新疆西准噶尔庙尔沟岩体的地球化学及年代学研究

新疆西准噶尔庙尔沟岩体侵入于早中石炭世海相火山-沉积建造中,主体由碱长花岗岩组成,局部分布有紫苏花岗岩和碱长花岗岩脉。碱长花岗岩及岩脉高硅、富碱、贫钙,里特曼指数(δ)=2.17~2.98,A/CNK=0.96~1.03,A/NK=1.08~1.13,为准铝质-弱过铝质高钾钙碱性花岗岩,其富集LILEs(Rb、U、K、Th),相对亏损HFSEs(Nb、Ta、P、Ti)和Ba、Sr等,以及强烈Eu负异常,过渡族地幔相容元素Cr、Ni含量低,U、Th、Pb等地壳富集元素含量较高。Sr、Nd同位素组成:(87Sr/86Sr)i=0.70370~0.70541,εNd(t)=+4.10~+6.79,tDM=0.57~0.99Ga。锆石LA-ICP-MS U-Pb定年研究获得锆石U-Pb年龄为309±1.4Ma,表明岩体碱长花岗岩的形成时代为晚石炭世。紫苏花岗岩的SiO 2含量为60.88%~62.06%,Al2O3含量为15.50%~15.72%,里特曼指数(δ)=2.59~2.77,A/CNK=0.86~0.88,A/NK=1.50~1.53,为准铝质钙碱性-高钾钙碱性过渡的花岗岩,相对富集LREE(Rb、U、K、Th),而亏损HREE(Nb、Ta、P、Ti)和Sr,以及较显著的Eu负异常,过渡族地幔相容元素Cr、Ni含量低,U、Th、Pb等地壳富集元素含量较高。Sr、Nd同位素组成:(87Sr/86Sr)i=0.70382~0.70388,εNd(t)=+6.67~+6.98,tDM=0.59~0.62Ga。锆石LA-ICP-MS U-Pb定年研究获得锆石U-Pb年龄为302.1±2.1Ma,表明岩体紫苏花岗岩的形成时代为晚石炭世。综合庙尔沟岩体的地质特征、地球化学特征、年代学和区域地质背景,认为庙尔沟岩体碱长花岗岩及岩脉为A2型花岗岩,紫苏花岗岩具有A型花岗岩的地球化学性质,且它们是可能来自同一个岩浆源区,属于西准噶尔后碰撞阶段的岩浆活动产物。     

西天山吐拉苏岩体中花岗岩的年代学和地球化学特征及其地质意义

吐拉苏岩体位于西天山吐拉苏盆地的东北缘,由石英闪长玢岩、辉石闪长玢岩和花岗岩组成,其中花岗岩主要为花岗闪长玢岩和花岗斑岩.它们表现出高硅、高铝、富碱的特征,里特曼指数（σ）=1.61~3.18,A/CNK=1.00~1.09,A/NK=1.07~1.68,为准铝质-弱过铝质高钾钙碱性花岗岩;相对富集Rb、Th、U等大离子亲石元素,明显亏损Nb、Ta、Sr、P、Ti等元素;轻重稀土分馏明显,（La/Yb）_N=7.48~12.12、中等Eu负异常（δEu=0.47~0.62）,无Ce异常.但花岗斑岩较花岗闪长玢岩碱含量更高,更加接近准铝质钾玄岩系列,Sr、P、Ti等元素的亏损程度更强,且轻稀土更富集,可能说明花岗斑岩中壳源物质含量增加.锆石LA-ICP-MS U-Pb定年研究获得花岗斑岩的侵位年龄为305.9±5.9 Ma.锆石Hf同位素组成显示,ε_Hf（t）值介于0.4~8.7,表明花岗岩的岩浆源区有幔源物质的加入;T_DM2值介于766~1 294 Ma,表明岩浆源区为中元古代-新元古代新生地壳.综合吐拉苏岩体中两类花岗岩的地质、地球化学特征、年代学和区域地质背景,认为从花岗闪长玢岩到花岗斑岩结晶分异增强、壳源物质的贡献增大,花岗岩形成于后碰撞环境,岩浆源区为中元古代-新元古代新生地壳,但有不同比例幔源物质的加入.      

新疆可可托海近3号脉花岗岩成岩时代及地球化学特征研究

可可托海伟晶岩田内花岗岩类发育。本文研究的花岗岩体位于3号伟晶岩脉矿坑的东部,岩性为似斑状黑云母二长花岗岩,野外特征与矿区北部的阿拉尔花岗岩非常相似。花岗岩中锆石LA-MC-ICP-MS U-Pb测年结果表明,19个测点206Pb/238U年龄集中于399.6～409.0Ma,加权平均年龄为405.4±1.4Ma(MSDW=0.98),属于早泥盆世,比阿拉尔花岗岩的侵入时期早得多,与3号伟晶岩脉没有成因上的联系,应是区域上岩浆活动最为强烈时期的产物。岩石具有富硅(SiO2=70.69%～73.81%)、富铝(Al2O3=14.00%～15.74%)、总体髙钾(K2O/Na2O≥1),贫Fe、Mg、Ti、P特点,铝饱和指数较高(A/CNK≥1.1),属于髙钾钙碱性强过铝质花岗岩;微量元素表现出Sr、Ti、Ba、P、Nb、Ta明显的负异常和Th、U、La、Zr、Hf的正异常特征。稀土配分型式显示LREE的相对弱富集,HREE比较平坦以及Eu中等负异常。样品中87Sr/86Sr(0.72259～0.72810)、143Nd/144Nd(0.51235～0.51237)接近于陆源沉积物,Sr初始值(0.70155～0.70341)较低,f Sm/Nd(-0.32～-0.26)、Sm/Nd(0.222～0.240)比值显示分异小、较均一的Sm/Nd同位素体系;εNd(t)值变化于-3.07～-2.16,模式年龄t2DM集中在1.35Ga左右,属于中元古代。综合研究岩石中主量、微量和稀土元素、同位素特征,同时对比区域上同期岩浆活动特征,认为本文研究的花岗岩可能是在活动大陆边缘环境下,强烈的俯冲-碰撞作用导致的地壳加厚引发了深熔作用,使阿尔泰微古陆边缘内部中元古代基底部分熔融,同时有幔源物质参与;随后岩浆经过结晶分异,最终上升侵位,反映了陆缘弧花岗岩的特点。     

新疆阿尔泰南缘萨尔布拉克铁矿区花岗岩年代学及地球化学研究

本文对新疆阿尔泰南缘萨尔布拉克铁矿区花岗岩体进行了锆石SHRIMP U-Pb年龄测定,获得岩体形成时代为410±4Ma(MSDW=0.88),是晚志留世—早泥盆世岩浆活动产物。岩体的年龄限定它侵入的地层时代大于410Ma,为前泥盆系而不是前人认为的中泥盆统;同时限定萨尔布拉克矽卡岩型铁矿的形成时代略晚于410Ma,为晚志留世末期—早泥盆世早期成矿。萨尔布拉克花岗岩具有富硅、偏碱性,LREE富集且分馏明显,HREE亏损且分馏不明显,中等负铕异常(δEu=0.35～0.47),微量元素Th、U、La、Ce、Nd、Zr、Hf相对富集,Nb、Ta、Sr、P、Ti相对亏损,具明显负异常的特点。Na2O/K2O集中于1附近,属于钙碱性—高钾钙碱性系列。铝过饱和指数变化于1.07～1.14,为过铝质。其微量元素地球化学特征与蒙库岩体(400～404Ma)具有很好的相似性,表明萨尔布拉克花岗岩形成于与板块俯冲有关的活动大陆边缘的陆缘弧环境中,可能是洋壳铁镁质岩石在板块俯冲过程中熔融形成,且加入了陆壳物质。     

西准噶尔谢米斯台西段花岗岩年代学、地球化学、锆石Lu-Hf同位素特征及大地构造意义

西准噶尔谢米斯台花岗岩研究程度偏低, 运用锆石LA-ICP-MS U-Pb年代学、地球化学及锆石Lu-Hf同位素方法研究西准谢米斯台西段地区花岗岩, 结果表明: 谢米斯台岩体(427.6±2.3 Ma)和哈勒盖特希岩体(428.6±2.5 Ma)均形成于中志留世; 谢米斯台碱长花岗岩地球化学特征类似于Ⅰ型花岗岩, 哈勒盖特希碱长花岗岩地球化学特征类似于A型花岗岩; 锆石Hf同位素组成较均一, ε_Hf(t)=12.4~14.5, 二阶段模式年龄t_DM2变化范围在497~603 Ma之间, Ⅰ型花岗岩和A₂型花岗岩可能形成于后碰撞阶段的挤压-伸展转变期, 是中志留世额尔齐斯-斋桑洋壳向南俯冲至波谢库尔-成吉斯火山弧底部, 俯冲板片与岛弧底部岩石圈之间剪切带的物质发生变形、变质及部分熔融作用, 使得由亏损地幔形成不久的年轻地壳(由洋壳和岛弧组成)发生部分熔融形成的长英质岩浆经进一步分离结晶作用形成分异Ⅰ型花岗岩和高温、缺水A₂型花岗岩, A₂型花岗岩较Ⅰ型花岗岩分离结晶程度高.      

青海都兰白石崖矿区花岗岩年代学、地球化学特征及地质意义

白石崖铁矿为都兰地区一处典型的矽卡岩型铁多金属矿床。通过对花岗岩年代学和岩石地球化学研究表明,白石崖花岗岩侵位于（238±1） Ma,富硅（SiO2=70.01%~76.01%）、富碱（K2O+Na2O=6.64%~8.41%）、FeO*/MgO比值（平均22.87）较高、贫镁（MgO=0.04%~0.39%）,K2O/Na2O>1,A.I.=0.88~0.99,A/CNK=0.62~0.83,属偏铝钙碱性岩石;稀土分布曲线呈“海鸥式”分布特征,显示较强的Eu负异常（δEu=0.10~0.70）;微量元素特征显示具较高的Zr （172×10-6~205×10-6）、Nb（11×10-6~31×10-6）和Y（21.9×10-6~50.1×10-6）,较低的Sr（40×10-6~223×10-6）、Ba（168×10-6~690×10-6）;在微量元素原始地幔标准化蛛网图上显示明显的Ba,Sr,P和Ti的负异常,表明白石崖花岗岩为A型花岗岩。结合区域构造演化,认为该区花岗岩形成于造山后的伸展环境,属A2型花岗岩。三叠纪时,东昆仑地区处于后碰撞构造阶段,俯冲板片发生断裂,岩石圈拆沉,引发大范围的地壳伸展减薄,软流圈物质上涌,上涌的软流圈物质与地壳直接接触,对上覆长英质地壳的直接加热作用促使其部分熔融,长石、榍石等分离结晶,形成该区A型花岗岩。     

西秦岭西段曲如沟花岗闪长岩年代学、地球化学特征及构造意义研究

曲如沟花岗闪长岩位于西秦岭造山带西段, 侵位于中下三叠统隆务河组, 主要岩性为灰白色细粒块状花岗闪长岩。岩石地球化学特征显示岩体具有高硅(66.08%~72.22%)、富钠(4.61%~5.01%)、准铝(A/CNK为1.04~1.11)高钾钙碱性I型花岗岩特征。岩体稀土总量为99.41×10-6~154.85×10-6, LREE=87.33×10-6~143.67×10-6, HREE=11.08×10-6~12.65×10-6, LREE/HREE值为7.23~12.85, 具弱负Eu异常, 在球粒陨石标准化稀土元素配分曲线图解上表现出轻稀土富集、重稀土显著亏损的特征。在原始地幔标准化微量元素蛛网图左端大离子亲石元素(Cs、Rb、Ba、Th)明显富集, 曲线右端高场强元素(Nb、Ta、P)明显亏损, 具有弧或碰撞型花岗岩微量元素特征。研究岩石成因表明岩石源区为下地壳变基性岩石, 为岩石圈拆沉、幔源基性岩浆底侵导致下地壳变基性岩石部分熔融形成的产物, 并发生了一定程度的壳幔岩浆混合作用。该岩体LA-ICP-MS锆石U-Pb年龄为(224.1±2.4) Ma(MSWD=2.4), 形成于晚三叠世。结合区域资料, 认为西秦岭造山带西段于印支晚期(224 Ma)古特提斯洋已经关闭, 进入到后碰撞构造演化阶段。     

新疆西准噶尔接特布调A型花岗岩年代学、地球化学及岩石成因

西准噶尔乃至整个北疆地区广泛发育晚古生代后碰撞花岗岩类。接特布调岩体作为一个典型的代表, 岩石类型主要有中粗粒二长花岗岩和正长花岗岩, 是认识西准噶尔花岗岩岩石成因及构造-岩浆演化的关键。本文对接特布调岩体进行高精度锆石LA-ICP-MS U-Pb测年, 获得二长花岗岩和正长花岗岩的加权平均206Pb/238U年龄分别为(287±9) Ma(n=10, MSWD=0.92)和(278±3) Ma(n=14, MSWD=0.43), 确定其形成于早二叠世, 属于300 Ma前后准噶尔周边地区后碰撞岩浆活动的产物。岩石地球化学研究表明, 前人认为的接特布调I型花岗岩应归属于A型花岗岩。正长花岗岩具有高硅(SiO2: 76.11%~76.82%), 富碱(Na2O+K2O: 8.47%~8.49%), 低钛(TiO2: 0.04%~0.05%), 贫钙(CaO: 0.36%~0.42%)的特征。二长花岗岩与其类似, 高硅(SiO2: 68.35%~71.80%), 富碱(Na2O+K2O: 6.80%~7.86%), 低钛和钙(TiO2: 0.29%~0.82%, CaO: 1.76%~2.87%), 均属于准铝质或弱过铝质(ACNK: 0.98~1.09)高钾钙碱性系列。正长花岗岩相对于二长花岗岩具有相对较低的稀土元素总量(ΣREE)(分别为23.8×10-6~49.3×10-6, 95.23×10-6~222.2×10-6), 并具有明显的负Eu异常(Eu/Eu*分别为0.01~0.02, 0.57~0.72), 另外, 正长花岗岩相对二长花岗岩明显地富集大离子亲石元素(Rb、Th、K)及高场强元素(Zr、Hf、Nb), 而强烈亏损Ba、Sr、Eu、Ti等, 具有较高的10000Ga/Al比值(>2.44)。依据微量元素比值及相关判别图, 可将接特布调花岗岩体进一步细分为A1型和A2型。接特布调岩体就位于后碰撞环境, 来源于由年轻的地幔来源物质组成的下地壳。在后碰撞岩浆活动的初期, 年轻的下地壳部分熔融形成具有岛弧印迹的A2型二长花岗岩岩浆, 随着岩石圈进一步伸展, 可能在局部出现类似裂谷的环境, 即形成显示裂谷特征的A1型正长花岗岩岩浆。     

新疆西准噶尔朱鲁木特A型花岗岩年代学、地球化学及岩石成因

西准噶尔乃至整个北疆地区广泛发育晚古生代后碰撞花岗岩类。朱鲁木特岩体作为一个典型的代表,岩石类型主要为碱长花岗斑岩,是认识西准噶尔北部花岗岩岩石成因及构造—岩浆演化的关键。本文对朱鲁木特岩体进行高精度锆石LA-ICP-MS U-Pb测年,获得碱长花岗斑岩的加权平均~(206)Pb/~(238)U年龄为(299±1)Ma(n=11,MSWD=0.96),其形成于早二叠世。岩石地球化学研究表明,碱长花岗斑岩具有高硅(69.68%～74.38%),富碱(Na_2O+K_2O:8.94%～9.21%),低钛(Ti O_2:0.21%～0.42%),贫钙(0.34%～1.24%)的特征,均属弱过铝质(A/CNK:1.02～1.10)及高钾钙碱性—钾玄岩系列。岩石富集Rb、Th、K等大离子亲石元素及高场强元素(Zr、Hf),而强烈亏损Ba、Sr、P、Ti等,稀土配分曲线呈右倾"V"字型,属典型的铝质A型花岗岩。依据微量元素比值及相关判别图,朱鲁木特碱长花岗斑岩在成因类型上属于A2型,形成于后碰撞的张性环境中,软流圈上涌使年轻的地幔来源物质组成的下地壳发生部分熔融。     

新疆西准噶尔达拉布特构造带铝质 A型花岗岩的地球化学研究

新疆西准噶尔沿达拉布特构造带出露几个主要由碱长花岗岩组成的花岗岩基(包括庙儿沟、阿克巴斯套、克拉玛依及红山等岩体)。岩石学和元素地球化学研究表明,碱长花岗岩属于典型的铝质A型花岗岩,其10000×Ga A/l比值大。锆石的LAI-CPMS UP-b定年结果证实它们的形成时代均为～300Ma,与东准噶尔的碱性花岗岩体的侵位年龄一致。这些碱长花岗岩在成因类型上属A2型,形成于后碰撞的张性环境中。花岗岩的Nεd(t)= 6.42～ 7.46,但众多地质地球化学特征显示它们不是直接来源于亏损地幔,而更可能是由洋壳和岛弧建造组成的年轻地壳部分熔融形成的花岗闪长质岩浆再经过分离结晶作用的产物。     

西秦岭天水地区太白花岗岩体LA-ICP-MS锆石U-Pb年龄、地球化学特征及其地质意义

秦岭造山带南缘勉略构造带北侧发育有近东西向展布的印支期花岗岩带,位于甘肃徽县地区的太白岩体是该花岗岩类的一部分。LA-ICP-MS锆石U-Pb同位素年龄表明,太白岩体的形成时代为221.8Ma±1.5Ma,属于印支期晚期。主要岩石类型为灰白色—肉红色中细粒二长花岗岩和花岗闪长岩。地球化学特征表明,太白岩体属于准铝质—弱过铝质的高钾钙碱性系列;稀土元素总量ΣREE为79.0×10-6~194×10-6,稀土元素配分模式呈轻稀土元素强烈富集、重稀土元素相对亏损的右倾型,Eu负异常明显;高场强元素(HFSE)Nb、P、Ti、Y、Yb和大离子亲石元素Ba、Sr强烈亏损。太白岩体是以中基性岩石为主的壳源物质部分熔融形成的岩浆上升侵位形成的,且处于同碰撞(挤压环境)向后碰撞(伸展环境)转化阶段,为后造山期花岗岩,是扬子板块和华北板块全面碰撞导致增厚下地壳物质部分熔融的产物。     

新疆西准噶尔白布谢河花岗斑岩锆石U-Pb年龄、地球化学特征及其构造意义

西准噶尔中部广泛发育晚石炭世—晚二叠世侵入岩,其产出构造背景对于揭示该区晚古生代构造演化具有重要意义.文章以巴尔鲁克山北侧侵入于上石炭统莫老坝组中的白布谢河花岗斑岩为研究对象,通过岩相学、锆石U-Pb年代学、全岩主—微量元素和Sr-Nd同位素分析,据此探讨其岩石成因和构造背景,以期为进一步深入研究西准噶尔中部构造演化提...     

Geochemistry and SHRIMP Zircon U-Pb Age of Post-Collisional Granites in the Southwest Tianshan Orogenic Belt of China: Examples from the Heiyingshan and Laohutai Plutons

The Heiyingshan granite and the Laohutai granite plutons exposed in the Southwest Tianshan resemble A-type granites geochemically. Analysis shows that the both are ferron calc-alkalic peraluminous or ferron alkali-calcic peraluminous with a relatively high concentration of SiO2 （〉70%）, high alkali contents （Na20 ＋ K20 = 7.14%-8.56%; K20〉N20; A/CNK = 0.99-1.20）, and pronounced negative anomales in Eu, Ba, St, P and Ti. A SHRIMP zircon U-Pb age of 285±4 Ma was obtained for the Heiyingshan hornblende biotite granite intrusion. The geochemical and age dating data reported in this paper indicate that these granites were formed during the post-collisional crustal extension of the Southwest Tianshan orogenic belt, in agreement with the published data for the granites in the South Tianshan.     

西秦岭天水地区太白花岗岩体LA-ICP-MS锆石U-Pb年龄、地球化学特征及其地质意义

秦岭造山带南缘勉略构造带北侧发育有近东西向展布的印支期花岗岩带,位于甘肃徽县地区的太白岩体是该花岗岩类的一部分。LA-ICP-MS锆石U-Pb同位素年龄表明,太白岩体的形成时代为221.8Ma±1.5Ma,属于印支期晚期。主要岩石类型为灰白色—肉红色中细粒二长花岗岩和花岗闪长岩。地球化学特征表明,太白岩体属于准铝质—弱过铝质的高钾钙碱性系列;稀土元素总量ΣREE为79.0×10-6~194×10-6,稀土元素配分模式呈轻稀土元素强烈富集、重稀土元素相对亏损的右倾型,Eu负异常明显;高场强元素（HFSE）Nb、P、Ti、Y、Yb和大离子亲石元素Ba、Sr强烈亏损。太白岩体是以中基性岩石为主的壳源物质部分熔融形成的岩浆上升侵位形成的,且处于同碰撞（挤压环境）向后碰撞（伸展环境）转化阶段,为后造山期花岗岩,是扬子板块和华北板块全面碰撞导致增厚下地壳物质部分熔融的产物。     

SHRIMP U-Pb Zircon Age of the Ka＇erjiao Intrusion in the Sawur Region in West Junggar, Xinjiang

Acid intrusions are widespread in the Sawur region, Xinjiang. The Ka'erjiao intrusion is mainly composed of albite granite porphyry, K-feldspar granite porphyry, ivernite and granite porphyry. Being a transitional product between magma intrusion and eruption in the Sawur region, the Ka'erjiao intrusion was formed at the telophase of the late Carboniferous to the begining of early Permian as determined by the SHRIMP U-Pb zircon dating, with an age of 302.6±7.6 Ma (1σ). The intrusion consists of alkali-enriched rock, whose REE distribution patterns are of the LREE enrichment type, the δEu value is Iow and Nd, Sr, Pb isotopes reflect its mantle source characteristics. The δ18O value of intrusion is low as a result of isotope exchange with meteoric water.The geochemical characteristics show that it was formed in a post-collisional tectonic setting. Taking combined considerations of current studies of A-type granites and Permian volcanic rocks, we think that in the telophase of the late Carboniferous to the beginning of the early Permian, the Sawur region was within the extension or compressional to extensional period of a post-collisional stage. The Ka'erjiao intrusion from mantle sources can confirm the vertical continental crust growth in the late Paleozoic. The Sawur region in west Junggar is consistent with east Junggar in post-collisional tectonic evolution process.     

SHRIMP U-Pb Zircon Age of the Ka''erjiao Intrusion in the Sawur Region in West Junggar,Xinjiang

Acid intrusions are widespread in the Sawur region, Xinjiang. The Ka'erjiao intrusion is mainly composed of albite granite porphyry, K-feldspar granite porphyry, ivernite and granite porphyry. Being a transitional product between magma intrusion and eruption in the Sawur region, the Ka'erjiao intrusion was formed at the telophase of the late Carboniferous to the begining of early Permian as determined by the SHRIMP U-Pb zircon dating, with an age of 302.6±7.6 Ma (1σ). The intrusion consists of alkali-enriched rock, whose REE distribution patterns are of the LREE enrichment type, theδEu value is low and Nd, Sr, Pb isotopes reflect its mantle source characteristics. Theδ18O value of intrusion is low as a result of isotope exchange with meteoric water. The geochemical characteristics show that it was formed in a post-collisional tectonic setting. Taking combined considerations of current studies of A-type granites and Permian volcanic rocks, we think that in the telophase of the late Carboniferous to the beginning of the early Permian, the Sawur region was within the extension or compressional to extensional period of a post-collisional stage. The Ka'erjiao intrusion from mantle sources can confirm the vertical continental crust growth in the late Paleozoic. The Sawur region in west Junggar is consistent with east Junggar in post-collisional tectonic evolution process.     

SHRIMP U-Pb Zircon Age of the Ka''erjiao Intrusion in the Sawur Region in West Junggar,Xinjiang

Acid intrusions are widespread in the Sawur region, Xinjiang. The Ka'erjiao intrusion is mainly composed of albite granite porphyry, K-feldspar granite porphyry, ivernite and granite porphyry. Being a transitional product between magma intrusion and eruption in the Sawur region, the Ka'erjiao intrusion was formed at the telophase of the late Carboniferous to the begining of early Permian as determined by the SHRIMP U-Pb zircon dating, with an age of 302.6±7.6 Ma (1σ). The intrusion consists of alkali-enriched rock, whose REE distribution patterns are of the LREE enrichment type, theδEu value is low and Nd, Sr, Pb isotopes reflect its mantle source characteristics. Theδ18O value of intrusion is low as a result of isotope exchange with meteoric water. The geochemical characteristics show that it was formed in a post-collisional tectonic setting. Taking combined considerations of current studies of A-type granites and Permian volcanic rocks, we think that in the telophase of the late Carboniferous to the beginning of the early Permian, the Sawur region was within the extension or compressional to extensional period of a post-collisional stage. The Ka'erjiao intrusion from mantle sources can confirm the vertical continental crust growth in the late Paleozoic. The Sawur region in west Junggar is consistent with east Junggar in post-collisional tectonic evolution process.     

SHRIMP U-Pb Zircon Age of the Ka''''erjiao Intrusion in the Sawur Region in West Junggar,Xinjiang

Acid intrusions are widespread in the Sawur region, Xinjiang. The Ka'erjiao intrusion is mainly composed of albite granite porphyry, K-feldspar granite porphyry, ivernite and granite porphyry. Being a transitional product between magma intrusion and eruption in the Sawur region, the Ka'erjiao intrusion was formed at the telophase of the late Carboniferous to the begining of early Permian as determined by the SHRIMP U-Pb zircon dating, with an age of 302.6±7.6 Ma (1σ). The intrusion consists of alkali-enriched rock, whose REE distribution patterns are of the LREE enrichment type, theδEu value is low and Nd, Sr, Pb isotopes reflect its mantle source characteristics. Theδ18O value of intrusion is low as a result of isotope exchange with meteoric water. The geochemical characteristics show that it was formed in a post-collisional tectonic setting. Taking combined considerations of current studies of A-type granites and Permian volcanic rocks, we think that in the telophase of the late Carboniferous to the beginning of the early Permian, the Sawur region was within the extension or compressional to extensional period of a post-collisional stage. The Ka'erjiao intrusion from mantle sources can confirm the vertical continental crust growth in the late Paleozoic. The Sawur region in west Junggar is consistent with east Junggar in post-collisional tectonic evolution process.