榴辉岩退变质过程中的微量元素地球化学行为：对CCSD主孔退变质榴辉岩的研究

对中国大陆科学钻探工程主孔榴辉岩退变质过程中的微量元素地球化学行为进行了研究。对退变质程度连续变化样品的不同部分的对比研究表明，流体作用下的退变质过程中大离子亲石元素（Cs、Rb、Ba、Sr、K、Th、U）和轻稀土元素表现出较大的活动性，重稀土元素和高场强元素变化相对较小。退变质后大离子亲石元素的显著增加和高场强元素、重稀土元素的轻微变化（甚至相对降低），表明与退变质作用有关的流体中的络阴离子含量很少，并不富集高场强元素和重稀土元素。退变质后总体上表现出的Si、大离子亲石元素和轻稀土元素的明显变化，表明外来流体参与了榴辉岩的退变质过程，带入和带出了一些元素。结合榴辉岩中单矿物微量元素组成以及前人对D^Mineral/Fluid的研究成果，对流体-榴辉岩作用形成的退变质分带（富石英条带→角闪岩→退变质榴辉岩→新鲜榴辉岩）的微量元素组成变化进行了详细研究。结果表明在流体作用下的榴辉岩退变质过程中，大离子亲石元素、轻稀土元素和高场强元素含量的变化除了受退变质流体性质的影响外，更大程度上取决于退变质过程中的矿物相（尤其是副矿物）的变化。     

广东恶鸡脑碱性正长岩的地球化学及其地球动力学意义

广东从化恶鸡脑碱性正长岩岩体是广东乃至华南地区唯一已各的中生代含副长石及碱性暗色矿物的碱性正长岩岩体。岩石含有霞石、白榴石及岩浆成因的方钠石。碱性正长岩体侵入到燕山期第三期的佛冈岩体之中,岩体侵位年龄为１２７．５Ｍａ（角闪石Ａｒ￣Ａｒ法）。岩体富大离子亲石元素,贫Ｓｒ和Ｂａ,具有明显的铕负异常,富Ｎｂ和Ｚｒ等高场强元素。εＥｄ（ｔ）为近于零的负值（－０．６６￣－１．６）,模式年龄ｔＤＭ较小（０．９     

变质作用分类的历史回顾和新的试行分类雏议

根据变质作用分类研究的历史回顾和最新进展,本文介绍了一个试行的、较系统的变质作用分类方案,可分为局部性的变质作用和区域性的变质作用两个大类9个类型.局部性的变质作用包括以下5个类型:(1)接触变质作用,包括热变质作用、接触交代变质作用和高热变质作用3个亚类;(2)低-中-高温动力变质作用,包括低-中-高温韧性剪切带变质作用和温压递进逆冲断层变质作用2个亚类;(3)冲击变质作用;(4)水热变质作用;(5)燃烧变质作用.区域性的变质作用可分为以下4个类型:(6)早前寒武纪克拉通基底变质作用-低中压-中高温区域变质作用,可分为5个亚类,分别是低-中压角闪岩相变质作用、低-中压麻粒岩相变质作用、低-中压角闪岩相-麻粒岩相变质作用、低-中压绿片岩相-角闪岩相递增的变质作用和区域超高温麻粒岩相变质作用;(7)造山带变质作用,可分为3个亚类,分别是低温-低压区域动力变质作用、碰撞造山变质作用和深俯冲高压-超高压区域变质作用;(8)埋深变质作用;(9)洋底变质作用.     

塔里木盆地寒武纪—奥陶纪区域地球动力学转换的沉积作用响应及其储层地质意义

为了探索塔里木盆地区域构造演化对盆地内沉积相带展布和储层发育的控制,文章在综合了前人对塔里木盆地板块构造演化研究成果的基础上,深入分析了塔里木盆地周边早古生代区域地球动力学从伸展向挤压转换的时间及其所对应的盆地内部的沉积作用响应,认为古隆起的形成演化、台内相带的分异和台内台缘高能礁滩相带的展布、沉积基准面的转换、岩性岩...     

Mobility Sequence of Chemical Elements During Loess Weathering—Pedogenesis,Weinan,Shaanxi Province,China

The distribution of chemical elements in the Weinan loess section shows that: (1) carbonate is the critical constituent affecting loess chemistry. The leaching of carbonates may cause “apparent” enrichment of some other constituents. (2) CaCO₃, SiO₂, FeO, MgO, K₂O and Na₂O are mobile while Al₂O₃, Fe₂O₃ and TiO₂ are inert components. The mobility sequence may follow the order of CaCO₃>FeO>MgO>Na₂O>K₂O>SiO₂>Al₂O₃>TiO₂>Fe₂O₃. (3) No obvious migration is noticed of iron, except changes in valence and forms, during the pedogenic process. Little iron has been supplied to paleosol from precipitation. (4) Carbonates and, to a lesser extent, iron are most sensitive to, and can be therefore used as good indicators of, environmental changes. This research project was financially supported by the National Natural Science Foundation of China (Grant No. 49672137).     

华南中生代玄武岩地球化学特征及其地球动力学意义北大核心CSCD

华南板块是中国东部岩石圈的重要组成部分,广泛发育中生代玄武岩,这些玄武岩为研究华南岩石圈演化提供了重要的窗口。前人对华南中生代玄武岩开展了大量的研究,但是对于玄武岩的源区性质以及构造环境等认识仍存在较大争议。本文系统性分析了华南宁远、道县、长城岭、白面山、汝城等地区中生代玄武岩的主微量元素及Sr-Nd-Pb同位素组成,获得如下主要认识:(1)华南中生代玄武岩主要由碱性和亚碱性玄武岩组成,其SiO_(2)和全碱(Na_(2)O+K_(2)O)含量分别为42.81 wt%~55.54 wt%和1.6 wt%~5.97 wt%;(2)除了宁远玄武岩具有OIB微量元素特征,华南中生代玄武岩具有岛弧玄武岩相似的微量元素配分型式;(3)主量和微量元素特征表明华南中生代玄武岩的形成主要受控于部分熔融,且在岩浆演化过程中经历不同程度的分离结晶作用,未遭受明显的地壳混染作用。Ni-MgO正相关、CaO/Al_(2)O_(3)-CaO正相关和Eu无明显异常表明华南中生代玄武质岩浆经历了橄榄石和单斜辉石结晶,但无明显的斜长石结晶;(4)Sr-Nd-Pb同位素特征表明华南中生代玄武岩为EMⅡ地幔源区,其源区可能有洋壳沉积物的参与;(5)华南中生代玄武岩可能形成于与古太平洋板块俯冲相关的大陆板内环境;(6)华南岩石圈改造可能与中生代古太平洋俯冲板块的交代作用有关,后者所释放的酸性熔体/流体与地幔橄榄岩相互作用,最终造成了华南岩石圈物理化学性质的强烈改变;(7)古太平洋俯冲板块可能对华南有色金属、稀有金属等多金属成矿发挥着重要作用,其释放的熔体或流体为矿石活化和迁移提供了重要的驱动力。     

大别超高压变质过程中流体作用的微量元素效应及其地球化学意义

对大别地区角闪岩相－麻粒岩相和榴辉岩相岩石进行较系统的地球化学研究,探讨了超高压俯冲变质及折返过程中元素的再分配行为,并就其对变质过程中的部分熔融作用和流体交代作用的指示进行了分析。研究表明,大别榴辉岩原岩在其俯冲过程中发生了部分熔融作用,并在其早期脱水和后期退变质作用过程中与变质流体相之间产生了交换。脱水作用使榴辉岩Ｎｂ／Ｔａ比值升高,但后期的退变质作用使榴辉岩与其寄主围岩间的Ｎｂ／Ｔａ比值相对     

Compositional variations of Cretaceous pumpellyites along the western margin of South America and their relation to an extensional geodynamic setting

Abstract Pumpellyites in pervasively altered basic to intermediate rocks from three Cretaceous Andean volcanic sequences, the Colombian Diabasic Group, the Ecuadorian-Peruvian Celica Formation/Casma Group and the Chilean Ocoite Group, were studied to test their compositional behaviour in relation to changes in geodynamic setting. They occur mostly in assemblages of the prehnite-pumpellyite facies filling amygdules and inside plagioclase phenocrysts.
(a) Pumpellyites from the three geodynamic settings define three distinct compositional fields in AFM space: (i) those in the Diabasic Group plot closer to the Fe corner; (ii) those in the Ocoite Group plot closer to the Al corner; (iii) those in the Celica Formation/Casma group plot between, and partly overlapping, fields (i) and (ii).
(b) Pumpellyites in group (i) formed in T-MORB like, K-poor tholeiites (high Fe/Al), affected by ocean-floor metamorphism in an oceanic back-arc basin. Pumpellyites in group (ii) generated in K-rich, calc-alkaline (low Fe/Al) to shoshonitic metabasites affected by burial metamorphism in an ensialic, aborted, marginal basin with moderate attenuation of the continental crust. Pumpellyites in group (iii) formed in basic and intermediate, calc-alkaline to tholeiitic rocks, metamorphosed in ensialic marginal basins with various degrees of continental crust thinning, from splitting to moderate attenuation. A correlation between pumpellyite and host-rock composition is suggested by these characteristics.
(c) Pumpellyites in prehnite-pumpellyite facies assemblages of some of the units studied plot inside higher (and lower) grade reference fields (AFM space) corresponding to different geodynamic settings elsewhere. This anomaly is attributed to the changing characteristics of the marginal basins at the South American margin and emphasizes the need to compare equal facies referred to equal settings.     

The role of the fluid phase during regional metamorphism and deformation

Evidence from rock microstructures, mass transfer and isotopic exchange indicates that substantial quantities of aqueous fluids are involved in low- and medium-grade regional metamorphism. Similar conclusions are drawn from many retrograde environments, whereas high-grade metamorphic fluids may be melt dominated. The mobile fluids play essential roles in metamorphic reactions, mass transport and deformation processes. These processes are linked by the mechanical consequences of metamorphic fluid pressures (P_f) generally being greater than or equal to the minimum principal compressive stress. Under such conditions metamorphic porosity comprises grain boundary tubules and bubbles together with continuously generated (and healed) microfractures. Deformation results in significant interconnected porosity and hence enhanced permeability. Lithologically and structurally controlled permeability variations may cause effective fluid channelling.
Simple Rayleigh-Darcy modelling of a uniformly permeable, crustal slab shows that convective instability of metamorphic fluid is expected at the permeabilities suggested for the high P_f metamorphic conditions. Complex, large-scale convective cells operating in overpressured, but capped systems may provide a satisfactory explanation for the large fluid/rock ratios and extensive mass transport demonstrated for many low- and medium-grade metamorphic environments. Such large-scale fluid circulation may have important consequences for heat transfer in and the thermal evolution of metamorphic belts.     

新疆博格达山北麓白杨河剖面页岩地球化学特征及其地质意义

通过博格达山北麓白杨河剖面芦草沟组页岩的地球化学特征的综合研究,讨论了芦草沟组页岩的元素富集特征和沉积环境以及源区物源特征和构造背景。结果表明:1研究区页岩P元素极为富集,这受控于页岩中凝灰质火山灰夹层的广泛发育;2对比于世界页岩微量元素分布,白杨河页岩相对富集Li、B、Pr、Tb、Dy、Ho、Er、Tm和Lu元素,其他元素相对亏损;3白杨河剖面页岩地化参数揭示芦草沟组自下而上气候由温湿向干热转变,进而引起水体由淡水向咸水的转变和还原程度的进一步加强;4物源区遭受低级-中等风化程度,物源类型主要为长英质火成岩,其次为铁镁质火成岩;5物源区大地构造背景以大陆岛弧-活动大陆边缘构造背景为主。     

云南省镇康芦子园铅锌多金属矿床主量元素地球化学特征及意义

芦子园铅锌多金属矿床位于"三江成矿带"南段保山—镇康地块,矿体赋存于上寒武统沙河厂组第二、三段(∈3s2、∈3s3)中的一套碳酸盐岩系中,矿体呈似层状、透镜状、脉状,严格受构造控制,矿体及其周围发育大量的矽卡岩矿物。通过各类岩(矿)石主量元素特征分析,并结合矿床地质特征,认为该矿床为赋存于碳酸盐岩地层中明显受构造控制的热液充填交代矽卡岩型铅锌矿床。     

长江三峡地区成冰纪-埃迪卡拉纪转换时期微量元素和稀土元素地球化学特征

通过微量元素和稀土元素地球化学分析,对长江三峡地区陡山沱组层型剖面--田家园子剖面成冰系南沱组顶部和埃迪卡拉系陡山沱组下部102个岩石样品进行了地球化学研究。重点分析了氧化还原敏感元素(Zn,Co,U,Mo,Ni,V)的富集特征,并探讨其可能成因机制以及三峡地区成冰纪-埃迪卡拉纪转换时期的水体特征。结果表明:在南沱组顶部仅Zn和Co富集;在盖帽白云岩下部,氧化还原敏感元素均富集,而在盖帽白云岩上部,除Zn和V外,其他氧化还原敏感元素均亏损;在陡山沱组Ⅱ段下部,氧化还原敏感元素由最初的亏损,逐渐变为较稳定的富集。在陡山沱组下部,出现2次明显的富集峰值,分别出现在剖面的0.4m处(盖帽白云岩中间)和6.5m处(陡山沱组Ⅱ段下部)。整个剖面大部分样品具有Eu的轻微正异常(Eu/Eu^*＜1.6), 而在剖面0.4m和6.5m处,Eu具有明显的正异常,结合稀土配分类型、Y/Ho值、La异常、Ce异常等指标,推测这2次异常均可能受到深海热液流的影响,而缺氧海水的上涌造成水体缺氧,导致这些元素出现富集峰值。U/Th、V/(V+Ni)以及稀土元素指标综合指示,三峡地区南沱组顶部冰碛岩应为氧化环境下的沉积物;随着冰川消融,冰融淡水注入古海洋,陡山沱组盖帽碳酸盐的沉积受冰融淡水的影响,深部缺氧海水的上涌使沉积水体经历氧化-缺氧-氧化的转变,海水的分层性较强;而陡山沱组Ⅱ段下部沉积环境以分层性较弱的弱氧化环境为主。     

大陆板块俯冲和折返的同位素地球动力学

大别 -苏鲁造山带是扬子大陆板块与华北大陆板块之间在三叠纪时期俯冲 -碰撞所形成的超高压变质带。对该带超高压变质岩的稳定同位素研究发现 ,不仅含柯石英榴辉岩出现局部氧同位素负异常 (δ18O =- 10‰ ) ,而且区域上存在氧同位素分布的不均一性 (δ18O =- 10‰～+10‰ )。前者要求榴辉岩原岩在变质前经历过大气降水热液蚀变 ,说明俯冲板块具有大陆地壳特点 ;后者反映扬子板块具有快速俯冲变质的特征 ,否则将达到同位素均一化。榴辉岩氧同位素负异常的保存显示 ,这些超高压变质岩与地幔之间没有发生显著的化学相互作用。因此 ,载有榴辉岩原岩的板块俯冲到 2 0 0多公里深的地幔内部时 ,超高压岩石形成后在地幔中的滞留时间很短(<10Ma) ,致使它们与地幔之间的氧同位素交换没有达到再平衡。榴辉岩中不同矿物对氧同位素测温不仅给出了相互一致的结果 (6 5 0～ 75 0℃ ) ,而且这些温度与阳离子交换温度计的结果 (6 0 0～80 0℃ )相一致。因此 ,在榴辉岩相变质温度下共生矿物之间的氧同位素平衡已被“冻结” ,岩石冷却过程中的氧同位素交换再平衡没有发生 ,从而证明超高压榴辉岩在变质作用后经历了快速降压/冷却过程 ,对应于板块的快速抬升。这些结果首次从地球化学角度证明了大陆板块俯冲—超高压变质—折     

超高压变质过程中的元素地球化学行为——CCSD主孔榴辉岩的矿物化学研究

中国大陆科学钻探主孔位于江苏东海县,苏鲁超高压变质带的南部.该钻孔的0～2050m深度获取了六种不同类型的榴辉岩和少量石榴石辉石岩岩心,它们是典型的基性超高压变质岩,为研究大陆深俯冲过程中的元素地球化学行为提供了非常好的样品.本文对各种超高压变质矿物的微量元素成分进行了系统的原位微区分析,结合全岩化学成分和矿物主量元素成分,深入地研究了超高压变质岩的微量元素赋存特征、分配规律、控制因素,及其对变质条件和流体.岩石相互作用的限定意义.结果表明,超高压榴辉岩中的LREE和Sr主要赋存在磷灰石、帘石和单斜辉石中,HREE赋存在石榴石中,Ba、Rb和Cs等LILE赋存在多硅白云母中,Ti、Nb和Ta等HFSE主要赋存在金红石、钛铁矿中,V、Sc、Co和Ni等元素大多赋存在石榴石和单斜辉石中.研究表明,全岩化学成分和矿物组成、及其含量的变化明显控制着超高压矿物的微量元素含量和分布形式.本研究也获得了如下重要的认识超高压变质矿物之间的微量元素分配达到了化学平衡,并具有与地幔榴辉岩矿物之间类似的分配系数,表明榴辉岩的峰期变质温度很可能达到900℃～1000℃.部分高Ti和高Fe-Ti榴辉岩中的石榴石和绿辉石有明显的稀土元素成分环带,表明超高压变质岩经历了快速折返过程.金红石的Zr含量明显受到全岩成分和退变质作用影响,并不仅仅与形成温度有关,不是可靠的温度计.在超临界流体的作用下,榴辉岩中金红石的Nb、Ta发生了明显的分异,导致其Nb/Ta比值增大,由此推测俯冲到地幔深处的大量榴辉岩是地球内部高Nb/Ta比值的物质源区.在榴辉岩的不同程度退变质阶段,参与变质反应的流体具有不同的来源、成分和流体活动规模.     

阿尔泰克兰盆地VMS矿床的变形变质与碳质流体特征

阿尔泰南缘克兰火山-沉积盆地的泥盆纪VMS型矿床经历了石炭纪一二叠纪同造山的区域变质和热液叠加改造作用,同构造石英脉和穿切层状铅锌矿化的脉状铜矿化很发育.矿石中反映压力-重结晶作用的各种结构构造发育,包括碎斑结构、交代结构、斑状变晶结构和碎裂结构,以及塑性流动构造或皱纹构造、压力影等.对铁木尔特、大东沟铅锌(铜)矿床的包裹体研究表明,在矿化构造岩和晚期硫化物石英脉中发育极丰富的碳质(CO2-(CH4-N2)流体.与碳质流体共生的LCO2-LH2O型包裹体均一温度为243.1～412.1℃(铁木尔特)和209～430℃(大东沟),碳质流体的捕获压力估计为180～300 MPa.这些特征与区域变质的温压条件相当,与VMS无关.同步辐射X射线荧光(SRXRF)单个包裹体的重金属微量元素初步对比分析表明,造山型萨热阔布金矿的碳质流体中检出有Au、As,而在VMS矿床中没有检出,说明碳质流体在区域变质过程中对A-u成矿有贡献.     

石笋中稀土元素含量的测定及气候环境意义

首次采用经过改良的外标法校正数据的ICP-MS方法对石笋中的稀土元素含量进行了测定。结果表明,该方法可以用于测定石笋中含量很低的稀土元素,尤其是对含量相对较高的轻稀土元素如La、Ce可以获得较精确的数据。对采集于四川东北部诺水河溶洞群的石笋SJ3的分析结果显示,在相对温暖湿润时期的石笋沉积中稀土元素含量明显增加。可能的原因包括:(1)温暖湿润的气候条件有利于土壤和岩石的化学风化及稀土元素的活化;(2)温暖湿润的气候条件下地下水动力加强,使得地下水中稀土元素的载体(有机质、铁锰胶体和颗粒物质等)增多。因此,石笋沉积中的稀土元素可以用于研究上覆土壤和岩石的化学风化和地下水水文演化。     

Geochemical evolution of the early Paleozoic collisional magmatism from autochthonous migmatites and granitoids to multiphase granite intrusions (Sharanur and Aya complexes,Baikal Region)

Overall petrologic and geochemical data indicate that the early Paleozoic magmatism in the Olkhon area of the Baikal Region exhibits diverse types of granitoids, whose time of formation is estimated at a narrow age interval of 500-465 Ma. This magmatism was responsible for the formation of both autochthonous gneiss-migmatite-granitoid suites (Sharanur complex) and multiphase intrusions (Aya complex) emplaced into the upper horizons of the continental crust. In major-element chemistry, K₂O/Na₂O values, and rare-element composition the migmatite-plagiogranites and calc-alkaline and subalkaline granitoids of the Sharanur complex are similar to the host gneisses and schists, as they were likely derived from melting of the ancient metamorphic substratum of the Olkhon series. In new isotope-geochemical characteristics (ICP MS method) the Sharanur granitoids are close to the first-phase biotite granites of the Aya massif, whose further geochemical evolution was governed mainly by intrachamber magmatic differentiation leading to the production of second-phase leucogranites enriched in HREE and HFSE (in particular, Ta and Nb) and depleted in Sr, Ba, Eu, Li, and LREE. The origin of the autochthonous and intrusive granitoids is related to early Paleozoic collision events within the Olkhon metamorphic terrane, while the formation of syncollisional granitoids is best explained by both melting of the crust protolith (Sharanur complex) and magmatic differentiation (multiphase Aya intrusion). All mineralogical and geochemical characteristics indicate that these granitoids are distinguished from rare-metal pegmatoid granites and Li-F and Rb-Be-Nb pegmatites, whose vein bodies crosscut the granitoids, and are regarded as middle Paleozoic rocks, which mark the transition to within-plate magmatism in the Baikal Region.     

黔东北地区南华系两界河组CIA指数特征及意义

化学蚀变指数（CIA）是判断源岩风化程度的化学指标。通过分析黔东北地区苗哨溪剖面两界河组的CIA特征,为讨论其古气候特征提供地球化学方面的依据。结果表明,两界河组CIA值介于55.48~89.33之间,均值为72.49,除极个别数值为55.48、89.33之外,其它数值皆介于65~75之间,指示两界河组具有温暖湿润的古气候特征。通过综合分析两界河组岩石组合、沉积构造及古气候特征,认为两界河组为间冰期沉积。在此基础上,结合最新同位素年代学数据,认为其可与富禄组中上部进行对比。     

Effects of fluid production on fluid flow during regional and contact metamorphism

Numerical and analytical models of fluid flow that account for fluid production during prograde regional and contact metamorphism show that expulsion of metamorphic fluids dominates the convective flux when crustal permeabilities are less than 0.1–100 μD, depending primarily on the rate of fluid production. When this is the case, fluid circulation is limited or prevented, fluid pressures are elevated above hydrostatic values, and flow throughout most of the model is up and away from the region of maximum fluid production. Fluid circulation is predicted to occur where permeability is high, in dry rocks, or after rates of fluid production decrease as peak temperatures are reached. Large changes in the pattern of flow and influx of externally derived fluids may thus occur in metamorphic terranes when dehydration wanes or ceases and cooling begins. Inclusion of an impermeable horizon in the models further inhibits fluid circulation. Earlier, shallow hydrothermal models and interpretations based on the Rayleigh number may be inappropriate for characterizing fluid flow during prograde metamorphism at depth because they do not account for fluid production.