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1.
冀东早太古代变质岩系的主体是一套呈层分布的,各种成分麻粒岩及其某些退变质产物——斜长角闪岩类。在其上部发育变质含铁建造,而在其下部常夹有变质的镁铁质和超镁铁质岩(如变闪辉岩、变辉石岩和蛇纹石化橄榄岩等)薄层或透镜体。 麻粒岩的矿物组合是斜方辉石+单斜辉石+斜长石(常常为反条纹长石)+石英+磁铁矿±角闪石±黑云母。在变质含铁建造中局部出现包括铝硅酸盐的矿物组合(蓝晶石-石榴石-黑云母-斜长石-石英)。变质铁硅质岩可以分为两类:辉石磁铁石英岩和英榴易熔岩(张儒瑗,从柏林,1981)。 相似文献
2.
乳山海阳所地区超镁铁岩的主要特征 总被引:3,自引:0,他引:3
乳山海阳所地区超镁铁岩多以包体状赋存于新元古代片麻状二长花岗岩中,成群出现,分段集中;主要岩石类型有蛇纹石化橄辉岩,辉橄岩,透闪石化单斜辉石岩,角闪石岩和少量斜长角闪岩,偶见纯橄岩; 相似文献
3.
4.
中国与蒙古之地质 总被引:26,自引:0,他引:26
东昆仑中部缝合带清水泉一带发育石榴斜长紫苏麻粒岩、紫苏辉石黑云母石榴子石麻粒岩、石榴二辉斜长麻粒岩和石榴单斜辉石麻粒岩,它们与混合岩化黑云母石榴子石变粒岩、黑云母辉石变粒岩、石墨大理岩、含透辉石透闪石大理岩、透辉石大理岩、黑云斜长角闪岩和片麻岩等高级变质岩系以及纯橄岩、辉橄岩、橄长岩、辉长岩、辉绿岩和玄武岩等共同构成蛇绿混杂岩。麻粒岩相变质作用的温压条件为T=760~880℃,p=830~1200MPa,为高温中高压麻粒岩相变质作用,估算其形成深度为40~45km。麻粒岩相变质作用的SHRIMP锆石U-Pb年龄为(507·7±8·3)Ma。清水泉地区蛇绿岩形成于~520Ma,到~508Ma时俯冲至地下40~45km深处而发生中高压麻粒岩相变质作用,然后发生构造折返而剥露至地表。证实了清水泉高级变质岩和基性—超基性岩片是形成于早—中寒武世的蛇绿混杂岩,标志一个古生代早期的非常重要的板块汇聚边界,这对于进一步研究东昆仑造山带构造演化、乃至中国西部大地构造格局具有非常重要的意义。 相似文献
5.
造山带环境中的东疆型镁铁—超镁铁杂岩 总被引:8,自引:5,他引:8
新疆东部黄山-镜儿泉一带产有大-中型铜镍矿床的镁铁-超镁铁岩体是中石炭统弧后盆地引张环境下的热侵位产物,主要岩石类型有橄榄岩、辉橄岩、橄辉岩、二辉岩、辉长苏长岩、苏长辉长岩、辉长岩、橄长岩、辉长岩和闪长岩等;其超镁铁岩相对富铁.不具变质组构,并具橄榄石+斜方辉石+单斜辉石+角闪石±斜长石矿物组合;岩石化学以富硅、贫碱、贫铝、贫钙为特征,并具拉斑玄武岩系演化趋势。这些岩体是造山带杂岩体的一种新类型,可称为东疆型。 相似文献
6.
冀东地区麻粒岩相变质作用的演化 总被引:1,自引:2,他引:1
据冀东迁安-遵化一带麻粒岩相区的变质岩石、变质矿物及其组构特征、变质作用的温度、压力条件,结合同位素年代学资料,以及岩浆作用、构造变形作用和变质作用之间的关系,可将本区太古代变质作用划分为两期。太古代第一期变质作用只限于表壳岩包体岩石中,变质级为高角闪岩相和辉石麻粒岩相,第二期变质作用发生在晚太古代,早期变质阶段是在紫苏花岗岩侵位以后发生的辉石麻粒岩相变质作用,晚期变质阶段发生在稍后侵位的基性侵入岩体、英云闪长岩、奥长花岗岩等深成侵入体中,变质级达角闪麻粒岩相。早元古代第一期角闪石榴二辉麻粒岩型岩脉,遭受了辉石麻粒相变质作用,第二期角闪石榴斜长辉石岩型岩脉经历了角闪麻粒岩相变质作用。这些变质作用在早期岩石中都有不同程度的叠加。麻粒岩相变质作用的温度在700℃~920℃,压力在0.88~1.14GPa。变质作用的PTt演化呈现了逆时针近等压冷却的轨迹 相似文献
7.
新疆北山盐滩断裂南一带从原划奥陶-志留系地层中解体出古老的角闪岩相-麻粒岩相变质岩和变质侵入岩体,主要岩性为黑云母斜长片麻岩、条带状混合岩、斜长角闪岩、及少量变粒岩、麻粒岩等。其中首次发现了代表中、下地壳深变质作用的中-高压基性麻粒岩。详细的野外调查、岩相学及矿物学研究表明,该基性麻粒岩主要由透辉石、紫苏辉石、褐色普通角闪石及拉长石组成。其演化经历了由麻粒岩相岩石经退变质反应而成为角闪岩相变质岩的过程。研究表明,该区麻粒岩中的单斜辉石及角闪石矿物学成因均属于变质成因,其中单斜辉石形成环境为高压型,而角闪石形成环境为中低压环境。麻粒岩相变质岩形成于约1.25GPa(42km埋深)以下的中高压-高压环境,其形成温度约841℃;而退变质作用下的角闪岩相变质岩应形成于650~657℃的温度范围之内,压力为0.460~0.495GPa之间,相应的代表埋深约为16.5km的中低压型环境。该区高级变质岩及其基性麻粒岩的发现,将对该区地壳成分、麻粒岩的成因与变质作用以及所处的大地构造背景演化等研究无疑将起到非常重要的作用。 相似文献
8.
山东沂水杂岩中变基性岩的岩石地球化学特征及锆石SHRIMP U-Pb定年 总被引:7,自引:0,他引:7
山东沂水杂岩由新太古代岩浆杂岩和中太古代的变质杂岩组成,其后者中的变基性岩石,特别是基性麻粒岩,常与紫苏花岗岩紧密伴生,而且多呈大小不等的包体或呈层状体产出。本文主要对变基性岩进行岩石地球化学和锆石SHRIMP UPb定年研究。根据岩石学特征,可将变基性岩分为三类:含紫苏辉石斜长角闪岩、含石榴子石角闪二辉斜长麻粒岩和含尖晶石—石榴子石的角闪二辉麻粒岩。它们原岩分别为安山质玄武岩、高铁镁质玄武岩和玄武质科马提岩(?)。三类岩石稀土元素和微量元素配分有一定差别:第一类含紫苏辉石斜长角闪岩富集轻稀土和大离子亲石元素,亏损Nb、Ta、Zr、Hf等高场强元素;后二类麻粒岩相变质岩的稀土配分模式为近平坦型或轻稀土略为富集, K、Rb、Ba等元素也轻微富集,其他元素与MORB的比值接近于1。变基性岩中锆石定年结果显示有四组年龄值,其中2719Ma和2560~2607Ma分别代表早期麻粒岩相变质作用的年龄下限和上限;2509~2522Ma代表另一期角闪岩相—麻粒岩相变质作用的时代,发生在沂水岩浆杂岩侵入之后;2485Ma和2497Ma代表与流体作用有关的变质作用和新生锆石的形成年龄。 相似文献
9.
出露于北京东北密怀地区的太古界密云群是一套麻粒岩相变质岩,其中的辉石是标志性矿物之一,因而对辉石的深入研究,将有助于阐明该区变质作用特征。 密云群划分为三个组,从下向上有沙厂组,苇子峪组及大曹组。辉石在三个组中均有分布,斜方辉石从沙厂组到大曹组逐渐减少,单斜辉石则逐渐增多。 含辉石的岩石类型较多,从超铁镁质到长英质岩石,如角闪二辉石岩、石榴斜长辉石岩、石榴(角闪或云母)二辉麻粒岩、云辉斜长片麻岩、二辉变粒岩、辉石浅粒岩及榴辉磁铁石英岩等,都属此类。 相似文献
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11.
Iron-magnesium distribution coefficients for coexisting ortho- and clinopyroxene in 22 amphibolites from the New Jersey Precambrian Highlands range from 1.40 to 1.90. No systematic areal variation of the distribution coefficient is discernable within a 700 mi2 area. The distribution coefficient is, however, systematically related to pyroxene composition. The distribution coefficient tends to increase with increasing pyroxene weight % FeO (Fe as FeO) and decrease with increasing MgO and Al2O3. Data from other workers indicates that the distribution coefficient versus pyroxene composition trends found in the Highlands amphibolites are also present in both igneous and metamorphic rock suites from several other areas. Possible influence of pyroxene CaO on the distribution coefficient is also indicated. The Highlands amphibolite type trends are, however, directly opposite to those previously reported for Australian granulites. Both types of trends are apparently valid since both are present in at least one instance in metamorphic rocks from a relatively small area. The causes for the development of the two types of trends are imperfectly understood. Data presented indicates, however, that the New Jersey amphibolite type trends are apparently more characteristic of Fe-poor pyroxenes, whereas, the Australian granulite type trends are more characteristic of Fe-rich pyroxenes.The distribution coefficient in the Highlands amphibolites is also systematically related to bulk-rock composition due to the sympathetic variation of pyroxene Fe-Mg content with total rock MgO/FeO(Fe as FeO). The observed range of the distribution coefficient in the Highlands amphibolites may, consequently, mostly reflect variation in bulk-rock composition and not variation in crystallization temperature. 相似文献
12.
Garnetiferous basic granulites occur, as parts of hornblende-pyroxene- and pyroxene granulites, in a Precambrian terrain around Saltora. The chemistry of the garnetiferous basic granulites is broadly similar to that of the hornblende-pyroxene granulites, their immediate precursors, but in detail they have distinctly higher Fe/Mg ratios. The compositions of the major mafic silicates of the garnetiferous varieties do not reflect higher pressures of formation: the Jd/Ts ratios in calcic pyroxenes are similar to those from the non-garnetiferous varieties, and the pyrope contents of garnets are low. Exchange equilibrium in respect of major elements was established among the mafic silicates in spite of garnets being late overprints. The orthopyroxene — calcic pyroxene pairs from the garnetiferous granulites show lower values of K D(Mg-Fe) opx-cpx than those from the non-garnetiferous granulites, pointing to lower temperature of equilibration. The K D(Mg-Fe) opx-hbl K D(Mg-Fe) cpx-hbl relations show that the more magnesian triads equilibrated at lower temperatures; viewed against experimental data regarding the effect of Mg/Fe ratios on the appearance of garnets in basic rocks, formation of garnets by cooling is strongly indicated. Several intergrowth textures, especially garnet-ilmenite and garnet-quartz (±albite) symplectites, and modal relations argue in favour of composite reactions of the type hornblende+ quartz-→calcic pyroxene+garnet+albite+H2O, which couple hornblende breakdown reactions with orthopyroxene+anorthite→garnet reactions. The approximate range of pressure and temperature conditions, estimated from experimental data, are 6–8.5 kb and 750–830° C. Since garnets formed by cooling in iron-rich granulites, the garnetiferous granulites do not represent higher pressure subfacies of the granulite facies. 相似文献
13.
河北东部太古代麻粒岩相深成片麻岩有两种类型:一种亏损放射性生热元素和大离子亲石元素;另一种富集这些元素。该文讨论了这种化学差异及造成差异的原因。 相似文献
14.
浙江衢县西垄和金华龙游一带分布有许多第三纪的霞石玄武岩、玻基橄辉岩、橄辉玢岩和超基性火山角砾岩岩体和岩脉。它们富含橄榄岩类包体和来源于破碎的橄榄岩包体的各种捕虏晶(橄榄石、斜方辉石、透辉石和石榴石)。此外,还常含有富铝普通辉石、石榴石和钛铁矿巨晶。本文试图在大量的单矿物分析数据基础上,讨论橄榄岩类包体、捕虏晶以及巨晶的矿物化学及其形成条件。关于橄榄岩包体的主要元素和微量元素地球化学以及成因岩石学的研究,笔者已在另一篇论文中专门论述(从柏林和张儒瑗,1983),这里不再重复。 相似文献
15.
太平寨的古老岩石可以追溯到早太古时期,是我国迄今所测得同位素年龄中时代最古老的岩石。本文试图通过迁西太平寨迁西群下部上川组麻粒岩的稀土元素含量及分配型式,讨论该地区原岩的岩石成因及其大地构造含义。 相似文献
16.
Crustal thickening of the lower crust of the Kohistan arc (N. Pakistan) deduced from Al zoning in clinopyroxene and plagioclase 总被引:8,自引:0,他引:8
The lower-crustal rocks of the Kohistan complex (northern Pakistan) are mostly composed of metabasic rocks such as pyroxene granulites, garnet granulites and amphibolites. We have investigated P–T trajectories of the relic two-pyroxene granulites, which are the protolith of the amphibolites within the Kamila amphibolite belt. Aluminous pyroxene retains igneous textures such as exsolution lamellae developed in the core. The significant amount of Al in clinopyroxene is buffered by breakdown reactions of plagioclase accompanied by film-like quartz as a product at grain boundaries between plagioclase and clinopyroxene. Distinct Al zoning profiles are preserved in pyroxene with exsolution lamellae in the core and in plagioclase adjacent to clinopyroxene in pyroxene granulites. In the northern part of the Kamila amphibolite belt, Al in clinopyroxene increases towards the rim and abruptly decreases at the outer rim, and anorthite in plagioclase decreases towards the rim and abruptly increases near the grain boundary between plagioclase and clinopyroxene. In the southern part of the Kamila amphibolite belt, Al in clinopyroxene and anorthite in plagioclase simply increase towards the margins of the grains. The anorthite zoning in plagioclase is in agreement with the zoning profiles of Ca-Tschermaks and jadeite components inferred from variations of Al, Na, Ti and Fe3+ in clinopyroxene. Assuming that the growth surface between them was in equilibrium, geothermobarometry based on Al zoning in clinopyroxene coexisting with plagioclase indicates that metamorphic pressures significantly increased with increasing temperature under granulite facies metamorphism. The peak of granulite facies metamorphism occurred at conditions of about 800 °C and 800–1100 MPa. These prograde P–T paths represent a crustal thickening process of the Kohistan arc during the Early to Middle Cretaceous. The crustal thickening of the Kohistan arc was caused by accretion of basaltic magma at mid-crustal depths. 相似文献
17.
A deep-level crustal section of the Cretaceous Kohistan arc is exposed in the northern part of the Jijal complex. The occurrence of mafic to ultramafic granulite-facies rocks exhibits the nature and metamorphic evolution of the lower crust. Mafic granulites are divided into two rock types: two-pyroxene granulite (orthopyroxene+clinopyroxene+plagioclase±quartz [1]); and garnet–clinopyroxene granulite (garnet+clinopyroxene+plagioclase+quartz [2]). Two-pyroxene granulite occurs in the northeastern part of the Jijal complex as a relict host rock of garnet–clinopyroxene granulite, where the orthopyroxene-rich host is transected by elongated patches and bands of garnet–clinopyroxene granulite. Garnet–clinopyroxene granulite, together with two-pyroxene granulite, has been partly replaced by amphibolite (hornblende±garnet+plagioclase+quartz [3]). The garnet-bearing assemblage [2] is expressed by a compression–dehydration reaction: hornblende+orthopyroxene+plagioclase=garnet+clinopyroxene+quartz+H2O↑. Subsequent amphibolitization to form the assemblage [3] is expressed by two hydration reactions: garnet+clinopyroxene+plagioclase+H2O=hornblende+quartz and plagioclase+hornblende+H2O=zoisite+chlorite+quartz. The mafic granulites include pod- and lens-shaped bodies of ultramafic granulites which consist of garnet hornblendite (garnet+hornblende+clinopyroxene [4]) associated with garnet clinopyroxenite, garnetite, and hornblendite. Field relation and comparisons in modal–chemical compositions between the mafic and ultramafic granulites indicate that the ultramafic granulites were originally intrusive rocks which dissected the protoliths of the mafic granulites and then have been metamorphosed simultaneously with the formation of garnet–clinopyroxene granulite. The results combined with isotopic ages reported elsewhere give the following tectonic constraints: (1) crustal thickening through the development of the Kohistan arc and the subsequent Kohistan–Asia collision caused the high-pressure granulite-facies metamorphism in the Jijal complex; (2) local amphibolitization of the mafic granulites occurred after the collision. 相似文献
18.
Allan F. Wilson 《Contributions to Mineralogy and Petrology》1976,55(2):131-138
Data from analyses of three coexisting pairs of pyroxenes with a wide range of Fe content from each of two localities are used to show the large systematic variation and predictable correlation of Fe (or Mg) of a pyroxene with its content of Al, Mn and Na in mafic granulites. Comparisons of pyroxenes can then be made more meaningful by normalizing Al, or other elements, to an appropriate Mg value. As both P and T may affect the element distribution of the two pyroxenes differently (especially Al and Na) the factor used in normalizing is found to vary from region to region. 相似文献
19.
Paragenetic types of pyroxenes, selected according to mineralassociations, differ in their average contents of the majorcations. By comparing with the average composition it is seenthat both the Fe/(Mg+Fe) ratio and the Fe+2, Mn, Mg, Fe+3, andCr contents are determined in the main by the composition ofthe host rocks, but the AIz, Aly, Ca, and Na contents in pyroxenesare influenced by the conditions under which the rock was formed.The dependence of the Alz and Aly contents of orthopyroxenesand clinopyroxenes on temperature and pressure is shown withthe help of a new P-T diagram and by comparison with chemicalanalyses of natural pyroxenes. The correlation between the compound cations in pyroxenes isused to test the hypothesis of real isomorphous substitutionsin each paragenetic type of pyroxenes, and to determine rationalmethods of calculating pyroxene analyses into components. The calculated discriminant functions are useful for referring(with 5–10 per cent error) analyses of pyroxenes to oneof a number of paragenetic types, and in particular for distinguishingpyroxenes from magmatic and metamorphosed gabbros, and fromhigh- and low-temperature two-pyroxene granulites. 相似文献
20.
The western part of the Hidaka Metamorphic Belt, Hokkaido, consistsof primary pyroxene gabbro and lesser amounts of olivine gabbrothat have been dynamically metamorphosed to metagabbro—gabbroicamphibolite-amphibolite-epidote amphibolite during uplift andshearing about 23 m.y. ago. Textures and the presence of relic and recrystallized amphiboleand plagioclase in the same rock indicate incomplete reactionand non attainment of equilibrium during recrystallization. EPMA and bulk analyses of 165 amphiboles indicate a continuousoverall compositional range from actinolite to dark green hornblende(with 100 mg/(Mg+Fe2++Fe3+Mn) ratios varying from 89.5 to 32.0)marked by increasing Al, Fe, Ti, and Na. A compositional gapis usually present between relic and recrystallized amphibolesin any one rock which becomes more prominent with increasingshearing. In addition to host rock chemical control, amphibole compositionis largely dependent on the An content of coexisting plagioclase.Locally epidote and sphene exert a strong influence on bothamphibole and plagioclase compositions. Amphibole Ti and Mncontents decrease with shearing and Fe enrichment of the hostrocks largely as a result of the incoming of rutile, sphene,and Fe-Ti oxides. Analysis of host rock oxidation ratio andamphibole compositions indicates that the rocks essentiallybehaved as closed systems to oxygen during metamorphism. Al1V-AlIV, AlIV-Fe3+, and AlIV-(Na, K)A are the main substitutionsin the amphiboles. Within any one rock the recrystallized amphibolesare enriched in Al, Fe, Ti, and Na relative to the relice amphiboles.Increasing metamorphism results in a progressive change of amphiboles(recrystallized) to more Fe and Si (rather than Al) rich compositionsreflecting the trend towards greenschist where Fe-actinolite(+Mg chlorite) would be stable. Differentiation of the amphiboles is within the limits of SiAlreplacement and the compositional limits of the early stagereaction rim and replacement amphiboles in the host olivineand pyroxene metagabbros. 相似文献