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1.
十八倾壕金矿有两种类型矿体:糜棱岩型矿体和石英脉型矿体。糜棱岩型矿石Pb同位素组成以低放射性成因铅为特点:^206Pb/^204Pb为16.63~17.45,^207pb/^304Pb为1531~15.48,^208Pb/^204Pb为36.52~38.85;在铅的动力学演化曲线上非常接近幔源铅演化模式曲线;与区域上典型的韧性剪切带型金矿——后石花金矿的铅同位素组成一致,是早元古代晚期(2040Ma)韧性剪切变质变形作用的产物。石英脉型矿石Pb同位素组成以高放射性成因铅为特点:^206Pb/^204Pb为18.23~19.74,^207Pb/^204Pb为15.69~15.89,^208Pb/^204pb为38.64~40.13;在铅的动力学演化曲线上非常接近上地壳铅演化的模式曲线;与区域上典型的燕山期岩浆热液型金矿——东伙房金矿以及燕山期花岗岩的铅同位素组成一致,是燕山期岩浆热液型金矿化。十八倾壕金矿是两次小同性质成矿作用叠加的结果。这从Pb同位素组成上证明了笔者曾经提出的关于该矿床叠加构造控矿的观点。 相似文献
2.
大别山北部卢镇关杂岩的Pb同位素特征及大地构造属性 总被引:3,自引:0,他引:3
Pb同位素组成研究表明,卢镇关杂岩中花岗片麻岩的^204Pb为1.366%~1.392%(平均为1.381%)、^206Pb/^204Pb为17.083~17.874(平均为17.463)和^204Pb/^204Pb为38.161~38.794(平均为38.438);斜长角闪岩的^204Pb为1.386%~1.412%(平均1.400%),其^206Pb/^204Pb为17.001~17.492(平均17.227)和^208Pb/^204Pb37.390~38.151(平均37.713)。二者的总平均为:^204Pb1.389%,^204Pb/^204Pb17.362,^208Pb/^204Pb38.127。与北部杂岩带和南部超高压变质带比较,卢镇关杂岩明显类似于南部超高压变质带的Ph同位素组成即表现为贫非放射成因铅和富集放射成因铅,表明它们应属于扬子大陆板块的一部分。考虑到北部杂岩带在地壳结构上应位于南部超高压带之下,以及北大别正片麻岩具有中、下地壳性质而南大别花岗片麻岩则具有上地壳特征。因此,卢镇关杂岩也应属于扬子大陆的上地壳,华北与扬子两个陆块之间的缝合线应在卢镇关杂岩以北。但是,由于在北淮阳带中一直未发现榴辉岩或榴辉岩相岩石等高压一超高压岩石以及有关印支期变质作用记录,说明至少卢镇关杂岩在印支期未卷入深俯冲,大别山的印支期俯冲带应位于卢镇关杂岩的南侧即磨子潭晓天断裂附近,大别山印支期深俯冲应属于扬子板块的陆内俯冲。 相似文献
3.
胶东蓬莱河西金矿床铅、硫同位素地球化学特征 总被引:7,自引:0,他引:7
蓬莱河西金矿位于胶东三大金矿带中的栖蓬金矿带内,金矿体受NE向断裂构造控制,赋存围岩既有花岗岩也有胶东群变质岩,特别是郭家岭花岗闪长岩的内外接触带,金矿化更为富集。矿石以含金石英脉型为主。对该矿床S同位素研究表明,δ^34S值为7.4‰~8.5‰,平均值为7.8‰。矿石Pb同位素组成^206Pb/^204Pb为17.3086~17.4799,^207Pb/^204Pb为15.5264~15.5692,^208Pb/^204Pb为38.0973~38.3698;与矿区出露的煌斑岩脉的铅同位素组成十分相近,而与赋矿围岩郭家岭花岗闪长岩的铅同位素组成不同。研究表明,该矿床的成矿物质可能部分来自幔源,具有与玲珑、焦家等超大型金矿类似的特征。 相似文献
4.
桐柏-大别造山带高压变质单元岩石Pb同位素组成 总被引:1,自引:1,他引:0
铅同位素组成对于研究构造分区与演化、块体相互作用以及识别地壳中不同块体的上、下层次关系等具有重要意义.桐柏-大别造山带高压变质单元岩石的全岩Pb同位素组成研究表明, 在该造山带不同区段, 高压变质岩系二云钠长片麻岩与榴辉岩具有相似的Pb同位素组成, 表现为上部地壳高放射成因的Pb同位素组成特征, 其中Pb同位素组成为: 206Pb/204Pb=17.599~18.310, 207Pb/204Pb=15.318~15.615, 208Pb/204Pb=37.968~39.143.大别和桐柏地区高压变质岩系Pb同位素组成的一致性进一步证明了大别地区与桐柏地区的高压变质岩系是可以相连的, 它们应属于同一构造单元.高压变质岩系Pb同位素比值总体高于超高压变质岩系, 验证了桐柏-大别造山带扬子俯冲陆壳从下部岩系到上部岩系Pb同位素比值呈规律增长这一Pb同位素化学特征.侵入于高压变质岩系中的面理化(含榴)花岗岩, 其Pb同位素组成与高压变质岩系相比相对较低, 而与超高压变质岩系及其中的面理化(含榴)花岗岩相似, 为: 206Pb/204Pb=17.128~17.434, 207Pb/204Pb=15.313~15.422, 208Pb/204Pb=37.631~38.122.这表明高压变质岩系和超高压变质岩系中的面理化(含榴)花岗岩具有相同的岩浆来源.结合面理化(含榴)花岗岩具有A型花岗岩的地球化学特征分析, 它们的岩浆物质可能来自超高压变质岩折返至中下地壳的减压退变和部分熔融. 相似文献
5.
三江中段两古陆铅同位素地球化学边界的厘定 总被引:4,自引:0,他引:4
根据三江中段及周边邻区火成岩铅同位素数据,确认了三江中段扬子陆块与冈瓦纳古陆的边界。两古陆的铅同位素地球化学边界为^206Pb/^204Pb=18.583、^208Pb/^204Pb=38.575和V1=60、V2=52,低于界线值的属扬子陆块,高于界线值的属冈瓦纳古陆。三江中段两古陆的铅同位素地球化学边界在地理上对应于德钦鲁春-红坡牛场一线,以东属扬子陆块,以西为冈瓦纳古陆;在构造上对应于德钦-字呷断裂带;在构造-岩浆带上对应于金沙江构造岩浆带与澜沧江构造岩浆带的分界线;在成矿上则对应于德钦羊拉-鲁春-红坡牛场铜多金属成矿带。 相似文献
6.
仙石铀矿床位于粤北贵东复式花岗岩体东部,矿体赋存于NWW向辉绿岩与NEE向硅化带交接部位。矿床中黄铁矿以富集放射成因铀铅为特征,3组比值分别为(^208Pb/^304Pb).=18.756—23.883,(^207Pb/^304Pb)1=15.676~15.932,(^208Pb/^204Pb),=38.530—38.938,主要位于基底变质岩铅范围内;矿床中方解石δ^18C值为-8.5‰~-3.1‰,相似于地幔值((-5±2)‰);黄铁矿δ^18C值为-10.1‰~-8.3‰,它与花岗岩中黄铁矿δ^18C值(-10.9‰--7.1‰)相似,而与辉绿岩中黄铁矿δ^18C值(-0.03‰~2.1‰)区别明显。上述同位素特征表明仙石铀矿床的成矿物质具多源特征。 相似文献
7.
中国大陆科学钻探100-2000m超高压变质岩普通Pb同位素地球化学初步研究——俯冲陆壳内脱耦的证据 总被引:1,自引:0,他引:1
本文首次对中国大陆科学钻探工程100~2000m榴辉岩中的绿辉石和片麻岩中的长石进行了普通Pb同位素研究。钻孔上部岩段(0-800m)样品放射成因Pb同位素含量比较高且变化幅度较小(^206Pb/^204Pb=16.81-17.29,^207Pb/^204Pb=15.37-15.45,^208Pb/^204Pb=37.20-37.66),说明其原岩的U/Pb和Th/Pb或者初始Pb同位素比值比较高。钻孔中部岩段(800-1600m)发育有韧性剪切带,相应的Pb同位素比值开始降低且有起伏(^206Pb/^204Pb=16.26-16.72,^207Pb/^204Pb=15.27~15.38,^208Pb/^204Pb=36.73~37.40)、钻孔下部岩段(800~1600m)样品放射成因Ph同位素含量低但变化幅度较小(^206Pb/^204Pb=16.05~16.46,^207Pb/^204Pb:15.22~15.29,^208Pb/^204Pb=36.68~37.48),说明其原岩的U/Pb和Th/Pb或者初始Ph同位素比值比较低。实测数据同模拟数据对比表明,钻孔上、下两岩段样品普通Ph同位素不同一方面是由于继承了原岩初始Pb同位素不同,另一方面是由它们的μ值不同所致。结合氧同位素研究,本文认为800m以上和1600m以下分属上地壳和中地壳.前者是从俯冲大陆岩石圈解耦的上地壳,在大陆岩石圈俯冲过程中,上部岩片同俯冲的大陆岩石圈发生挤离,率先沿着这一个挤离面逆冲折返至浅部。下岩片是随后从俯冲岩石圈解耦的中地壳岩片,并折返至浅部下伏在先期折返的上部岩片之下。考虑到中部岩段(800~1600m)既发育有韧性剪切带又具有异常低^18O峰值(Xiao et al.,2006),挤离面是在地壳内部晚元古代的断裂带及冷水活动通道基础上发育起来的。 相似文献
8.
中国中央造山带内至少发育两个超高压变质带,一个是南阿尔金-柴北缘-北秦岭超高压变质带,超高压峰期变质年龄为早古生代(500~400 Ma),代表扬子与中朝克拉通间的深俯冲和碰撞带;另一个是研究程度较高的大别-苏鲁超高压和高压变质带,峰期变质年龄主体是三叠纪(250~220 Ma),代表扬子克拉通内部的陆内大陆深俯冲和碰撞带。对东秦岭看丰沟及香坊沟的变质岩片详细岩石学和构造学研究以及先期造山带尺度的构造、岩石和年代学研究资料分析证明,南阿尔金-柴北缘-北秦岭超高压变质带,向东不能与大别-苏鲁超高压和高压变质带的任一部分相连,包括南大别和西北大别超高压及高压变质岩石。相反,大别-苏鲁超高压及高压变质带,向西经桐柏山,横过南襄盆地延伸到南秦岭的西峡及商南一带。仅在东秦岭-大别山范围内,两个超高压变质带分别位于南丹断裂系南北两侧,沿造山带近平行延展,之间被一系列以断裂或剪切带为边界的岩石构造岩片相隔,不能构成横贯中国中部统一的巨型超高压变质带。任何有关中国中央造山带构造格架及构造演化模型的建立,均应考虑其内部发育两个时代和功能不同的超高压变质带。 相似文献
9.
柯坪玄武岩的岩石学、地球化学、Nd、Sr、Pb同位素组成与岩石成因 总被引:41,自引:0,他引:41
柯坪玄武岩位于塔里木板块西缘,产于下二叠统库普库兹曼组和开派兹雷克组中。岩石化学组成以富集TFeO、TiO2、P2O5和SiO2不饱和为特征。大部分样品属碱性玄武岩系列,个别属拉斑玄武岩系列。它们的稀土元素和微量元素显示了板内拉张环境玄武岩的地球化学特征。εNd(t)=-1.73~-3.69,εSr(t)= 27.56~ 56.87,^206Pb/^204Pb=17.87~18.02,^207Pb/^204Pb=15.45~15.53,^208Pb/^204Pb=38.22~38.49。Nd、Sr、Pb同位素组成证明柯坪玄武岩源自于前寒武纪的富集型大陆岩石圈地幔。而且,这种情况在塔里木盆地及周缘地区十分发育的镁铁质岩浆岩中具有广泛的代表性。据此,可以将新疆南部和北部划分为两个明显不同的同位素地球化学省。南部省以富集型地幔的同位素组成为特征,而北部省以亏损型地幔的同位素组成为特征。分属于这两个省的古生代晚期阶段岩浆岩有可能不是同一个地质过程的产物。 相似文献
10.
滇西地区上地幔铅同位素组成的确定及其应用 总被引:6,自引:0,他引:6
滇西地区基性-超基性岩、碱性岩中的长石、石榴子石、橄榄石等单矿物及羊拉铜矿区二叠世海相玄武岩的铜铅同位素组成可以代表原始地幔的铅同位素组成,由此确定的该区上地幔铅同位素组成变化范围为^206Pb/^204Pb=17.877-18.506,平均18.108,^207Pb/^204Pb=15.470-15.587,平均15.479,^208Pb/^204Pb=37.797-38.567,平均38.177。研究发现,由于受地壳物质的混染和成岩后U、Th衰变产生的放射成因铅的影响,这些幔源岩石全岩铅同位素组成已不能代表原始上地幔的铅同位素组成;金顶铅锌矿床的铅并非上地幔来源,而是相当于下地壳来源的铅与兰坪盆地沉积岩铅二者的混合铅。 相似文献
11.
INTRODUCTION Anew ultrahigh pressure ( UHP) metamorphicbelt ,the South Altun-North Qaidam-North QinlingUHP metamorphic belt ,has been recently discoveredand widely discussed by different workers (Yang J Set al .,2003 ,2002 ,2001 ,2000 ,1998 ;Zhang J Xetal .,2002 ,1999 ; Zhang G et al .,2001 ; Hu et al .,1996 ,1995 ,1994) . Detailed studies have also beencarried out onthe Dabie-Sulu UHP/ HP metamorphicbelt inthe central orogenic belt (COB) of China (Gaoet al .,2002 ;Sun et al … 相似文献
12.
Kanfenggou UHP Metamorphic Fragment in Eastern Qinling Orogen and Its Relationship to Dabie-Sulu UHP and HP Metamorphic Belts, Central China 总被引:3,自引:0,他引:3
SuoShutian ZhongZengqiu ZhouHanwen YouZhendong 《中国地质大学学报(英文版)》2003,14(2):95-102
In the Central Orogenic Belt, China, two UHP metamorphic belts are discriminated mainly based on a detailed structural analysis of the Kanfenggou UHP metamorphic fragment exposed in the eastern Qinling orogen, and together with previous regional structural, petrological and geochronological data at the scale of the orogenic domain. The first one corresponds to the South Altun-North QaidamNorth Qinling UHP metarnorphic belt. The other is the Dabie-Sulu UHP and HP metamorphic belts. The two UHP metamorphic belts are separated by a series of tectonic slices composed by the Qiniing rock group, Danfeng rock group and Liuling or Foziling rock group etc. respectively, and are different in age of the peak UHP metamorphism and geodynamic implications for continental deep subduction and collision. Regional field and petrological relationships suggest that the Kanfenggou UHP metamorphic fragment that contains a large volume of the coesite- and microdiamond-bearing eclogite lenses is compatible with the structures recognized in the South Altun and North Qaidam UHP metamorphic fragments exposed in the western part of China, thereby forming a large UHP metamorphic belt up to 1000 km long along the orogen strike. This UHP metamorphic belt represents an intercontinental deep subduction and collision belt between the Yangtze and Sino-Korean cratons, occurred during the Paleozoic. On the other hand, the well-constrained Dabie-Sulu UHP and HP metamorphic belts occurred mainly during Triassic time (250-220 Ma), and were produced by the intracontinental deep subduction and collision within the Yangtze craton. The Kanfenggou UHP metamorphic fragment does not appear to link with the DabieSulu UHP and HP metamorphic belts along the orogen. There is no reason to assume the two UHP metamorphic belts as a single giant deep subduction and collision zone in the Central Orogenic Belt situated between the Yangtze and Sino-Korean cratons. Therefore, any dynamic model for the orogen must ac-count for the development of UHP metarnorphic rocks belonging to the separate two tectonic belts of different age and tectono-metamorphic history. 相似文献
13.
Geochemical Characteristics of Pb Isotope of High-Pressure Metamorphic Rocks and Foliated Granites from HP Unit of Tongbai-Dabie Orogenic Belt 总被引:1,自引:0,他引:1
ZhangLi ZhangHongfei ZhongZengqiu ZhangBenren WangLinsen 《中国地质大学学报(英文版)》2003,14(4):321-329
Whole-rock Pb isotopic compositions of the high-pressure (HP) metamorphic rocks, consisting of two-mica albite gneisses and eclogites, and foliated granites from the HP metamorphic unit of the Tongbai-Dabie orogenic belt are firstly reported in this paper. The results show that the tip metamorphic rocks in different parts of this orogenic belt have similar Pb isotopic compositions. The twomica albite gneisses have ^206 pb/^204 Pb=17. 657 -18. 168, ^207pb/^204 Pb=15. 318-15. 573,^ 208Pb/^204ob=38.315-38. 990, and the eclogites have ^206Pb/^204 Pb=17. 599 -18. 310, ^207Pb/^204 Pb=15. 465 -15. 615,^208Pb/^204Pb=37. 968-39. 143. The HP metamorphic rocks are characterized by upper crustal Pb isotopic composition. Although the Pb isotopic composition of the HP metamorphic rocks partly overlaps that of the ultrahigh-pressure (UHP) metamorphic rocks, as a whole, the former is higher than the latter. The high radiogenic Pb isotopic composition for the HP metamorphic rocks confirms that the subducted Yangtze continental crust in the Tongbai-Dabie orogenic belt has the chemical structure of increasing radiogenic Pb isotopic composition from lower crust to upper crust. The foliated granites, intruded in the HP metamorphic rocks post the HP/UHP metamorphism, have ^206Pb/^204 Pb=17. 128- 17. 434,^207Pb/^204pb=15. 313-15. 422 and ^208Pb/^204Pb=37. 631-38. 122, which are obviously different from the Pb isotopic compositions of the HP metamorphic rocks but similar to those of the UHP metamorphic rocks and the foliated garnet-bearing granites in the UHP unit. This shows that the foliated granites from the HP and UHP units have common magma source. Combined with the foliated granites having the geochemical characteristics of A-type granites, it is suggested that the magma for the foliated granites in the UHP and HP unit would be derived from the partial melting of the retrometamorphosed UHP metamorphic rocks exhumed into middle to lower crust, and partial magmas were intruded into the HP unit. 相似文献
14.
Hongfei Zhang Zengqiu Zhong Shan Gao Benren Zhang Li Zhang Shenghong Hu Qingye Hou 《Lithos》2004,73(3-4):215-227
The Qinling–Dabie–Sulu belt is the world's largest ultrahigh pressure (UHP) metamorphic belt. The UHP metamorphism is well dated at 220–245 Ma in the Dabie–Sulu belt but at 507 Ma in the Qinling belt. The Tongbaishan is located between the Qinling orogenic belt to the west and the Dabie–Sulu UHP metamorphic belt to the east. It is the key area for studying the tectonic relation between the Qinling and Dabie–Sulu belts and the diachronous UHP metamorphism. The Jigongshan granitic pluton (t=128 Ma) with a total area of 1200 km2, composed of monzogranite, was mostly emplaced into the Tongbai complex, an exposed basement in the Tongbaishan. The Jigongshan granites have SiO2=69.85–72.35%, K2O/Na2O=0.87–1.13, A/CNK=0.91–1.03, Rb/Sr=0.14–0.25 and Th/U=3.3–12. Their REE compositions show strongly fractionated patterns with (La/Yb)N=14–58 and Eu*/Eu=0.79–1.05. The granites are characterized by low radiogenic Pb isotopic composition. The present-day whole-rock Pb isotopic ratios are 206Pb/204Pb=16.707–17.055, 207Pb/204Pb=15.239–15.326 and 208Pb/204Pb=37.587–37.853, which are similar to that of the continental lower crust. Their Nd(t) values range from −16 to −20, and depleted-mantle Nd model ages (TDM) from 1.8 to 2.2 Ga. The above evidence indicates that the magma of the Jigongshan granites was derived from the partial melting of the continental crust. The Pb and Nd isotopic compositions of the Jigongshan granites resemble those of the Dabie core complex in the Dabieshan but are distinct from those of the Tongbai complex in the Tongbaishan. Thus, the Dabie core complex would be the magma source of the Jigongshan granites. The result implies that the Dabie core complex is extended to the west and constitutes the unexposed basement underlaying the Tongbai complex in the Tongbaishan. 相似文献
15.
秦岭大别碰撞造山带中隆升最高的结晶基底便是大别杂岩,在超高压变质岩和某些高级变质岩中均发现典型的近等温减压(ITD)型的退变质结构,多呈后成合晶或冠状体的形式取代或包绕原生矿物晶粒(主晶),显示退变质不平衡反应的过程.然而超高压变质岩与大别杂岩中的高级变质岩,变质地温梯度截然不同,暗示它们形成的构造条件极不相同,超高压变质岩早期由岩石圈深处(120km±)折返到下地壳与那里的高级变质岩构造混合,平行并置,而后才一起隆升.退变质不平衡结构与寄主岩的面理无关,说明这种近等温的减压退变质作用发生于后造山时期近绝热条件下的隆升体制,近绝热隆升的热源可能是中生代以来大别山地区岩石圈减薄所引起 相似文献
16.
大别山北部榴辉岩的Pb同位素特征 总被引:2,自引:2,他引:2
大别山北部榴辉岩的全岩 Pb同位素研究结果表明 ,Pb同位素比值 N(2 0 6 Pb) /N (2 0 4 Pb) =16 .773~ 18.339,N (2 0 7Pb) /N (2 0 4 Pb) =15 .346~ 15 .5 16 ,N (2 0 8Pb) /N (2 0 4 Pb) =37.133~ 38.346 ,平均值分别为 17.6 5 ,15 .4 5和 37.81)明显接近于下地壳成分 N(2 0 6 Pb) /N(2 0 4 Pb) ,N(2 0 7Pb) /N(2 0 4 Pb) ,N(2 0 8Pb) /N(2 0 4 Pb)值分别为 17.6 2 ,15 .35和 38.75 ) ,同时 ,北部榴辉岩的 U /Pb比 (0 .0 0 2~ 0 .0 0 9)及 U质量分数 (0 .0 4× 10 - 6 ~ 0 .2 3× 10 - 6 )稍低于下地壳平均值 ,而 Pb质量分数 (6 .72× 10 - 6~ 2 6 .6 4× 10 - 6 )则接近于或略高于地壳平均值 ,但是 ,U/Pb比则明显偏离上地壳平均值、也不同于大别山南部榴辉岩及有关岩石 (较低的 Pb质量分数和较高的 U/Pb比 )。此外 ,考虑到研究区榴辉岩的岩石地球化学及 Sr,Nd同位素年代学方面研究已证明它们大多数为印支期扬子陆壳俯冲变质成因。由此进一步表明 ,大别山北部榴辉岩的原岩大多数应来自于扬子大陆下地壳。这对正确认识大别山碰撞造山带的构造格局和演化具有重要意义。 相似文献
17.
山东招远金矿集中区矿床及围岩中硫和铅同位素的研究 总被引:5,自引:1,他引:5
山东招远金矿集中区金矿床的围岩为新太古代胶东岩群变质岩和中生代花岗岩。胶东岩群、花岗岩及金矿床的δ3 4 S值分别为 4 7‰、 7 4‰和 8 1‰ ,3个数值均为正值 ,之间差值较小 ,且依次有规律增加 ,表现出它们具有硫的同源性和演化上的连续性。铅同位素也呈现相同的变化规律 ,N(2 0 7Pb) /N(2 0 4Pb)值在胶东岩群、花岗岩及金矿床中分别为 15 381、15 5 6 2和 15 4 75 ,与区内来自地幔的玄武岩的N(2 0 7Pb) /N(2 0 4Pb)的平均值 18 2 6 9相比差异非常明显。铅同位素中的 μ值均小于 9 5 8的临界线 ,表明铅来自同一构造环境下形成的岩石。此外 ,胶东岩群、花岗岩和金矿床 3者之间的接触关系也表明它们系同一矿源岩在不同地质时期演化的结果 相似文献
18.
桐柏-大别山区高压变质相的构造配置 总被引:18,自引:3,他引:15
作为华北和扬子陆块间的碰撞造山带桐柏大别山区以发育高压、超高压变质带为特征,从南到北变质相从低级到高级,代表俯冲带深度不同的变质产物,整体形成高压变质相系列。不过现今各变质相岩石的分布极受后期地壳规模的伸展构造控制,大别杂岩的穹隆作用更使高压变质相带的空间分布复杂化。超高压变质岩今日多呈大小不等的块体嵌布于相对低压的大别杂岩之内,造山带根部物质的热软化,使许多深层地幔物质得以像挤牙膏一样挤出于大别杂岩内。它们之中广泛发育着减压退变质的显微结构,与大别杂岩内一些麻粒岩相表壳岩所保存的减压退变质证迹一样,同是挤出作用和碰撞后隆升的构造证迹。高压相系的发育使南桐柏山和大别山迥然不同于桐商( 商丹) 断裂以北的北秦岭北淮阳变质带。新近发表的同位素年代学(40Ar 39 Ar) 资料:316 ~434 Ma ,已证明北秦岭是古生代变质带,它与桐柏- 大别印支期碰撞造山带差异甚大。这两个变质地温梯度差异甚大的变质地体的拼合,说明华北和扬子陆块碰撞的主缝合带是商丹- 桐商断裂带 相似文献