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1.
桐庐I型和相山S型两类碎斑熔岩对比 总被引:19,自引:6,他引:19
以浙西桐庐I型和赣东北相山S型碎斑熔岩为代表,对两类不同成因的火山-侵入杂岩进行了系统对比。桐庐I型具有相对贫SiO_2(<68%)、相对富Na_2O、贫K_2O(Na_2O/K_2O>0.78)、低的Rb/Sr(<0.9)和I_(Sr)(t)值(0.7060)以及高的ε_(Nd)(t)(>-6.0)等特征,表明源区为基性变质火成岩;相山S型含岩浆结晶的富铝矿物石榴石和红柱石,具有相对富SiO_2(2>68%)、低的Na_2O/K_2O(<0.78)、高的Rb/Sr(>0.9)和I_(Sr)(t)值(>0.7100)以及低的ε_(Nd)(t)值(<-6.0)等特怔,其源区为变质沉积岩。 相似文献
2.
LA-ICP-MS锆石U-Pb定年结果显示,桂北新寨花岗岩形成于中奥陶世(465±2Ma)。该花岗岩的地球化学特征表现为化学成分较均一,具有高硅(SiO_2=68.54%~74.57%)、富碱(K_2O+Na_2O=7.61%~8.31%)、更富钾(K_2O/Na_2O=1.77~2.35)、强过铝质(A/CNK=1.09~2.39)和富集大离子亲石元素而亏损高场强元素等特征,属于S型花岗岩。新寨花岗岩具有比较均一的Sr、Nd同位素组成(I_(Sr)=0.71137~0.71328,ε_(Nd)(t)=-7.89~-7.26)。锆石Hf同位素组成为:(~(176)Hf/~(177)Hf)_i=0.28232~0.28252,ε_(Hf)(t)=-6.18~+0.61,Hf同位素两阶段模式年龄TDM2变化于1.67~2.11Ga之间。元素及Nd-Sr-Hf同位素分析结果显示,新寨花岗岩可能源自古元古代地壳变质泥岩的部分熔融,在成岩过程中有少量幔源组分的参与。新寨S型花岗岩可能是广西运动第二幕在桂北地区的岩石学响应,为早古生代构造-岩浆群事件的建立提供了新证据。 相似文献
3.
《新疆地质》2016,(2)
协贝能喀克花岗闪长岩位于准噶尔盆地东部,岩石地球化学特征显示,硅饱和SiO_2为64.00%~65.87%,相对富铝,Al_2O_3为15.50%~15.84%,具明显富钠贫钾特征(Na_2O/K_2O比值2.39~2.59),为钙碱性系列火山弧花岗岩。岩体锆石U-Pb同位素测年表明,其形成年龄为(441.9±5.7)Ma,时代为早志留世,岩石具低(~(87)Sr/~(86)Sr)i值(0.703 8~0.704 0)、正高ε_(Nd)(t)值(6.9~7.2)和锆石ε_(Hf)(t)值(10.9~13.1),具典型埃达克岩特征。早古生代古亚洲洋在俯冲消减过程中,导致地壳垂向上增生加厚。 相似文献
4.
扬子克拉通北缘新元古代岛弧花岗岩类成分极性及成因的地球化学探讨 总被引:3,自引:1,他引:3
对扬子克拉通北缘新元古代岛弧花岗岩类成分极性的地球化学研究表明,在SiO_2含量相近的条件下,由北向南岩石中K_2O、K_2O+Na_2O、K_2O/Na_2O逐渐增加,而CaO逐渐降低;从北向南,微量元素Rb、Ba、Th、Zr、Nb、Ta、 ∑REE及Rb/Th、Rb/Nb、∑LREE/∑HREE、(La/Yb)_N 逐渐增加或具增加趋势,而 Sr、Co、Ni和Sr/Ba具逐渐降低或具降低趋势;同位素组成由北向南δ~18O、εs_r(t)系统增高,而ε_(Nd)(t)逐渐降低。这些组分的空间变化规律与环太平洋带位于俯冲带上盘向陆一侧的岛弧或大陆边缘岩浆中出现的成分极性规律相一致.分析认为,大陆壳物质以不同比例的加入是影响俯冲带岛弧花岗质岩浆成分极性的一个重要因素,向陆一侧岩浆中陆壳物质所占的比例逐渐增高,而幔源物质所占比例逐渐降低。 相似文献
5.
企岭花岗岩位于粤北诸广山岩体南部的东、西两侧的结合部位,岩性为中粒黑云母花岗岩。元素和同位素地球化学研究表明,企岭花岗岩的主量元素特征是富硅(SiO_2平均为72.24%)、富铝(ACNK值平均为1.08)、钾大于钠(K_2O/Na_2O比值平均为1.86);微量元素特征是富集大离子元素Rb、Th、U和亏损Ba、Sr、Nb、P、Ti;稀土元素特征是总量较高,配分模式呈右倾型,Eu亏损明显(δEu平均为0.28);同位素特征是ε_(Nd)(t)值低(-10.3~-12.0)、[n(~(87)Sr)/n(~(86)Sr)]i值较高(0.71387~0.72232)和Nd模式年龄古老(1782~1918Ma);源区成分以砂质岩为主。上述特征十分相似于南岭地区的S型花岗岩。由此可知,企岭花岗岩是在太平洋板块俯冲导致先存的大东山—诸广山断裂带重新复活的构造背景下,由古老地壳组分通过部分熔融的方式形成。 相似文献
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7.
湖南桃江地区印支期辉绿岩成因——地球化学、年代学和Sr-Nd-Pb同位素约束 总被引:1,自引:1,他引:0
对湖南桃江地区江石桥辉绿岩进行了LA-ICP-MS锆石U-Pb定年,获得的岩浆侵位年龄为229±2.3Ma(n=8,MSWD=1.8,2σ)。其低钾(K_2O/Na_2O=0.14~0.16),贫碱(K_2O+Na_2O=2.89%~2.96%),富集大离子亲石元素(Rb、Ba、Th、U),亏损高场强元素(Nb、Ta、Ti),呈轻稀土元素弱富集,无Eu、Ce异常,富集放射性成因Pb,低(~(87)Sr/~(86)Sr)_i(0.706052~0.706437),较低正ε_(Nd)(t)(1.54~1.86)的特征,表明岩石来源于下地壳物质和亏损地幔的混合源区。综合前人的研究结果认为,在印支运动造山后的伸展背景下,软流圈上涌导致区域下地壳及部分地幔物质发生熔融,形成辉绿岩岩浆并向上侵位而成。 相似文献
8.
印支地块晚二叠世弧后伸展:来自老挝川圹高原A型花岗岩的证据 总被引:1,自引:0,他引:1
印支地块老挝地区的地质构造特征由于历史原因很少公开报道,基于最近的野外考察和室内测试,本文报道了老挝北部川圹高原A型花岗岩的岩石学、年代学及地球化学的特征,并进一步揭示古特提斯板块汇聚初期印支地块内部的伸展特性。Nuna花岗岩体3个花岗岩样品的U-Pb年龄为258.7±1.9 Ma、259.0±1.7Ma及251.0±0.9Ma。花岗岩富硅(SiO_2平均含量71.94%),富FeOT(2.91%),富碱(Na_2O+K_2O平均含量9.2%,且K_2O含量高于Na_2O),贫镁(Mg O平均含量0.11%),富集轻稀土元素和Zr、Hf、Rb、Th和U等元素,亏损Sr、Eu和Ti、Ba等元素,以及较高的锆石饱和温度(平均927℃),显示A型花岗岩的性质特征。花岗岩全岩εNd(t)值和二阶Nd模式年龄分别位于-2.4~-2.1和1.20~1.22Ga之间,表明其岩浆源区主要为中元古代古老地壳。通过与印支地块陆壳增生事件的对比,作者认为Nuna A型花岗岩岩浆源区为中元古代古老地壳与少量幔源底侵形成的新生地壳的混合。Nuna花岗岩微量元素图解投点全部落入板内环境,结合其形成时代与区域构造岩浆演化历史,作者认为Nuna花岗岩形成于华南地块向西南俯冲于印支地块之下由于板片回撤引起的弧后伸展环境。 相似文献
9.
藏南吉隆淡色花岗岩体位于大喜马拉雅淡色花岗岩带的中部,是吉隆地区藏南拆离系剪切带上部的重要组成部分。地球化学特征显示,岩石具有高SiO_2(72.09%~74.02%)、Al_2O_3(14.54%~15.59%)和K_2O(4.55%~5.59%)含量,高K_2O/Na_2O比值(1.12~1.55)和A/CNK值(1.14~1.18),属于高钾钙碱性过铝质S型花岗岩。富集大离子亲石元素Rb和放射性生热元素U,亏损Ba、Nb、Sr和Zr等元素,具有明显的轻重稀土元素分异和Eu负异常(δEu=0.37~0.54)。具有高的Rb/Sr比值(3.6~9.7)和低的CaO/Na_2O比值(0.15~0.25),指示源区为泥质岩区;(~(87)Sr/~(86)Sr)_i和ε_(Nd)(t)变化范围分别为0.7548~0.7586和-14.0~-13.1,与大喜马拉雅变泥质岩的Sr-Nd同位素组成一致;锆石边部的ε_(Hf)(t)介于-16.0~-8.5之间,位于大喜马拉雅变泥质岩中碎屑锆石的演化线上,表明淡色花岗岩的源岩为大喜马拉雅变泥质岩。岩石(~(87)Sr/~(86)Sr)_i较高而Sr浓度较低,且随着Ba浓度的增加,Rb/Sr比值降低,表明淡色花岗岩是无水条件下白云母脱水熔融形成的,部分熔融可能与藏南拆离系(STDS)伸展拆离导致的深部构造减压密切相关。吉隆淡色花岗岩的形成反映了地壳伸展减薄背景下,构造减压导致的深部地壳物质中含水矿物(白云母)脱水熔融并沿向北伸展的STDS侵位的构造动力学过程。 相似文献
10.
内蒙古吉尔嘎郎图早古生代岩体成因——年代学、地球化学及Nd-Hf同位素制约 总被引:3,自引:1,他引:2
兴蒙造山带北缘断续分布的早古生代岩浆岩带,对古生代构造格局恢复及造山带演化研究具有重要意义。阿巴嘎旗北部吉尔嘎郎图岩体位于该岩浆岩带中段,为带内最大的早古生代复式侵入体。LA-ICP-MS锆石U-Pb定年表明,吉尔嘎郎图岩体早期花岗闪长岩单元成岩年龄为455.0~495.6Ma。在主量元素组成上,岩体SiO_2含量中等(59.49%~68.22%),贫铁、镁,K_2O/Na_2O值(0.64~0.85)小于1,A/CNK=0.96~1.09,整体具有亚碱、弱过铝特征。稀土及微量元素方面,岩体富Cs、Rb、Th、U、Pb,亏损Ba、Sr、P及高场强元素Nb、Ta等,稀土元素总量中等,具有弱负Eu异常(δEu=0.52~0.82)。Sr-Nd-Hf同位素分析结果显示,岩体具有亏损的同位素组成,(~(87)Sr/~(86)Sr)i=0.7053~0.7034,ε_(Nd)(t)=0.39~4.29,2件Hf同位素样品ε_(Hf)(t)均为正值,分别为ε_(Hf)(t)=7.6~10.8和ε_(Hf)(t)=3.7~7.9。岩石地球化学、年代学及Sr-Nd-Hf同位素综合分析表明,吉尔嘎郎图岩体是早古生代古亚洲洋沿苏左旗—锡林浩特一线向北俯冲背景下,遭受了俯冲板片析出流体交代作用影响的新生下地壳部分熔融的产物,后期由于弧后拉张、贺根山洋盆打开与主体岛弧带分离,最终随着古亚洲洋的整体闭合,形成了与俯冲带彼此分隔的格局。 相似文献
11.
Gilles Serge Odin 《Comptes Rendus Geoscience》2002,334(6):409-414
Lithostratigraphy, physicochemical stratigraphy, biostratigraphy, and geochronology of the 77–70 Ma old series bracketing the Campanian–Maastrichtian boundary have been investigated by 70 experts. For the first time, direct relationships between macro- and microfossils have been established, as well as direct and indirect relationships between chemo-physical and biostratigraphical tools. A combination of criteria for selecting the boundary level, duration estimates, uncertainties on durations and on the location of biohorizons have been considered; new chronostratigraphic units are proposed. The geological site at Tercis is accepted by the Commission on Stratigraphy as the international reference for the stratigraphy of the studied interval. To cite this article: G.S. Odin, C. R. Geoscience 334 (2002) 409–414. 相似文献
12.
Inter-regional correlation of transgressions and regressions in the Cretaceous period 总被引:1,自引:0,他引:1
T. Matsumoto 《Cretaceous Research》1980,1(4):359-373
Well investigated platforms have been selected in each continent, and the history of Cretaceous transgressions and regressions there is concisely reviewed from the available evidence. The factual records have been summarized into a diagram and the timing of the events correlated between distant as well as adjoining areas.On a global scale, major transgressions were stepwise enlarged in space and time from the Neocomian, via Aptian-Albian, to the Late Cretaceous, and the post-Cretaceous regression was very remarkable. Minor cycles of transgression-regression were not always synchronous between different areas. Some of them were, however, nearly synchronous between the areas facing the same ocean.Tectono-eustasy may have been the main cause of the phenomena of transgression-regression, but certain kinds of other tectonic movements which affected even the so-called stable platforms were also responsible for the phenomena. The combined effects of various causes may have been unusual in the Cretaceous, since it was a period of global tectonic activity. The slowing down of this activity followed by readjustments may have been the cause of the global regression at the end of the Cretaceous. 相似文献
13.
The Afyon stratovolcano exhibits lamprophyric rocks, emplaced as hydrovolcanic products, aphanitic lava flows and dyke intrusions, during the final stages of volcanic activity. Most of the Afyon volcanics belong to the silica-saturated alkaline suite, as potassic trachyandesites and trachytes, while the products of the latest activity are lamproitic lamprophyres (jumillite, orendite, verite, fitztroyite) and alkaline lamprophyres (campto-sannaite, sannaite, hyalo-monchiquite, analcime–monchiquite). Afyon lamprophyres exhibit LILE and Zr enrichments, related to mantle metasomatism. 相似文献
14.
正20140751 Guo Xincheng(Geological Party,BGMRED of Xinjiang,Changji 831100,China);Zheng Yuzhuang Determination and Geological Significance of the Mesoarchean Craton in Western Kunlun Mountains,Xinjiang,China(Geological Review,ISSN0371-5736,CN11-1952/P,59(3),2013,p.401-412,8 相似文献
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正20141058 Chen Ling(Key Laboratory of Mathematical Geology of Sichuan Province,Chengdu University of Technology,Chengdu610059,China);Guo Ke Study of Geochemical Ore-Forming Anomaly Identification Based on the Theory of Blind Source Separation(Geosci- 相似文献
16.
正20141334 Chen Kun(Institute of Geophysics,China Earthquake Administration,Beijing100081,China);Yu Yanxiang Shakemap of Peak Ground Acceleration with Bias Correction for the Lushan,Sichuan Earthquake on April20,2013(Seismology and Geology,ISSN0253-4967,CN11-2192/P,35(3),2013,p.627-633,2 illus.,1 table,9 refs.)Key words:great earthquakes,Sichuan Province 相似文献
17.
正20141624 Cai Xiongfei(Key Laboratory of Geobiology and Environmental Geology,Ministry of Education,China University of Geosciences,Wuhan 430074,China);Yang Jie A Restudy of the Upper Sinian Zhengmuguan and Tuerkeng Formations in the Helan Mountains(Journal of Stratigraphy,ISSN0253-4959CN32-1187/P,37(3),2013,p.377-386,5 illus.,2 tables,10 refs.) 相似文献
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正20142263Lü Shaojun(Geological Survey of Jiangxi Province,Nanchang 330030,China)Early-Middle Permian Biostratigraphical Characteristics in Qiangduo Area,Tibet(Resources SurveyEnvironment,ISSN1671-4814,CN32-1640/N,34(4),2013,p.221-227,2illus.,2tables,22refs.)Key words:biostratigraphy,Lower Permian,Middle Permian,Tibet 相似文献
19.
正20142560Hu Hongxia(Regional Geological and Mineral Resources Survey of Jilin Province,Changchun 130022,China);Dai Lixia Application of GIS Map Projection Transformation in Geological Work(Jilin Geology,ISSN1001-2427,CN22-1099/P,32(4),2013,p.160-163,4illus.,2refs.) 相似文献
20.
正20140692 Duo Tianhui(No.402 Geological Team,Exploration of Geology and Mineral Resources of Sichuan Authority,Chengdu611730,China);Wang Yongli Computer Simulation of Neptunium Existing Forms in the Groundwater(Computing Techniques for Geophysical and Geochemical Exploration,ISSN1001-1749,CN51-1242/P,35(3), 相似文献