Th-Pb 年龄(233.6±1.7 Ma)(Geochimica et Cosmochimica Acta, 2014,143: 189 - 206.)、独居石LA-ICP-MS Th-Pb年龄(~240 Ma)以及铌铁矿LA-ICP-MS U-Pb年龄(232.8±4.5 Ma)(Lithos, 2017, 290 - 291:159 - 171.)在误差范围内基本一致,表明火成碳酸岩分相Sm-Nd定年结果可靠。 相似文献
13.
14.
Pillow basalts from the early Archean (3.7 to 3.8 Ga) Isua greenstone belt, West Greenland, are characterized by well-preserved rims and concentric core structures. The pillow rims and cores have different mineral assemblages, and chemical and isotopic compositions. The rims have systematically higher contents of Fe2O3, MgO, MnO, K2O, Rb, Ba, Ga, Y, and transition metals than the cores. In contrast, the cores possess higher concentrations of SiO2, Na2O, P2O5, Sr, Pb, U, Nb, and the light rare earth elements (REEs than the rims). These compositional variations in the rims and cores are likely to reflect the mobility of these elements during posteruption alteration. Variations of many major and trace element concentrations between the rims and cores of the Isua pillow basalts are comparable to those of modern pillow basalts undergoing seafloor hydrothermal alteration. Al2O3, TiO2, Th, Zr, and the heavy REEs display similar values in both rims and cores, suggesting that these elements were relatively immobile during postemplacement alteration.In addition, the rims and cores have distinctive Sm-Nd and Rb-Sr isotopic compositions in that the rims are characterized by higher 143Nd/144Nd and 87Sr/86Sr ratios than the cores. The pillow basalts yield 2569 ± 170 Ma and 1604 ± 170 Ma errorchron ages on 143Nd/144Nd vs. 147Sm/144Nd and 87Sr/86Sr vs. 87Rb/86Sr diagrams, respectively. The Sm-Nd errorchron age may correspond, within errors, to a late Archean tectonothermal metamorphic event recorded in the region. The Sm-Nd errorchron may have resulted from a combination of isotopic homogenization and preferential loss of Nd, relative to Sm, during late Archean metamorphism. Although the Rb-Sr errorchron age overlaps with the timing of an early to mid-Proterozoic tectonothermal metamorphic event recorded in the region, because of a considerably large mean square of weighted deviates value and scatter in 86Sr/87Sr and 87Rb/86Sr ratios, this age may not have a precise geological significance. The 1.6 Ga Rb-Sr errorchron is likely to have resulted from the loss of radiogenic 87Sr. Collectively, the Sm-Nd and Rb-Sr data obtained from the 3.7-3.8 Ga Isua pillow basalt rims and cores are consistent with disturbances of the Sm-Nd and Rb-Sr systems by tectonothermal metamorphic events long after their eruption.In contrast to the Sm-Nd and Rb-Sr systems, the Lu-Hf system appears to be largely undisturbed by metamorphism. Five core samples and three rim samples yield a 3935 ± 350 Ma age, within error of the approximate age of eruption (3.7 to 3.8 Ga). Two rim samples that have gained Lu give an age of 1707 ± 140 Ma, within error of the Rb-Sr errorchron age. Initial 176Hf/177Hf ratios of the undisturbed samples at 3.75 Ga lie within ±1 ε-unit of the chondritic value, suggesting no long-term depletion in the mantle source of the basalts. 相似文献
15.
147Sm-143Nd放射性同位素体系在地球科学研究中得到了广泛的应用,经典的同位素稀释-热表面电离质谱法(ID-TIMS)一直是Sm-Nd同位素高精度测定的基准技术,但具有耗时长、成本高、样品需求量大等缺点,并且难以揭示微观尺度单矿物所蕴含的地球化学信息。近年来兴起的微区原位分析,具有简单、快速、高空间分辨率的特点,可以从微米尺度示踪岩浆和热液的起源及演化过程。本文通过同时测定Sm和Nd同位素质量分馏系数,实现144Sm对144Nd干扰的准确校正,获得了人造玻璃、磷灰石、榍石、独居石等几种不同基体标准样品(NIST610、Durango、MAD-2、BLR-1、117531)精确的143Nd/144Nd比值,与推荐值在误差范围内一致。然而,由于Sm和Nd元素性质的差异,在激光剥蚀和质谱电离过程中会产生明显的元素分馏,导致147Sm/144Nd很难进行精确校正,本文通过在进样系统中引入液态气溶胶,有效克服了基体效... 相似文献
16.
Martin Thöni 《Chemical Geology》2003,194(4):353-379
Interpretation of Sm-Nd garnet ages is frequently impaired by one of the following restrictions: (a) high-LREE inclusions, (b) isotopic disequilibrium, and (c) the uncertainty about the closure temperature. These issues are addressed by way of an evaluation of garnet Sm-Nd data from different rock types of the Austroalpine basement units, Eastern Alps, including metabasic eclogites, mica schist and paragneiss, metapegmatite and metagranite.Nd concentration in handpicked garnet varies between 0.021 and 23.1 ppm in metabasites, 0.49 and 17.4 ppm in metapelites and between 0.024 and 4.6 ppm in metapegmatites and metagranites. The overall range of 147Sm/144Nd is 0.15-2.5 in garnet from metabasites, 0.12-3.03 in metapelite garnet and 0.66-7.21 in Mn-rich garnet from metapegmatites and metagranites. A clear negative correlation between Nd concentration and Sm/Nd is observed in garnets from all these lithologies. Therefrom, it is concluded that even optically “clean” garnet separates may contain high-LREE microinclusions, such as epidote-allanite, zoisite, apatite, sphene, monazite or zircon. However, very low Nd concentrations correlated with low Sm/Nd as well as high Nd concentrations (>5 ppm) correlated with fairly high Sm/Nd ratios (0.8) have also been observed. Apart from replicate analyses within as well as between samples with a common PT-history, leaching experiments are a useful technique to elucidate any distorting influence of unequilibrated inclusions on the garnet age, especially if the observed Sm/Nd ratio is low (<0.5). Leaching of garnet separates with HCl (2.5, 5.8 M) produces no obvious element fractionation, but may improve Sm/Nd, and hence age precision, considerably. Isotopic disequilibrium between garnet and other matrix minerals is observed preferentially in basic eclogites, derived from gabbroic precursors.Sm-Nd garnet analysis allows the recognition of several distinct garnet-forming events in the Eastern Alps.(a) A Variscan high-P event is documented in metabasites from the northern-central Ötztal basement around 360-350 Ma, whereas garnet from sillimanite-bearing gneisses dates the Variscan thermal peak in the western part of the same subunit around 345-330 Ma.(b) A long-lived, Permian to Triassic event (285-225 Ma), correlated with crustal extension and low-P metamorphism, is documented by spessartine-rich garnet from metapegmatites as well as almandine-rich garnet cores from mica schist.(c) Age data of garnet from eo-Alpine (Cretaceous) deeply subducted rocks of the southern/eastern Austroalpine units are related to near-peak PT, eclogite- to amphibolite-facies metamorphic conditions (peak: 2 GPa/685 °C), and/or incipient isothermal decompression, due to fast, tectonically driven exhumation (110/100-85 Ma). At cooling rates of 20-30 °C/Ma (exhumation rates: 3-5 km/Ma), the Sm-Nd closure temperature (Tc) for mm-sized garnet in these rocks is estimated at 650-680 °C. 相似文献
17.
新疆西天山查岗诺尔铁矿床成矿时代——来自石榴子石Sm-Nd等时线年龄的信息 总被引:9,自引:4,他引:5
查岗诺尔铁矿床赋存在大哈拉军山组中-上部的安山质火山碎屑岩和火山熔岩内,主矿体FeⅠ周围发育大量以石榴子石为代表的高温热液蚀变,精确厘定高温热液蚀变的时间是确定成矿作用是与火山作用有关还是由岩体侵入作用所导致的关键。石榴子石与磁铁矿体的关系最为密切,其形成时间稍早或同时于磁铁矿。石榴子石Sm-Nd同位素测试结果表明,147Sm/144Nd值为0.2792~0.5481,143Nd/144Nd值为0.512950~0.513501,7个样品拟合的线性关系良好,获得的Sm-Nd等时线年龄为(316.8±6.7)Ma,指示了高温热液蚀变的时间,表明主要磁铁矿体的形成时代为早石炭世晚期,成矿作用及高温热液蚀变可能不是矿区内二叠纪岩体侵入携带的岩浆热液与大理岩发生矽卡岩化所导致,而可能是大哈拉军山组火山岩喷发后的岩浆期后热液与下伏大理岩发生接触交代反应引起的。 相似文献
18.
Geochronology of the Dahongshan Group 总被引:10,自引:0,他引:10
The Dahongshan Group is divided into five formations from the bottom to the top: the Laochanghe Formation; the Manganghe Formation;
the Hongshan Formation, the Feiweihe Formation and the Potou Formation. As can be seen from the U-Pb concordia plot for zircon
fractions collected from the metamorphic sodic lava of the Hongshan Formation, the upper intersect age with the concordia
is 1665.55
-10.86
+13.56
Ma. Sm-Nd dating of four whole-rock samples and one hornblende from the Manganghe and Hongshan formations yielded an isochron
age of 1657 ± 82 Ma. This result is in good agreement with the zircon U-Pb age and thus can represent the formation age of
the Dahongshan Group. The initial143Nd/144Nd ratio is estimated at 0.510646. with ENd (T) = + 3.1 ± 1.8. In addition the Dahongshan Group rocks are characterized by
low REE contents, with δEu>1. All this goes to show that the original rocks of the Dahongshan Group were derived from a depleted
mantle. The calculated Sm-Nd model ages range from ∼ 1900 to ∼ 2000 Ma. representing the time of crust/ mantle differentiation
in the area studied.
From the above results, in conjunction with the time-scale scheme for China, the Dahongshan Group should be assigned to the
Middle Proterozoic. 相似文献
19.
黑牛洞矿床中的石榴石有三个期次:早期的石榴石呈顺片理拉长的条带,中期的石榴石呈颗粒碎块发育,硫化物常沿早期和中期的石榴石的裂隙和颗粒边缘填充,晚期石榴石呈完整细粒变晶产出。本文测得晚期石榴石的Sm-Nd年龄为101±26M a(初始143Nd/144Nd=0.511765±0.000025),其可能代表黑牛洞矿床最后一期中高级变质作用的时代,与形成富矿体的脆韧性变形作用同期。 相似文献
20.
Abstract: The Bidjovagge gold-copper deposit, northern Norway occurs in the lower Proterozoic Kautokeino greenstone belt, and consists of ten ore bodies in albite felsite, graphite schist and meta-diabase sills, along with a series of syenodiorite dykes. Calcite is one of the most important gangue minerals occurring within the ore veins. The early primary calcite samples from A, C and D ore bodies (copper–rich) show almost flat chondrite-normalised REE curves, and slightly positive Eu anomalies. A Sm-Nd isotope age of 1858 ± 72 Ma (2ρ) has been given based on fifteen primary calcite samples. The Sm-Nd age of calcite is in well agreement with previously published U-Pb davidite age of 1885 ±18 Ma (2ρ) and Sm-Nd davidite age of 1886 ± 88 Ma (2ρ). All these isotopic age data indicate that the gold-copper mineralisation may occur during or slightly after the peak of the Svecokarelian orogeny. Two late primary calcite samples from C and D ore bodies have flat chondrite-normalised LREE curves, positive HREE curves, and negative Eu anomalies. In contrast, most of the early primary calcite samples from B ore body (gold–rich) show an overall negative chondrite-normalised REE slope and negative Eu anomalies. Sm-Nd data on seven primary calcite samples from the B ore body are relatively scattered, and gave an isochrone age of 1809 ± 150 Ma (2ρ), identical to the age of the calcite samples from A, C and D ore bodies. Two late primary calcite samples from the B ore body have almost flat chondrite-normalised REE slope and negative Eu anomalies. REE patterns and eNd (T) values of calcites suggest that the ore fluids for the calcites from the A, C and D ore bodies derived their metals from mafic igneous rocks (diabase sills). For the secondary calcites from the C ore body, their relative high initial Nd (T) values at 1858 Ma imply that much more radiogenic Nd-component were incorporated during calcite crystallisation when another ore fluid emplaced. Combined Nd isotope data and REE geochemical features suggest that the isotopically more evolved source such as albite felsite and syn-genetic high level syenodiorite dykes were probably metal source for these calcites in the B ore body. Three samples of secondary calcite from the B ore body, which obviously deviated from 1809 Ma isochron are easily explained as products of post-ore hydrothermal events. 相似文献