Textural and compositional zoning in plagioclase phenocrysts:implications for magma chamber processes in the Emeishan large Igneous Province,SW China

Textural and compositional zoning within plagioclase phenocrysts records the magma chamber processes,such as magma differentiation,magma recharge and mixing,and crustal contamination.The plagioclase phenocrysts in the Daqiao and Qiaojia plagioclase-phyric basalts from the Emeishan Large Igneous Province(LIP)show complex textural and compositional zoning patterns,e.g.,normal,reverse,oscillatory,and patchy zoning patterns.Most plagioclase phenocrysts exhibit a core–rim normal zoning pattern(Pl-A)with euhedral high-An cores(An=76–78%,in mole fraction)and low-An rims(An=68–72%),indicative of the crystal regrowth processes caused by recharge of relatively evolved magmas after the formation of high-An cores.Some phenocrysts have a core–rim reverse zoning pattern(Pl-B)with irregular ovaloid cores,characterized by extremely low An(60–61 mol%)and Ba(84–88 ppm)contents and extremely high87Sr/86Sr ratios(0.7120–0.7130).The rims of the Pl-B have relatively high An(69–72%),Ba(~160 ppm)contents,and low87Sr/86Sri(~0.7056).These Pl-B plagioclase phenocrysts preserve the information about the interaction between the crustal xenocrysts and the transporting magmas.Some plagioclase phenocrysts show a core–mantle–rim oscillatory zoning pattern(Pl-C)with multiple oscillations of An(70–80%),Ba(88–147ppm)from core to rim,revealing replenishment and mixing of multiple batches of basaltic melts with diverse compositions.87Sr/86Sr ratios of the Pl-C do not vary significantly(0.7050–0.7054).A small portion of phenocrysts has patchy patterns in the cores(Pl-D),where the low-An patches(72–75%)in form of elliptical or irregular elongated shapes were enclosed by the high-An domains(80–87%).These features can be attributed to crystal dissolution and regrowth processes during the reaction between earlyformed low-Cumulates and recharged hot primitive melts.The cores,mantles,and rims of different types of plagioclase phenocrysts(except the core of Pl-B)commonly display nearly constant Sr isotopic compositions,implying insignificant wall-rock assimilation at shallow-level magma reservoir(s)during the growth of these plagioclase phenocrysts.In conclusion,the massive crystallization of plagioclase in the late stage was an important controlling factor for the formation of iron-rich basalts in the Emeishan LIP.

岩浆因素对中国东部铜陵矿集区差异性矿化的控制作用:来自角闪石、斜长石矿物学证据

冬瓜山铜(金)矿床和新桥硫铁铜金矿床是铜陵矿集区内两个大型夕卡岩型矿床,二者成矿地质背景相似,矿体产于同一地层层位,冬瓜山矿床以黄铜矿和磁黄铁矿为主,新桥矿床以黄铁矿和磁铁矿为主,二者矿物组合差异性非常明显,但造成二者矿物组合差异的关键控制因素还不清楚。针对这一科学问题,本文以二者成矿岩体中的角闪石和斜长石为研究对象,拟揭示岩浆因素对二者差异性矿化的控制作用。冬瓜山矿床青山脚石英二长闪长岩和新桥矿床矶头石英闪长岩角闪石和斜长石岩相学和电子探针(EPMA)主量元素和LA-ICP-MS微量元素分析结果显示,青山脚岩体中的角闪石大部分属于镁角闪石系列;矶头岩体中的角闪石大部分属于镁角闪石和浅闪石系列。青山脚岩体和矶头岩体的角闪石结晶压力、结晶温度、结晶深度、氧逸度和含水量分别为41~306 MPa和23~225 MPa,691~916℃和634~918℃,1.6~11.6 km和0.9~8.5 km,ΔNNO=0~2.3和ΔNNO=-0.4~2.4,3.7%~5.5%和3.1%~5.4%,青山脚和矶头岩体内角闪石以地壳型为主,少部分为壳幔混合型。两个岩体中斜长石多为中长石,根据斜长石结构和成分剖面特征,推测青山脚和矶头岩体晶体群分别来自5个和4个不同的岩浆子系统,都经历了镁铁质岩浆的注入和混合作用。我们认为镁铁质岩浆中氧逸度和元素含量的差异控制了冬瓜山和新桥的差异性矿化。

西藏琼嘉岗伟晶岩型锂矿矿物包裹体形成过程及其对熔-流体特征的指示

西藏琼嘉岗伟晶岩型锂矿是喜马拉雅地区发现的首例具有工业价值的伟晶岩型锂矿床,该矿床的发现证实了喜马拉雅地区具有成为我国稀有金属战略基地的潜力,也为喜马拉雅地区寻找伟晶岩型锂矿床提供了指示意义。本研究主要针对琼嘉岗锂矿花岗岩和伟晶岩中三种主要副矿物独居石、磷灰石和锆石中的矿物包裹体进行扫描电镜分析,确定矿物包裹体种类、频率以及产状(与裂隙关系),结合磷灰石中长石包裹体电子探针分析,综合指示琼嘉岗锂矿熔-流体性质及演化过程。研究表明:(1)琼嘉岗锂矿独居石、磷灰石和锆石中主要发育硅酸盐、氧化物、磷酸盐以及少量硫化物包裹体,其中填充裂隙和穿切裂隙的富稀土矿物独居石和磷灰石包裹体均由热液蚀变形成,而锆石放射性损伤强烈的区域中发育的远离裂隙的晶质铀矿和方钍石包裹体的形成也和流体作用相关;(2)电气石白云母花岗岩的磷灰石中发育钶钽铁矿以及烧绿石包裹体表明早期花岗岩岩浆富集铌和钽,稀有金属包裹体的数量以及类型也对高演化的花岗岩和伟晶岩是否具有稀有金属成矿潜力以及矿化类型具有一定指示意义;(3)锂辉石伟晶岩磷灰石中发育异常高且变化大的An值的斜长石包裹体,它们分别记录了磷灰石在结晶时对早期富钙熔体的捕获以及熔体的分异过程。本文的研究结果还表明副矿物中矿物包裹体的种类以及元素组成可以为高演化花岗岩-伟晶岩体系的熔-流体特征及演化提供指示意义。

华北克拉通吉南夹皮沟新太古代石榴黑云斜长片麻岩的变质P-T-t演化及构造意义

华北克拉通东部陆块新太古代末期的构造体制是近年来备受学界关注的热点议题。本文对地处华北克拉通东部陆块东北部的吉南夹皮沟石榴黑云斜长片麻岩进行了详细的岩相学、矿物化学、变质相平衡模拟、传统地质温压计和锆石U-Pb年代学研究,以明确其变质P-T-t演化,探讨构造过程和动力学机制。石榴黑云斜长片麻岩主要由石榴石、黑云母、斜长石、角闪石、石英和少量钛铁矿组成,记录了逆时针P-T轨迹,可以划分为三个变质阶段。岩石第一阶段的矿物组合为黑云母+斜长石+角闪石+石英+钛铁矿(+熔体)(Bt 1+Pl 1+Amp 1+Qz+Ilm(+L)),记录的温压条件为790~854℃和0.55~0.88GPa,之后通过升压略降温到达压力峰期阶段,在这个过程中角闪石分解、石榴石生长、基质型斜长石的X_(An)值从核到边降低。第二阶段的矿物组合为石榴石+黑云母+斜长石+角闪石+石英+钛铁矿(+熔体)(Grt+Bt_(2)+Pl_(2)(核部)+Amp_(2)+Qz+Ilm(+L)),相平衡模拟获得该阶段的温压条件为670~745℃和1.10~1.24GPa,传统地质温压计的结果为707~771℃和0.99~1.18GPa,两者可相互佐证,可能代表了岩石的压力峰期阶段。第三阶段的矿物组合为黑云母+斜长石+石英+钛铁矿(Bt_(3)+Pl_(2)(边部)+Qz+Ilm),形成于压力峰期后的降温降压过程,石榴石边部分解形成斜长石,该类斜长石的X_(An)值从核到边逐渐升高。变质锆石U-Pb定年获得2483±8Ma(MSWD=3.2)的年龄,结合稀土配分模式和锆石Ti温度计计算结果,将该年龄解释为岩石压力峰期阶段前的变质时代。考虑到吉南变质地体新太古代末期岩浆活动与变质作用的时间重叠性、区域上的“穹窿-龙骨”构造样式、前人的变质作用资料以及石榴黑云斜长片麻岩记录的升压轨迹,本文认为吉南新太古代末期变质作用与重力凹沉构造有关。

松花江新生代斜斑玄武岩中斜长石巨斑晶的成因及其对长白山天池造盾期岩浆储运系统的制约

岩浆岩中斜长石的结构和成分可以记录其晶体的生长过程中岩浆演化的丰富信息,从而可以灵敏反映岩浆储运系统的历史。东北地区新生代玄武岩一般多发育橄榄石和单斜辉石斑晶,斜长石斑晶少见,但在长白山天池造盾期(5~1Ma)玄武岩中常见有斜长石斑晶。最近我们在松花江两岸新发现一套上新世含斜长石巨斑晶(粒径为1~2cm)的玄武岩。这些沿松花江分布的斜斑玄武岩具有高Ba/Th比和K/U比的微量元素特征、EM1型的Sr-Nd-Pb同位素组成,与长白山天池造盾期玄武岩一致。它们在主量元素上具有低镁(MgO=3.86%~4.23%)、高钛(TiO_(2)=3.15%~4.25%)的特征,说明其与长白山天池造盾期玄武岩中的斜斑玄武岩一样都经历了较高程度的演化。时间、空间以及地球化学特征上的紧密联系说明松花江斜斑玄武岩也是长白山天池造盾期岩浆作用的产物,即长白山天池造盾期玄武质岩浆当时流入了松花江古河道,向西北方向流动的距离达到了150km左右。背散射电子图像显示松花江斜斑玄武岩中斜长石巨斑晶多数具有核-边结构,部分无环带结构,少数具熔蚀结构。斜长石巨斑晶的化学成分变化大,其中核-幔部主要为拉长石(An_(48-65)),边部为钠长石-拉长石(An_(4-61))。基质斜长石的化学成分也不均一,核-幔部的组成为中长石-拉长石(An_(41-53)),边部为钠长石-中长石(An 4-46)。多数斜长石巨斑晶的核-幔部具有细密振荡环带,An值仅呈较小幅度振荡变化,暗示其前期生长过程中物理化学条件较为稳定,地壳岩浆房持续受到同源岩浆的补给作用,岩浆房持续的时间较长,有利于斜长石巨斑晶的形成。在岩浆对流过程中晶体可被运移至温度更高的区域,形成熔蚀结构。斜长石巨斑晶的边部An值突降以及熔蚀结构的发育,表明斜长石巨斑晶生长后期所处的物理化学条件发生了突变,对应于岩浆快速上升的减压过程。因此,松花江斜斑玄武岩中的斜长石巨斑晶记录了长白山天池造盾期玄武岩在喷发前经历了较长时间的岩浆房存留过程。

大别造山带宿松杂岩中石榴斜长角闪岩变质演化过程、原岩时限及其构造涵义

大别造山带是由扬子板块向华北板块俯冲碰撞而形成的,出露了世界上规模最大的、种类最齐全的各类超高压岩石,全面深刻地记录了大陆深俯冲过程。然而,对于该造山带“浅层”(地壳层次)俯冲折返过程的研究则较少涉及,这制约了对大别造山带形成全过程的整体理解。为此,本次研究以大别造山带最南缘经历绿帘-角闪岩变质的宿松杂岩为研究靶区,针对该杂岩别河地区的石榴斜长角闪岩展开了精细的岩相学、矿物化学、温压评价和年代学研究。研究表明,该岩石记录了三个变质阶段,其中第二阶段可进一步分为a和b两个亚阶段,具体的变质温压条件分别为:①阶段Ⅰ:T=562±12℃、P=1.03±0.05GPa;②阶段Ⅱ-a:T=663±8℃、P=1.09±0.04GPa;③阶段Ⅱ-b:T=508~584℃、P_(-设定)=0.5~0.7GPa;④阶段Ⅲ:T=396~472℃、P_(-设定)=0.1~0.3GPa。其中,①→②表现为近等压增温型式,反映了一个俯冲迟滞过程,暗示了“浅层”俯冲止于莫霍面附近,并受下伏岩石地幔热源供给导致其持续增温,而②→③→④则显示降温降压样式,表现为缓慢抬升的过程。显然,大别造山带“浅”地壳层次的俯冲属于“暖”俯冲类型,并表现为一个缓慢变质演化过程,明显不同于大别造山带“冷”俯冲类型的大陆深俯冲的快速演化过程。锆石U-Pb年代学研究显示,石榴斜长角闪岩的锆石均为具振荡环带结构,测定的37个谐和年龄范围数据范围为1470±80Ma~1258±101Ma,Th/U比值均大于0.4,加权平均年龄为1381±25Ma,该年龄应为其原岩结晶年龄,代表了哥伦比亚超大陆最终裂解时限。此外,侵入于石榴斜长角闪岩中的富石英花岗岩的加权平均年龄为129±5Ma,反映了中国东部中生代伸展事件。结合前人的年龄资料,可以推测1.38~1.30Ga为哥伦比亚超大陆向罗迪尼亚超大陆转换的时间节点。同时,可以明确宿松杂岩则是由不同时代、不同岩石类型构成的单元,是探究扬子板块自新太古代至中生代漫长复杂的演化过程最佳的场所变质单元。

Fluid-rock interaction experiments with andesite at 100℃ for potential carbon storage in geothermal reservoirs

Geothermal energy extraction often results in the release of naturally occurring carbon dioxide(CO_(2))as a byproduct.Research on carbon storage using volcanic rock types other than basalt under both acidic and elevated temperature conditions has been limited so far.Our study uses batch reactor experiments at 100℃ to investigate the dissolution of andesite rock samples obtained from an active geothermal reservoir in Sumatra(Indonesia).The samples are subjected to reactions with neutral-pH fluids and acidic fluids,mimicking the geochemical responses upon reinjection of geothermal fluids,either without or with dissolved acidic gases,respectively.Chemical elemental analysis reveals the release of Ca^(2+)ions into the fluids through the dissolution of feldspar.The overall dissolution rate of the rock samples is 2.4×10^(–11)to 4.2×10^(–11)mol/(m^(2)·s),based on the Si release during the initial 7 h of the experiment.The dissolution rates are about two orders of magnitude lower than those reported for basaltic rocks under similar reaction conditions.This study offers valuable insights into the potential utilization of andesite reservoirs for effective CO_(2) storage via mineralization.

西太平洋卡罗琳海底高原裂解作用的岩浆过程响应

海底高原形成及其后的裂解事件是大洋板内地质作用的产物,因此研究海底高原可为大洋板内地球动力学过程提供重要线索。索罗尔海槽是卡罗琳海底高原初始裂解的重要产物,但到目前为止,其裂解过程的动力学机制仍然存在争议。本研究对采自索罗尔海槽基底的火山岩样品(玄武岩、英安岩)开展系统的单矿物(斜长石)原位主、微量元素地球化学研究,结果表明:玄武岩样品中斜长石种属为钙长石、培长石和少量拉长石;斜长石斑晶富集轻稀土和大离子亲石元素,亏损高场强元素,存在明显的Eu正异常;相比于斜长石斑晶,斜长石微晶具有更高的不相容元素含量。英安岩中斜长石种属为中长石,较玄武岩斜长石斑晶更富集轻稀土和大离子亲石元素,具有更明显的Eu正异常。玄武岩和英安岩中斜长石结晶温度和压力分别为1110~1171℃和961~966℃、0.27~0.42GPa和0.16~0.29GPa,且同一种岩石类型中的斜长石斑晶与微晶结晶温度无明显差异。基于以上结果,并对照前人所总结的双峰式岩浆系统的成因特征,本文提出卡罗琳海底高原裂解期间的岩浆作用具双层岩浆房模型,即地幔岩石部分熔融形成原始岩浆,聚集在深部岩浆房内结晶形成基性斜长石斑晶,随后被岩浆裹挟上涌喷出地表形成玄武岩;同时部分岩浆继续进入浅部壳层岩浆房,并结晶形成中酸性斜长石斑晶,后被演化岩浆携带上升并喷出地表形成英安岩。

识别富斜长石花岗岩类的岩石化学图解:评价与辨析

富斜长石花岗岩类指其实际矿物含量中斜长石在长石中的比例超过65%的花岗质侵入岩,包括英云闪长岩(tonalite)、奥长花岗岩(trondhjemite)和花岗闪长岩(granodiorite)。前寒武纪大陆地壳所包含的英云闪长岩、奥长花岗岩和花岗闪长岩组合被称为TTG岩套,现今弧岩浆组合也包括相当数量的英云闪长岩或奥长花岗岩以及花岗闪长岩。有效判别富斜长石花岗岩类对了解大陆地壳的组成以及地壳形成的过程和机制具有重要意义。本文基于全球典型英云闪长岩(含奥长花岗岩)、花岗闪长岩及其相关岩性的687组数据,以实际矿物v(Q)—v(A)—v(P)分类图为基准,对n(An)—n(Ab)—n(Or)、n(Q′)—n(ANOR)和w(SiO_(2)′)—w(CaO)/[w(K_(2)O)+w(CaO)]3种分类图解识别富斜长石花岗岩类的可靠性进行检验。结果表明三种判别图解对富斜长石长英质侵入岩的判别正确率在70%左右。对实际矿物含量v(Q)—v(A)—v(P)图解投影在英云闪长岩(含奥长花岗岩)的样品,w(SiO_(2)′)—w(CaO)/[w(K_(2)O)+w(CaO)]图解的判别准确率达90%,n(Q′)—n(ANOR)图解和n(An)—n(Ab)—n(Or)图解约为75%。对实际矿物含量QAP图解投影在花岗闪长岩的样品,3种图解的判别准确率均在70%左右。w(SiO_(2)′)—w(CaO)/[w(K_(2)O)+w(CaO)]和n(Q′)—n(ANOR)图解是识别英云闪长岩(含奥长花岗岩)有效岩石化学方法。实例研究表明,福建长乐—南澳构造带早白垩世和台湾大南澳晚白垩世侵入岩组合均不属于经典定义的TTG岩套。

新疆且末县青塔山岩体地球化学特征及其地质意义

青塔山岩体位于东昆仑山西部,岩体的形成时代、环境、岩石类型尚存在争议,对于其成岩的物理化学条件和源区特征的研究程度较低。在系统开展岩石学和岩相学研究的基础上,对黑云母、斜长石和角闪石等主要造岩矿物进行了成分分析,厘定其成岩的物理化学条件,进一步约束岩石成因。研究表明:青塔山岩体的岩性为英云闪长岩,脉体岩性为石英闪长岩;岩体中斜长石为中长石和拉长石,黑云母为镁质黑云母,角闪石为镁角闪石,斜长石发育反环带,应为岩浆混合所致;黑云母的结晶温度为684~693℃,结晶压力为(1.86~2.01)×10^(8) Pa,平均值为1.92×10^(8) Pa,对应结晶深度为6.90~7.46 km,平均7.12 km,属于中深成相。岩体形成时氧逸度较低,为-17.34~-17.04。矿物化学特征显示,青塔山岩体中黑云母的物质来源为钙碱性造山岩套,其形成与壳幔混源岩浆有关。研究成果可为研究青塔山地区晚三叠世—早侏罗世岩浆演化历史提供依据。

Oxygen Isotopic Compositions in a Plagioclase-Olivine Inclusion from Ningqiang Similar to Those in Al-rich Chondrules

We report the petrology and oxygen isotopic composition,using a Cameca Nano SIMS 50L ion microprobe,of a plagioclase-olivine inclusion,C#1,found in the Ningqiang carbonaceous chondrite.In addition to major phases(plagioclase,spinel and olivine),C#1 is also surrounded by a pyroxene rim(64 vol%Ca-rich and 36 vol%Ca-poor pyroxenes).On a three-isotope oxygen diagram,δ^(17)O vs.δ^(18)O,the compositions of individual minerals analyzed in C#1 fall along the carbonaceous chondrite anhydrous mineral line(CCAM),and oxygen isotopic compositions in C#1 show significant variability in δ^(18)O and δ^(17)O.The oxygen isotopic compositions of the pyroxene rim minerals are similar to those of the other host minerals,which suggests that the rim likely formed from the same melting process as the host.The rim is considered to have formed as a result of interaction between an ^(16)O-poor gas and a melt.Some spinel grains are typically ^(16)O-rich and likely of relict origin,which is similar to ^(16)O-rich Ca-,Al-rich inclusions,which are probably a precursor of C#1.The inclusion then likely melted in an ^(16)O-poor region where chondrules form,accompanied by oxygen isotope exchange with an ^(16)O-poor gas.Some anorthite,pyroxene and spinel might have undergone fluid-assisted thermal metamorphism on the Ningqiang chondrite parent body.The oxygen isotope data and evolution of the C#1 plagioclase-olivine inclusion are similar with those of Al-chondrules in chondrites.

Magma Replenishment as Revealed by Textural and Geochemical Features of Plagioclase Phenocrysts in Subduction-Related Lavas

Various petrographic features and geochemical characteristics indicative of disequilibrium are preserved in plagioclase phenocrysts from basaltic to andesitic lavas in East Junggar, northwest China. These characteristics indicate that they crystallized in a magma chamber, which was replenished by less differentiated and high-temperature magmas. The petrographic and geochemical features of the plagioclase phenocrysts are interpreted to record responses to changes in temperature, composition and mechanical effect during magma replenishment. Distinct rare earth element(REE) patterns between cores and rims of the same plagioclase crystal suggest derivation from two end-member magmas. From core to rim, plagioclase phenocrysts commonly display sharp fluctuations of anorthite(An) content up to 20, which either correspond to reverse zoning associated with ovoidal cores and resorption surface(PI), or normal zoning with euhedral form and no resorption surface(P2). Plagioclase crystals with diverse textures and remarkably different An content coexist on the scale of a thin-section. Cores of these plagioclases in each sample display a bimodal distribution of An content. From core to rim in PI, concentrations o f FeOT and Sr increase remarkably as An content increases. During magma replenishment, pre-existing plagioclase phenocrysts in the andesitic magma, which were immersed into hotter and less differentiated magmas, were heated and resorbed to form ovoidal cores, and then were overgrown by a thin rim with much higher contents of An, FeO^T and Sr. However, pre-existing plagioclase phenocrysts in the basaltic magma were injected into cooler and more evolved magmas, and were remained as euhedral cores, which were later enclosed by oscillatory zoned rims with much lower contents of An, Sr and Ba.

Micro-textures in plagioclase from 1994-1995 eruption, Barren Island Volcano: Evidence of dynamic magma plumbing system in the Andaman subduction zone

A systematic account of micro-textures and a few compositional profiles of plagioclase from high-alumina basaltic aa lava erupted during the year 1994-1995, from Barren Island Volcano, NE India ocean, are presented for the first time. The identified micro-textures can be grouped into two categories： （i） Growth related textures in the form of coarse/fine-sieve morphology, fine-scale oscillatory zoning and resorption surfaces resulted when the equilibrium at the crystal-melt interface was fluctuated due to change in temperature or H20 or pressure or composition of the crystallizing melt; and （ii） morphological texture, like glomerocryst, synneusis, swallow-tailed crystal, microlite and broken crystals, formed by the influence of dynamic behavior of the crystallizing magma （convection, turbulence, degassing, etc.）. Each micro-texture has developed in a specific magmatic environment, accordingly, a first order magma plumbing model and crystallization dynamics are envisaged for the studied lava unit. Magma generated has undergone extensive fractional crystallization of An-rich plagioclase in stable magmatic environment at a deeper depth. Subsequently they ascend to a shallow chamber where the newly brought crystals and pre-existing crystals have undergone dynamic crystallization via dissolution-regrowth processes in a convective self- mixing environment. Such repeated recharge-recycling processes have produced various populations of plagioclase with different micro-textural stratigraphy in the studied lava unit. Intermittent degassing and eruption related decompression have also played a major role in the final stage of crystallization dynamics.

Big difference in ^87Sr/ ^86Sr ratios of basalt and basin water： higher ^87Sr/ ^86Sr ratios in plagioclase

We analyzed the ^(87)Sr/^(86)Sr ratios of basaltic rocks and basin water in Xuyi,China,and found a big difference,which may challenge conventional wisdom on the contribution of basalt weathering in end-member analysis.Results of an in-house weathering experiment suggest that rainwater and dust are not responsible for the difference.By isolating the major minerals in basalt,we found that plagioclase has much higher ^(87)Sr/^(86)Sr ratios than bulk basalt and basin water,which might explain the difference in ^(87)Sr/^(86)Sr ratios of basalt and basin water.We inferthatlow-temperaturehydrothermalalteration increased the ^(87)Sr/^(86)Sr ratios of plagioclase.Future analyses of end-member contribution in a mixed-rock basin should take into account that basin water and plagioclase have higher ^(87)Sr/^(86)Sr ratios than basaltic rocks.

Magma Chamber Process of Post-collisional Magmatism: Insight from Textural and Elemental Characteristics of Plagioclase from the Tatun Volcanic Group, Northern Taiwan Volcanic Zone

The Taiwan mountain belt, one of the youngest orogenies in the world, is caused by the collision of the Luzon arc with the Eurasian margin, which leads to post-collisional extension and magmatism in the Northern Taiwan Volcanic Zone(NTVZ). The magma chamber process in this region has not previously been elucidated in detail. In this paper, the textural and compositional features of plagioclase phenocrysts in basalt from the Tatun Volcanic Group(TTVG) were studied to restrict the dynamics of magma system. Results show that the magma melts in TTVG are mainly sourced from the underlying MORB-like mantle wedge but influenced by incorporation of subduction components, causing the elevated Sr/Y and Ba/Y ratios in magma melts. The subduction components are mainly transported in the form of sediment melt. The plagioclase phenocrysts in the TTVG volcanic rocks are generally coarsely core-sieved with a clear rim. The An contents in the rims of plagioclase are much lower than those of cores, and elevated FeO concentrations are detected in the plagioclase rims. We propose there exists a double-layer magma chamber in this region. The core of the plagioclase was crystalized in the deeper quiescent magma chamber(~21 km), which was subsequently partially dissolved during the ascent of magma melt under H_(2)O-undersaturated condition, forming the typical coarsely sieved texture and synneusis. When this crystal-rich melt migrates into the shallower chamber, water saturation is reached and more sodic plagioclase formed as the rim of phenocryst. Due to the considerably higher fO_(2) in the shallow chamber than in the deeper one, and the distribution of Fe between plagioclase and melt positively correlates with fO_(2), the FeO content in the plagioclase rim elevates in conjunction with increasing fO_(2).

Mineral Chemistry and Geothermometry of Amphibole and Plagioclase in the Metabasites, Located at the Tanbour Metamorphic Complex in Southern Iran

Metabasite refers to metamorphosed basalts and other mafic igneous rocks (rich in iron and magnesium). When a mafic igneous rock is subjected to new pressure and temperature conditions during metamorphism, these chemical components will rearrange themselves to form new minerals. Metabasites can be found in many metamorphic belts including Sanandaj-Sirjan metamorphic belt of Iran. The study area is a Tanbour metamorphic complex in Eastern of Sirjan city, which is geologically located at the Sanandaj-Sirjan metamorphic belt in Southern Iran. Metabasite in this complex consists of greenschist, epidote amphibolite and amphibolite. Amphibole and plagioclase are the main minerals in the greenschist and amphibolite, and the a secondary mineral in some micaschist seen in the study area. The electron microprobe analysis was done on this mineralization in greenschist, epidote amphibolite and amphibolite, which showed that the amphiboles in greenschist was a member of the calcic group and Actinolite type, and the amphiboles in epidote amphibolite was a member of the calcic group and these amphiboles were tschermakite up to Ferro-Tschermakite + Ferro-Hornblende type. The amphibole in amphibolite is a member of the calcic group and this amphibole is Magnesio-Hornblende type. The plagioclases in the greenschist is pure albite (An 3.29 - 3.6), and in the epidote amphibolite is oligoclase (An 19.5 - 24.2), while in the amphibolites is oligoclase (An 16.9 - 26.6). The estimated P–T conditions are in favor of their metamorphism under epidote amphibolite (550°C and 8 kbar) and amphibolite (611°C - 652° Cand 10.5 kbar) facies.

Composition of plagioclases in volcanic rocks of King George Island, Antarctica with reference to the petrogenetic significance

Plagioclases occur mainly as phenocrysts in volcanic rocks of King George Island, South Shetland Islands, West Antarctica. In basaltic andesites and andesites of Keller Peninsula and Ullman Spur (Admiralty Bay), they are high structure state labradorite andesines; and in high Al basalts and basaltic andesites of Barton and Weaver peninsulas (Maxwell Bay), they are high structure state bytownite anorthites.∑[WT9.BZ]REE, La/Yb ratios and δEu values of plagioclases from Admiralty Bay are higher than those from Maxwell Bay. All plagioclases have rather identical chondrite normalized transitional element distribution patterns, probably reflecting that crystal structure rather than composition of plagioclase controls their diversity. Compositions of plagioclases depend chiefly on those of their host rocks, compositional differences of plagioclases reveal that basaltic magmas in the Admiralty Bay area are more evolved than in the Maxwell Bay area.

Chemical composition and petrogenesis of plagioclases in plagioclase-phyric basalts from the Southwest Indian Ridge(51°E)

Electron microprobe analysis was conducted on plagioclase from the plagioclase ultraphyric basalts(PUBs)erupted on the Southwest Indian Ridge(SWIR)(51°E)to investigate the geochemical changes in order to better understand the magmatic processes occurring under ultraslow spreading ridges and to provide insights into the thermal and dynamic regimes of the magmatic reservoirs and conduit systems.The phenocryst cores are generally calcic(An74–82)and are depleted in FeO and MgO.Whereas the phenocryst rims(An67–71)and the plagioclase in the groundmass(An58–63)are more sodic and have higher FeO and MgO contents than the phenocryst cores.The crystallization temperatures of the phenocryst cores and the calculation of the equilibrium between the phenocrysts and the matrix suggest that the plagioclase cores are unlikely to have crystallized from the host basaltic melt,but are likely to have crystallized from a more calcic melt.The enrichment in incompatible elements(FeO and MgO),as well as the higher FeO/MgO ratios of the outermost phenocryst rims and the groundmass,are the result of plagioclase-melt disequilibrium diffusion during the short residence time in which the plagioclase crystallized.Our results indicate that an evolved melt replenishing under the SWIR(51°E)drives the eruption over a short period of time.

Giant Plagioclase Basalts from Northeastern Deccan Volcanic Province, India: Implications for Their Origin and Petrogenetic Significance

The giant plagioclase basalts (GPBs) with plagioclase phenocrysts that reach up to 3 cm in length are found near Jabalpur in the northeastern part of the Deccan Volcanic Province (DVP). The thickness of the basalt flow (flow 6) that contains the GPBs is ~ 20 m. Plagioclase phenocysts (An58 - An64) in the GPBs display many features of magma mixing (e.g., resorption, reverse zoning). Of the nine flows in the Jabalpur section, the GPBs (flow 6) with lowest Mg#s (38 - 43) and MgO (4.16 - 5.08 wt%), Ni and Cr abundances are the most evolved compositions. In addition, these GPBs have highest abundances of incompatible elements (TiO2, P2O5, Nb, Zr, Sr and Ba). The GPBs are compositionally similar to the well-studied Mahabaleshwar lavas of the western DVP. This new occurrence of GPBs has implications for existence of local crustal magma chambers, feeders and vents in the northeastern part of the DVP.

Petrological Significance of Zoned Plagioclase in Eldjurti Granite and Mafic Microgranular Enclaves, North Caucasus, Russia

Plagioclase phenocrysts from mafic enclaves and plagioclase from its host granite possess a pat-tem of complex zonation. A plagioclase phenocryst can generally be divided into three parts : an oscillatory, locally patchy zoned core (An47-19), a ring with dusty, more calcic plagioclase (An64-20) and a normally zoned rim composed of sodic plagioclase (An22-3. 3). Majordiscontinuities in zoning coincide with resorption suffeces that are overgrown by the more calcic plagioclase. The cores of large plagioclase phenocrysts from mafic enclaves and host granite show similar zoning patterns and similar compositions, indicating their crystallization under the same conditions . Steep normal zoning of the rims of plagioclases both from host granite and mafic enclaves illustrates a drastic decrease in An content which is considered to have resulted from the continuous differentiation of hybrid magma and efficient heat loss because of the upward emplacement of the residual magma. Wide rims of plagioclases from the host granite against thc discrete rims of plagioclases from mafic enclaves indicate that differentiation and cooling lasted much longer in the host granite than in the mafic enclaves.