排序方式: 共有90条查询结果,搜索用时 15 毫秒
61.
出露于大红柳滩地区奇台达坂北侧的泉水沟组火山岩主要岩性为辉石安山岩、辉石安粗岩和黑云母粗面岩。用LAICP-MS技术测得黑云母安粗岩锆石U-Pb年龄为3.71±0.05Ma,形成时代为上新世。地球化学结果显示,岩石具高Al_2O_3(13.56%~14.32%)、高K_2O(4.46%~5.79%)、高Na_2O(3.68%~4.40%),低TiO_2(1.09%~1.48%)、低MgO(2.64%~5.18%)的特征,属于钾玄岩序列。稀土元素总量为550×10~(-6)~612×10~(-6),轻稀土元素总量较高且明显富集,重稀土元素相对亏损,具有右倾型特征和弱Eu异常(δ Eu=0.55~0.63)。微量元素中大离子亲石元素(K、Rb、Ba、Th、U、Pb)强烈富集,高场强元素(Ti、Nb、Ta、P)亏损,具有造山成因钾玄岩的典型特征。研究表明,泉水沟组火山岩来源于有上地壳卷入的部分熔融富集地幔区。结合区域特征,认为泉水沟组火山岩的形成与上新世喀喇昆仑-甜水海造山带沿大红柳滩-泉水沟断裂和甜水海-郭扎错断裂向NNW方向逆冲推覆有关。 相似文献
62.
Chai Fengmei Zhang Zhaochong Mao Jingwen Parat Abudukadir Wang Lijin Dong Lianhui Ye Huishou Chen Li Zheng Rongfen 《中国地质大学学报(英文版)》2006,17(1)
The mineralogical, petrological and geochemical studies on Keliyang (克里阳) potassic dykes have been carried out to understand their rock types, the petrogenesis and the nature of their mantle sources. They are potassic lamprophyre, not lamproites as the previous researchers believed. In this study, the whole-rock major and trace element compositions of another 6 lamproite dykes recently discovered are reported. Major elements were determined by X-ray fluorescence spectrometry (XRF) techniques, while REE and trace elements were determined by inductively coupled plasma mass spectrometry (ICP-MS). They can be classified into phlogopite-diopside lamprophyre, leucite-diopside lamprophyre and granular carbonatite-bearing diopside lamprophyre on the basis of their mineral components. They are all characterized by relatively low SiO2 (41.31% -44. 84%), TiO2 (0.75% -0.86%) and high MgO (7.30%-11.33%), K2O (4.01%-6.01%) concentrations with K2O/Na2O ratios of 2. 77-12.49. In addition, they display enrichment in large-ion iithophile elements (LILEs, e. g., Rb, Sr,Ba) and LREE, but a relative depletion in high-field-strength elements (HFSEs, e.g. , Nb, Ta, Zr, Hf and Ti). They display similar chondrite-normalized REE patterns with slight negative Eu anomalies (δEu=0.64-0. 82), and high initial 87Sr/86Sr ratios, which resemble those of high K/Ti and low-Ti potassic magmas formed in subduction-related settings. Consequently, we suggest that the parental magma was generated by partial melting of the phlogopite-amphibole- bearing garnet lherzolite within the lithospheric mantle that might have been metasomatized by a potassium-bearing fluid released from a subduction oceanic crust. 相似文献
63.
The Nangqên basin is one of the Tertiary pull‐apart basins situated in the east of the Qiangtang block. Similar to the adjacent Dengqên basin and Baxoi basin, there occurred a series of potassic volcanic and sub‐volcanic rocks, ranging from basic, intermediate to intermediate‐acid in lithology. Based on the study of petrology, mineralogy and geochemistry, including REEs, trace elements, isotopic elements and chronology, the authors concluded that the Cenozoic potassic volcanic rocks in the Nangqên basin were formed in the post‐collisional intraplate tectonic settings. The relations between the basic, intermediate and intermediate‐acid rocks are neither differentiation nor evolution, but instead the geochemical variability is mainly attributable to the different partial melting degrees of the mantle sources formed at depths of 50–80 km. The sources of the potassic rocks are enriched metasomatic mantle that has experienced multiple mixing of components mainly derived from the crust. The recycling model can be described as follows: after they had subducted to the mantle wedge, the crust‐derived rocks were metasomatized with the mantle materials. In view of the fact that the ratio of crust‐derived rocks increases by the age of volcanism, it can be concluded that the sources of the potassic rocks moved upwards progressively with time. The underplating of small scattered magmas upwelling from the asthenosphere may have induced partial melting of the sources of the volcanic rocks in some pull‐apart basins in the Hengduanshan area and the intense tectonic movements of large‐scale strike‐slip belts provided conduits for the ascending melts. 相似文献
64.
Gürol Seyito
lu Duncan Anderson Geoff Nowell Barry Scott 《Journal of Volcanology and Geothermal Research》1997,76(1-2)
New K-Ar dating and major- and trace-element analyses from the U
ak-Selendi-Emet (USE) area constrain the timing of changes in the nature of volcanism in the Miocene in western Turkey. The data reveal a change from dominantly calc-alkaline and silicic in the Early Miocene to largely alkaline and more mafic volcanism in the Middle Miocene. This probably reflects a decreasing amount of crustal contamination with time, a result of extensional tectonics. High levels of various incompatible elements (including K) in the more mafic members, suggest an enriched subcontinental lithospheric source region for the Middle Miocene USE lavas. Highly variable Nb/Y, Ti/Y and Th/Nb ratios suggest a lithospheric mantle heterogeneously enriched by two processes: (1) enrichment by subduction-related processes producing high Th/Nb but low Nb/Y and Ti/Y; and (2) enrichment by small degree melts of depleted upper mantle producing low Th/Nb but high Nb/Y and Ti/Y. Both of these enrichment processes have variably contributed to Middle Miocene K-rich lavas in the USE area. The mechanism which initiated the melting of the enriched lithosphere is considered to be extension which produced decompression melting. Comparisons with the nearby Kula lavas reveals that by the Pliocene to Quaternary, volcanism, although still enriched in incompatible elements, had become sodic. It seems likely that continued extension up to this time thinned the lithosphere to such an extent that asthenospheric melts were produced which ascended and mixed with previously enriched lithosphere. 相似文献
65.
Volcanic rocks in Ertix,Xinjiang,occurring in the collision zone between the Siberia Plate and the Junggar Plate,are distributed along the Eritix River Valley in northern Xinjiang.The volcanic rocks were dated at Late Paleozoic and can be divided into the spilite-keratophyre series and the basalt-andesite series.The spilite-keratophyre series volcanic rocks occur in the Altay orogenic belt at the southwest margin of the Siberia Plate.In addition to sodic volcanic rocks.There are also associated potassic-sodic volcanic rocks and potassic volcanic rocks.The potassic-sodic volcanic rocks occur at the bottom of the eruption cycle and control the distribution of Pb and Zn deposits.The potassic volcanic rocks occur at the top of the eruption cycle and are associated with Au and Cu mineralizations.The sodic volcanic rocks occur in the middle stage of eruption cycle and control the occurrence of Cu(Zn) deposits.The basalt-andesite series volcanic rocks distributed in the North Junggar orogenic belt at the north margin of the Junggar-Kazakstan Plate belong to the potassic sodic volcain rocks.The volcanic rocks distributed along the Ulungur fault are relatively rich in sodium and poor in potassium and are predominated by Cu mineralization and associated with Au mineralization.Those volcanic rocks distributed along the Ertix fault are relatively rich in K and poor in Na,with Au mineralization being dominant. 相似文献
66.
67.
Avanzinelli Riccardo; Elliott Tim; Tommasini Simone; Conticelli Sandro 《Journal of Petrology》2008,49(2):195-223
We present new U-series isotope, 87Sr/ 86Sr, 143Nd/ 144Nd andtrace element data for a set of mafic, K-rich rocks from volcanoesin Central–Southern Italy. These shoshonitic to ultrapotassiclavas display strongly depleted high field strength element(HSFE) abundances with respect to other incompatible trace elementstogether with high but variable 87Sr/ 86Sr and low but variable143Nd/ 144Nd values. Such characteristics are thought to bedue to addition of subducted crust of variable amount and compositionto their mantle sources prior to magma genesis. Rocks from thenorthernmost region (i.e. Tuscan Magmatic Province and NorthernRoman Magmatic Province) display (230Th/ 238U) activity ratiosclose to radioactive equilibrium, suggesting that metasomatismof their sources occurred before 400 ka and recent melting tookplace at shallow depths, in the absence of garnet. A 238U excessof up to 27% has been measured in rocks from the NeapolitanDistrict. The occurrence of significant U excesses is a featureof arc magmas, but is typically seen in depleted lavas ratherthan in highly enriched rocks such as these (20 ppm Th). Thissignature requires a recent addition of a U-rich component tothe already strongly enriched mantle wedge beneath this regionof Italy. We suggest that a supercritical liquid, from deeplysubducted carbonate-rich sediments of the still-active Ionianslab, is responsible for generating a high-U, low-Th component,which produces the observed disequilibria. A 30% 230Th excessmeasured in a single unaltered sample from the Lucanian MagmaticProvince, along with a less marked negative HFSE anomaly, suggeststhe contribution of a deeper, garnet-bearing component in thegenesis of these magmas, plausibly related to the upwellingof asthenospheric mantle around the corner of the Ionian slab. KEY WORDS: U/Th disequilibria; potassic and ultrapotassic rocks; subduction: metasomatism; mantle melting; Central and Southern Italy 相似文献
68.
新生代青藏高原钾质火山岩发育,主要集中于藏北地区和拉萨地块内,仲巴地块中鲜见报道。对仲巴地块中发现的加达钾质火山岩进行研究,其岩石类型以粗面质为主,岩浆以溢流相-喷发相不间断喷发。样品普遍显示高钾高铝,低碱,偏酸性,富集轻稀土元素和大离子亲石元素,亏损高场强元素,具弱负Eu异常,贫Y和Yb,Sr含量较高,类似于典型的埃达克质岩的地球化学特征。粗面玄武安山岩样品LA-ICP-MS锆石U-Pb年龄为17.03±0.32Ma,形成时代为中新世。加达钾质火山岩浆来源于挤压增厚的下地壳部分熔融,其产出的构造背景是后碰撞伸展环境。 相似文献
69.
研究"钾质和钠质两个地幔富碱岩浆体系"的刍议 总被引:5,自引:1,他引:5
钾质富碱岩浆岩组成的岩带研究表明,这类岩石普遍富碱和CaO,高钾,富Rb,Sr,Ba和放射性元素Th,U等,Rb/Sr相对较低;稀土元素总量较高,强烈富轻稀土,δEu较小;ISr多数介于0.705~0.706之间;INd较低,铅同位素较均一.Sr-Nd-Pb同位素特征表明,该岩类岩石的岩浆来源于EMⅡ型地幔源区,岩浆很可能直接来源于钾质富碱地幔.钠质富碱岩浆岩带岩石具富碱、高钠(Na2O>K2O)的特点,同时富钛及大离子亲石元素和相对富集Nb,Ta,Zr以及Rb/Sr偏高等;ISr相对低,而INd稍高.这类岩石起源于钠质的富碱地幔源区.这些异常地幔源的形成与地幔流体交代作用有关.而超深大断裂作为岩浆上升的通道,是钾质和钠质地幔富碱岩系形成的重要条件. 相似文献
70.
对山西古元古代末期火山岩的构造属性进行了研究,旨在为解决现今国内外关于古/中元古界(代)分界问题的分岐提供依据。该期火山岩角度不整合于具活动大陆边缘特征的结晶基底之上。无论是汉高山群(或小两岭组)还是西洋河群(—熊耳群),均呈SEE向展布,熔岩占绝对优势,偶见碎屑岩; 以裂隙(串珠状)宁静式溢流喷发为主,同期的基性侵入岩墙群为其岩浆上升的通道。岩性以安山岩-玄武安山岩为主,含少量玄武岩和流纹岩。岩石斑晶为辉石和斜长石,偶见角闪石和黑云母。岩石地球化学富大离子亲石元素和轻稀土元素,亏损高场强元素,w(Th)>w(Ta)。全岩εNd(t)值和εHf(t)值均为负值,在SiO2-K2O图解中以SH+HKCA系列为主,为钾质火成岩系列。该期火山岩是古元古代中晚期华北克拉通结晶基底的西部陆块与东部陆块碰撞拼合的延续,为后碰撞火山弧岩浆。 相似文献