Slab dehydration and basalt petrogenesis in subduction systems involving very young oceanic lithosphere

Compositions of post-Miocene basalts erupted in the Garibaldi and Central America volcanic arcs exhibit significant correlations with the age of the subducted plate. In general, SiO₂, Al₂O₃, CaO, V, and (Sr/P)_N decrease and FeO, MgO, TiO₂ and Na₂O increase as the age of the subducted plate decreases. Variations in CaO/Al₂O₃, SiO₂, (Sr/P)_N, and Ba are compatible with lesser slab input, and hence less hydrous melting conditions in the mantle wedge in segments of the arcs overlying the youngest oceanic lithosphere. This interpretation is supported by comparison with peridotite melting experiments, which suggest higher melt pressures and temperatures in the mantle wedge above very young oceanic lithosphere. These observations point to a model in which dehydration of the downgoing slab occurs at shallow depths in subduction systems involving oceanic lithosphere younger than about 20 Ma. Because young oceanic lithosphere is relatively warm, little post-subduction heating is required to produce metamorphic reactions that release slab volatiles. Geodynamic models indicate most volatile-liberating reactions will occur within the seismogenic zone in oceanic lithosphere younger than 20 Ma, thus limiting the volatile flux beneath the arc and encouraging drier, higher temperature and higher pressure melting conditions in the mantle wedge in comparison to typical arc systems. Liberation of volatiles in the downgoing plate is strongly dependant on the shear stress on the fault, but is predicted to occur within the seismogenic zone for shear stresses greater than 33 MPa. Similarly, early loss of volatiles is predicted over a wide range of convergence rates, plate dips, and convergence angles. These results are shown to be robust for realistic ranges of slab dip, convergence angle, and shear stress, suggesting that volatile-poor melt generation is a characteristic of modern and ancient arc systems that involve subduction of young oceanic lithosphere.     

浙江建德新生代玄武岩源区特征及其成因

中国东南部浙江境内分布有大量新生代板内玄武岩，这些玄武岩的分布受到三条北东—南西向的断裂控制，将浙江玄武岩分为西部、中部、东部三个区域。其中，出露于浙江西部江山-绍兴断裂带的建德玄武岩是浙江境内最古老的新生代玄武岩（约40 Ma）。为进一步认识浙江境内新生代岩浆作用的本质，测定了建德玄武岩的元素组成和Sr、Nd、Hf、Pb同位素组成，并在与浙江境内其它新生代玄武岩对比的基础上，探讨它们之间的成因联系。建德玄武岩为碧玄岩，与浙江西部其它新生代玄武岩一样，碱性程度明显高于浙江中部和东部的新生代玄武岩（以弱碱性的碱性橄榄玄武岩和拉斑玄武岩为主）。这些玄武岩具有较低的SiO₂ (41.3~42.3 wt%）和Al₂O₃（9.70~12.6 wt%）含量，较高的MgO（8.90~15.6 wt%）、CaO（8.92~12.1 wt%）、TiO₂（2.78~3.18 wt%）和Fe₂O₃^T（14.1~16.2 wt%）含量以及较高的Ca/Al（1.02~1.16）比值。不相容微量元素组成上与火成碳酸岩具有亲缘性，即蛛网图上表现为明显的K、Zr、Hf、Ti的负异常（Hf/Hf*=0.74~0.77, Ti/Ti*=0.70~0.74），同时具有高的Zr/Hf比值（48.5~50.1），表明其地幔源区含有碳酸盐组分。建德玄武岩具有亏损的Sr-Nd-Hf同位素组成（⁸⁷Sr/⁸⁶Sr=0.7032~0.7034, εNd=5.85~5.95, εHf=7.78~8.56）和较高的²⁰⁶Pb/²⁰⁴Pb（18.491~18.554）、²⁰⁷Pb/²⁰⁴Pb（15.488~15.518）和²⁰⁸Pb/²⁰⁴Pb（38.387~38.523）比值。相比浙江中部和东部玄武岩，浙江西部玄武岩及建德玄武岩具有更高的碱含量、不相容微量元素含量、La/Yb比值和更明显的K、Zr、Hf、Ti负异常，表明浙江西部玄武岩是碳酸盐化地幔低程度熔融的产物。浙江新生代玄武岩的Ti/Ti*与Ba/Th、K/La比值之间较好的正相关性表明其源区存在两端元混合的特征。其中，以浙江西部玄武岩（包括建德玄武岩）为代表的地幔端元是由含碳酸盐的再循环洋壳熔融产生的碳酸盐熔体与亏损地幔反应形成的碳酸盐化地幔，以较低的Ba/Th、K/La和Ti/Ti*比值为特征。以浙江东部玄武岩为代表的地幔端元具有和碳酸盐化地幔端元互补的、较高的Ba/Th、K/La和Ti/Ti*比值，代表熔融残余的再循环洋壳。因此，浙江新生代玄武岩的地幔源区是不均一的，这种不均一性主要是由具有成因联系的两种端元组分所控制。     

吉林省白山市板石沟铁矿断裂构造地球化学特征

断裂构造中元素的迁移变化规律是构造地球化学研究的主要内容.白山市板石沟铁矿断裂构造发育,是开展断裂构造地球化学研究的有利地区.通过对板石沟铁矿17矿组和赵家沟矿组典型逆断层剖面测量,采集构造岩和周围岩石,分析常量元素和微量元素,利用构造地球化学剖面法、质量等比线法和特征元素比值来反映元素在逆断层中分布特征和迁移变化规律.通过分析认为在逆断层中常量元素SiO₂、Fe₂O₃、CaO、Na₂O亏损,Al₂O₃、K₂O富集,微量元素中Rb、Sr等离子半径较大元素富集,离子半径较小元素Co、Cr、Ni亏损,K₂O/Na₂O、V/Cr、Rb/（Ni+Co）在逆断层中呈现出高值,SiO₂/Al₂O₃、（Fe₂O₃+CaO+MgO）/Al₂O₃呈现出低值.依据这些构造地球化学特征可以用来判断断裂构造的存在,为断裂构造地球化学研究和板石沟铁矿勘查提供构造地球化学依据.     

喀拉昆仑火烧云一带早侏罗世双峰式火山岩的发现及意义

喀拉昆仑火烧云北火山岩发育在乔尔天山断裂附近,玄武岩体和安山岩体在时空上紧密伴生。主量元素测试结果显示,其中玄武岩和英安岩的Si O2含量分别为48.84%~52.44%和62.22%~65.63%,具有明显的Daly间断面,属于典型的双峰式火山岩。玄武岩Al2O3含量较低,MgO、Ca O、Ti O2含量较高,Sr、Ba、K等微量元素强烈亏损,高场强元素Ta、Nb、Ti、Zr无亏损。英安岩具有相对较高的Al2O3、Na2O、K2O含量,较低的MgO、Ca O、Ti O2含量;微量元素具富集大离子亲石元素(Rb、Th、U、K)、亏损高场强元素(Ta、Nb、Ti),显示典型岛弧环境特征。岩石地球化学特征表明二者同属钙碱系列,形成于弧后盆地,属同源演化,英安岩为玄武岩结晶分异的产物。通过对英安岩进行LA-ICP-MS锆石U-Pb方法测年,获得流纹岩形成年龄为(195.5±1.1)Ma,属于早侏罗世。通过对该区域构造演化进行分析讨论,认为乔尔天山一带盆地整体可能处于弧后盆地的发育阶段,盆地形成过程中岩石圈地幔未被拉断,没有洋壳形成。     

Petrology and geochemistry of shoshonitic plutons from the western Kunlun orogenic belt, Xinjiang, northwestern China: implications for granitoid geneses

A series of granitoids from Proterozoic to Cenozoic age occurred in the western Kunlun orogenic belt, Xinjiang, northwestern China. Several intrusions such as the West Datong (Middle Caledonian age), North Kuda (Late Caledonian age) and Kuzigan, Karibasheng, Zankan (Himalayan age) plutons have shoshonitic affinity. Their rock assemblages include (quartz) monzodiorite–(quartz) monzonite–quartz syenite (Middle Caledonian) or monzonitic granite–granite (Late Caledonian) or biotite (monzonitic) granite–diopside granite–diopside syenite (Himalayan). Generally, biotite is iron–phlogopite, with some eastonite and high Mg/(Mg+Fe_T) and Fe³⁺/Fe²⁺ ratio. Amphibole is mainly edenitic hornblende and magnesian hastingsitic hornblende, with some edenite and higher Mg/(Mg+Fe_T) and Fe³⁺/Fe²⁺ ratio. The rocks show SiO₂ contents of 52.77–71.85% and high K₂O+Na₂O (mostly >8%, average 9.14%), K₂O/Na₂O (mostly >1, average 1.50) and Fe₂O₃/FeO (0.85–1.51, average 1.01) and low TiO₂ contents (0.15–1.12%, average 0.57%). Al₂O₃ contents (13.01–19.20%) are high but variable. The granitoids are prominently enriched in LILE, LREE and volatiles such as F. However, the studied shoshonitic granitoids among the three intrusive periods also show differences in isotopic compositions and trace element concentrations, suggesting their different geneses: the origin of the West Datong pluton is probably related to the involvement of subducted oceanic crust sediments into the mantle source; the North Kuda and Himalayan plutons could have been generated by partial melting of subducted oceanic crust sediments or metasediments of thickened continental lower crust in the process of late-orogenic slab break-off or lithospheric thinning.     

川西甘孜-理塘结合带洋岛型玄武岩地球化学、年代学特征及其地质意义

甘孜-理塘结合带作为三江特提斯造山带与松潘-甘孜造山带的重要组成部分,发育大量的洋岛-海山岩石组合,洋岛玄武岩的存在标志着洋盆已发育成熟的洋壳.木里地区的洋岛-海山岩石组合由"基性火山岩+碳酸盐岩"构成,对基性火山岩的地球化学特征分析表明：基性火山岩SiO₂含量为40.17%~49.19%,TiO₂含量1.77%~4.86%,Al₂O₃含量9.67%~15.39%,MgO含量3.85%~17.75%,全碱含量（K₂O+Na₂O）0.87%~6.33%,属碱性玄武岩系列.稀土总量∑REE值较高,为106.21×10^-6~378.83×10^-6,（La/Yb）_N比值为9.23~39.41,为轻稀土富集型,Eu、Ce无异常,配分模式为右倾型.微量元素表现出大离子亲石元素Rb、Ba、Th、K富集,而亏损高场强元素Nb、Zr.稀土元素及微量元素特征与标准洋岛型玄武岩相近,源区为软流圈地幔石榴石橄榄岩,且部分经历了岩浆结晶分异,形成于洋岛台地环境.玄武岩的锆石U-Pb定年结果为218.96~221.71 Ma,表明洋岛型玄武岩形成于晚三叠世中期.     

The petrogenesis of group 2 ultrapotassic kimberlites from Finsch Mine, South Africa

Major, trace element and radiogenic isotope results are presented for a suite of hypabyssal kimberlites from a single pipe, at the Finsch Mine, South Africa. These are Group 2 kimberlites characterised by abundant phlogopite ± serpentine ± diopside; they are ultrabasic (SiO₂ < 42 wt.%%) and ultrapotassic (K₂O/Na₂O > 6.9) igneous rocks, they exhibit a wide range in major element chemistry with SiO₂ = 27.6−41.9 wt. % and MgO = 10.4−33.4 wt. %. (⁸⁷Sr/⁸⁶Sr)_i=0.7089 to 0.7106, ε_{Nd is} −6.2 to −9.7 and they have unradiogenic (²⁰⁷Pb/²⁰⁴Pb)_i contents which ensure that they plot below the Pb-ore growth curve. They have high incompatible and compatible element contents, a striking positive array between Y and Nb which indicates that garnet was not involved in the within suite differentiation processes, and a negative trend between K/Nb and Nb contents which suggests that phlogopite was involved. In addition, some elements exhibit an unexpected order of relative incompatibility for different trace elements which suggests that the intra-kimberlite variations are not primarily due to variations in the degree of partial melting. The effects of fractional crystallization are difficult to establish because for the most part they have been masked by the entrainment of 50–60% mantle peridotite. Thus, the Finsch kimberlites are interpreted as mixtures of a melt component and entrained garnet peridotite, with no evidence for significant contamination with crustal material. The melt component was characterised by high incompatible element contents, which require both very small degrees of partial melting, and source regions with higher incompatible element contents than depleted or primitive mantle. Since the melt component was the principal source of incompatible elements in the kimberlite magma, the enriched Nd, Sr and Pb isotope ratios of the kimberlite are characteristic of the melt source region. The melt fractions were therefore derived from ancient, trace elements enriched portions of the upper mantle, most probably situated within the sub-continental mantle lithosphere, and different from the low ⁸⁷Sr/⁸⁶Sr garnet peridotite xenoliths found at Finsch. Within the sub-continental mantle lithosphere old, incompatible element enriched source regions for the kimberlite melt fraction are inferred to have been overlain by depleted mantle material which became entrained in the kimberlite magma.     

赣东北蛇绿混杂岩岩石地球化学特征及构造意义

赣东北蛇绿混杂岩是中国为数不多的新元古代蛇绿岩,对该蛇绿混杂岩带中的方辉橄榄岩和玄武岩类岩石进行元素地球化学研究,以探讨新元古代赣东北地区的构造动力学背景.研究表明,方辉橄榄岩具有低TiO₂(0.02%~0.37%)、低K₂O(0~0.02%)、低Na₂O(0.02%~0.10%)和富MgO(40.81%~44.58%)特征,烧失量普遍较高(10.09%~13.47%),表明样品普遍遭受蚀变;稀土元素配分模式图和微量元素蛛网图显示,橄榄岩样品具有亏损地幔源区特征,同时兼有俯冲带流体交代的特征.玄武岩类SiO₂含量主要为52.63%~56.19%,平均为55.00%,属安山玄武岩范围.岩石具低MgO(3.66%~6.46%),中等TiO₂(1.14%~2.66%),高Al₂O₃(13.07%~15.27%)、Na₂O(3.42%~5.03%)的特征.安山玄武岩轻稀土富集((La/Yb)_N=1.84~2.61),无明显Eu异常,稀土配分曲线呈右倾型;微量元素蛛网图中显示大离子亲石元素Th、Ba、U、Pb富集、高场强元素Nb、Ti亏损,可能系俯冲板片脱水产生的流体交代地幔楔所形成,TNT(Ta、Nb和Ti)的负异常指示赣东北蛇绿混杂岩的形成过程中可能遭受了陆源物质的混染,反映了消减作用的影响.方辉橄榄岩和安山玄武岩的地球化学特征表明赣东北蛇绿混杂岩的形成可能经历了多期演化,早期可能系古华南洋发生洋内俯冲作用,俯冲过程中释放的流体交代了俯冲带上的地幔楔,使地幔橄榄岩富集轻稀土.随后的弧后盆地扩张阶段,形成具有岛弧性质和MORB特征的玄武岩类,但由于弧后盆地发育不成熟,玄武岩类在地球化学上显示有大陆物质的特征,表现出高Pb、低Ti和轻稀土强烈富集.      

Geochemical constraints on the origin of Mesozoic alkaline intrusive complexes from the North China Craton and tectonic implications

Mesozoic alkaline intrusive complexes are widespread in the southern portion of the North China Craton and can provide some important constraints on the evolution of the Mesozoic lithosphere beneath the region. Three selected intrusive complexes (Tongshi, Hongshan, and Longbaoshan) are generally high in alkalis (K₂O+Na₂O=913 wt.%) and Al₂O₃ (1421.6 wt.%) and low in CaO and TiO₂ (<0.6 wt.%), with high and variable SiO₂ contents. Rocks from these complexes are all enriched in LREE and LILE (Cs, Rb, Ba, U, Th), depleted in Nb and Ti, have a highly positive Pb anomaly, and are characterized by lack of a clear Eu anomaly despite trace element abundances and isotopic ratios that vary greatly between complexes. The Tongshi complex has high Cs (2.68.5 ppm) and REE abundances (∑REE=112.6297 ppm, (La/Yb)_N=13.130.9) and MORB-like Sr–Nd–Pb isotopic ratios ((⁸⁷Sr/⁸⁶Sr)_i<0.704; ε_Nd>0; (²⁰⁶Pb/²⁰⁴Pb)_i>18). The Hongshan complex has low REE concentrations (∑REE=28.2118.7 ppm, (La/Yb)_N=4.614.7) and is moderately enriched as demonstrated by their Sr–Nd isotopic ratios ((⁸⁷Sr/⁸⁶Sr)_i>0.706; ε_Nd<−7). The Longbaoshan complex is extremely REE enriched (∑REE=211.3392.6 ppm, (La/Yb)_N=32.460.9) and has an EM2-like Sr–Nd isotopic character ((⁸⁷Sr/⁸⁶Sr)_i>0.7078; ε_Nd<−11). We suggest that the Tongshi complex originated from the asthenosphere and the Hongshan complex and the Longbaoshan complex were derived from the partial melting of previously subduction-modified lithospheric mantle, in response to post-collisional lithospheric extension and asthenospheric upwelling. The occurrence of these alkaline intrusive complexes demonstrates that the lithosphere beneath the region must have been considerably thinned at the time of intrusion of these complexes. This study also shed light on the temporal evolution of the Mesozoic lithosphere and the timing of the lithospheric thinning.     

峨眉山大火成岩省底部枕状玄武岩的地质地球化学特征及成因探讨

云南上沧二叠纪枕状玄武岩位于峨眉山大火成岩省内带底部。该玄武岩全岩SiO₂含量为49.36%～51.36%,TiO₂含量为1.28%～1.91%,MgO含量为6.08%～10.79%,Mg^#值为53～69,Al₂O₃含量为13.91%～16.31%,Na₂O含量为1.59%～3.72%,K₂O含量较低,为0.18%～0.76%,并且Na₂O/K₂O比值较高,为4.27～10.48,属拉斑系列玄武岩。具有右倾斜型稀土元素配分模式,重稀土和部分高场强元素与N-MORB接近,轻稀土和部分大离子亲石元素介于N-MORB和上地壳之间。(La/Sm)_N比值大多数低于2.0(1.4～2.2),(Ce/Yb)_N比值介于2.2～3.4之间,明显低于OIB,不具有OIB的地球化学特征,在Th/Hf-Ta/Hf构造环境判别图解中位于陆缘裂谷玄武岩区域,推测上沧枕状熔岩是古特提斯洋俯冲到扬子板块边缘形成的初始裂谷扩张的产物。     

西藏则学地区古特提斯残留洋盆沉积充填及源区构造背景

古特提斯残留洋盆沉积学和构造背景研究对于揭示青藏高原形成演化及其成矿规律具有重要意义.综合野外实测剖面、典型露头、岩石薄片、生物地层学和沉积地球化学等资料,开展了西藏则学地区晚古生代古特提斯残留洋盆的深水盆地地层学、沉积学、沉积演化和物源区构造背景研究.研究结果表明,研究区发育的晚古生代地层以含砾粉砂岩和泥岩、细砂岩为主,砂体以席状和透镜状为主,沉积构造丰富,晚古生代饱粉组合特征明显.残留洋盆经历了陆坡-深水盆地-陆架三角洲-滨浅海盆地-滨岸三角洲-海湾盆地的沉积充填演化历程.主量元素组成和比值具有较低的Fe₂O₃+MgO（5.1%~10.0%）、TiO₂（0.44%~0.84%）、Al₂O₃/SiO₂（0.12~0.26）,以及较高的K₂O/Na₂O.微量和稀土元素组成和比值具有较高的∑REE、LREE明显富集、较高的La/Yb、（Gd/Yb）_N、（La/Yb）_N比值、弱的Eu负异常特征.碎屑岩主量、微量和稀土元素组成均指示物源区具有活动大陆边缘和大陆岛弧性质,研究区晚古生代处于伸展背景下的陆缘裂陷环境,构造-岩浆活动和隆升作用较为强烈,且具有较为稳定的继承性演化特征.盆地沉积充填和演化记录了海平面逐渐下降、古特提斯残留洋盆逐渐封闭的过程.      

中国东北软流圈地幔中的原始橄榄岩质地幔:来自大兴安岭地区新生代玄武岩的地球化学证据

为了进一步了解中国东北新生代玄武岩地幔源区的物质属性,报道了大兴安岭哈拉哈河-柴河地区新生代玄武岩的全岩主量、微量元素和Sr、Nd、Pb、Hf同位素组成.哈拉哈河-柴河玄武岩属钠质碱性系列,具有与洋岛玄武岩相似的微量元素特征,如富集大离子亲石元素（LILEs）、明显的Nb、Ta正异常等.它们具有中等亏损的Sr-Nd-Hf同位素组成（87Sr/86Sr=0.703 5~0.703 9、ε_Nd=5.21~6.55、ε_Hf=10.00~11.25）,接近中国东部新生代玄武岩的亏损端元.这些玄武岩具有中等的放射成因Pb同位素组成（206Pb/204Pb=18.37~18.57、207Pb/204Pb=15.52~15.54和208Pb/204Pb=38.24~38.43）,在206Pb/204Pb-207Pb/204Pb相关图上位于4.42~4.45 Ga的地球等时线之间.它们在Sr-Nd-Pb同位素相关图中均落入地幔柱来源的、高3He/4He比（>30R_a）的洋岛玄武岩范围内,暗示其源区可能存在来自深部地幔的古老原始地幔物质.此外,这些玄武岩具有高MgO（8.49%~11.58%）、高Ni（174×10-6~362×10-6）和高Mg#（59.1~66.9）的特征,表明它们接近于原始岩浆的成分.反演的哈拉哈河-柴河玄武岩的原始岩浆组成具有中等的SiO₂、低Al₂O₃以及高CaO/Al₂O₃比的特征,与石榴子石橄榄岩高压（>2.5 GPa）实验熔体的成分相当,暗示玄武岩的源区岩性最可能为橄榄岩.对以原始地幔（而不是亏损地幔）的微量元素为初始成分的饱满石榴子石二辉橄榄岩进行低程度（1%~2%）部分熔融的模拟计算,产生的熔体与哈拉哈河-柴河玄武岩具有一致的微量元素特征,这进一步支持了上述推断.综上所述,认为大兴安岭地区哈拉哈河-柴河玄武岩的源区含有来自深部地幔的古老的橄榄岩质原始地幔组分.      

鄂西南利川二叠纪吴家坪组硅质岩成因及沉积环境

鄂西南利川吴家坪组硅质岩与海相石煤及多层火山粘土岩共生,产海绵骨针及放射虫化石,放射虫组合以泡沫虫类为主,内射球虫类次之,隐管虫类很少,代表外陆棚沉积环境。硅质岩的陆源元素Al、Ti含量较高,热水来源元素Fe、Mn含量较低,Al/(Al+Fe+Mn)值在0.64~0.83之间,平均值0.73。在Al-Fe-Mn三角图中,样品位于或紧邻非热水沉积区,在 SiO₂- (K₂O+Na₂O)、SiO₂-Al₂O₃, (K₂O+Na₂O)-Al₂O₃ 图解中大多数样品落在火山成因区,少数位于火山成因与生物成因区之间。相对于沉积岩的微量元素丰度,生命元素Mo、V富集,指示热水沉积的特征元素Ba、As、Sc亏损。∑REE较低,∑LREE/∑HREE平均值为3.02,Ce、Eu均轻度负异常（δCe:0.75~0.83,平均值0.79;δEu:0.61~0.95, 平均值0.84）,经北美页岩标准化后稀土元素配分曲线近水平。以上地球化学特征表明研究区硅质岩属火山成因,并伴有生物作用。氧化还原判别指标U/Th、V/(V+Ni)及Ce_anom,沉积环境判别指标MnO/TiO₂,La_N/Yb_N 与判别图解100×TFe₂O₃/SiO₂-100 Al₂O₃/SiO₂、TFe₂O₃/(100-SiO₂)-Al₂O₃/(100-SiO₂)、TFe₂O₃/TiO₂-Al₂O₃/(Al₂O₃+TFe₂O₃)、La_N/Ce_N-Al₂O₃/(Al₂O₃+TFe₂O₃)与∑LREE/∑HREE-100×Eu/∑REE一致表明硅质岩形成于大陆边缘缺氧环境。     

大兴安岭北段新林地区晚石炭世花岗岩的岩石成因及地质意义

大兴安岭北段新林地区晚古生代花岗岩主要出露在大乌苏和富西里附近,岩性主要为二长花岗岩,另有少量花岗闪长岩。对其中二长花岗岩样品进行LA-ICP-MS锆石U-Pb测年表明,大乌苏和富西里岩体侵位年龄分别为（303.7±2.2）和（300.5±0.5）Ma,均为晚石炭世岩浆活动的产物。花岗岩具有富硅（w（SiO₂）为66.77%~75.85%）、富碱（w（Na₂O+K₂O）为7.41%~8.69%）、高铝（w（Al₂O₃）为12.90%~16.22%）,低MgO、CaO、TiO₂的特点,属于钙碱性系列;铝饱和指数（A/CNK）为1.06~1.44,为过铝质岩石;镜下未见原生白云母、堇青石、石榴石等富铝矿物,不同于富铝的S型花岗岩;而w（P₂O₅）与w（SiO₂）负相关,呈I型花岗岩特征;富集LREE和Ba、Rb、K等大离子亲石元素,亏损Nb、Ta、Ti等高场强元素,与后造山I型花岗岩特征相似,应形成于拉张的构造环境。花岗岩的⁸⁷Sr/⁸⁶Sr为0.712 938、¹⁴³Nd/¹⁴⁴Nd为0.512 386,（⁸⁷Sr/⁸⁶Sr）_i值为0.704 4,ε_Nd（t）值为-1.09,T_DM2=1 172 Ma,源区物质主要为中-新元古代从亏损地幔增生的地壳物质。结合区域研究成果,大兴安岭新林地区晚石炭世岩浆侵位活动与额尔古纳-兴安地块和松嫩地块碰撞拼合后岩石圈伸展环境有关。     

塘沽地区沙河街组下部含云质泥岩主微量元素地球化学特征及地质意义

细粒泥岩记录并反映着源区及沉积区的重要地质信息.塘沽地区沙河街组下部发育一套湖相含云质泥岩, 为了解该地区的构造背景、沉积背景、风化程度以及物源属性, 对25块含云质泥岩的地球化学特征进行了全面的分析.经"去白云石"调整后, 各类元素地球地化参数及图解反映出了一致的地质信息.其中, 高∑REE值(154.0×10-6~219.3×10-6)、中等强度的负铕异常(0.64~0.73)以及包括K₂O/Na₂O-SiO₂, SiO₂/Al₂O₃-K₂O/Na₂O和判别函数几类双变量图解均指示塘沽地区具有主动大陆边缘(安第斯型)的构造背景; SiO₂-(K₂O+Na₂O+Al₂O₃)图解指示岩石沉积期气候干旱, 相当B(200.17~313.21)指示沉积水体为咸水类型, 近似黄铁矿矿化度(approximate degree of pyritization, 简称DOP_apx)(0.02~0.38)、自生铀(0.14~1.22)及U/Th(0.17~0.44)指示水体具备常氧属性; 化学蚀变指数(chemical index of alteration, 简称CIA)(51.26~65.74), 长石蚀变指数(plagioclase index of alteration, 简称PIA)(51.65~78.06), 修正成分变异指数(modified index of composition variation, 简称ICV_m)(0.67~1.24)及A-CN-K图解反映了母岩经受了弱-中等强度的风化程度; 判别函数图解、K-Rb双变量判别图解、A-CN-K图解、Al₂O₃/TiO₂指标(23.37~28.58)、与上地壳(upper continental crust, 简称UCC)相似的稀土配分模式及负铕异常则共同确定长英质岩石为含云质泥岩的母岩来源.在上述背景条件的约束下, 研究表明塘沽地区沙河街组含云质泥岩的物质来源应主要由燕山褶皱带提供.      

http://www.sciencedirect.com/science/article/pii/S1674987111001150

The Erlangmiao granite intrusion is located in the eastern part of the East Qinling Orogen.The granite contains almost 99 vol.％ felsic minerals with accessory garnet,muscovite,biotite,zircon,and Fe-Ti ...     

冀东秦家峪中元古界高于庄组锰矿成因: 来自矿物学和地球化学的制约

冀东秦家峪锰矿赋存于中元古界蓟县系高于庄组二段底部含锰岩系内,其成因尚不明确.以秦家峪锰矿ZK58-2钻孔样品为研究对象,通过显微薄片观察、电子探针分析及全岩地球化学分析等方法,探讨了高于庄组锰矿的锰质来源和沉积环境对成矿的贡献.显微薄片观察、电子探针分析表明,原生矿带中含锰矿物主要为菱锰矿、铁镁菱锰矿、钙菱锰矿、锰方...     

西准噶尔晚泥盆世碱性玄武岩的地球化学特征及其与塔里木大火成岩省岩浆岩对比

西准噶尔是近年来中亚造山带的研究热点地区之一,发育多条蛇绿混杂岩带。随着研究的深入,蛇绿岩混杂岩带中不断有碱性洋岛玄武岩被识别出来。本文对克拉玛依及达尔布特蛇绿混杂岩中的晚泥盆世枕状玄武岩进行详细的岩石地球化学及Sr?Nd同位素组成研究。结果表明西准噶尔晚泥盆世枕状玄武岩属于碱性玄武岩系列,岩石具有高TiO₂ （2.3%～3.8%）及P₂O₅ （0.38%～0.91%）,低MgO （2.41%～4.97%）,轻、重稀土元素分异较为明显,(La/Yb)_N = 5.1～14.5,无明显Eu异常（Eu/Eu* = 0.96～1.1）,相对富集Rb、Th、U,亏损Ba、K、Sr,没有明显Nb、Ta负异常,这些地球化学特征与洋岛玄武岩（OIB）极其相似。克拉玛依及达尔布特蛇绿混杂岩中枕状玄武岩具正ε_Nd(t)值（3.3～4.4）及年轻的模式年龄（0.83～0.72 Ga）,表明其来源于亏损地幔源区,通过同位素及微量元素研究认为源区可能为富辉石的橄榄岩,或不含橄榄石的辉石岩和角闪石岩,克拉玛依及达尔布特蛇绿混杂岩中的晚泥盆世枕状玄武岩形成于大洋板内与地幔柱有关的海山/大洋岛屿环境。这些明显不同于大陆板内具有富集特征的塔里木大火成岩省,它们分别属于两个明显不同的同位素地球化学省,即以富集型地幔为同位素组成的南部省及以亏损型地幔为同位素组成的北部省。     

Geochemistry and Sr, Nd, Pb isotopic composition of the Central Atlantic Magmatic Province (CAMP) in Guyana and Guinea

The Central Atlantic Magmatic Province (CAMP) is one of the largest igneous provinces on Earth, extending more than 5000 km north to south, on both sides of the Atlantic Ocean. Its emplacement occurred about 200 Ma ago, at the Triassic–Jurassic boundary, and is linked to the initial breakup of Pangaea. Two areas of the province are studied here: French Guyana/Surinam (South America) and Guinea (West Africa), in order to document the petrogenesis and geodynamical significance of high-Ti and low-Ti basaltic magmas from the CAMP.

In Guyana, doleritic and gabbroic dykes are located on the edge of the Guiana Shield, and represent limited volumes of magma. They display low SiO₂ (47–50%), high TiO₂ (2.5–3.5%) and high FeO tholeiitic trends and show variably enriched trace element patterns ((La/Yb)_n=1.5–5.1). Their isotopic signature and ratios of very incompatible elements (εNd_i=+5.8 to +4.2, (⁸⁷Sr/⁸⁶Sr)_i=0.703–0.705, (²⁰⁷Pb/²⁰⁴Pb)_i=15.46–15.64) match a depleted PREMA (prevalent mantle)-like source. Their genesis can be modeled by ca. 15% partial melting of a lherzolite source, and a subsequent limited fractional crystallization (5–10%) or a slight upper crustal assimilation–fractional crystallization (AFC, r=0.1, Proterozoic contaminant). In Guinea, in contrast, huge volumes of CAMP magmas were intruded along the Rockelides suture and the West African craton, forming the Fouta Djalon sills and the Kakoulima laccolith. The laccolith is more than 1000 m thick. These features consist of gabbros, dolerites, diorites and mafic (gabbro) and ultramafic (dunite, wherlite) cumulates. Guinean tholeiites show high SiO₂ (51–58%), low TiO₂ (0.7–1.2%) and FeO trends, with high LILE/HFSE ratios and slight negative Nb–Ta anomalies. Isotopic signatures (εNd_i=+0.4 to −5.3, (⁸⁷Sr/⁸⁶Sr)_i=0.705–0.710, (²⁰⁷Pb/²⁰⁴Pb)_i=15.57–15.66) indicate a more enriched source than for Guyana as well as a higher rate of magma–upper crust interaction through an AFC process (r=0.3, Birimian crust contaminant) and, probably, an additional upper crustal contamination for the most differentiated sample.

This geochemical study supports the prevalence in Guinea, as for other low-Ti CAMP tholeiites, of a lithospheric mantle source, previously enriched during ancient subduction events, and preferentially reactivated in late Triassic times by edge-driven convection between cratonic and mobile belt domains. A larger contribution from a depleted asthenospheric source is required to generate high-Ti tholeiites in Guyana, which may reflect the development of CAMP rifting towards the initiation of the Central Atlantic oceanic crust.     

东海陆架晚更新世以来沉积物常量元素的分布及其地质意义

对东海陆架西湖凹陷区SFK-1孔的岩性、粒度、常量元素以及测年数据的综合分析表明:元素地球化学信息对于地层的划分有良好的指示意义。 SFK-1孔沉积物常量元素质量分数平均值分别为SiO₂ 65.35%、Al₂O₃ 12.12%、FeO 1.75%、CaO 3.88%、MgO 2.04%、K₂O 2.63%、 Na₂O 2.04%、 TiO₂ 0.66%、 P₂O₅ 0.12%、 MnO 0.065%、TFe₂O₃ 4.74%、CaCO₃ 5.38%,标准差系数较小,反映SFK-1孔常量元素离散程度较小。SFK-1孔沉积物CaCO₃/TiO₂、CaO/TiO₂和P₂O₅/TiO₂反映了化学风化程度的强弱;TiO₂/Al₂O₃可以作为古水流能量的指标,反映当时河流水动力条件的影响强度;而SiO₂/TiO₂、Na₂O/TiO₂可以用来反映沉积水动力的强度。依据常量元素质量分数垂直变化特征划分的8个层段分别与沉积物粒度、气候变化地层划分界线吻合。研究区自91 ka BP以来沉积环境经历了剧烈变化,它们分别反映了末次间冰期( 暖期) 晚期以来东海陆架区沉积环境的变化。