Geological characteristics and tectonic signifcance of unconformities in Mesoproterozoic successions in the northern margin of the North China Block

Several stratigraphic breaks and unconformities exist in the Mesoproterozoic successions in the northern margin of the North China Block. Geologic characters and spatial distributions of five of these un- conformities, which have resulted from different geological processes, have been studied. The uncon- formity beneath the Dahongyu Formation is interpreted as a breakup unconformity, representing the time of transition from continental rift to passive continental margin. The unconformities beneath the Gaoyuzhuang and the Yangzhuang formations are considered to be the consequence of regional eustatic fluctuations, leading to the exposure of highlands in passive margins during low sea-level stands and transgressive deposition on coastal regions during high sea-level stands. The unconformity atop the Tieling Formation might be caused by uplift due to contractional deformation in a back-arc setting, whereas the uplift after the deposition of the Xiamaling Formation might be attributed to a continental collision event. It is assumed that the occurrences of these unconformities in the Mesoproterozoic successions in the northern margin of the North China Block had a close bearing on the assemblage and breakup of the Columbia and Rodinia supercontinents.

Archean (about 2500 Ma) anatexis in eastern North China Block

Two Neoarchean alkaline feldspar-rich granites sourced from partially melted granulite-facies granodioritic orthogneiss have been here recognised in the eastern part of the North China Block(NCB).These poorly foliated granites have previously been assumed to be Mesozoic in age and never dated,and so their significance has not been recognised until now.The first granite(AG1)is a porphyritic syenogranite with megacrystic K-feldspar,and the second(AG2)is a quartz syenite with perthitic megacryst.Zircons from the granites yield LA-ICP-MS U-Pb ages of 2499±10 Ma(AG1),and 2492±28 Ma(AG2),which are slightly younger than the granodioritic orthogneiss that they intrude with a crystallisation U-Pb age of 2537±34 Ma.The younger granites have higher assays for SiO_(2)(71.91%for AG1 and 73.22%for AG2)and K_(2)O(7.52%for AG1 and 8.37%for AG2),and much lower assays for their other major element than the granodioritic orthogneiss.All of the granodioritic orthogneiss and granite samples have similar trace element patterns,with depletion in Th,U,Nb,and Ti and enrichment in Rb,Ba,K,La,Ce,and P.This indicates that the granites are derived from the orthogneiss as partial melts.Although they exhibit a similar REE pattern,the granites have much lower total REE contents(30.97×10^(−6) for AG1,and 25.93×10^(−6) for AG2),but pronounced positive Eu anomalies(Eu/Eu^(*)=8.57 for AG1 and 27.04 for AG2).The granodioritic orthogneiss has an initial ^(87)Sr/^(86)Sr ratio of 0.70144,εNd(t)value of 3.5,and εHf(t)values ranging from−3.2 to+2.9.The orthogneiss is a product of fractional crystallisation from a dioritic magma,which was derived from a mantle source contaminated by melts derived from a felsic slab.By contrast,the AG1 sample has an initial ^(87)Sr/^(86)Sr ratio of 0.6926 that is considered too low in value,εNd(t)value of 0.3,andεHf(t)values between+0.57 and+3.82;whereas the AG2 sample has an initial ^(87)Sr/^(86)Sr ratio of 0.70152,εNd(t)value of 1.3,andεHf(t)values between+0.5 and+14.08.These assays indicate that a Sr-Nd-Hf isotopic disequilibrium exists between the granite and granodioritic orthogneiss.The elevatedεHf(t)values of the granites can be explained by the involvement of Hf-bearing minerals,such as orthopyroxene,amphibole,and biotite,in anatectic reactions in the granodioritic orthogneiss.Based on the transitional relationship between the granites and granodioritic orthogneiss and the geochemical characteristics mentioned above,it is concluded that the granites are the product of rapid partial-melting of the granodioritic orthogneiss after granulite-facies metamorphism,and their crystallisation age of about 2500 Ma provides the minimum age of the metamorphism.This about 2500 Ma tectonic-metamorphic event in NCB is similar to the other cratons in India,Antarctica,northern and southern Australia,indicating a possible connection between these cratons during the Neoarchean.

GEODYNAMICAL MODELING OF CRUSTAL DEFORMATION OF THE NORTH CHINA BLOCK

The North China block,the western portion of the Sino- Korean Craton,is rounded byYanshanian in the north and Qinling- Dabie orogenic belts in the south.The widespread de-velopment of extensional basins in thisblock indicates horizontal extension or continued thin-ning of a previousely thickened,unstable lithosphere throughout the Mesozoic.In this pa-per,we attempt to simulate numerically the geodynamical process of the basin formation byusing the mountain- basin evolution system.We assume thatthe formation of numeroussedi-mentary basins in the North China block is the resultofthe crustal extension,which destruc-ts rapidly the previously thickened crust.The gravitational collapse of the thickened crust ispossibly triggered by the re- orientation of the far- field stress regime,or the relaxation of theboundary resistantstress.

Tectonic Setting and Metallogenic System of North China Block Margins

The paleocontinental margins have frequent and intensive tectonic movement and various ore forming processes. According to their tectono dynamic characteristics, the paleocontinental margins can be classified into three types: the divergent, the convergent and the transformational. Each type has its specific geological geochemical processes and metallogenic system. The paper discusses the tectonic evolution and ore forming features of the North China block margins, puts forward conceptions such as complexity, variety and multi stage development of metallogenic evolution in the paleocontinental margins, and expounds five factors controlling the formation of large superlarge ore deposits in the paleocontinental margins: (1) channelway, (2) rendezvous of fluids, (3) abundance of ore source, (4) thermo dynamic anomaly, (5) long duration of structural activities.

The absolute paleoposition of the North China Block during the Middle Ordovician

Present-day hot spots and Phanerozoic large igneous provinces(LIPs) and kimberlites mainly occur at the edges of the projections of Large Low Shear Wave Velocity Provinces(LLSVPs) on the earth's surface. If a plate contains accurately dated LIPs or kimberlites, it is possible to obtain the absolute paleoposition of the plate from the LIP/kimberlite and paleomagnetic data. The presence of Middle Ordovician kimberlites in the North China Block provides an opportunity to determine the absolute paleoposition of the block during the Middle Ordovician. In addition to paleobiogeographical information and the results of previous work on global plate reconstruction for the Ordovician Period, we selected published paleomagnetic data for the North China Block during the Middle Ordovician and determined the most reasonable absolute paleoposition of the North China Block during the Middle Ordovician: paleolatitude of approximately 16.6°S to 19.1°S and paleolongitude of approximately 10°W. The block was located between the Siberian Plate and Gondwana, close to the Siberian Plate. During the Cambrian and Ordovician periods, the North China Block may have moved toward the Siberian Plate and away from the Australian Plate.

U-Pb geochronology of hydrothermal zircon from the Mesoproterozoic Gaoyuzhuang Formation on the northern margin of the North China Block and its geological implications

This paper reports LA-ICP-MS zircon U-Pb ages and REE compositions on detrital zircons （Type 1） and hydrothermal zircons （Type 2） from low-metasedimentary rocks in the Mesoproterozoic Gaoyuzhuang Formation, Pingquan area, Hebei Province that provide important constraints on the tectonic evolution along the northern margin of the North China Block. The detrital zircons are characterized by an oscillatory magmatic core, surrounded by a narrow structureless rim in CL images. They yield 2~7pb/2~tpb ages ranging from 1703 to 2543 Ma with two age peaks at 2473 and 1794 Ma, which is consistent with the Neoarchean and Paleoproterozoic tectono-thermal events recorded in the NCB basement, indicating that the source of the detritus was locally derived. By contrast, the hydrothermal ones are euhedral, sector zoning or internally structureless. They have relatively higher U and Th contents and Th/U ratios （U=139-2918 ppm, Th=35-1327 ppm, Th/U （average） =0.78 vs. U=15-1044 ppm, Th=8-341 ppm, Th/U （average） =0.57 for detrital zircons）. Moreover, they are also enriched in REEs relative to detrital zircons and show a lower positive Ce anomaly （ZREE = 659-2418 ppm vs. 231-611 ppm for detrital zircon; Ce/Ce＊=2-13 vs. 33-174 for detrital zircons）, similar to known hydrothermal zircons derived from many locations. These characteristics, combined with our field petrographic observations, indicate that the hydrothermal zircons possibly formed from a low temperature aqueous fluid. Twelve concordant or near-concordant analyses on hydrothermal zircons yield weighted mean 206pb/238U ages of 325-327 Ma, which provide unambiguous evidence that the northern NCB underwent late Paleozoic low temperature hydrothermal modification. This timing of this hydrothermal event is compatible with that of the late Paleozoic magmatic and metamorphic-deformational events occurred on the northern margin of the NCB, it appears likely that the hydrothermal activity resulted from southward subduction of the Paleo-Asian Oceanic plate underneath the NCB during late Paleozoic.

New Paleomagnetic Study on Early Triasic Liujiagou Formation of NorthChina Block

This paper introduces the result of studying on paleomagnetism of 91 specimens from 13 sites from Liujiagou Formation in Dashu Village, Wu ’an city, Hebei Province. The result reveals that North China block (NCB) was not united with Yangtze block (YB) in the Early Triassic. From the Early Triassic to now, NCB has rotated 30.0° counterclockwise, but YB has rotated 45.1° clockwise.

Carboniferous and Permian integrative stratigraphy and timescale of North China Block

The Carboniferous-Permian strata in the North China Block(NCB) contain abundant fossils, coals and natural gases.Establishing a high-resolution timescale for the Carboniferous and Permian in the NCB is essential to understand the geologic events and explore the spatial and temporal distributions of the natural resources. The upper Carboniferous and the basal part of Permian are relatively well correlated because they yield marine conodont and fusuline fossils. However, the Permian terrestrial strata mostly rely on poorly constrained palynostratigraphy and phytostratigraphy and are short of the precise geochronologic constraints on the correlation with the marine strata. This study provides a critical review on the state-of-the-art of the latest Carboniferous and Permian chronostratigraphic and biostratigraphic frameworks and stratigraphic correlation in the NCB. The Penchi Formation ranges from lower Bashkirian to lower Gzhelian;the Taiyuan Formation is assigned to the upper Gzhelian to lower Asselian;the Shansi and Lower Shihhotse formations are from middle Asselian to lower Sakmarian;the Upper Shihhotse Formation is assigned to upper Artinskian to lower Kungurian, and the Sunjiagou Formation was assigned to Lopingian, respectively. A long hiatus up to ~20 Myr between the Upper Shihhotse and Sunjiagou formations, mainly marked by a large-scale erosional surface at the base of a coarse conglomeratic sandstone unit and/or multiple paleosol layers as well as significant differences of floras between these two lithostratigraphic units, is present probably due to tectonic uplift in association with the closure of the Paleo Asian Ocean(PAO) during the Cisuralian and Guadalupian. The possible amplitude of sea-level changes from Carboniferous to Permian on the NCB is estimated from 0 to 40 m.The floral succession, depositional records and organic carbon isotope profiles suggest that the latest Carboniferous and earliest Permian was a favorable period for coal accumulation under an ever-wet and warm climate, followed by a prominent shift to dry climate from early-middle Cisuralian. This climatic shift during the Permian was mainly resulted from northward migration of the Pangea and the closure of the PAO, which is comparable with the Carboniferous and Permian trends in central Europe.

The Early Paleozoic paleogeography of the North China block and the other major blocks of China

With the summarization of the Early Paleozoic paleomagnetic data recently obtained from the three major blocks of China, the Early Paleozoic (i.e. Cambrian and Ordovician) paleogeographic positions of the North China, South China and Tarim blocks were discussed in detail. The North China, South China and Tarim blocks were inferred to be located adjacent to East Gondwana in low latitudes of the Southern Hemisphere during the Early Cambrian. During the Early-Middle Ordovician, the South China and Tarim blocks were also located in low latitudes of the Southern Hemisphere with some affinities of the Gondwanaland, whereas the North China block may have episodically separated from the Gondwanaland, and might be sited close to the North America and Siberia. The reestablished paleogeographic configurations are in agreement with the studies on the biogeography, paleoclimate and sedimental facies of the North China and South China blocks.

Apparent polar wander path and tectonic movement of the North China Block in Phanerozoic

The results on the Early Paleozoic from the North China Block (NCB) are reported, and a series of reliable poles are selected from the available Phanerozoic data, based on the conventional reliability criteria, e.g. the number of samples, the uncertainty limit, any suspected incomplete demagnetization or overprint and field test (including fold, reversal, conglomerate tests). Especially, paleopole data is excluded if the sampling area suffered from the tectonic (e.g. rotation) and thermal effects. A new Phanerozoic apparent polar wander (APW) path for the NCB is compiled, and its tectonic evolution is discussed.

New paleomagnetic results from the Neoproterozoic successions in southern North China Block and paleogeographic implications

A total of 312 oriented core samples collected from the Neoproterozoic to lower Cambrian strata in the Lushan region of western Henan Province, southern North China Block, were subjected to stepwise demagnetization. After removing recent and possibly Mesozoic overprint components, inferred primary magnetic remanence was isolated from the Precambrian Dongjia, Sanjiaotang and Cuizhuang Formations. Our new results, together with selected previous results, suggest that the North China Block was in low latitudinal positions for most of the studied time interval. Through comparison with paleogeographic positions of other continents, we suggest that the NCB could have been closed to Siberia during the ca. 800-600 Ma interval.

He-Ar isotopic system of fluid inclusions in pyrite from the molybdenum deposits in south margin of North China Block and its trace to metallogenetic and geodynamic background

The helium and argon isotopic compositions of the ore-forming fluids from the molybdenum deposits such as Jinduicheng, Donggou, Shijiawan, and Sandaozhuang, which are located in the East Qinling molybdenum belt in south margin of North China Block (SMCNB), are reported in this paper. The origin and the evolution of the ore-forming fluids and their coupled-relationships with the intra-continental collision and orogenic process of Qinling Orogen in Mesozoic-Cenozoic have been discussed. The 3He/4He and 40Ar/36Ar values (3He/4He=1.38―3.64 Ra, and 40Ar/36Ar=295.68―346.39, respectively) of the fluid inclusions in pyrite from the molybdenum deposits in East Qinling suggest that, the ore-forming fluid system is mixed by two end members. One is the high temperature deep-derived fluid congenetic with the porphyries generated by crust-mantle mixing, and the other is the low-temperature meteoric water which is rich in crustal radiogenic He with the component of atmospheric Ar. From the Pb isotopic composition, and ore-bearing potential of the porphyry and the regional stratum, we can conclude that the ore-forming materials of the deposits in the East Qinling molybdenum belt are derived from the deep source by the mixing of lower crust and upper mantle. Therefore, the formation of the molybdenum deposits in SMNCB can be related to the crust-mantle interaction, which is accompanied by the intra-continental orogenic and extension process in the post-collision period of Qinling Orogen. The granitic porphyries which are related to Mo mineralization are not simple crust-remelting type granites or S type granites, but belong to syntexis-type or mantle-derived granites, hence their formation has a profound and regional geodynamic background.

Discovery of Late Carboniferous strata and their tectonic significance in the southern margin of the North China Block(Huoqiu and Gushi areas)

Late Carboniferous fossils(such as Boultonia? sp., Tabulata, and spiriferoid specimens with smooth shells), bioclastic material(such as crinoid stems and sponge fragments), and Late Ordovician microfossils of the conodont Belodina have been discovered in the lower part of the strata typically referred to as the Neoproterozoic on the boundary of the provinces of Anhui and Henan in the southern margin of the North China Block. These findings prove that the strata contain macrofossils belonging to the Late Carboniferous, which belonged to a carbonate debris flow deposit that was formed under a carbonate slope environment. The conodont fossils might belong to a detrital deposit. Thus, it is possible to reset the stratigraphic sequences and tectonic attributes belonging to the North Huaiyang tectonic belt and limit the Shouxian fault to the boundary between the Dabie Orogen and North China Block.

Paleomagnetic Results of Later Paleozolic Rocks From Alashan Area of Western North China Block

In order to contribute to the Apparent Polar Wander Path (APWP) of the North China Block (NCB) , we collected paleomagnetic samples of Late Paleozoic rocks from the northern and southern margins of the Alashan (Alxa) terrane (the western part of Inner Mongolia and northern parts of Gansu and Ningxia Provinces) and adjacent regions. Laboratory work revealed different types of demagnetization behavior and isolated a higher temperature characteristic component in most of the samples. Results of IRM experiments show high thermal stability and high coercivities for the magnetic carriers in these rocks. The characteristic component passed the fold and/or reversal tests, suggesting that the characteristic components were probably primary. On the basis of comparing the paleomagnetic results with the geologic evidence, we discuss the tectonic implications. In the Late Paleozoic, the Alashan region had been part of the NCB and was not connected with the northern and southern blocks. During the Carboniferous Alashan wandered around the equator, and then moved northerly during the Permian. During the Jurassic the Alashan region rotated anticlockwise about 25° relative to the NCB when the Helanshan geosyncline closed.

Paleoproterozoic Potassic Granitoids in the Sushui Complex from the Zhongtiao Mountains,Northern China:Geochronology,Geochemistry and Petrogenesis

Paleoproterozoic potassic granitoids in the southern Sushui Complex from the Zhongtiao Mountains yielded SHRIMP zircon U-Pb ages of 1968-1944 Ma. Lithologically, the potassic granitoid series consists chiefly of monzodiorite, quartz monzonite and syenogranite. Their trace elements and Sm-Nd isotope characteristics indicate that they were derived from partial melting of Archean TTG rocks in an overthickened continental crust. Petrogenesis of this potassic granitoid series implies a collisional environment within the Trans-North China Orogen in the Paleoproterozoic, which supports a tectonic model of Eastern and Western Continental Blocks being amalgamated in the Paleoproterozoic.

Differential Tectonic Stress Pattern Between the Deep and Shallow Crust in North China and Its Possible Genesis

This paper approaches the neotectonic stress field based on the data of foeal mechanismsolution,ground stress measurement,tectonic mechanical analysis and geodetic surveying,and finds out that the orientations of the maximum principal comproessive sterss patterns arequite discordant with different methods and the stress patterns are widely differnt betweenthose in the shallow and deep part of the crust in North China.Based on the analysis ofabove-mentioned data,we established a duplex model by considering the diversities of theStress patterns in 3-dimentional spaces,the boundary conditions and the lithospheric media,and made an inverse calculation by using the finite element method.The calculated results fitwell with the reality in North China,i.e.the stress patterns in lower crust which is below thedetachment interface at the deptp of 10 km from ground surface are relatively consistent withnearly horizontal state and NE-ENE trending of the maximum principal compressive stressaxes,whereas the stress

华北板块南缘洛南地区二叠系石盒子组沉积物源特征及其隆升过程

华北板块南缘的隆升过程对认识秦岭造山带与华北盆地盆山相互作用具有重要意义。文中以华北板块南缘洛南地区二叠系石盒子组为研究对象,在沉积相及其演化分析的基础上,开展碎屑锆石U-Pb年代学及裂变径迹年代学研究,探讨华北板块南缘二叠系石盒子组沉积物源特征及其隆升过程,期望为勉略洋盆的俯冲时限提供沉积学约束,为华北盆地南部三叠系再旋回沉积物提供可能的物源区。研究结果显示,华北板块南缘二叠系石盒子组经历了冲积扇→辫状河→三角洲的沉积演化过程。石盒子组下部碎屑锆石样品形成了3组U-Pb年龄,分别为353—280 Ma、1139—400 Ma和2620—1306 Ma,裂变径迹年龄分解为199 Ma、255 Ma和408 Ma共3个峰值;而上部样品主要形成2组U-Pb年龄,分别为339—259 Ma和2655—1700 Ma,裂变径迹年龄分解为205 Ma、268 Ma和656 Ma共3个峰值。上述测试结果表明华北板块南缘在石盒子组沉积早期还接受来自秦岭造山带的碎屑物,但在石盒子组沉积后期沉积物主要来自于华北板块北缘,完成了由“南高北低”向“北高南低”的构造转换。推测华北板块南缘的初始隆升发生在中—晚二叠世,这次隆升与勉略洋盆的初始俯冲作用相关,并成为华北盆地南部三叠系的一个潜在物源区。

鄂尔多斯盆地南缘上奥陶统赵老峪组岩石磁学研究

利用古地磁学手段定量约束华北板块早古生代古地理位置可为原特提斯造山作用及华北板块与冈瓦纳大陆的亲缘性研究提供重要科学依据。但华北板块早古生代以来经历了多期构造运动,其西部鄂尔多斯盆地含丰富油气资源,后期构造运动和油气运移均可能导致其早古生代地层遭受重磁化影响。对鄂尔多斯盆地南缘富平地区上奥陶统赵老峪组灰岩、凝灰岩样品进行了系统岩相学、岩石磁学及逐步退磁研究,包括光学显微镜鉴定实验、扫描电镜(SEM)实验、能谱分析(EDS)实验、饱和等温剩磁(SIRM)实验、三轴等温热退磁实验、磁化率随温度变化(κ-T)实验、磁滞回线实验、一阶反转曲线(FORC)实验、系统热退磁实验以及热-交混合退磁实验,探讨了各类岩石的主要载磁矿物及其是否具备记录原生剩磁信息的潜能。结果表明:灰岩及凝灰岩样品的主要载磁矿物为磁铁矿、磁黄铁矿和(或)胶黄铁矿,部分样品还含少量赤铁矿(含杂质)和针铁矿,矿物颗粒的磁畴类型同时含有SD(单畴)和MD(多畴)两种。结合岩相学及退磁实验结果认为这些主要载磁矿物可能是与后期流体作用(有机质成熟及运移等)有关的次生矿物,其携带的剩磁信号不能直接用于约束板块早古生代古地理位置,或可用于约束鄂尔多斯盆地南缘下古生界油气运移成藏过程。

微生物碳酸盐生产工厂的构成、特征及沉积学意义——以河南云梦山剖面为例

【目的】“碳酸盐(生产)工厂”研究强调生物群落对碳酸盐生产过程以及规模的调控和特异性影响,在深入认识碳酸盐岩成因和形成机制方面具有重要价值,是碳酸盐沉积学领域关注热点和重要方向。虽然该概念的正式提出已有二十多年历史,但如何从工厂角度解读地质历史时期,特别是深时特异性、大规模碳酸盐岩的发育过程和影响因素方面仍缺乏系统性认识。【方法】以河南云梦山剖面寒武系崮山组为例,利用多尺度、网格定量化评价方法对微生物碳酸盐生产工厂的样式、内部结构、建造过程等方面进行了详细阐述。【结果】研究区微生物碳酸盐生产工厂以底栖微生物群落为主要建造者,形成样式包括叠层石、凝块石、树枝石、均一石以及微生物诱导沉积构造(MISS)。伴生的颗粒类型包括鲕粒、球粒、生屑、竹叶状内碎屑和微生物岩角砾,主要分布于工厂建造格架间。微生物碳酸盐生产工厂发育具期次性,单期工厂发育规模较小(海底至水面高度不足1 m)但空间延伸广,包括半球状、穹窿状、板状等宏观形态;其内部结构包括少量单独的建造样式,以及广泛发育的垂向复合形式。【结论】通过分析影响工厂发育的各类因素,局限潮坪环境下较高的营养水平对微生物碳酸盐生产工厂的繁盛可能起到了主要作用,而古丈期总体海侵背景造成适宜微生物碳酸盐生产工厂发育的环境消失,导致工厂最终关闭。相关工作的开展提供了一个与现代澳大利亚Hamelin Pool微生物碳酸盐生产工厂非常相似的古代实例,对认识寒武纪碳酸盐生产工厂类型、特征和演化规律方面具有较好的参考价值。

阴山地块固阳地区新太古代TTG片麻岩成因及构造意义:锆石U-Pb年代学、地球化学和Lu-Hf同位素约束

作为太古宙基底保存较完整的地区,华北克拉通阴山地块出露大量的新太古代岩石组合,主要包括表壳岩、TTG片麻岩(英云闪长质片麻岩-奥长花岗质片麻岩-花岗闪长质片麻岩)、钾质花岗岩和闪长岩(赞岐岩)等。前人对阴山地块新太古代TTG片麻岩开展了一系列的工作,但有关其岩石成因、构造背景以及新太古代地壳生长机制仍然存在较大争议。本次工作在内蒙古固阳西部的花岗-绿岩带中新识别出一套TTG片麻岩组合,并对其进行了岩石学、同位素年代学和岩石地球化学的综合研究。LA-ICP-MS锆石U-Pb定年结果显示TTG片麻岩组合形成时代为2550~2524Ma;Lu-Hf同位素分析结果显示其εHf(t)值为+0.54~+4.96,t C DM模式年龄为2985~2715Ma,这与阴山地块目前最古老的奥长花岗质片麻岩(2.7Ga)的岩浆年龄近一致,说明其可能来源于2.7Ga新生镁铁质地壳的部分熔融。全岩地球化学分析结果显示,该TTG片麻岩组合具有较高的SiO 2(63.32%~70.80%)和Al 2O 3(15.19%~16.55%)含量,以及较高的Sr(410×10^(-6)~1532×10^(-6))和较低的Y(2.61×10^(-6)~14.04×10^(-6))含量,同时具有相对较高的(La/Yb)N(10.31~56.85)和Sr/Y(44.32~349.1)比值,并相对富集轻稀土元素(LREEs)和大离子亲石元素(LILEs),这些均与典型的埃达克质岩石地球化学特征相似。另外,该TTG片麻岩样品具有相对较低的MgO(0.60%~2.60%)、Ni(3.12×10^(-6)~11.12×10^(-6))、Cr(3.77×10^(-6)~18.11×10^(-6))含量和Mg#(34.88~53.45),说明其来源于加厚的大陆下地壳埃达克质岩浆。因此,本文认为在2.55~2.52Ga,固阳新太古代TTG片麻岩可能由加厚的镁铁质下地壳部分熔融形成的。结合前人的研究结果,进一步推断阴山地块在新太古代可能经历两期岩浆事件:第一期岩浆事件发生在2.7Ga,形成加厚的镁铁质地壳和少量的~2.7Ga TTG岩石;第二期岩浆事件发生在2.55~2.50Ga,形成阴山地块大面积的新太古代TTG岩石和其他花岗质岩石组合。综上,我们认为以地幔柱为主导的地球动力学机制可以较好地解释阴山地块加厚镁铁质下地壳部分熔融和TTG岩浆的形成过程。