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1.
白垩纪以来库车坳陷碎屑重矿物组成变化 总被引:5,自引:6,他引:5
碎屑沉积是山脉隆升和盆地沉积的直接记录,包括碎屑重矿物研究在内的碎屑沉积物的分析是开展盆山耦合研究的必要手段。本文对库车坳陷白垩系—新近系砂岩中重矿物含量特征进行了系统的研究,并应用电子探针技术分析碎屑石榴石和电气石的化学组成。研究表明:库车坳陷白垩-新近系源区主要由高级变质岩和沉积岩以及中-酸性火成岩组成。白垩纪和古近纪砂岩中的石榴石富钙镁铝榴石组份,与来自西南天山低温高压变质岩中石榴石组成相似,而新近系砂岩中的石榴石中富铁铝榴石组份,多来自高级变质沉积岩,而非高压变质岩。这些分析表明南天山的大规模隆升和剥蚀发生在渐新世以来,由于它的隆升遮挡了西南天山对库车坳陷的物质贡献。 相似文献
2.
辽宁瓦房店金刚石矿区金伯利岩中的石榴石一直被当作镁铝榴石。为了确定矿区颜色复杂的石榴石种类,本文对矿区的石榴石进行了系统的采样分析,测定了112件石榴石样品的晶胞参数、50件样品的微区化学成分和40件样品的红外光谱。利用石榴石晶胞参数、红外光谱、化学成分和化学分子式方法对矿区石榴石进行分类,结果显示:晶胞参数分类法误差大,容易得出错误结论;红外图谱分类法准确度不高,只能作为参考方法;化学成分分类法太过笼统,达不到详细划分石榴石种类的目的;化学分子式分类法可把矿区的石榴石详细划分6个矿种:镁钙铁-铝铬铁榴石、镁铁钙-铝铬铁榴石、镁钙铁-铝铬榴石、镁钙-铝铬铁镁榴石、镁铁钙-铝铬榴石、镁铁钙-铝铁铬榴石,每种石榴石都充分反映了A、B离子的种类及占位特征,是4种分类方法中最为科学的方法。研究认为瓦房店金刚石矿区金伯利岩中石榴石A端元成分以Mg2+离子占位为主;B端元成分以Al3+离子占位为主。由于阳离子替代普遍,A、B端元成分复杂,瓦房店金伯利岩中不存在单纯意义上的镁铝榴石。 相似文献
3.
湖北省宜昌市彭家河石榴石矿床地质特征及成因分析 总被引:1,自引:1,他引:0
运用矿物学、岩石学的方法对宜昌黄陵地区彭家河石榴石矿床中含矿层的矿物组合、化学成分、变质相及原岩特征进行分析与研究,结果表明彭家河石榴石矿床的含矿层位为水月寺群的周家河组,石榴石主要赋存于含(石墨)矽线石榴黑云斜长片麻岩及石榴黑云斜长片麻岩中,前者石榴石含量较高10%~50%,后者含量稍低12%~36%,X衍射及电子探针分析矿床中石榴石以铁铝榴石为主,其次是镁铝榴石,少量钙铝榴石.运用变质反应平衡温压方程计算出成矿温压条件为:P=600 MPa~800 MPa,T=650℃~750℃;变质相为高角闪岩相,高角闪岩相的富铁铝质沉积变质岩系--孔兹岩系是寻找此类石榴石矿床的重要找矿标志. 相似文献
4.
5.
在藏东南错那县西南约20km的麻玛沟中发现了呈透镜体产出于石榴石矽线石片麻岩中的石榴辉石岩,其矿物组合为石榴石 透辉石 石英 铁角闪石 磁铁矿,并含有锆石、磷灰石等副矿物。石榴石呈他形产出,以铁铝榴石和钙铝榴石端员组分为主,贫镁铝榴石组分,并具成分环带:核部相对富铁铝榴石分子,贫镁铝榴石分子,而边部则相反。透辉石同样富铁、贫镁,Fe2 /(Fe2 Mg)比值一般大于0.6。铁角闪石呈熔蚀状被透辉石和石榴石所包裹,或产出于自形的透辉石颗粒之间,以贫钛为特征。该岩石的全岩成分以SiO2(59%~61%)、Fe2O3(全铁)(18%~19%)、CaO(12%~13%)和Al2O3(5.3%~5.4%)为主。运用石榴石-单斜辉石温压计估算出该岩石石榴石与透辉石的平衡温压条件分别为650~700℃、0.8~1.0GPa。这些特征表明该石榴辉石岩很可能系富铁的斜长角闪岩在中地壳尺度发生脱水所形成的残余。本文研究提供了一个角闪岩相石榴辉石岩的实例。 相似文献
6.
库车坳陷三叠系发育良好,出露齐全,主要由陆相碎屑岩组成。本文运用电子探针微区成分分析方法,对库车坳陷北部三叠系砂岩中石榴石、电气石、铬尖晶石进行了矿物化学成分分析。结果显示,碎屑石榴石主要富含铁铝榴石,其次为镁铝榴石、锰铝榴石,钙铝榴石含量较低,他们主要来自于低级-高级变质岩和花岗岩;电气石主要来自于变质沉积岩和花岗岩;铬尖晶石则主要源自岛弧玄武岩、洋岛玄武岩和与俯冲相关的橄榄岩。综合石榴石与电气石研究结果表明,上三叠统碎屑物质更多的来自于高级变质岩和花岗岩,而下三叠统碎屑物质主要源自低级变质岩和花岗岩。通过对比西天山榴辉岩、片麻岩中石榴石成分,本文所研究的高镁石榴石以低钙铝榴石含量与榴辉岩中石榴石相区别,而与片麻岩中石榴石成分相似。西天山榴辉岩在三叠纪时期可能尚未剥露至地表,但片麻岩已有相当范围的出露。上三叠统的碎屑铬尖晶石可能主要来自于中天山及南天山的岛弧岩浆岩及蛇绿岩,部分源自洋岛玄武岩,为南天山为多岛海造山提供了沉积学证据。 相似文献
7.
金伯利岩中的镁铝榴石是寻找金刚石的重要指示矿物。镁铝榴石的Cr2O3、CaO等氧化物含量及其颜色、折光率等物理光学性质可作为这种石榴石的标型特征。 本文将山东、辽宁等地金伯利岩中的石榴石的电子探针分析结果按分子数配分的方法计算了端员分子百分数及其他化学参数。用MPV—1显微光度仪测定了石榴石的透射率色散值,通过计算求得颜色指数。按Dawson等人的分类,本次研究样品以铬镁铝榴石为主,其次是低钙-铬镁铝榴石、钙铬-镁铝榴石和镁铬-钙铬-镁铝榴石;钛镁铝榴石和钙镁铝-铁铝榴石等少量。作者用铬、钙、镁三组份数绘制了石榴石与金刚石关系判别图解,分为五个区(A、B、C、D、E)、落入A区的低钙-铬镁铝榴石、铬镁铝榴石和钙铬-镁铝榴石等与金刚石的形成关系最密切。 相似文献
8.
大别山超高压变质带是华北与扬子板块俯冲碰撞作用的产物。迄今为止,报导的超高压变质岩除镁铁、超镁铁质岩石外,主要为火山-沉积岩,然而除上述岩石外,大别山南部出露大量花岗质片麻岩。作者在近期对大别山东南部变质花岗岩岩石学研究中发现:变质花岗岩中含有Gt+Ru+Phe±Acg+Aug±Di+Pl+Na-Amp+Or+Q组合,与钠长石共生的霓石或透辉石可能是早期矿物硬玉或富硬玉质绿辉石退变的,而岩石中石榴石分带特征,即内带以铁铝榴石(43.06%)和钙铝榴石(46.28%)为主,外带则以锰铝榴石(30.40%)和钙铝榴石(35.67%)为主,这些都表明它们是由高压向低压退化变质之产物。因此,变质花岗岩可能早期存在着这样的榴辉岩相峰期矿物组合Jd/omp+Q/CS+Phe+Ru+Gt+Or,这个组合由于后期的压力降低而退变为中低压的矿物组合。 相似文献
9.
吉林正岔铅锌矿床是与燕山期花岗斑岩有关的夕卡岩铅锌矿床。夕卡岩顺层产于集安群荒岔沟组含石墨变质岩系的大理岩中。铅锌矿化叠加在夕卡岩之上。矿石的矿物成分复杂,金属矿物除方铅矿,闪锌矿,黄铜矿,磁黄铁矿,黄铁矿之外,还有少量自然铋,碲银矿,钴镍贡铁矿。脉石矿物主要是透辉石-钙铁辉石,钙铝榴石-钙铁榴石,符山石,绿帘石,石英,方解石等。矿床发育有透辉石-石榴石,钙铁辉石-石榴石-符山石,磁黄铁矿-闪锌矿 相似文献
10.
江西东乡—相山中生代火山岩中富铝矿物的发现和成因意义 总被引:10,自引:2,他引:10
本文讨论在江西东乡上侏罗统虎岩组凝灰岩和相山鹅湖岭组碎斑熔岩中新发现的石榴石、红柱石等富铝硅酸盐矿物。石榴石呈自形的菱形十二面体,常包裹含钛磁铁矿、针状磷灰石等矿物包裹体。电子探针分析表明,东乡产出的石榴石为铁铝榴石,相山为钙质铁铝榴石。根据石榴石—熔体成分计算石榴石形成时温度为1060℃,压力为6×10~8Pa。二长温度计计算长石形成温度为785℃。从而证实石榴石为岩浆成因,厘定了本区火山岩是S型。 相似文献
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12.
This is the third in a series of papers on glaucophane schistsfrom the Franciscan Formation near Cazadero, California. Previouspapers describe three distinct types of glaucophane-bearingFranciscan metamorphic rocks near Cazadero. The purpose of this study is to investigate the garnets presentin metamorphic types III (bedrock schists) and IV (tectonicblocks) as defined by Coleman & Lee (1963). Twenty-fourgarnet analyses are presented. Sixteen of these are from (aragonite-bearing)type III glaucophane schists, and eight are from type IV glaucophaneschists. Type IV rocks include California eclogites. Type III rocks include metabasalt, metachert, metashale, meta-ironstone,and metacarbonate that were formed under high pressure and relativelylow temperature. These rocks contain garnets that display awide range of composition, but the dominant molecules representedare consistently almandine, spessartine, and grossular. Type IV rocks are mainly metabasalts that were probably formedunder higher temperatures and pressures than type III rocks.There is a distinct difference between garnets from type IIIrocks and those from type IV (including eclogites); the lattercontainless spessartine and more pyrope, and the dominant moleculesare almandine and grossular. The four analyses of garnets fromCalifornia eclogites have an average pyrope content of aboutten molecular per cent, and they extend the range of compositionreported for eclogite garnets. Quantitative spectrographic determinations of minor elementsare listed for each of the garnets described. The values determinedfor some of the minor elements have a wide range and a capriciousdistribution over a few feet of outcrop area. As a group, both the garnets from type III rocks and those fromtype IV are pyralspites with large contents (as much as 35 molecularper cent) of ugrandite. This unusual admixture of the pyralspiteand ugrandite garnet series may have resulted in part from theconditions (high pressures and relatively low temperatures)under which the enclosing rocks were recrystallized. 相似文献
13.
Philippa M. Black 《Contributions to Mineralogy and Petrology》1973,38(3):221-235
A Cretaceous to low-Tertiary sequence of interbedded pelites, cherts, basic and acidic volcanics and calcareous lenses has
been metamorphosed by an Oligocene event. A complete intergradational metamorphic sequence is exposed in the Ouégoa destrict.
The following metamorphic zones have been recognised: — (1) lowest-grade rocks consisting of quartz-sericite phyllites and
pumpellyite metabasalts (2) lawsonite zone, characterized by the association of lawsonite and albite (3) epidote zone, characterised
by epidote-omphacite-sodic hornblendealmandine bearing metabasalts and epidote-albite-almandine-glaucophane bearing metasediments;
calcareous metasediments may also carry omphacite. The epidote and lawsonite zones are separated by a narrow belt of transitional
rocks.
Garnets occur in metasediments throughout the lawsonite zone as rare tiny crystals (<0.03 mm diam.). Garnets first appear
in metabasalts in lawsonite-epidote transitional rocks. Garnets are widespread and abundant in epidote-zone metasediments
and metabasalts.
45 garnets from rocks representative of all lithologies and metamorphic grades have been analysed with an electron-probe microanalyser.
The garnets were consistently zoned. Garnets in lawsonite and low-grade epidote zones show a “bell-type” zoning with cores
enriched in Mn relative to Fe and rims enriched in Fe, Mg and frequently Ca. Garnets from high-grade epidote-zone metapelites
and metabasalts show, in addition, a shallow oscillatory zoning with complimentary variations in Mn and Fe equivalent to 5
mole- % spessartine and almandine. The Fe-for-Mn substitutional zoning, believed to be caused by a diffusion/saturation effect
similar to that of the Rayleigh fractional model (Hollister, 1966), appears to have had superimposed on it the effects of
parent-rock chemistry and metamorphic grade which control in a complex manner the composition of the cores and the rims of
garnets.
Garnets from different rock types and metamorphic grade are compositionally distinct. Garnets from lawsonite-zone rocks, irrespective
of parent-rock chemistry appear to be spessartine. Garnets from epidote-zone metaigneous rocks and most metasediments are
almandine. Garnets from epidote-zone metasediments with bulk-rock compositions which are manganiferous, or have high oxidation
ratios, or both, may be spessartine-rich. Garnets from metabasalts are consistently more pyropic in both core and rim compositions
than garnets from pelitic metasediments; the pyrope content of cores and rims of garnets from equivalent rock types and mineral
assemblages increases with increasing metamorphic grade. Cores of garnets from epidote-zone pelites are richer in grossular
than garnets from lower-grade pelites.
The reaction which brings almandine garnet into Ouégoa district blueschist assemblages simultaneously with the replacement
of lawsonite by epidote involves components of chlorites and sodic amphiboles and can be represented by the following simplified
equation: ferroglaucophane+Fe-rich chlorite+lawsonite → glaucophane+Mg-rich chlorite+epidote+almandine. 相似文献
14.
250 analyses of garnets in metamorphic pelitic, arkosic, and pyroclastic rocks from the Stavanger area have been made by means of a microprobe (ARL-EMX). The relations between chemistry and metamorphic grade are discussed. The dependence of the Mn content upon temperature, pressure, chemistry of the parent rocks and oxygen fugacity is a very sophisticated one.It is shown that the Mn content of the garnets depends on the oxygen fugacity of the system and that the oxygen fugacity is strongly linked to the behaviour of graphite during increasing metamorphism.Examples described by Miyashiro (1953) and Engel and Engel (1960) are in agreement with the model presented here.Some observations show an influence of primary sedimentary enrichments of manganese upon the first occurrence of garnets in the course of metamorphism. 相似文献
15.
Ioannis K. Georgiadis Antonios Koroneos Lamprini Papadopoulou Nikolaos Kantiranis Alexios E. Tamparopoulos Ananias Tsirambides 《Mineralogy and Petrology》2014,108(2):187-206
Garnet single crystals of several millimeters in diameter were collected from the uppermost horizon of a soil profile developing immediately on the gneissic rocks of the Vertiskos Unit of the Serbomacedonian Massif in northern Greece. The garnets were analyzed for major elements by EDS analyzer mounted on a scanning electron microscope, and the obtained data were utilized to determine their source rocks. Bivariate diagrams, spider diagrams as well as statistical analysis were used in order to correlate and compare the garnet composition of the basement rocks of the Vertiskos Unit with the existing reference data. This case study demonstrates the difficulty in assigning a source rock to sediment, using only the chemical compositional of detrital garnet. Direct linking of the detrital garnets and the outcropping rocks is not always possible despite well documented outcrop lithologies. This is largely due to a complex metamorphic evolution that leads to overlapping compositions between garnets originating from different lithologies that have undergone similar metamorphic processes and alteration effects. 相似文献
16.
We present results of study of the specific composition and parageneses of pyrope-almandine garnets from alluvial deposits of the Muna-Markha interfluve drainage in the Yakutian diamondiferous province. The data are correlated with the specific features of garnets (tentatively crustal) from Yakutian and Guinean kimberlites and their crustal xenoliths and from metamorphic rocks of the Anabar Shield. The conclusion is drawn that most of orange pyrope-almandine garnets from the alluvial deposits were generated from kimberlites with varying contents of disintegrated crustal material. This gives grounds to include the studied garnets into a complex of indicator minerals of kimberlites and use them in search for diamonds in the Yakutian diamondiferous province. 相似文献
17.
《矿物学报》2013,(Z1)
Garnet is an essential phase in a wide range of metamorphic grades. Ratios of Fe and Mg concentrations in garnet have been widely used as a geothermometer for the crystallization, cooling rate and tectonic uplift rate because garnets in natural rocks always show a variety of Fe-Mg compositional partition. Normally, Fe-Mg concentrations of natural garnets vary widely and the Fe-Mg exchange reactions usually occur in a complex chemical system. Effect of pressure and temperature on Fe-Mg compositions of garnet in natural pelitic system was studied experimentally at temperatures of 700 to 780 ℃ and pressures from 21 to 29.4 kbar. The concentrations of FeO and MgO of garnet in the run products showed a linear relation with experimental temperatures. The result provided experimental evidence of Fe-Mg partition trend with temperature in a complex natural rock and therefore improved our understanding in the determinations of metamorphic temperature calculated by garnet geothermometer. Although the accurate geological application of our results requires the knowledge of the effects of other components upon [D(Mg)] and [D(Fe)] which is largely unknown currently, the data provided in this study are useful to build the relation between FeO-MgO contents and temperature, which is useful in the metamorphic temperatures determine of rocks with pelitic composition. 相似文献
18.
高温变泥质岩石中石榴石-黑云母地质温度计的应用——以胶北荆山群富铝岩石为例 总被引:6,自引:0,他引:6
在对胶北荆山群麻粒岩相富铝岩石中石榴石、黑云母的成分环带进行深入研究基础上,选取不同粒径、与不同矿物相邻的石榴石、黑云母各微区点成分,利用石榴石-黑云母温度计分别进行了温度估算。确定在黑云母含量较高的岩石(V_(Grt)/V_(Bt)≤1)中,利用大颗粒石榴石(d≥1500μm)晶体核部(或靠近长英质矿物一侧的晶体幔部)成分与基质中远离石榴石等镁铁矿物处于长英质矿物之间的黑云母核部成分配合。通过石榴石-黑云母温度计可以获得相当可信的变质峰期温度。但是对于黑云母含量极低的岩石(V_(Grt)/V_(Bt)≥6),由于黑云母的成分普遍遭到了强烈改造。使得温度估算结果异常偏低,因此不适合采用石榴石-黑云母温度计估算峰期温度。同一岩石中,采用不同的相邻石榴石-黑云母矿物对晶体边缘成分获得的温度值差异较大,反映它们在峰期后发生Fe-Mg交换反应并达到封闭温度平衡状态的程度不同,因此利用石榴石-黑云母温度计难以获得准确的封闭温度。通过热力学计算,建立了一个新的石榴石-黑云母温度计公式。确定胶北荆山群所经历的变质峰期温度为720~770℃,峰期后最低相对封闭温度为480~500℃。 相似文献
19.
碎屑重矿物分析对库车坳陷白垩—第三纪物源变化的指示 总被引:12,自引:1,他引:12
碎屑沉积是山脉隆升和盆地沉积的直接记录,包括碎屑重矿物研究在内的碎屑沉积物的分析是开展盆山耦合研究的必要手段。对库车坳陷白垩系—第三系砂岩中重矿物含量特征进行了系统的研究,并应用电子探针技术分析碎屑石榴石和钛铁矿的化学组成,研究表明库车坳陷白垩—第三系源区主要由沉积岩、变质岩和酸性火山岩组成。白垩系砂岩中的石榴石来自西南天山蓝片岩和低级变质岩的比例较大,而第三系砂岩中的石榴石中富铁铝榴石组分,多来自高级变质岩。白垩系砂岩中的钛铁矿多来自变质岩,上第三系砂岩中来自火成岩的钛铁矿比例增加。由此可以认为南天山的大规模隆升和剥蚀发生在第三纪以来,由于它的隆升遮挡了南天山北缘古生代增生杂岩体对库车坳陷的物质贡献,并且随着剥蚀的加深,高级变质岩和火成岩的出露越来越多。 相似文献