共查询到20条相似文献,搜索用时 31 毫秒
1.
E. J. Krogstad G. N. Hanson V. Rajamani 《Contributions to Mineralogy and Petrology》1995,122(1-2):159-173
Conspicuous Nd, Sr and Pb isotopic differences exist between the Archean gneiss terranes adjoining the suture at the Kolar
Schist Belt, south India. These gneisses, which are the deformed equivalents of plutonic and volcanic rocks, have known or
inferred igneous ages of 2630 to 2530 Ma. Initial isotopic ratios of Nd, Sr and Pb suggest that metaplutonic gneisses west
of the Kolar Schist Belt were emplaced into, and variably contaminated by, an evolved continental crust that formed prior
to 3200 Ma. Felsic metaigneous gneisses that occur as slivers on the western margin of the schist belt have an isotopic character
similar to that of the metaplutonic rocks on the same side of the Kolar Schist Belt. On the east side of the Kolar Schist
Belt the isotopic evidence suggests that the 2530 Ma granitic gneisses were not derived from or contaminated by an older continental
crust. Their source probably evolved with a Nd isotopic composition similar to that of typical Archean mantle, but became
light rare earth element enriched after 2900 to 2700 Ma. The inferred tectonic setting for the west side of the Kolar Schist
Belt is an Andean continental magmatic arc. For the east side of the Kolar Schist Belt, a possible Phanerozoic analog is an
evolved island arc, such as Japan.
Received: 24 June 1994/Accepted: 9 January 1995 相似文献
2.
济阳坳陷埕东凸起基底岩石组合、原岩恢复及地质意义 总被引:1,自引:0,他引:1
济阳坳陷埕东凸起太古界基底分布广泛,岩石类型丰富。岩心及显微薄片观察表明,岩石组合以花岗片麻岩、二长片麻岩和黑云母斜长片麻岩等各类片麻岩和石英闪长岩、花岗闪长岩等古老岩浆岩为主,少量石英岩、变粒岩等变质表壳岩以及云煌细晶岩、钾长花岗岩等年轻侵入岩脉。岩石地球化学分析及区域对比揭示,各类片麻岩的原岩为中酸性侵入岩,属于TTG质片麻岩,而石英岩和变粒岩属于变质表壳岩范畴,原岩为沉积岩。基底岩石构造样式为片麻岩或侵入岩形成构造穹窿,规模较小的变质表壳岩零星分布在周边。盆地基底岩石组合、变质岩原岩恢复与构造样式分析表明,渤海湾盆地覆盖区基底性质与露头区相似,是华北克拉通变质基底重要组成部分。这些认识对弄清盆地基底潜山油藏储层特征与展布具有重要指导作用,为深入研究变质岩潜山内幕油藏储层演化规律提供了依据。 相似文献
3.
抚顺南部早前寒武纪变质杂岩的地质事件序列 总被引:8,自引:7,他引:1
抚顺南部早前寒武纪变质杂岩是华北克拉通北缘辽北-吉南早前寒武纪变质地块的一个重要组成部分,主要由浑南群石棚子组角闪岩相变质火山岩、火山碎屑岩及相伴生的沉积岩等表壳岩系和侵位于其中的石英闪长质片麻岩、英云闪长质-奥长花岗质-花岗闪长质(TTG)片麻岩和花岗闪长岩-二长花岗岩-钾长花岗岩岩石组合组成。LA-ICP-MS锆石U-Pb同位素分析结果显示,侵位于表壳岩中的石英闪长质片麻岩样品12LN39-3的岩浆结晶年龄为2571±7Ma,指示存在老于该年龄的表壳岩系。英云闪长质片麻岩样品12LN04-1和奥长花岗质片麻岩样品13LB49-3的岩浆结晶年龄分别为2544±4Ma和2550±10Ma,记录了一期重要的英云闪长质-奥长花岗质片麻岩侵位事件。斜长角闪岩(样品12LN25-2)的岩浆结晶的最小年龄为2530±5Ma,指示另一火山喷发阶段。晚期钾长花岗岩样品12LN01-1和奥长花岗质片麻岩样品12LN27-1分别侵位于2522±4Ma和2518±23Ma,说明它们的岩浆作用发生于同一时期。而采自于晚期未变形侵入体的石英闪长岩样品12LN30-2的岩浆结晶年龄为2496±18Ma,与上述表壳岩和深成侵入体的主要变质作用(2510~2470Ma)同期发生。这些年代学结果表明,抚顺南部地区新太古代大规模的铁镁质火山喷发作用在大于2571±7Ma已经发生,紧接着2571±7Ma发生石英闪长质岩浆侵位,在2550±10Ma~2544±4Ma之间发生英云闪长质-奥长花岗质岩浆侵位。接下来铁镁质火山再度喷发(~2530±5Ma),随后为钾长花岗岩和奥长花岗质岩浆的侵位(2522±4Ma~2518±23Ma)。晚期为角闪岩相变质作用时期(2510~2470Ma),伴随一定规模的石英闪长岩侵位。 相似文献
4.
登封地区早前寒武纪地壳演化—地球化学和锆石SHRIMP U-Pb年代学制约 总被引:28,自引:3,他引:25
河南中部登封地区早前寒武纪基底主要由新太古代登封群、古元古代嵩山群和早前寒武纪花岗质岩石组成.登封群主要由斜长角闪岩、角闪变粒岩、黑云变粒岩、云母石英片岩及少量磁铁石英岩(BIF)组成,变质原岩主要为基性火山岩、中酸性火山岩和碎屑沉积岩.3个登封群变质酸性火山岩样品给出2.51~2.53 Ga岩浆锆石年龄,存在2.61~2.69 Ga残余锆石.它们高SiO2,tDM(Nd)和εNd(t)分别为2.52~2.79 Ga和0.51~4.41.嵩山群主要由石英岩和片岩组成,经受绿片岩相变质.石英岩碎屑锆石年龄峰值为2.5 Ga,与华北克拉通孔兹岩系变泥砂质岩石中存在大量2.1~2.3 Ga碎屑锆石明显不同.石英岩中可靠的最年轻碎屑锆石年龄为2.45 Ga,部分碎屑锆石年龄大于2.65 Ga,最大达3.26 Ga.会善寺奥长花岗岩、大塔寺英云闪长岩、路家沟钾质花岗岩和石秤二长花岗岩形成时代分别为2.55 Ga、2.53 Ga、2.51 Ga和1.78 Ga,会善寺奥长花岗岩中存在2621~2638 Ma残余锆石,并有~2.51 Ga变质增生边存在.花岗质岩石在元素地球化学组成上存在较大变化,但具有类似Nd同位素组成,tDM(Nd)为2.60~2.80 Ga(钾质花岗岩样品除外).根据研究,可得出如下结论和认识:①登封群形成于新太古代末期(2.51~2.53 Ga),与前人认识一致.②不同类型花岗质岩石,与登封群表壳岩一道,形成于一个相对较小的时间范围(2.50~2.55 Ga),结合岩石组合和地球化学组成特征,推测其形成与板底垫托作用有关.③在岩石组合和形成时代等方面,五台和箕山地区花岗绿岩带与登封地区的十分类似,可能为同一大型花岗绿岩带的不同部分.④可把嵩山群形成时代限制在2.0~2.45 Ga之间,与五台地区高凡群(2.14~2.47 Ga)或滹沱群(2.08~2.14 Ga)对比.⑤石秤花岗岩是华北克拉通古元古代之后拉张构造体制下壳内岩浆作用的产物. 相似文献
5.
新疆尼勒克县圆头山后碰撞花岗斑岩的同位素年代学及地球化学特征 总被引:1,自引:1,他引:0
圆头山黑云母花岗斑岩位于尼勒克县城南,岩体普遍发育的铜矿化,以中部碎裂带中矿化最强。岩石具有典型的斑状结构,斑晶由碱性长石和黑云母组成,基质以长石、云母和石英为主,并含有少量的硫化物。圆头山黑云母花岗斑岩的轻重稀土分馏明显,并且明显富集大离子亲石元素(LILE) (除Sr外)和Pb,同时亏损高场强元素(HFSE)和Nb、Ta、P、Ti,显示出弧火山岩的地球化学特征。圆头山黑云母花岗形成年龄为269±3Ma,其源区以具有弧火山岩特征的下地壳为主,同时含有少量的幔源物质,而且在岩体的侵位过程中有高(87Sr/86Sr)i (0.706054~0.709228)和高Pb含量(5.05×10-6~32.5×10-6)的陆壳物质混染。在下地壳物质熔融过程中,位于下地壳底部的富水和成矿元素的MASH带物质也被圈入,使原始岩浆富水和成矿物质。圆头山黑云母花岗斑形成于碰撞后阶段,岩石的形成主要受岩石圈地幔拆沉作用的控制,而岩石圈地幔的拆沉可能与中亚造山带的垮塌或塔里木地幔柱活动有关。 相似文献
6.
Three magmatic phases are distinguished in the Neoproterozoic Nakora Ring Complex (NRC) of Malani Igneous Suite (MIS), namely (a) Extrusive (b) Intrusive and (c) Dyke phase. Magmatism at NRC initiated with minor amount of (basic) basalt flows and followed by the extensive/voluminous acid (rhyolites-trachytes) flows. The ripple marks are observed at the Dadawari area of NRC in tuffaceous rhyolite flow which suggests the aqueous condition of flows deposition. The emplacement of the magma appears to have been controlled by a well defined NE-SW tectonic lineament and cut by radial pattern of dykes. These NE-SW tectonic lineaments are the linear zones of crustal weakness and high heat flow. The spheroidal and rapakivi structures in the Nakora acid volcanics indicate the relationship between genetic link and magma mixing. Basalt-trachyte-rhyolite association suggests that the large amount of heat is supplied to the crust from the magma chamber before the eruption. The field (elliptical/ring structures), mineralogical and geochemical characteristics of Nakora granites attest an alkaline character in their evolution and consistent with within plate tectonic setting. The emplacement of these granites and associated volcanics is controlled by ring structures, a manifestation of plume activity and cauldron subsidence, an evidence of extensional tectonic environment. NRC granites are the product of partial melting of rocks similar to banded gneiss from Kolar Schist Belt of India. The present investigations suggest that the magmatic suites of NRC rocks are derived from a crustal source and the required heat supplied from a mantle plume. 相似文献
7.
《International Geology Review》2012,54(9):867-877
The northern Dabieshan metamorphic terrain (NDT) is an analogue of an Andean-type magmatic arc. The predominant rock type is a trondhjemitic-tonalitic-granodioritic (TTG) gneiss with bodies of meta-ultramafic-gabbroic rocks, basic granulite, and metasedimentary horizons. The TTG gneisses occupy about 70-80 vol% of the metamorphic rock outcrop and constitute two gneiss domes. Several approximately E-W- or NW-SE-trending ductile deforma- tion belts cut through the TTG gneisses and are especially developed in the northern and southern margins of the NDT and around the domes. Most ultramafic-mafic rocks occur as lenses in ductile deformation belts. Metasedimentary horizons consist of marble, biotite quartz schist, metaquartzite, metamorphosed calc-silicate rocks, fine-grained biotite gneiss, banded iron formation, and amphibolite. Petrographic and geochemical studies show that: (1) meta- morphic rocks in the NDT underwent amphibolite-granulite facies metamorphism, and no eclogite-facies high-pressure mineral relicts were found in any rocks; and (2) ultramafic-mafic rocks do not have the petrological and geochemical characteristics of ophiolitic rocks; they appear to be an island-arc ultramafic-gabbroic intrusion. The limited isotopic data indicate that the northern Dabieshan terrain is possibly a Paleozoic magmatic arc. The data in this paper provide some implications for formation and exhumation of ultra-high pressure metamorphic (UHPM) rocks. 相似文献
8.
华北与西伯利亚板块的对接过程: 来自西拉木伦缝合带变形花岗岩锆石LA-ICP-MS U-Pb年龄证据 总被引:15,自引:0,他引:15
房框子沟花岗质片麻岩NEE向展布于内蒙古林西县双井镇的房框子沟村一带, 是一套侵入到双井片岩中的变质变形侵入体, 其边缘和中央分别为云染状和均质的花岗质片麻岩.利用LA-ICP-MS锆石U-Pb原位定年方法对采自该侵入体边缘和中央的样品进行了定年, 结果表明, 岩浆在271.9±1.6Ma开始侵位于双井片岩中, 在接触带上多发生混合岩化, 造成岩体边缘呈云染状, 在264.8±1.8Ma岩体主体侵位, 之后由于西伯利亚板块与华北板块的持续碰撞缝合, 岩体在应力作用下变形变质形成了今天看到的房框子沟花岗质片麻岩的面貌, 到231±2Ma碰撞基本结束, 西伯利亚板块与华北板块最终拼合. 相似文献
9.
V. S. Semenov E. N. Kamenev V. M. Mikhailov I. A. Kamenev S. V. Semenov 《Geology of Ore Deposits》2009,51(8):723-740
The results of geological study of the mountain framework of the southern part of the Lambert Glacier, Mawson Escarpment,
Eastern Antarctica, are discussed. The studied territory is of key importance for understanding the regional geological history.
The Ruker and the Lambert rock complexes have been distinguished at the Mawson Escarpment. The former is subdivided into the
Mawson and Menzies groups. The polymetamorphic rocks of the Mawson Group comprise granite gneiss, orthopyroxene gneiss, and
crystalline schists dated at >3000 Ma combined with tectonic wedges and blocks of the variegated sequence with ultramafic
(komatiitic) rocks. The find of those rocks allows us to suggest that an ancient granite-greenstone domain existed in the
territory of the Prince Charles Mts.; this domain is retained only as tectonic wedges amongst granite gneisses of the Mawson
and Menzies groups composed of polymetamorphic terrigenous rocks with basic sills. The following sequence of metamorphic mineral
assemblages in the Menzies Group has been established: (1) And-Crd ± St, (2) Ky-St-Grt-Bt-Ms, (3) Sil-Grt-Crd. The andalusite-type
metamorphism of rocks pertaining to the Menzies Group probably has the same age as greenschist metamorphism of rocks belonging
to the Collaboration Group (2917 ± 82–2878 ± 65 Ma at Mt. Ruker). The formation of kyanite-staurolite mineral assemblage (mounts
Stinear, Maguire, Rymill; South Mawson Escarpment) might be related to a metamorphic event dated at 2400–2350 Ma. The formation
of sillimanite-garnet and sillimanite-cordierite assemblages with staurolite relics correlates in time with emplacement of
the MacColly granite 600–500 Ma ago. Polymetamorphic rocks of the Lambert Complex are migmatites and gneisses, often with
orthopyroxene relics. Blocks of ultramafic rocks are localized amongst granite gneisses. The superimposed metamorphism of
amphibolite and granulite facies took place 1800 Ma ago. The model Nd age of ultramafic rocks (2500 Ma) is treated as the
time of emplacement of magma into the rocks of the Lambert Complex. Isotopic and geochemical evidence for Early Paleozoic
granulite-facies metamorphism is known. 相似文献
10.
SWIR ASTER band ratios for lithological mapping and mineral exploration: a case study from El Hudi area, southeastern desert, Egypt 总被引:2,自引:2,他引:0
This study aims to discriminate and to map the basement rocks as well as the barite mineralization exposed at El Hudi area, Southeastern Desert, Egypt using the processed short-wave infrared bands of advanced space-borne thermal emission and reflection radiometer (ASTER) in collaboration with the field verification and petrographic analysis. El Hudi area is covered dominantly by the Late Precambrian high-grade metamorphic complex of metasedimentary rocks (gneisses, schists, migmatites, and minor amphibolites) which are intruded by the younger granitoids. Nubian sandstones unconformably overlie the basement outcrops and occur as a remnant caps. The metasedimentary rocks cover the area of interest forming a belt of biotite gneisses and migmatites intercalated with hornblende biotite schists and minor amphibolites. Their exposures exhibit well-foliated and banded structures. The metasedimentary rocks have gray and dark gray image signatures on the ASTER band ratio image 8/5, which correspond to biotite gneiss, migmatites, and hornblende biotite schists, respectively. Presence of absorption feature near band 8 (2.295 – 2.365 μm) for the chlorite alteration product is probably responsible for the lowering of the 8/5 band ratio value and the dark gray image signature exhibited by hornblende biotite schists. The granitoid rocks in El Hudi area are late to postorogenic younger granitoids including three main rock types, Abu Aggag granites, El Hudi garnetiferous muscovite granites, and coarse-grained biotite granites. The acidic dykes are cutting across the granitoids and the gneisses and they form a highly elevated ridges and peaks showing sharp contact with the invaded rocks. Abu Aggag granites are highly dissected by great number of both strike- and dip-slip faults as well as joints trending in NNW–SSE, NNE–SSW, N–S, ENE–WSW, and WNW–ESE directions. On 7/8 band ratio image, Abu Aggag granites have dark gray image signature whereas postgranitic dykes have white image signature. Under the microscope, Abu Aggag granites are homogenous medium to coarse-grained rocks composed mainly of quartz, plagioclase, microcline, and biotite. Zircon, apatite, and opaques are accessories, while chlorite, kaolinite, and epidote are secondary minerals. Presence of absorption feature around band 7 (2.235–2.285 μm) for the kaolinite mineral may be responsible for the dark gray image signature exhibited by Abu Aggag granites. El Hudi garnetiferous muscovite granites are hosting El Hudi barite veins which extend mainly in NNW–SSE and NW–SE. Garnetiferous muscovite granites have gray image signature on 5/4 band ratio image whereas pegmatites and postgranitic dykes have black image signature. Barite veins can be distinguished within garnetiferous muscovite granites by their dark gray image signature on 5/4 band ratio image. The spectral reflectance curve of barite exhibits absorption feature around 2.1 μm (band 5), which leads to lower the ratio value and yields the dark image signature to barite veins. The above-described ASTER band ratio images were integrated into one false-color composite image (8/5:R; 5/4G; and 7/8B) which was used to produce 1:100,000 geological map for El Hudi area and to locate the barite mineralization. 相似文献
11.
南苏鲁造山带的超高压变质岩及岩石化学研究 总被引:10,自引:0,他引:10
在南苏鲁造山带核部,古老的表壳岩和花岗质侵人岩经历了三叠纪的超高压变质作用,在超高压变质岩石抬升过程中经历了强烈的角闪岩相退变质作用改造。据岩相学和岩石化学研究,可以区分出六大类典型超高压变质岩:榴辉岩、石榴石橄榄岩、石英硬玉岩、石榴石多硅白云母片岩、硬玉石英岩和石榴石绿辉石文石岩。这些岩石的角闪岩相退变质产物分别是斜长角闪岩、蛇纹岩、长英质片麻岩、长石石英云母片岩、石英岩和大理岩。地球化学研究揭示,榴辉岩的原岩很可能是形成在大陆内部构造环境的拉斑玄武岩,而石榴石橄榄岩可能是起源于亏损的残余地幔。石英硬玉岩原岩包括正变质的花岗岩和奥长花岗岩、副变质的酸性火山碎屑岩和长石石英砂岩。大面积分布的古老花岗岩很可能是形成在大陆或大陆边缘环境。长石石英云母片岩、石英岩和大理岩的原岩为沉积岩,与副变质的长英质片麻岩和基性火山岩—起构成了古老的表壳岩组合。双峰式的酸性和基性火山岩组合的存在也证明部分表壳岩是形成在大陆环境。因此,可以推测南苏鲁造山带核部的超高压变质岩原岩为形成在大陆板内环境的沉积岩—酸性和基性火山岩—花岗岩和奥长花岗岩建造。 相似文献
12.
The Gairloch Schist Belt in the Archaean to Early Proterozoic Lewisian Complex of north-west Scotland is largely composed of amphibolite facies metabasites and metagreywackes. These are associated with a distinctive suite of metamorphosed volcanic-exhalative sediments including quartz-magnetite rocks, garnet-grunerite rocks and compositionally variable, siliceous calcite- and dolomite-bearing lithologies. The carbonate horizons are locally rich in sulphide and carry Cu-Zn-Au mineralization. Meta-exhalites occur within parts of metavolcanic units characterized by metamorphosed tuffs and tuffs mixed with exhalative material. Quartz-magnetite and carbonate horizons were dismembered and underwent mylonitic recrystallization during regional compression. The associated metabasic rocks in the shear zones have suffered extensive phyllonitization. This style and degree of deformation are not developed elsewhere in the immediate area which suggests that ductile shear zones in the Gairloch Schist Belt were preferentially initiated near and localized around the meta-exhalative horizons. 相似文献
13.
Anthony Azubuike Elueze 《Precambrian Research》1982,19(2):167-177
The Ilesha granite gneiss comprises a varied series ranging from porphyroblastic alkali gneiss and granitic gneiss to banded and strongly foliated melanocratic rocks. Deformation is intense and the dominant structural trend is approximately N-S.Chemical data show essentially a systematic variation reflecting the differences in the petrographic character of the outcrops. SiO2, Na2O, K2O and related trace elements, particularly Rb, are higher in the alkali and granitic varieties, whereas the melanocratic types have lower contents of these elements. The basic rocks are likewise significantly enhanced in TiO2, Fe, MgO, CaO, Cr and Ni concentrations, with some values being comparable to those of basaltic rocks. 相似文献
14.
O.A. Ige M. Okrusch U. Schüssler E. Schmädicke N.J. Cook 《Journal of African Earth Sciences》1998,26(4):593-618
In the Proterozoic Schist Belt of Nigeria, lenticular bodies of metabasites and meta-ultramafics are frequently intercalated within staurolite bearing metapelitic schists. Such a metamorphosed mafic-ultramafic complex is particularly well exposed in the Mokuro riverbed between the towns of Ife and Ilesha. These outcrops display contact relationships with the surrounding metasediments, as well as between the individual mafic and ultramafic rock types. The most common mafic rocks are indistinctly layered amphibolites, accompanied by apatite rich amphibolites and massive amphibolites, in part rich in ilmenite and pyrrhotite. Among the generally massive ultramafic rocks, nearly monomineralic amphibole rocks predominate, while chlorite-amphibole, talc-chlorite-amphibole and talc bearing olivine-chlorite-amphibole rocks occur in subordinate amounts.Field, textural and geochemical evidence suggest that the mafic-ultramafic complex derived from a thick, structurally differentiated basaltic sill that contained doleritic portions in its interior. Slow cooling rates in these inner parts enabled crystal settling with the formation of ultramafic cumulates. Due to the enrichment of volatiles during the crystallisation process, higher amounts of apatite and sulphides, as well as late magmatic amphibole, were formed in parts of the mafic-ultramafic body.Mineral assemblages in the mafic-ultramafic complex testify to a metamorphic overprint under amphibolite-facies conditions. Thermodynamic modelling in the system CMFASH leads to an estimated P–T range of 1.5–3 kbar and 550–620°C for the metamorphic peak assemblage talc-olivine-chlorite-Ca amphibole-orthoamphibole. 相似文献
15.
Petrology of the Non-mafic UHP Metamorphic Rocks from a Drillhole in the Southern Sulu Orogenic Belt, Eastern-Central China 总被引:9,自引:0,他引:9
ZHANG Zeming XU Zhiqin XU HuifenInstitute of Geology Chinese Academy of Geological Sciences Baiwanzhuang Rd. Beijing E-mail: zzm@ccsd.org.cn. 《《地质学报》英文版》2003,77(2):173-186
The Drillhole ZK703 with a depth of 558 m is located in the Donghai area of the southern Sulu ultrahigh-pressure (UHP) metamorphic belt, eastern China, and penetrates typical UHP eclogites and various non-mafic rocks, including peridotite, gneiss, schist and quartzite. Their protoliths include ultramafic, mafic, intermediate, intermediate-acidic, acidic igneous rocks and sediments. These rocks are intimately interlayered, which are meters to millimeters thick with sharp and nontectonic contacts, suggesting in-situ metamorphism under UHP eclogite facies conditions. The following petrologic features indicate that the non-mafic rocks have experienced early-stage UHP metamorphism together with the eclogites: (1) phengite relics in gneisses and schists contain a high content of Si, up to 3.52 p.f.u. (per formula unit), while amphibolite-facies phengites have considerably low Si content (<3.26 p.f.u.); (2) jadeite relics are found in quartzite and jadeitite; (3) various types of symplectitic coronas and pseud 相似文献
16.
吉林省夹皮沟花岗岩—绿岩带成因模式探讨 总被引:2,自引:0,他引:2
通过对夹皮沟绿岩带层序、岩石成因以及叠加其上的变质变形作用特征的研究,认为绿岩带形成于硅铝壳的扩张环境;英云闪长岩—奥长花岗岩成分的花岗质片麻岩是在大陆或大陆边缘的挤压环境下,由变质镁铁质火山岩经部分熔融侵位的深成花岗质岩石。由此,提出夹皮沟花岗岩—绿岩带的裂谷成因模式。 相似文献
17.
北大别主簿源花岗岩和片麻岩矿物的 总被引:10,自引:2,他引:10
对大别造山带北部主簿源中生代花岗岩侵入体及其围岩片麻岩进行了矿物氧同位素分析,同时对同一样品进行了矿物 Rb- Sr内部等时线定年。结果表明,花岗岩和片麻岩矿物的氧同位素温度大小顺序为:角闪石 >磁铁矿 >榍石 >石英 >黑云母 >长石,遵循缓慢冷却条件下扩散控制的氧同位素交换封闭顺序,指示这些岩石没有受到后期热液蚀变的扰动。根据黑云母-长石-磷灰石-全岩内部 Rb- Sr等时线测定,花岗岩的年龄为 (118± 3) Ma,代表了岩浆侵位冷却年龄;片麻岩的年龄为 (122± 1) Ma,代表了片麻岩受大面积燕山期岩浆侵位热烘烤达到高温同位素平衡后的冷却年龄。因此,矿物之间的氧同位素平衡与否 ,能够对矿物 Rb- Sr体系封闭后平衡状态的保存性以及矿物内部等时线定年的有效性予直接制约。 相似文献
18.
The Ishpeming Greenstone Belt is an Archean belt in the southern part of the Canadian Shield in the Upper Peninsula of Michigan, U.S.A. Two volcanic cycles are preserved in it. The oldest formation, and basal to the first cycle (the Kitchi Schist), consists of mafic metavolcanics, has a major serpentinized ultramafic body near its base, and grades upward to a coarse felsic volcanic breccia at the top of the cycle. This unit in turn is overlain by a sequence of mafic flows that grades upward to interbedded mafic flows and exhalites of the Mona Schist. This sequence has been intruded by the Dead River Pluton.The Ishpeming Greenstone Belt probably represents the keel of a previously much more extensive Greenstone Belt.Gold mineralization occurs associated with mafic basaltic volcanic rocks and serpentinized ultramafics low in the succession, and with carbonate-rich quartz-chlorite-sericite schists and exhalites higher in the sequence. No mineral deposits are now being exploited here. 相似文献
19.
Nigel B. W. Harris 《Contributions to Mineralogy and Petrology》1976,55(1):91-104
Garnet and cordierite bearing Archean gneisses are a common rock-type in the English River gneiss belt of the Superior Province, northern Ontario. Bulk compositions of such gneisses are found to be depleted in potassium with respect to the garnet and/or cordierite-free biotite gneisses. The mineral assemblages of the garnet and cordierite gneisses indicate that they have equilibrated at higher metamorphic grades than the garnet and/or cordierite-free biotite gneisses. These, observations suggest that anatexis has occurred in the garnetiferous regions of the gneiss belt resulting in a granite melt which had migrated from the source rocks, thereby depleting the garnetiferous restite in potassium. 相似文献
20.
The high-K calc-alkaline granitoids in the northern part of the Mandara Hills are part of the well-exposed post-collisional plutons in northeastern Nigeria. The calc-alkaline rock association consists of quartz monzodiorite, hornblende biotite granite, biotite granites and aplite which intruded the older basement consisting mainly of low-lying migmatitic gneisses and amphibolites during the Neoproterozoic Pan-African Orogeny. Petrological and geochemical studies have revealed the presence of hornblende, iron oxide, and metaluminous to slightly peraluminous characteristics in the granitoids which is typical of I-type granite. The granitoids are also depleted in some high field strength elements (e.g. Nb and Ta) as well as Ti. Plots of Mg# versus SiO2 indicate that the granite was derived from partial melting of crustal sources. Lithospheric delamination at the waning stage of the Pan-African Orogeny possibly triggered upwelling of hot mafic magma from the mantle which underplated the lower crust. This, in turn, caused partial melting and magma generation at the lower to middle-crustal level. However, the peculiar geochemical characteristics of the quartz monzodiorite especially the enrichment in compatible elements such as MgO, Cr, and Ni, as well as LILE element (e.g. K, Ce, Cs, Ba, and Sr), signify that the rock formed from an enriched upper mantle source. The emplacement of high-K granites in the Madara Hill, therefore, marked an important episode of crustal reworking during the Neoproterozoic. However, further isotopic work is needed to confirm this model.
相似文献