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1.
应用显微傅里叶变换红外光谱技术,对华北克拉通北缘汉诺坝地区的太古宙地体麻粒岩和新生代玄武岩中捕虏体麻粒岩(中生代底侵成因)的主要组成矿物(单斜辉石、斜方辉石、斜长石和石榴子石)进行了详细分析.结果表明,无论是地体麻粒岩还是捕虏体麻粒岩,岩石中的主要组成矿物均含有结构水,主要以OH形式存在.同种产状麻粒岩的矿物水含量(H2O%)均存在较大的变化,而且都远远超出实验误差,表明下地壳内水的分布可能是不均一的.两种产状麻粒岩的矿物结构水含量有着显著的不同,地体麻粒岩中矿物的水含量是捕虏体麻粒岩的2倍以上.太古宙-古元古代形成的安徽女山新生代玄武岩中的捕虏体麻粒岩具有与汉诺坝太古宙地体麻粒岩相似的水含量范围,但明显高于汉诺坝中生代形成的捕虏体麻粒岩.由此看来,早期(太古宙-古元古代)下地壳的水含量要比中生代形成的下地壳高得多,这可能指示不同时代下地壳在形成机制和性质上的不同. 相似文献
2.
青岛地区晚白垩世基性脉岩中含有两类麻粒岩捕虏体,富辉石麻粒岩和富长石麻粒岩。富辉石麻粒岩的主要矿物组合为Opx Cpx Pl,具有细粒变晶结构;富长石麻粒岩主要矿物组合为Pl Opx Cpx Q或Pl Opx/Cpx Q,具有中粗粒粒状变晶结构。麻粒岩捕虏体中辉石的Mg~#较低(<66),普通辉石具有富Na贫Ca的特征,与岩浆底侵作用形成的麻粒岩特征接近。二辉石温度计的计算结果显示这些麻粒岩捕虏体的麻粒岩相变质平衡温度在847~910℃之间。结合富长石麻粒岩的地质压力计的计算结果(0.99~1.17GPa)和地温梯度推测出的"岩石学"Moho面深度在33~36公里之间,与"地震"Moho面深度基本一致。麻粒岩捕虏体中普通辉石的矿物成分和该地区活跃的岩浆活动暗示青岛地区下地壳麻粒岩不同于典型的古老下地壳麻粒岩地体或捕虏体。他们的形成可能是华北克拉通古老麻粒岩与岩浆底侵作用相互作用的结果。 相似文献
3.
青藏高原北部新生代火山岩中麻粒岩包体特征及其成因 总被引:1,自引:0,他引:1
青藏高原北部第三纪火山岩中的麻粒岩包体为深部地壳岩石捕虏体。麻粒岩具有石榴石、斜长石、紫苏辉石、普通辉石、石英等矿物组合,为变质峰期的产物,其原岩为富含泥质的沉积岩。麻粒岩的形成温度和压力经估算为1061℃~1222℃和1.010GPa~1.124GPa,相应的深度为36.7km~40.9km。上述资料表明,青藏高原北部的麻粒岩是在陆内板块挤压碰撞、剪切、地壳叠置增厚的条件下,由动热区域变质作用形成的。 相似文献
4.
汉诺坝新生代玄武岩中含有丰富的地幔和地壳岩石捕虏体,其中捕虏体辉石岩和庥粒岩由于外观上具有一定的相似性,两者容易混淆,导致研究上的误区.本文以辉石岩和麻粒岩捕虏体作为研究对象,通过岩相学观察结合矿物主量元素分析、单斜辉石微量元素和Sr-Nd同位素分析,对两种捕虏体进行深入的研究和对比以探讨其成因意义.结果表明,上述各方面二者都存在明显的差别,捕虏体麻粒岩具有层状堆晶构造,两种辉石矿物(次透辉石和古铜辉石)相对贫MgO富FeO,单斜辉石的REE相对富集,以高87Sr/86 Sr低143Nd/144Nd为特征;而捕虏体辉石岩一般呈块状构造,两种辉石矿物(透辉石和古铜辉石-顽火辉石)相对富MgO贫FeO,单斜辉石REE总量极低呈亏损模式,同位素组成上介于捕虏体橄榄岩和麻粒岩之间.捕虏体麻粒岩特征表明它是幔源岩浆底侵作用形成,岩浆受到了下地壳的混染;而捕虏体辉石岩明显不同于橄榄岩和麻粒岩的成因,来自于富集地幔. 相似文献
5.
辽西阜新中生代玄武岩中深源捕虏体的岩石学和矿物化学研究 总被引:16,自引:3,他引:13
辽西阜新中生代碱性玄武岩的K-Ar同位素年龄为84.76±1.67Ma, 其中含有丰富的深源岩石捕虏体, 包括角闪尖晶二辉橄榄岩、尖晶石二辉橄榄岩、含长角闪二辉石岩、二辉麻粒岩和辉石斜长片麻岩等。与新生代玄武岩中的同类捕虏体相比, 橄榄岩类捕虏体中橄榄石的成分相似 (Fo= 86~91), 透辉石具有富Al、贫Cr 和Ca 的特点, 尖晶石的成分以MgAl2 O4 为主, 有的橄榄岩捕虏体中含少量韭闪石。二辉麻粒岩捕虏体中的斜方辉石为紫苏辉石, 单斜辉石为普通辉石, 斜长石属于更长石。橄榄岩类捕虏体的平衡温度为1012.6℃~1272.1℃; 压力为1.825~2.935GPa, 二辉麻粒岩和片麻岩的平衡温度为892℃~1157℃。该类深源岩石捕虏体的发现对中国东部中生代上地幔和下地壳的研究均具有重要意义。 相似文献
6.
"罗田穹隆"中的下地壳俯冲成因榴辉岩及其地质意义 总被引:12,自引:0,他引:12
在“罗田穹隆”中发现了下地壳俯冲成因榴辉岩.榴辉岩呈透镜状或板状产于含石榴子石条带状片麻岩中.新鲜的榴辉岩主要由石榴子石、绿辉石、金红石等组成.含少量退变质的角闪石、斜长石、紫苏辉石、透辉石、(钛)磁铁矿和石英等.研究区榴辉岩以保留早期麻粒岩相变质矿物残留体以及经受晚期麻粒岩相和角闪岩相退变为特征.指示它们由扬子镁铁质下地壳麻粒岩相岩石俯冲到深部发生变质并形成榴辉岩.然后折返至下地壳发生麻粒岩相退变,由于麻粒岩相退变质阶段仅以后成合晶形式出现.因而它们可能在下地壳停留时间不长.就又进一步被构造抬升至中上地壳而发生角闪岩相退变.大别山造山带乃至扬子板块北缘现今缺乏厚层镁铁质下地壳.它们也很少出露地表.推测这些俯冲的镁铁质下地壳可能已拆离再循环进人地幔.从而为“罗田穹隆”的形成和演化以及大别山高压-超高压岩石的形成与折返机制等研究提供了关键性的岩石学证据。 相似文献
7.
内蒙中部土贵乌拉南徐武家早前寒武纪麻粒岩地体中发育北东向韧性剪切带,其中发现有宽达5km 的麻粒岩相糜棱岩剖面,成分相当于紫苏辉长岩、钠质花岗岩和泥质岩的麻粒岩相糜棱岩出露齐全,保存完整。二辉斜长麻粒岩中紫苏辉石、斜长石、钾长石和透辉石斑晶普遍发育强烈的塑性形变;细粒重结晶相矿物组合 Hy+Di+Pl+Kf+Hb+Bi+Scap+Q 显示糜棱岩形成于麻粒岩相变质条件,二辉石矿物对给出温度 T=710℃。该糜棱岩带与麻粒岩相变辉长岩和地壳熔融型石榴子石花岗岩密切共生,这一事实既确证了韧性剪切带在麻粒岩变质过程中发育,为研究该区麻粒岩相岩带构造演化找到了一个构造标志,同时,也为深入探讨下地壳的实际构造过程,包括麻粒岩相条件下剪切形变发生的饥理以及克拉通化提供了地质实例。 相似文献
8.
湖北大别山黄土岭麻粒岩中冠状体结构特征及其地质意义 总被引:5,自引:0,他引:5
湖北黄冈黄土岭麻粒岩的矿物组合为斜方辉石(Ⅰ)+石榴子石+斜长石(Ⅰ)+石英。在石榴子石的边部出现堇青石+斜方辉石(Ⅱ)组成的冠状体,它揭示曾发生如下变质反应:石榴子石±石英→英青石+斜方辉石(Ⅱ)。温压估计结果表明,麻粒岩的形成温压分别为857~998℃和1.18~1.23GPa;而堇青石+斜方辉石(Ⅱ)冠状体的形成温压分别为829~911℃和0.53~0.59GPa。上述结果显示麻粒岩形成后大别杂岩曾发生一次近绝热的快速隆升减压退变过程。该地麻粒岩的温压条件与Harley(1989)给出的世界90个麻粒岩产地的温压条件相比属于高压类型[1],代表该岩石曾达40km以上的下地壳深度。 相似文献
9.
内蒙古中部早元古代造山事件中麻粒岩相低压变质作用 总被引:23,自引:0,他引:23
内蒙古中部早元古代麻粒岩相低压变质地壳,根据富铝片麻岩中的长石种类和岩石组合,可划分为南北2个带、6个岩石组合。它们代表着不同的变质层状岩系序列及其所经历的变质作用的温度、压力条件和构造背景。矿物的包裹结构和反应边组构,记录了高温低压矿物组合取代了中温高压矿物组合:石榴子石+石英→紫苏辉石+斜长石,蓝晶石→矽线石及石榴子石+蓝晶石/矽线石+石英→堇青石。岩石的变形组构、矿物组合的转变关系和变质作用的PTt轨迹表明:本区与变质作用同期的高温正滑韧性剪切作用,是麻粒岩相低压变质地壳形成的主要原因。由中温高压变质环境转入高温低压变质环境是造山事件中推覆作用与拉伸作用联合作用的结果。 相似文献
10.
对新疆北部南天山北缘蛇绿混杂岩带中麻粒岩的岩石学、矿物学、岩石化学、矿物化学、稀土元素地球化学特征及辉石相韧性变形构造的研究表明,榆树沟麻粒岩的共生矿物组合为透辉石-次透辉石-紫苏辉石-石榴石-斜长石,属基性岩类暗色麻粒岩,以低硅高钙为特征,稀土总量低,轻稀土与铕弱亏损,反映高温高压熔融环境和岩浆分异差的特点。麻粒岩及超镁铁岩中的辉石经历了强烈的韧性剪切变形作用,不对称辉石残斑系、动态重结晶辉石亚颗粒集合体、辉石变形双晶纹、鱼尾构造、核幔构造等显微韧变构造广泛发育。宏观和微观运动学分析揭示了一期从南向北的推覆构造。麻粒岩的形成与早古生代大陆地壳拉伸作用有关,辉石相韧性变形则与早古生代末南天山边缘海的挤压关闭和推覆逆冲有关。 相似文献
11.
The occurrence of both Archean granulite terrains and granulite xenoliths in Cenozoic basalts from the Sino-Korean Craton (SKC) provides an ideal opportunity to define composition and evolution of continental lower crust of eastern China. The granulite xenoliths in Quaternary basanites from Nushan (southeastern SKC) show a basic-intermediate composition that is distinctly different from mafic granulites from Hannuoba (western SKC). They instead resemble the Archean granulite terrains in terms of mineral and whole rock compositions. Trace element modeling suggests that the “protoliths” of the Nushan granulites were likely subjected to fractional crystallization and assimilation of old crustal components. Zircon SHRIMP U-Pb dating shows at least two episodes in the formation of the lower crust at Nushan. The protoliths of the Nushan granulites were most likely formed at ca. 2.5 Ga and metamorphosed at 1.9 Ga. This late Archean crustal growth was followed by Mesozoic (∼140 Ma) basaltic underplating, which was probably coeval with the widespread thermo-tectonic lithospheric reactivation in eastern China. The Nushan granulites are therefore interpreted as dominantly derived from the late Archean crystalline basement and subordinately from the mafic layer that was accreted to the basement during late Mesozoic lithospheric thinning. The consistencies between the depth to seismic Moho and the depth to crust-mantle boundary, and between the calculated Vp (mostly < 7.0 km/s) for granulite xenoliths and the observed velocity structure strongly suggest no obvious high-velocity lowermost crust beneath Nushan and the granulite xenoliths as the dominant components in the lower crust at this locality. The modeled composition of the Nushan lower crust has SiO2 of ca. 52%, which is more basic than that at Hannuoba (SiO2 ≈ 58%, Liu et al., 2001). Such a compositional difference, in conjunction with contrasting age and seismic velocity structure of the lower crust at the two localities, highlights two fundamentally distinct tectonic domains in the SKC. The data presented in this study also yield implication for the origin of the compositional difference between granulite xenoliths and terrains. 相似文献
12.
Mafic and intermediate granulite xenoliths, collected from Cenozoic alkali basalts, provide samples of the lower crust in western Saudi Arabia. The xenoliths are metaigneous two-pyroxene and garnet granulites. Mineral and whole rock compositions are inconsistent with origin from Red Sea rift-related basalts, and are compatible with origin from island arc calc-alkaline and low-potassium tholeiitic basalts. Most of the samples are either cumulates from mafic magmas or are restites remaining after partial melting of intermediate rocks and extraction of a felsic liquid. Initial87Sr/86Sr ratios are less than 0.7032, except for two samples at 0.7049. The Sm-Nd data yield TDM model ages of 0.64 to 1.02 Ga, similar to typical Arabian-Nubian Shield upper continental crust. The isotopic data indicate that the granulites formed from mantle-derived magmas with little or no contamination by older continent crust. Calculated temperatures and pressures of last reequilibration of the xenoliths show that they are derived from the lower crust. Calculated depths of origin and calculated seismic velocities for the xenoliths are in excellent agreement with the crustal structure model of Gettings et al. (1986) based on geophysical data from western Saudi Arabia. Estimation of mean lower crustal composition, using the granulite xenoliths and the Gettings et al. (1986) crustal model, suggests a remarkably homogeneous mafic lower crust, and an andesite or basaltic andesite bulk composition for Pan-African juvenile continental crust. 相似文献
13.
Geochronological, petrological and geochemical studies were performed on the granulite xenoliths from a Late Cretaceous basaltic breccia dike in Junan, Shandong province, eastern China. These xenoliths show close similarities to the Nushan granulite xenoliths from the southern margin of the North China Craton (NCC) and the Archean granulite terrains in terms of mineralogy and bulk rock compositions, but are quite different from the Hanuoba mafic granulite xenoliths from the northern NCC. In-situ zircon U–Pb age and Hf isotopic analyses, together with geochemical data reveal that the protolith of these xenoliths was formed around 2.3 Ga ago, through assimilation–fractional crystallization of a mafic magma. P–T conditions of these xenoliths suggest that the lower crust beneath the Junan region reaches to a depth of 35 km, which agree well with the result deduced from various geophysical methods. The consistent petrological and seismic Moho depths, the observed velocity structure and calculated velocity of these xenoliths imply the absence of underplating induced crust–mantle transition zone, which was well formed in the northern NCC. Compared to 40–50 km depth of the lower crust in Early Jurassic, the lower crust beneath Junan extended to a depth of 30 km in Late Cretaceous, suggesting that the lower crust of NCC was significantly thinned during Late Mesozoic. 相似文献
14.
下地壳含水性的演化 ——来自不同时代麻粒岩中长石水含量的证据 总被引:1,自引:1,他引:0
利用傅里叶变换红外光谱(FTIR)和电子探针(EMP)分析了早古生代的松树沟麻粒岩和桐柏麻粒岩地体以及古元古代的莒南麻粒岩包体(其寄主岩石为新生代玄武岩)中长石的水含量和化学成分。结果显示,麻粒岩中的长石均含有以OH和H2O形式存在的结构水;3个地点的长石水含量分别为465×10-6~733×10-6、210×10-6~993×10-6和717×10-6~1 239×10-6。对比前人报道的中生代(道县和汉诺坝包体)和古元古代(女山包体、汉诺坝地体)的麻粒岩研究结果,发现早古生代样品和古元古代样品中长石的水含量都比中生代样品明显的高,而早古生代和古元古代样品之间却没有差别,指示了中国东部下地壳在中生代之前更加富水。 相似文献
15.
腾冲地块芒棒乡新生代新近纪芒棒组火山岩的研究,发现粗面安山岩中含有较多麻粒岩包体,主要类型为长英质麻粒岩和二辉麻粒岩,直径一般为3~5 cm,略具定向排列构造,粒状变晶结构特征.长英质麻粒岩包体平衡温度和压力为:869~969 ℃,0.94~1.00 GPa,二辉麻粒岩包体平衡温度为:841~972 ℃,均显示为高温麻粒岩相变质;寄主岩粗面安山岩中斑晶结晶估算的温度和压力为:1 008~1 059 ℃,1.26~1.33 GPa,表明它们形成和起源于下地壳到上地幔顶部之间.二辉麻粒岩包体电子背散射衍射(EBSD)显微组构分析表明,斜方辉石(紫苏辉石)和单斜辉石(普通辉石)均具有明显晶格优选方位(LPO),斜方辉石和单斜辉石主滑移系分别为:(010)[001]和(100)[001]、(010)[001],变形机制为位错蠕变,说明麻粒岩包体经历了高温塑性变形变质作用.新生代新近纪火山岩中高温麻粒岩的发现和研究表明,腾冲新生代岩浆活动可能与印度板块和腾冲地块俯冲-碰撞造山后的伸展垮塌-拆沉和板片断离,以及随后的上地幔物质上涌减压熔融产生玄武质岩浆底侵,导致的下地壳发生高温变质及火山岩浆作用有密切关系. 相似文献
16.
‘Lower crustal’ suite xenoliths in basaltic and kimberlitic magmas are dominated by mafic granulites and may also include eclogites and garnet pyroxenites. Pressures of up to 25 kbar obtained from such xenoliths are well in excess of an upper value of c. 12 kbar for exposed granulite terranes. Palaeogeotherms constructed from xenoliths for the lower crust beneath the Phanerozoic fold belts of eastern Australia (SEA) and beneath the eastern margin of the Australian craton (EMAC) indicate two distinct thermal regimes. The two geotherms have similar form, with the EMAC curve displaced c. 150°C to lower temperatures. Reaction microstructures show the partial re-equilibration of primary igneous assemblages to granulite and eclogite assemblages and are interpreted to reflect the cooling from magmatic temperatures. Variations in mineral compositions and zoning are used to constrain further the history of several EMAC xenoliths to near-isobaric trajectories. Detailed graphical models are constructed to predict compositional changes for isobaric P–T paths (at 7, 14 & 21 kbar) to transform an SEA-type geotherm to a cratonic geotherm. The models show that for the assemblage grt + cpx ± ky + plag + qtz, the changes associated with falling temperature in Xgr, Xjd (increase) and Xan (decrease) will be greater at higher pressures. These results indicate that discernible zoning is more likely to be preserved in the higher pressure xenoliths. The zoning recorded in clinopyroxene from mafic granulite xenoliths over the pressure range c. 12–22 kbar suggests isobaric cooling of a large crustal thickness (30–35 km). An isobaric cooling path is consistent with magma accretion models for the transition of a crust–mantle boundary from an SEA-type geotherm to a cratonic geotherm. The coexistence of granulite and eclogite over the depth range 35–75 km beneath the EMAC indicates that the granulite to eclogite transition in the lower crust is controlled by P–T conditions, bulk chemistry and kinetic factors. At shallower crustal levels, typified by exposed granulite terranes, isobaric cooling may not result in the transition to eclogite. 相似文献
17.
Donna L. Whitney Christian Teyssier Annia K. Fayon Michael A. Hamilton Matt Heizler 《Tectonophysics》2003,376(1-2):37-60
Mafic high-pressure granulite, eclogite and pyroxenite xenoliths have been collected from a Mesozoic volcaniclastic diatreme in Xinyang, near south margin of the Sino-Korean Craton (SKC). The high-pressure granulite xenoliths are mainly composed of fine-grained granoblasts of Grt+Cpx+Pl+Hbl±Kfs±Q±Ilm with relict porphyritic mineral assemblage of Grt+Cpx±Pl±Rt. P–T estimation indicates that the granoblastic assemblage crystallized at 765–890 °C and 1.25–1.59 GPa, corresponding to crustal depths of ca. 41–52 km with a geotherm of 75–80 mW/m2. Calculated seismic velocities (Vp) of high-pressure granulites range from 7.04 to 7.56 km/s and densities (D) from 3.05 to 3.30 g/cm3. These high-pressure granulite xenoliths have different petrographic and geochemical features from the Archean mafic granulites. Elevated geotherm and petrographic evidence imply that the lithosphere of this craton was thermally disturbed in the Mesozoic prior to eruption of the host diatreme. These samples have sub-alkaline basaltic compositions, equivalent to olivine– and quartz–tholeiite. REE patterns are flat to variably LREE-enriched (LaN/YbN=0.98–9.47) without Eu anomaly (Eu/Eu*=0.95–1.11). They possess 48–127 ppm Ni and 2–20 ppm Nb with Nb/U and La/Nb ratios of 13–54 and 0.93–4.75, respectively, suggesting that these high-pressure granulites may be products of mantle-derived magma underplated and contaminated at the base of the lower crust. This study also implies that up to 10 km Mesozoic lowermost crust was delaminated prior to eruption of the Cenozoic basalts on the craton. 相似文献
18.
Granulite—facies Middle—Lower Crustal Xenoliths from Nueshan Alkali Basalt in Northeastern Anhui Province, China 总被引:1,自引:0,他引:1
Metamorphic xenoliths within the Nushan alkali basalt of northeastern Anhui (NEA),China ,are from the middle-lower crust.They could be divided into two end-members:basic and acid.Interme-diate xenoliths are scarcely found.Basic two-pyroxene granulites(pyriclasites) were formed at 720-810℃ and 7-8kb.Petrological and geochemical studies indicate that the primary magma of the protoliths of basic granulites was derived from the metasomatized upper mantle, while the pa-rental magma of the acid end-member was probably produced by partial melting of the basic rocks. The protoliths of charnockites and grey gneisses represent respectively the early and late crystallization products of the granitic magma.The Nushan granulites are much different in many aspects from the granulites exposed in the northern part of North China ,which implies the inhomogeneity regarding to the early evolution of the North China terranc. 相似文献
19.
Granulite and pyroxenite xenoliths in lamprophyre dykes intruded during the waning stage of Deccan Trap volcanism are derived from the lower crust beneath the Dharwar craton of Western India. The xenolith suite consists of plagioclase-poor mafic granulites (55% of the total volume of xenoliths), plagioclase-rich felsic granulites (25%), and ultramafic pyroxenites and websterites (20%) with subordinate wehrlites. Rare spinel peridotite xenoliths are also present, representing mantle lithosphere. The high Mg #, low SiO2/Al2O3 and low Nb/La (<1) ratios suggest that the protoliths of the mafic granulites broadly represent cumulates of sub-alkaline magmas. All of the granulites are peraluminous and light rare-earth element-enriched. The felsic granulites may have resulted from anatexis of the mafic lower crustal rocks; thus, the mafic granulites are enriched in Sr whereas the felsic ones are depleted. Composite xenoliths consisting of mafic granulites traversed by veins of pyroxenite indicate intrusion of the granulitic lower crust by younger pyroxenites. Petrography and geochemistry of the latter (e.g. presence of phlogopite) indicate the metasomatised nature of the deep crust in this region.Thermobarometric estimates from phase equilibria indicate equilibration conditions between 650 and 1200 °C, 0.7-1.2 GPa suggestive of lower crustal environments. These estimates provide a spatial context for the sampled lithologies thereby placing constraints on the interpretation of geophysical data. Integration of xenolith-derived P-T results with Deep Seismic Soundings (DSS) data suggests that the pyroxenites and websterites are transitional between the lower crust and the upper mantle. A three-layer model for the crust in western India, derived from the xenoliths, is consistent with DSS data. The mafic nature of this hybrid lower crust contrasts with the felsic lower crustal composition of the south Indian granulite terrain. 相似文献
20.
文中收集了新生代、中生代和古生代由喷出/浅成岩携带的下地壳麻粒岩捕虏体及其锆石年龄的资料。结果显示,它们代表了不同时代、不同地区下地壳最下部的组成及年龄。新生代汉诺坝、女山、莒南和青岛等地的玄武岩和其中捕虏体的资料,几乎可以涵盖华北相当一大部分下地壳底部的状态。金伯利岩虽然只能提供500Ma以前的信息,但它们能够检验并确认古老地质事件发生时间的准确性。内蒙古中生代闪长岩中出露的麻粒岩属于同源捕虏体,只能代表该岩浆活动波及地区下地壳的状态。华北克拉通发育了多次以地幔物质添加为主的地质事件(地壳增生),主要有:2.8~3.0Ga,2.5Ga,1.8Ga,140~90Ma及47~45Ma,其中以2.5Ga和140~90Ma最为重要。2.5Ga的地幔岩浆底侵事件在不少地区出现,推测与地幔柱活动有关。中生代(140~90Ma)的底侵作用在克拉通分布相当广泛,包括华北北部,华北东部及东南部都有明显的记录。女山和莒南地区出现了2.3Ga的年龄,是中生代的底侵岩浆与先存的古老基底发生混合与反应的产物。1.9~2.0Ga以及1.8Ga可能与地壳的造山运动和与其伴随的短暂的热扰动造成的锆石再结晶有关。在研究下地壳捕虏体时一个重要的问题是,要注意构造背景。在一级构造单元的交界处,由于该处块体之间的相互作用复杂,需要注意判别捕虏体的块体归属,以便对华北克拉通不同部位的复杂演化历史获得更全面的认识。 相似文献