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321.
鄂东南矿集区鸡冠嘴矽卡岩型金铜矿床含矿岩体中辉石和角闪石成分变化特征及其对岩浆演化和成矿的指示意义 总被引:3,自引:2,他引:1
为了解长江中下游地区与金铜矿化有关的岩体在浅部的演化过程及其对成矿的作用,本文对鄂东南矿集区鸡冠嘴矽卡岩型金铜矿成矿岩体石英二长闪长斑岩进行了详细的岩相学观察,并利用电子探针(EMPA)分析了其中辉石和角闪石的主量成分。岩相学特征显示辉石形成时间早于角闪石。辉石成分变化较小,而角闪石成分变化较大。角闪石可根据Al的含量分为高低两组,即高铝含量的自形角闪石以及低铝含量的半自形及他形角闪石。高铝角闪石又不同程度的被低铝角闪石交代。通过矿物温压计估算辉石形成的温度和压力为1055~1071℃(平均1060℃)和224~312MPa(平均255MPa)。高铝角闪石形成的温度和压力为809~864℃(平均833℃),108~193MPa(平均137MPa),低铝角闪石形成的温度和压力为721~766℃(平均741℃),48~67MPa(平均56MPa)。岩浆具有较高的氧逸度,并且从高铝角闪石到低铝角闪石,熔体的氧逸度从△NNO+0.6升高到△NNO+1.9。岩浆经历了连续的侵位历史,从9.6km到5.2km的岩浆房再到2.1km的浅地壳处就位。岩浆在9.6km处经历了辉石的分离结晶,在5.2km处经历了角闪石及少部分斜长石的分离结晶,在2.1km处经历由于降压引起的流体出溶。由于深部的分离结晶作用,熔体中的水含量增加,氧逸度升高。较高的水含量使岩浆更容易演化出成矿热液,较高的氧逸度使岩浆演化早期没有硫化物的分离结晶,从而阻止了成矿元素在岩浆演化早期亏损。鸡冠嘴岩体较浅的就位深度也更有利于成矿流体的析出。这些因素共同作用形成了鸡冠嘴金铜矿床。 相似文献
322.
The Poyi Cu-Ni deposit is hosted by the Early Permian Pobei mafic-ultramafic complex along the northern margin of the Tarim Plate. This series of multiple intrusions in the Poyi deposit can be divided into four lithologies: gabbro, dunite, hornblende peridotite, and wehrlite. The ore body consists mainly of disseminated sulfides hosted by hornblende peridotite. All the Poyi deposit sulfides show positive Δ33S values from 0.004 to 0.221‰ and negative δ34S values from −0.8 to −3.5‰. High Ni contents occur in the hornblende peridotites, which exhibit the highest Δ33S value of 0.221‰ and the lowest δ34S value of −3.5‰, indicating contamination by sulfides from Archean sedimentary rocks. This contamination was important during sulfide saturation in the Poyi intrusions and likely occurred at depth before the emplacement of the Poyi intrusions. The intrusions incorporated country rocks during their emplacement and consolidation, and the degree of assimilation increases from the central lithofacies (i.e., the hornblende peridotite) to the marginal lithofacies (i.e., the wehrlite, dunite, olivine gabbro, and gabbro). Higher Ni contents are correlated with lower degrees of contamination; thus, we infer that the contamination by the country Paleoproterozoic rocks, which contain significant amounts of gneiss and marble, hindered sulfide saturation.The whole-rock Ni content is negatively correlated with the MgO and Fo contents in the olivine and positively correlated with the FeO and MnO contents in the olivine. During crystallization, olivine becomes gradually richer in FeO but poorer in MgO, and Mn tends to be enriched in the late stages of the melt. We infer that the fractional crystallization of olivine was an important factor during sulfide saturation. 相似文献
323.
Michael McCurry Karl P. Hayden Lee H. Morse Stan Mertzman 《Bulletin of Volcanology》2008,70(3):361-383
Rhyolites occur as a subordinate component of the basalt-dominated Eastern Snake River Plain volcanic field. The basalt-dominated
volcanic field spatially overlaps and post-dates voluminous late Miocene to Pliocene rhyolites of the Yellowstone–Snake River
Plain hotspot track. In some areas the basalt lavas are intruded, interlayered or overlain by ~15 km3 of cryptodomes, domes and flows of high-silica rhyolite. These post-hotspot rhyolites have distinctive A-type geochemical
signatures including high whole-rock FeOtot/(FeOtot+MgO), high Rb/Sr, low Sr (0.5–10 ppm) and are either aphyric, or contain an anhydrous phenocryst assemblage of sodic sanidine
± plagioclase + quartz > fayalite + ferroaugite > magnetite > ilmenite + accessory zircon + apatite + chevkinite. Nd- and
Sr-isotopic compositions overlap with coeval olivine tholeiites (ɛNd = −4 to −6; 87Sr/86Sri = 0.7080–0.7102) and contrast markedly with isotopically evolved Archean country rocks. In at least two cases, the rhyolite
lavas occur as cogenetic parts of compositionally zoned (~55–75% SiO2) shield volcanoes. Both consist dominantly of intermediate composition lavas and have cumulative volumes of several 10’s
of km3 each. They exhibit two distinct, systematic and continuous types of compositional trends: (1) At Cedar Butte (0.4 Ma) the
volcanic rocks are characterized by prominent curvilinear patterns of whole-rock chemical covariation. Whole-rock compositions
correlate systematically with changes in phenocryst compositions and assemblages. (2) At Unnamed Butte (1.4 Ma) the lavas
are dominated by linear patterns of whole-rock chemical covariation, disequilibrium phenocryst assemblages, and magmatic enclaves.
Intermediate compositions in this group resulted from variable amounts of mixing and hybridization of olivine tholeiite and
rhyolite parent magmas. Interestingly, models of rhyolite genesis that involve large degrees of melting of Archean crust or
previously consolidated mafic or silicic Tertiary intrusions do not produce observed ranges of Nd- and Sr-isotopes, extreme
depletions in Sr-concentration, and cogenetic spectra of intermediate rock compositions for both groups. Instead, least-squares
mass-balance, energy-constrained assimilation and fractional crystallization modeling, and mineral thermobarometry can explain
rhyolite production by 77% low-pressure fractional crystallization of a basaltic trachyandesite parent magma (~55% SiO2), accompanied by minor (0.03–7%) assimilation of Archean upper crust. We present a physical model that links the rhyolites
and parental intermediate magmas to primitive olivine tholeiite by fractional crystallization. Assimilation, recharge, mixing
and fractional melting occur to limited degrees, but are not essential parts of the rhyolite formation process.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
This paper constitutes part of a special issue dedicated to Bill Bonnichsen on the petrogenesis and volcanology of anorogenic
rhyolites. 相似文献
324.
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327.
分别以粉煤灰、煤矸石、红柱石千枚岩、油页岩渣等富硅铝矿石为原料,经过除杂、煅烧活化后,利用水热晶化法制备出纳米莫来石复相粉体。采用X射线粉末衍射(XRD)、透射电子显微镜(TEM)、能量色散X射线荧光光谱分析(EDX)和选区电子衍射(SAED)等手段研究了复相粉体的物相组成与显微结构,并用魔角旋转核磁(MAS~NMR)分析水热晶化反应机理。结果表明:经过一定温度煅烧活化后,当NaOH溶液浓度为2~3 mol/L、搅拌温度80~90℃、恒温3 h、液固比为10 mL/g时,上述四种原料均可制得以莫来石为主晶相的纳米复相粉体,其中以煤矸石、红柱石千枚岩、油页岩渣为原料制备的晶体均为结晶良好的柱状晶,平均长度分别为50、300和150 nm,平均长径比分别为4、3.5和3.75;以粉煤灰为原料制备的晶体主要呈现棒状、针状和纤维状,其棒状晶长度约30~80 nm、直径约4.5~30 nm。 相似文献
328.
329.
LI Xuejun LUO Zhaohu LI Xiaowei WANG Yu YANG Zongfeng LI Jie LIU Xiao 《《地质学报》英文版》2020,94(5):1428-1439
The Panzhihua layered intrusions is generated closely related to the Emeishan LIPs. This paper analyzes the spatial distribution of plagioclase and pyroxene. The quantitative texture analysis of 2209 plagioclase shows that the characteristic length of plagioclase is 0.54 to 0.96 mm, the intercept variation range is large, from ?0.67 to 0.96, and the slope is ?1.85 to ?1.04, the Aspect Ratio shows from 1.84 to 2.59 and fractal dimension D is 1.908–1.933. The quantitative texture analysis of 2342 pyroxene shows that the characteristic length of pyroxene is 0.38–0.64 mm, the intercept shows from 0.46 to 2.26, The slope ranges from ?2.6 to ?1.47, the Aspect Ratio value varies from 1.53 to 1.71, the fractal dimension D is 0.93 to 1.13. All the CSDs results of the Panzhihua intrusions indicate that plagioclase and pyroxene form in an open magma system and undergo four replenishment of magma injection. The plagioclase crystals do not grow as the lathlike shape, and the fractal growth leads to complex crystal surface. The plagioclase undergoes deformation compaction during the crystal process, and then is oriented. The pyroxene crystals grow along an approximately triaxial ratio and undergo texture adjustment and small crystal dissolution reabsorption. When all crystals in magma system grows up to 2 mm, the pyroxene undergoes cumulation in the Panzhihua layered intrusions. The plagioclase crystallization time scale is 171.23–304.41 years, representing that the crystallization is the more uniform in central part of the melt. The nucleation density continuously increases during the crystallization process of the magma system. The time scale to reach the final maximum crystal nucleation density is 15.28–58.98 years. 相似文献
330.
藏南羊卓雍错流域水化学主离子特征及其控制因素 总被引:14,自引:1,他引:13
水化学主离子特征是流域湖泊的一个重要特征,对气候以及河流所经地区的环境具有指示作用.本文对藏南羊卓雍错流域水化学主离子组成特征及其控制因素进行分析,结果显示流域内不同水体(湖水、河水、地下水)之间的主离子组成以及水化学类型差异显著.其中,羊卓雍错的水化学类型为SO24--HCO3--Mg2+-Na+,巴纠错为SO24--Mg2+-Na+,沉错为SO24--Na+-Mg2+-Ca2+,普莫雍错为HCO3--SO24--Mg2+-Ca2+,空姆错为HCO3--SO24--Ca2+;流域河水中主要阴离子为HCO3-和SO24-,Ca2+为绝对优势阳离子;流域地下水化学类型则为HCO3--Ca2+.究其原因,流域水体化学组成主要受岩石风化作用控制;除此,羊卓雍错、巴纠错和沉错水化学组成亦受自身蒸发-结晶作用的影响.就入湖河水而言,羊卓雍错入湖河水整体受碳酸盐岩石风化的影响较大,蒸发岩溶解的影响次之;沉错和空姆错入湖河流(卡鲁雄曲)的蒸发岩来源则略大于碳酸盐岩来源;而硅酸盐对流域内河水的水化学性质影响较小.与入湖河水相比,羊卓雍错和沉错湖水的Mg2+、Na+和SO24-含量较高,而Ca2+和HCO3-含量较低.这应该与湖水蒸发强烈使得湖水中Ca2+和HCO3-析出并沉积到湖底有关.而空姆错由于湖泊面积小、入湖河水流量大,致使其湖水与入湖河水的主离子组成差异不显著. 相似文献