东天山小石头泉铜多金属矿区火山岩-次火山岩地球化学与成矿构造背景

小石头泉铜多金属矿位于新疆哈密市东北200km,在区域地质构造上处于东天山哈尔里克岛弧东段。本文主要对矿区火山岩的主量、微量元素及同位素组成进行测试和研究。含矿岩石以流纹斑岩、英安岩、英安斑岩为主,SiO_2含量为51.96%～72.58%,Na_2O+K_2O 为3.1%～7.73%,计算里特曼指数σ<3.3,显示具有钙碱性岩的特征;稀土元素配分形式为轻稀土相对富集,其中英安岩 Eu 负异常比安山岩更为明显,说明源区有斜长石的残留或岩浆演化经历了结晶分异作用;微量元素具有典型的岛弧火山岩的地球化学特征,如 Ta、Nb、Ti 等元素较板内火山岩的明显亏损;岩石初始锶(^(87)Sr/^(86)Sr)_i 平均值为0.7043,εNd(t)为4.7,反映火山岩形成源区以幔源为主,混有部分壳源物质。以上岩石地球化学研究结果表明,该区火山岩形成于火山岛弧环境。通过与东天山大南湖岛弧火山岩对比,发现两地区的同时代火山岩地球化学属性存在一定差异,大南湖岛弧火山岩区以发育 Adakite 岩为特征,而哈尔里克岛弧缺少Adakite 岩,可能反映该区火山岩的形成与部分熔融的洋壳交代地幔楔有关。本文认为小石头泉地区为典型火山岛弧环境,有利于火山热液型多金属矿床的形成。

新疆东天山寨北山铜矿区火山岩地球化学特征及地质意义

新疆东天山觉罗塔格构造带南缘寨北山铜矿区出露的下石炭统雅满苏组火山岩以中酸性火山岩为主，岩石类型包括安山玢岩和流纹岩，夹少量玄武安山岩以及同成分的火山碎屑岩。岩石主要为钙碱性系列，具富铝（Al2O3=12．23％-18．17％，平均15．5％）、低钛（TiO2=0．12％～1．1％，平均0．55％）的特征；稀土元素整体上呈现轻稀土相对富集、重稀土相对亏损的右倾型稀土配分模式，富集K、Rb、Pb、Th等大离子亲石元素（LILE）、亏损Nb、Ta、Ti等高场强元素（HFSE）；Ta／Yb值、Zr／Nb值、Zr／Y值分别为0．10～0．27、15．97～38．34和4．11—12．55。其可能形成于早石炭世古康古尔洋向南俯冲作用的岛弧环境，为俯冲洋壳与地幔楔岩石交代反应的产物。铜矿体赋存于雅满苏组火山岩中，虽与铁矿的赋矿地层雅满苏组时代相同，但赋矿火山岩岩石类型和地球化学特征不同，铜矿床含矿岩体可能是板片俯冲下大洋板片熔融，在岩浆熔融上升过程中同时析出金属，与地幔楔发生交代作用，在合适位置富集成矿。

西藏冈底斯带洛巴堆组火山岩地球化学及构造意义

冈底斯带中-新生代火山岩的成因和地质演化是青藏高原地质研究的热点领域,但是对晚古生代火山岩的性质及其形成的构造背景仍缺乏研究。冈底斯带二叠系显示缓慢的海退过程,并伴随基性和中酸性两期火山活动,具有活动大陆边缘特征。笔者对墨竹工卡县唐家乡和林周县勒青拉地区二叠纪洛巴堆组火山岩进行了常量、微量元素和Sr、Nd、Pb同位素地球化学测试。研究认为二叠纪是冈底斯岛弧的形成和演化时期。洛巴堆组玄武岩从下部(可能为早二叠世)到上部(中二叠世),MgO含量从7.43%降到3.99%,Al_2O_3含量从15.54%上升到17.57%,后者类似于岛弧高铝玄武岩;稀土总量∑REE从54.12(10^(-6))上升到108.82(10^(-6)),LREE/HREE比值从3.00上升到5.40。洛巴堆组玄武岩均具有明显的Nb、Ta负异常,但中二叠世更显著。岩石地球化学示踪表明,冈底斯洛巴堆组玄武岩代表二叠纪初始岛弧环境。早期玄武岩形成于略亏损地幔和下地壳成分的混合源区,地壳相对较薄,源区或岩浆的壳源成分比例较低。到中二叠世地壳逐渐加厚,壳源成分在源区或岩浆中所占比例增大,代表向陆缘弧的演化过程。冈底斯带二叠纪岛弧是古特提斯洋向南的俯冲、消减的产物。

内蒙古西部额济纳旗及邻区上石炭统-下二叠统阿木山组火山岩的地球化学特征

分析了上石炭统小独山阶—下二叠统紫松阶阿木山组玄武岩地球化学特征,对玄武岩类型、岩石特征、构造环境等进行了探讨,结合前人的研究成果,阐述了石炭纪—二叠纪盆地的基本性质。Zr/TiO2-Nb/Y、SiO2-TFeO/MgO和Zr-Y-Nb图解显示,玄武岩类型主要为亚碱性的拉斑玄武岩;稀土元素球粒陨石配分模式为右倾曲线,(La/Yb)N值较高,轻重稀土元素分馏较强,(Gd/Lu)N值相对较低,重稀土元素分馏较弱,δEu在0.87～1.11之间,无明显Eu异常;N-MORB标准化的微量元素蛛网图显示,K2O、Rb、Ba、Th等不相容元素富集,Hf、Nb、Y等亏损。Zr-Zr/Y和Ta/Hf-Th/Hf构造环境图解表明,该玄武岩产于陆内裂谷,指示晚石炭世—早二叠世额济纳旗及其邻区已进入了陆内演化阶段,为拉张作用下的陆内裂谷(裂陷)盆地。

辽河盆地沙三期火山-侵入岩地球化学与岩石成因

辽河盆地沙三期火山-侵入岩为一套偏碱性的双峰式岩系,其基性端元为碱性玄武岩,中偏碱性端元为粗面质熔岩和侵入岩。碱性玄武岩富集高场强元素(如Nb、Th、Zr、Hf、V等)和轻稀土、Sr、Ba等大离子亲石元素,而亏损Rb和K,具有与板内碱性玄武岩和洋岛玄武岩类似的特征。粗面质岩石显示与基性端元相似的地球化学特征,其不相容元素含量总体上高于碱性玄武岩,但具强烈的Sr和Eu亏损。矿物学、岩石学及地球化学证据表明,玄武质岩石是软流圈地幔低程度部分熔融的产物,并经历了橄榄石和辉石的分离结晶作用,其源区可能有金云母和石榴石残留。玄武质岩浆上升到较浅部位后进一步发生橄榄石、辉石、斜长石和磁铁矿等的分离结晶作用而形成粗面质岩浆,地壳物质混染作用不显著。

东非裂谷系统(EARS)地幔柱成因的新生代火山作用地球化学标志

本文应用岩浆岩地球化学图解对东非裂谷系统(EARS)火山岩的岩石地球化学数据进行处理,重点回顾和讨论埃塞俄比亚大裂谷(MER)、阿法(Afar)盆地及肯尼亚裂谷火山作用的构造环境和地幔柱成因。MER火山岩的岩石类型具双峰式火山岩套特征,以高Ti的大陆溢流玄武岩(CFB)-大陆洋岛玄武岩(OIB)-流纹岩系列为主,缺少中性岩,是来自地幔柱岩浆分异的结果,与板块俯冲作用无关。阿法(Afar)盆地和红海为CFB-MORB系列。肯尼亚裂谷(KR)及埃塞俄比亚大裂谷最南端图尔卡纳盆地只见以大陆OIB,缺乏流纹岩。EARS是一个主动型地幔柱,由地幔上涌冲击地壳底部而成,其火山岩以富集常量元素Ti、Fe和Mg,富集高场强元素Nb、Ta和相容元素V、Cr、Co和Ni为特征。绝大多数EARS火山岩的Nb/Zr>0.04和Ta/Hf比值>0.1,在地球化学-构造环境判别图上落在板内火山岩的范围内(大洋板内和地幔柱),集中在Nb/Zr>0.15和Ta/Hf比值>0.3范围内的火山岩样品可能为主动地幔柱成因。根据La/Nb、Ce/Pb和Ba/La比值,地幔柱成因的MER火山岩可分为受地壳混染地幔和未受地壳混染的原始地幔两种类型。La/Nb(≤1)、Ce/Pb(30~50)、Ba/Nb比值(>10)和La/Yb≤12是来源于未受地壳混染原始地幔的重要判别标志。地球化学证据(微量元素,Sr-Nd-Pb-He同位素)表明,MER-阿拉伯-也门地幔柱起源于深部核-幔边界的HIMU。MER-Afar的前裂谷和同裂谷火山岩(50-12 Ma)具有高的3He同位素标志(R/Ra比值>16.4)说明其非洲板块之下存在一个深藏的地幔岩浆源深度大于670 km,位于石榴子石-尖晶石橄榄岩过渡带(图6b、c、d)。MER-Afar大火山岩省及其最南端图尔卡纳湖和肯尼亚地体(克拉通,改造的克拉通边缘和活动带)深部地壳底部之下的HIMU地幔可能是导致裂谷型的OIB和CFB异常发育的岩浆源区,而Afar洼地(吉布提)、红海和亚丁湾形成于后裂谷期(5~0 Ma)的MORB和亏损LREE玄武岩则归因于HIMU、富集地幔(EM1-EM2)与DM混合地幔源的熔融,其岩浆源区位地壳拉张减薄带之下的尖晶石橄榄岩区。

西藏冈底斯带石炭纪陆缘裂陷作用:火山岩和地层学证据

冈底斯作为重要的中、新生代岛弧岩浆岩带,历来是青藏高原最热门的地质研究领域,但是对晚古生代火山岩的性质及其形成的构造背景仍缺乏研究。本文在区域地质调查资料的基础上,对冈底斯带石炭纪火山-沉积岩系进行了系统的地层学和岩石地球化学研究,测量了重点剖面,对火山岩进行了常量、微量元素和Sr、Nd、Pb同位素地球化学测试。研究表明,石炭系与下伏泥盆系或前寒武系之间普遍存在不整合或岩性、沉积相的突变面,代表重要的构造转换面。石炭纪的沉积环境大致有两次滨海-深海或深水斜坡-滨海沉积演化旋回,深海-深水斜坡沉积或冰海相含砾板岩与两次火山活动伴生。石炭纪火山岩主要为安山玄武岩和英安岩、流纹岩类,略具双峰式火山岩特点。安山玄武岩类的成分与典型MORB和岛弧玄武岩相比,具有MgO含量低,TiO2、Al2O3、P2O5含量高等特点,稀土和微量元素为LREE和LILE富集型分配模式,与大陆拉斑玄武岩相似。石炭纪酸性火山岩的稀土和微量元素地球化学特征与陆内流纹岩相似。岩石地球化学示踪和地层学研究表明,冈底斯带石炭纪为伸展背景下的冈瓦纳陆缘裂陷环境。火山岩的源区地幔具有典型的Dupal异常,发生过复杂的混合作用,涉及到原始地幔、富集地幔EMII和地壳成分等,说明发生过冈瓦纳古陆壳俯冲、再循环进入古老地幔等过程。玄武岩类成分的某些特殊性,可能与源区混合作用有关。

内蒙古扎鲁特旗香山镇地区大石寨组火山岩年代学、地球化学特征及其地质意义

内蒙古地区的二叠统大石寨组火山岩的成因及形成环境说法不一,众说纷纭。内蒙古扎鲁特旗香山镇地区大石寨组火山岩为一套中酸性火山熔岩-碎屑岩组合。锆石U-Pb测年结果显示大石寨组火山岩的年龄为264.0±1.2 Ma(MSWD=0.80),为中二叠世早期。岩石地球化学数据表明:扎鲁特旗香山镇地区大石寨组火山岩属于过铝质高钾钙碱性岩石(Al_(2)O_(3))均值16.90%;全碱(K_(2)O+Na_(2)O)平均值为7.45%;A/CNK平均值1.10)。轻重稀土分馏明显((La/Sm)_(N)为1.43~1.45),((La/Yb)_(N)为10.14~12.6);稀土元素总量偏低(ΣREE为137.36~158.45×10^(-6));δEu位0.90~1.07,均值0.97。没有显示明显的负铕异常(δEu=0.90~1.07);稀土元素分配模式为右倾型。富集大离子亲石元素Rb,Ba,Th,K和Sr;而高场强元素Ti,P,Ta,Nb较为亏损。其形成机制可能由地幔楔部分的熔融,同时在俯冲过程有洋壳沉积物和俯冲流体的混入。该组火山岩形成于活动大陆边缘弧的环境下,构造背景为古亚洲洋板块向北俯冲作用,且古亚洲洋在中二叠世早期未曾闭合。

天水地区丹凤群中火山岩的地球化学特征及地质意义

丹凤群分布于天水市南部,向东延入陕西凤县。通过原岩恢复,其下部层位的岩石以变玄武岩为主,夹安山岩、石英岩、大理岩,中部为变石英砂岩夹玄武岩、薄—微层状石英岩夹安山岩、英安岩,上部为玄武岩、玄武安山岩、安山岩、石英砂岩、大理岩夹流纹岩及硅质条带。火山岩为碱性—拉斑系列,锶同位素初始比值低,地球化学特征与岛弧玄武岩的地球化学模型相似。通过对丹凤群火山岩地质特征、岩石组合、岩石地球化学特征的综合分析,认为丹凤群的沉积环境,处于当时的秦岭古陆南侧的古大洋岛弧。

晚侏罗-早白垩世郯庐断裂平移性质的探讨

通过晚侏罗世-早白垩世郯庐断裂带的应力场性质、盆地原型展布及构造环境分析,并结合同一时期大别造山带北缘火山岩主量元素、稀土元素的地球化学特征,认为大别造山带北缘和郯庐断裂带西侧区域为伸展构造环境,主张应力方向为北西西-南东东,郯庐断裂带在晚侏罗世-早白垩世应为右行平移伸展活动。

Petrogenesis of high-Mg# Cenozoic volcanic rocks of southern Qiangtang area, Tibetan Plateau： geochemical and Sr-Nd isotopic evidence

The Nadingcuo volcanic rock suite is the most volmninous Cenozoic volcanic suite in the southern Qiangtang area of the northern Tibetan Plateau. These high-K calc-alkaline volcanic rocks were formed between 36 and 34 Ma, characterized by high Mg# values, high concentrations of TiO2 and P205, 87Sr/S6Sr ratios of 0. 704682--0. 706 112, and aNd（t） values of - 1.2 to 1.6. There is a lack of reasonable explanations for sour- cing and origin of magmas that formed the rocks with high Mg# values and TiO2 and P2O5 enrichments, which makes the previous research results still controversial. This study reviews the geochemical characteristics of Nadingcuo volcanic rocks and the data we have newly found in our fieldwork. We give some new interpretation to the magmatic evolution of the basaltic magmas in the discussed area dominated by fractional crystallization. The geochemistry of trachyandesite and trachyte units in the studied area is indicative of formation from mantle- derived magmas that mixed with crustal materials. The high values of Mg# and TiO2 and P205 enrichment in these units are evident to show the mixing between mantle-derived magmas with -30-40 wt.% rhyolitic melt or assimilation of a similar amount of felsic rocks. The geochemistry of basaltic rocks in the area also suggests that the Nadingcuo basalts may have been derived from an ocean island basalt （OIB） -type source that contained and was mixed with ancient mantle wedge derived material, indicating that a 36-34 Ma asthenospheric upwelling e- vent in the Qiangtang area may relate to the northward subduction of Indian lithospheric mantle and the south- ward subduction of Asian lithospherie mantle. This upwelling of asthenospherie material was centered in the southern Qiangtang area between 36 and 34 Ma, while the northward movement of the Indian Craton caused this upwelling mantle flow to continuously migrate northward, resulting in the current centering of this upwelling in the Hoh Xil-Kunlun region.

Geochemistry of the lava and its implications in Musicians Seamounts

Chemical and isotopic data of the lava samples dredged in the southern Bach Ridge and the northern Italian Ridge of the Musicians Seamounts province, northeast of Hawaii. Although most of the samples analyzed are generally altered, a few are fresh. The latter exhibits similar geochemical and isotopic characteristics to normal MORB （Mid-Ocean Ridge Basalts）. There are systematic geochemical trends from hotspot to mid-ocean ridge in the province. Incompatible element and isotopic variations suggest that the flow field had at least two distinct parental magmas, one with higher and one with lower MgO concentrations. The two parental magmas could be related by a magma mixing model. The major and trace element modeling shows that the two parental magmas could not have been produced by different degrees of melting of a homogeneous mantle source, but they are consistent with melting of a generally depleted mantle containing variable volumes of embedded enriched heterogeneity enriched interbeds.

Geochemical characteristics and genesis of volcanic and sub-volcanic rocks from porphyrite-type iron deposits in Ningwu metallogenic province,eastern China:Constraints from elements

Ningwu porphyrite-type iron deposits are located in Ningwu Mesozoic volcanic basin,which belongs to the middle and lower reaches of the Yangtze River metallogenic province.The volcanic rocks can be divided into Longwangshan,Dawangshan,Gushan and Niangniangshan Formations from early to late.All these volcanic rocks are rich in alkali,and show the similar patterns in rare earth element(REE) distribution.However,some differences can be found in the trace elements and REE patterns.The study of petrology and REE geochemical characteristics shows that these rocks are derived from the underplating of the lithospheric mantle and are contaminated by crustal materials,undergo AFC process during the magmatic evolution.

Geochemistry and tectonic significance of volcanic rocks from Qushenla Formation in Gerze area of northern Tibetan Plateau

By using petrological,isotope chronological,and geochemical methods,the authors studied the volcanic rocks in the studied area,mainly including dacites and trachytes. The results show that they formed during the late Early Cretaceous. Geochemically,the volcanic rocks are relatively enriched in large-ion lithophile elements( Rb,K,and Th) and depleted in high field strength elements( Nb,Ta,and Ti),and rich in light rare earth elements,and depleted in heavy rare earth elements. The fact indicates that the main body of the volcanic rocks in the Qushenla Formation was derived from the partial melting of lower crust. The lithological assemblages are characterized by continental high-K calc-alkaline and shoshonitic series,suggesting that the southward-subducting oceanic slab in southern Bangong Lake had break off and that the Bangong Lake-Nujiang Ocean had closed before 107 Ma. The main dynamic mechanisms for the genesis of this set of intermediate-acidic volcanic rocks were upwelling of the asthenosphere and partial melting of the lower crust caused by slab break-off.

Genetic relationship between unroofing of the Emeishan large igneous province and the iron-polymetallic deposit in western Guizhou, Southwestern China: Constraint from U-Pb geochronology and geochemistry of zircon

This paper reports an integrated study of in sire U-Pb geochronology and elemental geochemistry of zircons from the Xianglushan iron-polymetallic deposit in western Guizhou Province, Southwest China. Genetic relationship between this new type of deposit and unroofing of the Emeishan large igneous province （ELIP） is focused. Along with the zoning pattern in spatial distribution of diverse weathering-related deposits along the southern and southeastern margins of the ELIP, it is suggested that the genesis of the iron-polymetallic deposit was specialized by factors of coastal paleogeography in hot-humid climate, where iron-enriched laterites formed, and repetitive marine transgression-regression occurred during the Late Permian.