相山地区变质基底新认识及其原归属的对比研究

在相山北部首次发现十字石片岩及堇青石片岩。根据随变质作用增强而出现的新变质矿物，将相山变质岩基底划分为绢云母千枚岩带、黑云母征 岩带、铝榴石片岩带和十字 石片岩带。提出并采用微量元素地球化学比值聚类分析方法，确认相山地区变质岩原岩不属震旦系，而与华在睡地块（古了南）的陈蔡群相当。     

赣中相山新元古代变质岩的首次确定

相山地区变质岩划分为４个变质岩带，由南往北依次分布，构成典型的递增变质带。十字石的出现表明变质作用已达到低角闪岩相。获得十字石云母片岩及斜长角闪片岩ＲｂＳｒ等时年龄分别为７１９．７、７２７．６Ｍａ。首次厘定相山变质岩形成于新元古代，而非加里东期变质。其原岩的成岩时代应为前震旦纪     

赣中相山新元古代变质岩的首次确定

相山地区变质岩划分为４个变质岩带，由南往北依交份布，构成典型的递增变质带。十字石的出现表明变质作用已达到低角闪岩相。获得十字石云母片岩及斜长角闪长岩Ｒｂ－Ｓｒ等时年年龄分别为７１９．７，７２６．６Ｍａ。首次厘定相山变质岩形成于新元古代，而非加里东期变质。其原岩的成岩时代应用为前震旦纪。     

内蒙古锡林浩特锡林郭勒杂岩的原岩年代和变质年代

锡林浩特市西南白音塔拉地区锡林郭勒杂岩出露在华北板块北缘古生代褶皱带中的强烈变形变质地层中，主要由石英片岩，黑云母石英片央夹斜长角闪岩组成，Ｓｍ－Ｎｄ全岩等时线年龄为１２８６±２６Ｍａ，应相当于锡林郭勒杂岩的原岩形成年龄，εＮｄ（ｔ）值为８．５±０．６。说明岩浆来源于亏损地幔源区，Ｒｂ－Ｓｒ全岩等时线年龄为６５９．９±２９．３Ｍａ，被解释为主期变质变形年龄，该年龄表明华北板块北部大陆边缘演经历史中     

赣中变质基底Nd模式年龄初步研究及基底地壳的形成时代

本文研究了赣东南变质基底的Ｎｄ模式年龄（ＴＤＭ＝１３６０－２１２４Ｍａ,平均为１７５５Ｍａ）,结合变质岩的Ｒｂ－Ｓｒ,Ｓｍ－Ｎｄ等时线年龄确认赣中地区存在前寒武纪地壳基底,推测本区还有一个尚未出露的古元古－新太古代的花岗质陆壳,这个陆壳正是元古代的陆源区     

赣中变质基度Nd模式年龄初步研究及基底地壳的形成时代

本文研究了赣东南变质基底的Ｎｄ模式年龄（ＴＤＭ＝１３６０－２１２４Ｍａ,平均为１７５５Ｍａ）,结合变质岩的Ｒｂ－Ｓｒ,Ｓｍ－Ｎｄ等时线年龄确认赣中地区存在前寒武纪地壳基底,推测本区还有一个尚未出露的古元古－新太古代的花岗质陆壳,这个陆壳正是元古代的陆源区。     

山东蒙阴金伯利岩侵位年代研究新成果

报道了山东蒙阴金伯利岩全岩及单矿物Ｒｂ－Ｓｒ同位素的系统定年结果，认为全岩—基质金云母Ｒｂ－Ｓｒ等时线年龄值（５６０Ｍａ±１０Ｍａ）代表了蒙阴金伯利岩岩浆侵位的主要活动期。     

新疆南天山大地构造研究新进展

扼要介绍了笔者近期在南天山大地构造研究方面取得的新成果：①发现晚志留世单笔石化石；②根据黑云母透闪石石英片岩等６０６Ｍａ的Ｒｂ－Ｓｒ等时线年龄，确认了库尔干前寒武纪构造窗；③根据蛇绿混杂岩硅质岩中放射虫化石时代和辉长岩斜长石单矿物（４０）Ａｒ／（３９）Ａｒ法高温坪年龄３３３．５１±８．７７Ｍａ，确认南天山存在晚古生代蛇绿岩。     

新疆南天山大地构造研究新进展

扼要介绍了笔近期在南天山在地构造研究方面取得的新成果：①发现晚志留世单笔石化石；②根据黑云母透闪石石英片岩等６０６Ｍａ的Ｒｂ－Ｓｒ等时线年龄，确认库尔干前寒武纪构造窗；③根据蛇绿混杂岩硅质岩中放射虫化石时代和辉长岩斜长石单矿物＾４０Ａｒ／＾３９Ａｒ法高温坪年龄３３３．５１±８．７７Ｍａ，确认南天山存在晚古生代蛇绿岩。     

北淮阳东段几组铷锶等时线年龄及其区域地质意义

采于北淮阳东段的４组全岩Ｒｂ－Ｓｒ等时线年龄表明：出露于金寨县李桥和肥西县防虎山的变质岩层为中元古界（１５９５～１７２６Ｍａ）；大别山北东缘变质表壳岩为晚元古代（７５９～８２２Ｍａ）佛子岭群成分     

赣中存在元古代华夏（古陆）变质基底的地球化学证据

赣中存在元古代华夏（古陆）变质基底的地球化学证据章邦桐，胡恭任（南京大学地球科学系，南京２１００９３）关键词赣中，元古代变质岩，微量元素比值聚类分析，对应分析经过多年研究和讨论，浙闽元古代“华夏古陆”的存在已得到国内地学界的一致肯定。多数学者称其为华...     

西藏东南部察隅地区德玛拉岩群的同位素年代学研究及其意义

青藏高原冈底斯地块东南部的德玛拉岩群为一套角闪岩相变质岩系,一直被认为是前寒武纪变质基底,但并没有可靠的年代学证据。论文对采自其中的黑云角闪片岩和黑云母石英片岩进行了锆石LA-ICP-MS U-Pb定年和黑云母³⁹Ar-⁴⁰Ar定年,测试表明,黑云角闪片岩原岩锆石U-Pb年龄为217.1Ma,由黑云母³⁹Ar-⁴⁰Ar获得的变质年龄为22.3Ma,黑云母石英片岩中碎屑锆石主要为岩浆成因,年龄范围主要集中在520~600Ma和900~1100Ma,黑云母³⁹Ar-⁴⁰Ar变质年龄为16.3Ma和22.3Ma。上述结果虽不能完全否定西藏东南部察隅地区前寒武纪基底变质岩系的存在,但至少说明现今的德玛拉岩群中还包含有遭受中生代岩浆侵入的古生代沉积岩,它们在新生代经历了变质和岩浆作用的再造,是一套变质杂岩。     

川西丹巴地区变质岩的Rb—Sr年代学研究

丹巴地区自中生代以来经历了多期的变形、变质和岩浆作用。根据变质程度差异划分出6个变质带：矽线石带、蓝晶石带、十字石带、石榴子石带、黒云母带和绢云母－绿泥石带。蓝晶石带十字石片岩和石榴石带斜长角闪岩与变玄武岩的矿物Rb－Sr等时线年龄分别为149.0±7.1Ma，160.0±13.0Ma和150.2±2.4Ma，它们代表该区最主要的一次区域动热变质事件年龄。本文还结合已有的年代学资料，讨论了丹巴地区变质作用演化史     

扬子地台西缘结晶基底的时代

对扬子地台西缘结晶基底变质地层以及岩浆片麻岩中变质地层残片或包裹体中锆石SHRIMP U-Pb同位素年龄研究表明,在康定地区辉长–闪长质片麻岩中,表壳岩包体—糜棱岩化的长英质片岩和宝兴地区黑云斜长角闪岩的年龄分别为816±8.6 Ma和826±13 Ma,代表了它们的原岩——酸性火山岩和火山凝灰岩的形成年龄;泸定地区变质岩层中长英质糜棱岩和斜长角闪岩的年龄分别为816±9 Ma和818±8 Ma,代表了中性火山岩和基性火山岩的形成时代;茨达地区斜长角闪岩和角闪黑云斜长片麻岩的年龄分别为830±7 Ma和827±10 Ma,代表了其原岩火山–沉积建造的形成时代。以上数据表明,所谓的结晶基底都是新元古代的产物,在形成时间上与盐边群、盐井群等褶皱基底的相一致,只是变质程度上略有差异。因此该区并不存在古老（太古宙—古元古代）的结晶基底。     

THE METAMORPHIC FEATURE,AGE AND MECHANISM OF AMUGANG GROUP IN NORTHERN TIBET

THE METAMORPHIC FEATURE,AGE AND MECHANISM OF AMUGANG GROUP IN NORTHERN TIBET     

Bulk chemical control on metamorphic monazite growth in pelitic schists and implications for U–Pb age data

Several petrographic studies have linked accessory monazite growth in pelitic schist to metamorphic reactions involving major rock‐forming minerals, but little attention has been paid to the control that bulk composition might have on these reactions. In this study we use chemographic projections and pseudosections to argue that discrepant monazite ages from the Mount Barren Group of the Albany–Fraser Orogen, Western Australia, reflect differing bulk compositions. A new Sensitive High‐mass Resolution Ion Microprobe (SHRIMP) U–Pb monazite age of 1027 ± 8 Ma for pelitic schist from the Mount Barren Group contrasts markedly with previously published SHRIMP U–Pb monazite and xenotime ages of c. 1200 Ma for the same area. All dated samples experienced identical metamorphic conditions, but preserve different mineral assemblages due to variable bulk composition. Monazite grains dated at c. 1200 Ma are from relatively magnesian rocks dominated by biotite, kyanite and/or staurolite, whilst c. 1027 Ma grains are from a ferroan rock dominated by garnet and staurolite. The latter monazite population is likely to have grown when staurolite was produced at the expense of garnet and chlorite, but this reaction was not intersected by more magnesian compositions, which are instead dominated by monazite that grew during an earlier, greenschist facies metamorphic event. These results imply that monazite ages from pelitic schist can vary depending on the bulk composition of the host rock. Samples containing both garnet and staurolite are the most likely to yield monazite ages that approximate the timing of peak metamorphism in amphibolite facies terranes. Samples too magnesian to ever grow garnet, or too iron‐rich to undergo garnet breakdown, are likely to yield older monazite, and the age difference can be significant in terranes with a polymetamorphic history.     

A new understanding of Demala Group complex in Chayu Area,southeastern Qinghai-Tibet Plateau: Evidence from zircon U-Pb and mica 40Ar/39Ar dating

The Chayu area is located at the southeastern margin of the Qinghai-Tibet Plateau. This region was considered to be in the southeastward extension of the Lhasa Block, bounded by Nujiang suture zone in the north and Yarlung Zangbo suture zone in the south. The Demala Group complex, a set of high-grade metamorphic gneisses widely distributed in the Chayu area, is known as the Precambrian metamorphic basement of the Lhasa Block in the area. According to field-based investigations and microstructure analysis, the Demala Group complex is considered to mainly consist of banded biotite plagiogneisses, biotite quartzofeldspathic gneiss, granitic gneiss, amphibolite, mica schist, and quartz schist, with many leucogranite veins. The zircon U-Pb ages of two granitic gneiss samples are 205 ± 1 Ma and 218 ± 1 Ma, respectively, representing the ages of their protoliths. The zircons from two biotite plagiogneisses samples show core-rim structures. The U-Pb ages of the cores are mainly 644 –446 Ma, 1213 –865 Ma, and 1780 –1400 Ma, reflecting the age characteristics of clastic zircons during sedimentation of the original rocks. The U-Pb ages of the rims are from 203 ± 2 Ma to 190 ± 1 Ma, which represent the age of metamorphism. The zircon U-Pb ages of one sample taken from the leucogranite veins that cut through granitic gneiss foliation range from 24 Ma to 22 Ma, interpreted as the age of the anatexis in the Demala Group complex. Biotite and muscovite separates were selected from the granitic gneiss, banded gneiss, and leucogranite veins for ⁴⁰Ar/³⁹Ar dating. The plateau ages of three muscovite samples are 16.56 ± 0.21 Ma, 16.90 ± 0.21 Ma, and 23.40 ± 0.31 Ma, and the plateau ages of four biotite samples are 16.70 ± 0.24 Ma, 16.14 ± 0.19 Ma, 15.88 ± 0.20 Ma, and 14.39 ± 0.20 Ma. The mica Ar-Ar ages can reveal the exhumation and cooling history of the Demala Group complex. Combined with the previous research results of the Demala Group complex, the authors refer that the Demala Group complex should be a set of metamorphic complex. The complex includes not only Precambrian basement metamorphic rock series, but also Paleozoic sedimentary rock and Mesozoic granitic rock. Based on the deformation characteristics, the authors concluded that two stages of the metamorphism and deformation can be revealed in the Demala Group complex since the Mesozoic, namely Late Triassic-Early Jurassic (203 –190 Ma) and Oligocene –Miocene (24 –14 Ma). The early stage of metamorphism (ranging from 203 –190 Ma) was related to the Late Triassic tectono-magmatism in the area. The anatexis and uplifting-exhumation of the later stage (24 –14 Ma) were related to the shearing of the Jiali strike-slip fault zone. The Miocene structures are response to the large-scale southeastward escape of crustal materials and block rotation in Southeast Tibet after India-Eurasia collision.©2021 China Geology Editorial Office.     

Textural relations,P-T path,polymetamorphism and also geodynamic significance of metamorphic rocks of the Aligudarz-Khonsar region,Sanandaj-Sirjan zone,Iran

The metamorphic rocks of the Aligudarz-Khonsar region can be divided into nine groups: slate, phyllite, sericite schist, biotite-muscovite schist, garnet schist, garnet-staurolite schist, staurolite schist, mylonitic granite, and marble. In this metamorphic region, four phases of metamorphism can be identified (dynamothermal, thermal, dynamic and retrograde metamorphism) and there are three deformation phases (D1, D2 and D3). Paleozoic pelagic shales experienced prograde metamorphism and polymetamorphism from the greenschist to amphibolite facies along the kyanite geotherm. The metapelites show prograde dynamothermal metamorphism from the greenschist to amphibolite facies. Maximum degree of dynamothermal metamorphism is seen in the Nughan bridge area. Also development of the mylonitic granites in the Nughan bridge area shows that dynamic metamorphism in this area was more intense than in other parts of the AligudarzKhonsar metapelitic zone. The chemical zoning of garnets shows three stages of growth and syn-tectonic formation. With ongoing metamorphism, staurolite appeared, and the rocks reached amphibolite facies, but the degree of metamorphism did not increase past the kyanite zone. Thus, metamorphism of the pelitic sediments occurred at the greenschist to amphibolite facies (kyanite zone). Thermodynamic studies of these rocks indicate that the metapelites in the Aligudarz-Khonsar region formed at 490–550°C and 0.47–5.6 kbar.     

赣中变质岩带中矽线石的初步研究

赣中变质岩带在空间上具递增变质带分布特征,根据随变质作用增强而出现的新变质矿物及矿物组合划分出绢云母绿泥石带、黑云母带、铁铝石带、十字石带、矽线石带,部分地段还出现混合岩带。矽线石发育于矽线石带的含榴矽线云母片岩、含矽线斜长变粒岩中,化学成分与其寄主岩石的化学成分、成物成分有一定的关系,富含Al、K和云母的含榴矽线云母片岩,其中的矽线石中Al含量相对高,K含量很低。而富含Si、Ca、Na、K和斜长石,贫Al和云母的含矽线斜长变粒岩,其中的矽线石中Al、Na含量相对稍低,K含量稍高。