Plume-lithosphere interaction in the Comei Large Igneous Province: Evidence from two types of mafic dykes in Gyangze, south Tibet, China

Two suites of mafic dykes,T1193-A and T1194-A,outcrop in Gyangze area,southeast Tibet.They are in the area of Comei LIP and have indistinguishable field occurrences with two other dykes in Gyangze,T0902 dyke with 137.7±1.3 Ma zircon age and T0907 dyke with 142±1.4 Ma zircon age reported by Wang YY et al.(2016),indicating coeval formation time.Taking all the four diabase dykes into consideration,two different types,OIB-type and weak enriched-type,can be summarized.The“OIB-type”samples,including T1193-A and T0907 dykes,show OIB-like geochemical features and have initial Sr-Nd isotopic values similar with most mafic products in Comei Large Igneous Provinces(LIP),suggesting that they represent melts directly generated from the Kerguelen mantle plume.The“weak enriched-type”samples,including T1194-A and T0902 dykes,have REEs and trace element patterns showing withinplate affinity but have obvious Nb-Ta-Ti negative anomalies.They show uniform lowerεNd(t)values(−6‒−2)and higher 87Sr/86Sr(t)values(0.706‒0.709)independent of their MgO variation,indicating one enriched mantle source.Considering their closely spatial and temporal relationship with the widespread Comei LIP magmatic products in Tethyan Himalaya,these“weak enriched-type”samples are consistent with mixing of melts from mantle plume and the above ancient Tethyan Himalaya subcontinental lithospheric mantle(SCLM)in different proportions.These weak enriched mafic rocks in Comei LIP form one special rock group and most likely suggest large scale hot mantle plume-continental lithosphere interaction.This process may lead to strong modification of the Tethyan Himalaya lithosphere in the Early Cretaceous.

Baddeleyite and zircon U-Pb ages of the ultramafic rocks in Chigu Tso area,Southeastern Tibet and their constraints on the timing of Comei Large Igneous Province

A suite of ultramafic and mafic rocks developed in the Chigu Tso area,eastern Tethyan Himalaya.Baddeleyite and zircon U-Pb ages acquired by SIMS and LA-ICP-MS from olivine pyroxenite rocks in the Chigu Tso area are 138.9±3.0 Ma and 139.0±1.9 Ma,respectively.These two Early Cretaceous ages are similar with the ages of the more abundant mafic rocks in the eastern Tethyan Himalaya,indicating that this suite of ultramafic and mafic rocks in the Chigu Tso area should be included in the outcrop area of the Comei Large Igneous Province(LIP).These ultramafic rocks provide significant evidence that the involvement of mantle plume/hot spot activities in the formation of the Comei LIP.Baddeleyite U-Pb dating by SIMS is one reliable and convenient method to constrain the formation time of ultramafic rocks.The dating results of baddeleyite and zircon from the olivine pyroxenite samples in this paper are consistent with each other within analytical uncertainties,suggesting that baddeleyite and zircon were both formed during the same magmatic process.The consistency of baddeleyite U-Pb ages in the Chigu Tso area with zircon U-Pb ages for a large number of Early Cretaceous mafic rocks in the eastern Tethyan Himalaya further support that zircon grains from such mafic rocks yielding Early Cretaceous ages are also magmatic in origin.

Quantitative Zoning Assessment of Crustal Stability Along the Yunnan-Tibet Railway Line,Western China

The planned Yunnan-Tibet railway goes through the northwest of Yunnan Province and the southeast of the Tibet Autonomous Region. Because of its location near the collision belt of the Eurasian and Indian plates, complex engineering geological conditions and difficult engineering geological problems are encountered. The study is aimed at making the zoning assessment of crustal stability along the railway line so as to provide a better base for its construction, especially its line selection. For this purpose, the following seven influencing factors of crustal stability were selected and quantified by grading and scoring： active fault, seismic activity, geo-stress field, geo-strain field, geothermal field, geo-hazard, and lithologic character. Of these factors, the active fault, seismic activity and geo-hazard are the three most prominent factors influencing the railway construction. Along the railway line there are 1731703 calculation units to be divided. The zoning assessment calculation was completed by ArcGIS-based information fusion method. The assessment results aid railway line selection and show that there are 10 stable sectors, 28 relatively stable sectors, 23 relatively unstable sectors, and 20 unstable sectors along the Yunnan-Tibet railway line.

Cu-Ni-PGES MINERALIZATION OF MELANOCRATIC ROCKS IN SOUTHEAST MARGIN OF THE QINGHAI-XIZANG(TIBET) PLATEAU, HKT

The Panxi Rift Zone is a famous metallogenic province in Southwest China. Continental rifting developed in Hercynian period (P 2, 260～250Ma) accompany with a series of basic\|ultrabasic rocks. Various in lithologies, such as layered intrusions (V\|Ti\|Fe formation), small\|sized mafic\|ultramafic bodies (stocks) and large\|scale basalt (Emeishan Basalt) are constituted of a complete melanocratic rock system.Most of Cu\|Ni\|PGE sulfide deposits are related to small\|sized ultramafic rock bodies. It is a perfect possibility for them to be an affinity of basic eruptive lava and for the neck facies. But in ① Panzhihua\|Center Yunnan Province, the Gaojiacun, also Jinbaoshan, as large stratiform basic\|ultrabasic complex used to be thought that is older one intruded to basement rocks in Precambrian. However, new evidences suggest it is similar with the small\|sized ultramafic rock bodies containing Cu\|Ni\|PGE, and also the both are affinity of the Emeishan Basalt; ② Miyi district, Cu\|Pt mineralization was discovered in the Xinjie bedded basic complex, and in where ophitic olivine\|pyroxenite\|peridotite facies are exactly Pt\|bearing layers; ③ Longzhoushan district, we have recently researched basic\|ultrabasic clusters which intruded into fracture zones, and Cu\|Ni\|Pt, Pd mineralization developed at the salbands.Generally, the basalt is poor in PGE and rich in Cu. It is suggested as the result of PGE dispersion\|concentration processing in the melanocratic rock system when rifting happened.

滇西新生代超钾质煌斑岩的元素和Sr-Nd同位素特征及其对岩石圈地幔组成的制约

系统分析了滇西早第三纪晚期煌斑岩的主元素、微量元素和Sr-Nd同位素组成。绝大多数煌斑岩属超钾质系列岩石(K2O/Na2O=2.1～5.2),少数为钾玄质系列(K2O/Na2O=1.6～1.7)。这些超钾质煌斑岩富集大离子亲石元素、轻稀土元素和Pb,亏损高场强元素,具有高的初始87Sr/86Sr比值(0.70624～0.70924)和负的εNd(t)值(-1.7～-4.6),类似于与俯冲环境有关的高K/Ti-低Ti钾质系列岩石。这些超钾质煌斑岩母岩浆来源于含金云母的交代地幔,经历了不同程度的结晶分异和地壳物质的同化混染。与藏北钾玄质系列岩石相比,滇西超钾质煌斑岩的Th/U比较低、Rb/Sr比较高,而且Nd模式年龄系统偏低0.1～0.4Ga,表明青藏高原北部和东南部岩石圈地幔组成存在区域性的差异。

青海省石炭纪—三叠纪岩相古地理

青海省位于青藏高原北部,由于特殊的大地构造位置,岩相古地理比较复杂,因此相对中国其他省份来说,岩相古地理研究程度较低,这在一定程度上制约了资源勘查工作。作者以近年来青藏高原地质工作获得的大量最新区域地质、煤炭勘查及石油地质资料与研究成果为基础,通过实地测量和收集青海省所有含煤地层剖面,首次编制了青海省石炭纪、二叠纪、三叠纪岩相古地理图,探讨了石炭纪、二叠纪、三叠纪煤炭资源沉积环境。石炭纪青海省北部为柴达木古陆及祁连古陆,自北而南有宗务隆海槽、祁漫塔格海槽、阿尼玛卿海槽及金沙江海槽。二叠纪至三叠纪,阿尼玛卿有限洋盆、西金乌兰有限洋盆及金沙江有限洋盆形成。该项工作为进一步编制青海省主要成煤期世一级岩相古地理图奠定了基础,对于青海省主要成煤区煤炭成矿预测及靶区优选目标的实现具有重要的现实意义。

西藏工布江达县亚贵拉铅锌矿床地质特征及成因分析

西藏工布江达县亚贵拉铅锌矿床位于狮泉河-纳木错-嘉黎结合带南侧,隆格尔-工布江达弧后断隆带内,矿体产于上石炭-下二叠统来姑组变石英砂岩与大理岩岩性转换部位,呈层状、似层状产出,其产状与地层一致。文章通过对矿床地质、地球化学特征和流体特征的研究,分析了矿床成因。矿区岩、矿石稀土元素地球化学特征及硫同位素分析表明,成矿物质主要来自深部物源区,氢、氧同位素资料证明成矿溶液为岩浆水和变质水组成的混合水,矿床既具有明显的热水沉积成因特征,又受后期岩浆热液的强烈叠加,属热水沉积-岩浆热液叠加改造型矿床。

藏东南措美大火成岩省中OIB型镁铁质岩的全岩地球化学和锆石Hf同位素

西藏南东部新识别出来的措美大火成岩省的地幔柱头部物质成分尚未得到很好的约束。为探讨此问题,在全岩地球化学数据基础上,本文首次报道了藏东南措美大火成岩省中机布淌、打隆、措美和哲古错OIB型镁铁质岩的锆石Hf同位素和微量元素数据。本文报道的OIB型镁铁质岩包括碱性(组Ⅰ)和亚碱性(组Ⅱ)系列的辉长岩和辉绿岩,以岩墙或岩床的形式产出。这些镁铁质岩具有高的TiO2(2.61%～4.07%)和P2O5(0.32%～0.51%)含量,富集轻稀土元素和高场强元素,地球化学特征类似于OIB。全岩微量元素地球化学指标显示组Ⅰ样品没有或很少受到地壳混染,组Ⅱ样品经历了较高程度的地壳混染。组Ⅰ中一件样品(JBT03-1)具有变化范围大的锆石εHf(t)值(-4.8～+5.3),可能暗示其受到了地壳和/或岩石圈地幔物质的混染。本文结果表明锆石Hf同位素比全岩地球化学数据能够更为有效地识别基性岩浆是否受到地壳和/或岩石圈地幔物质混染。措美大火成岩省中的OIB型镁铁质岩样品(组Ⅰ和组Ⅱ),具有不同于俯冲带镁铁质岩和洋壳镁铁质岩的锆石稀土元素配分型式和锆石Ti温度,这可能是岩浆源区温度和成分不同的结果。综合考虑全岩地球化学和锆石Hf同位素指标,本文提出未受到地壳或岩石圈地幔混染的打隆镇辉长岩体(以组I中的DL01样品为代表)很可能代表了措美大火成岩省纯的地幔柱头部物质成分[87Sr/86Sr(t)=0.7047,εNd(t)=+1.5,εHf(t)=+2.1～+5.7]。这些成分与代表白垩纪Kerguelen地幔柱头部物质的Site1138和Bunbury Casuarina玄武岩非常相似,可能指示措美大火成岩省中的OIB型镁铁质岩本身就是Kerguelen地幔柱头部物质发生减压熔融的产物。

云南和西藏十字花科蔬菜根肿病菌生理小种鉴定

采用Williams划分十字花科作物根肿病菌生理小种的鉴别系统,对十字花科蔬菜根肿病的云南省42个样品和西藏地区13个样品进行生理小种鉴定。结果表明:从云南省样品中鉴定出9个生理小种,分别为1号、2号、4号、6号、7号、10号、11号、12号和13号,从西藏自治区样品中鉴定出4个生理小种,分别为2号、4号、5号和7号,其中,生理小种4号为这两个地区的优势小种,所占样品的比例分别为61.9%和53.8%。

西藏雅鲁藏布江成矿区斑岩型铜矿基本特征与找矿潜力

雅鲁藏布江成矿区位于青藏高原腹地,地质工作程度极低,但成矿条件十分有利。近年来中国地质调查局在该成矿区部署开展"十五"期间重点实施项目"雅鲁藏布江成矿区铜多金属资源调查评价",通过几年的工作,在斑岩铜矿资源评价方面取得了重要进展,目前已初步控制了4个大型远景的斑岩型铜矿床,新提出了一批可供进行预查或普查的新矿产地,初步揭示出该成矿区铜矿资源的巨大潜力,中国西部又一大型铜矿产资源基地的前景在西藏已经初步显现。

四川及藏东南荞麦资源的调查研究

本文叙述了2010年中国农业科学院农业生物资源考察队对四川及藏东南荞麦资源的详细调查结果。考察队共调查了40个乡镇的120个村,360余个村小组,共获得荞麦资源88份,其中苦荞资源64份,甜荞资源20份,野生荞麦资源4份。当地少数民族认知有价值的荞麦资源分别是长锥大粒型资源、短锥皮薄型资源、抗病资源、抗虫资源、抗旱资源和抗寒资源等。

林芝地区八一镇食蚜蝇科访花昆虫区系(双翅目)

记述西藏林芝地区八一镇食蚜蝇科的访花昆虫2亚科46种,隶属于8族、28属,其中包括西藏新纪录22种。它的区系特点是:单纯的古北区(8种)、东洋区(7种)种类数量基本相当,古北+东洋区共有种丰富,所占比例最大(占30.43%),而且新北区、非洲区、澳洲区的种类也占有一定比例。

西藏二叠纪植物古地理分区研究

本文就西藏地区二叠纪植物群研究进行了综述和讨论,在植物群分析的基础上对本区古植物地理分区进行了研究,进而探讨了它在植物古地理再造方面的意义。依据植物群的组成和性质将西藏地区划分为藏南、藏中和藏北3个古植物地理分区,即藏南(喜马拉雅区)冈瓦纳北部边缘植物地理区、藏中(冈底斯—念青唐古拉区)华夏—冈瓦纳植物地理过渡区和藏北(唐古拉区)华夏植物地理区。

西藏大冈底斯北部金属矿床成矿系列研究

依据近年西藏自治区矿产资源大调查的资料与西藏自治区矿产资源潜力评价研究获得的系统、详细的矿产资源资料,编写论述了西藏大冈底斯北部(包括班公湖-怒江成矿带、北冈底斯成矿带、中冈底斯成矿带三个成矿带)的矿产地质特征及成矿分布规律与成矿系列。班公湖-怒江成矿带包括燕山早期(洋盆形成时期,如东巧铬矿)及燕山中晚期(陆内俯冲挤压时期,如屋索拉金矿)岩浆作用有关矿床成矿系列和那曲-洛隆盆地与喜马拉雅期流体作用有关(如纳多弄铅矿)矿床成矿系列;北冈底斯成矿带矿床主要分布在申扎—嘉黎一线的北部地区(亦称冈底斯北矿带),包括玉古拉镍矿(燕山早期,岩浆岩型)、舍索铜矿(燕山中晚期,矽卡岩型为主)、尤卡朗-昂张铅矿(燕山中晚期,热液型为主)、俄龙呷砷矿(燕山晚期—喜马拉雅早期,流体-改造型为主)四个地区不同类型矿床成矿系列;中冈底斯成矿带包括近东西向两个成矿亚带,北边为革吉-雄巴-文部成矿亚带燕山中晚期(如尕尔铜金矿)及狮泉河-申扎弧-盆系演化期岩浆热液成矿作用的矿床成矿系列,南边为朗久-塔诺错-纳木错成矿亚带喜马拉雅中晚期(如甲岗钨钼铋矿)岩浆热液成矿作用的矿床成矿系列。

西藏羌塘-三江区金属矿床成矿系列研究

本文依据近年西藏自治区矿产资源大调查的资料与西藏自治区矿产资源潜力评价研究获得的系统、详细的矿产资源资料,系统总结了西藏自治区金属矿床成矿系列及矿床成矿谱系,重点论述了喀喇昆仑(羌塘)-三江成矿省(含西金乌兰-金沙江成矿带、北羌塘-昌都成矿带及喀喇昆仑-他念他翁成矿带)的矿产地质特征及成矿分布规律与成矿系列。羌塘-三江成矿区除喀喇昆仑-他念他翁成矿带(Ⅲ-37)的多龙、美多及当曲等矿床分布在南羌塘与他念他翁地区外,其他主要矿床都分布在藏东三江地区。羌南地区主要有与燕山中晚期岩浆作用有关(如多龙铜矿)矿床成矿系列、与新生代流体-改造有关(如美多锑矿)矿床成矿系列和与燕山中晚期层控热液-改造有关(如当曲铁矿)矿床成矿系列。喜马拉雅期在藏东三江地区的成矿事件是非常重要的金属矿床成矿事件。造山带产生大规模走滑-伸展、推覆-剪切及其伴生的富钾碱性斑岩(岩浆热液)、弧后前陆盆地两侧推覆形成的盆地流体系统(以热液对流系统为特征),构成了玉龙铜矿为代表的Cu-Mo-Ag成矿系列和拉诺玛铅矿为代表的Pb-Zn-Sb成矿系列,及美多锑矿为代表的Sb-Ag成矿系列。

基于能值的青藏高原边缘区域农业生态系统可持续发展分析——以四川省阿坝藏族羌族自治州为例

运用能值理论对四川省阿坝州农业生态系统进行定量分析与评估。结果表明,1952～2005年期间,阿坝州农业生态系统总能值投入从1.126×1022sej·a?1增加到1.661×1022sej·a?1,总能值产出从5.002×1020sej·a?1增加到1.383×1022sej·a?1,生态功能潜力从54.08%下降到37.02%,人口基本承载力从19.94万人增加到31.51万人,能值自给率从74.58%下降到54.13%,能值投资率从34.0%上升到85.0%,能值密度从1.34×1011sej·m?2上升到1.97×1011sej·m?2,能值货币比率从4.93×1014sej·$?1降低到1.81×1013sej·$?1,环境负荷率从0.85上升到1.70,净能值产出率从0.18上升到1.82,可持续发展指数从0.20增加到1.07。研究结果表明,阿坝州农业生态系统生产效率不断提高,而生态旅游业对阿坝州农业生态系统的活力和发展潜力至关重要;阿坝州农业生态系统的工业辅助能投入不足,系统的发展建立在对自然资源消耗的基础上,有不可持续的危险。并以此为据,提出了促进阿坝州农业生态系统可持续发展的几点建议。

西藏阿里地区二叠纪双壳类化石

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