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Dehydration/melting of oceanic crusts during returning to the mantle in subduction zones are related to origin of arc lavas. The factors that influence arc magmatism include compositions of the subducting slabs, mantle wedge and subduction rates. However, distinguishing these factors remains difficult and highly debated. Subducting rate is related to the total mass of inputs and controls thermal structure, thus plays a crucial role in arc magmatism. Here we explore the relationships between geochemical variations of arc lavas and convergence rates(increasing from 46 mm/a to the south to 83 mm/a to the northward) in the Tonga-Kermadec arc system. Data of geochemistry for lava samples from nine islands of this arc system are collected and compiled to investigate the role of subduction rate in arc magmatism. Lavas from the northern Tonga arc with a faster subduction rate show broadly lower concentrations of TiO_2 and highfield-strength elements(HFSEs, e.g. Nb, Ta, Zr, Hf), and higher Ba/Th, U/Th ratios than the Kermadec Arc to the south. Some of the Kermadec lavas show the highest values of Th/Nb ratio. We suggest that the northern Tonga arc with a higher subduction rate has been influenced by a stronger role of subductionreleased fluid, which results in stronger large-ion-lithophile elements(LILEs) and relatively weaker HFSEs contribution. It is interpreted that faster subduction rate tend to create a cooler subduction zone, leading to stronger dehydration subduction slab contribution with, thus, higher LILE/HFSE ratios of arc lavas. The conclusion contributes to a better understanding of arc magmatism, and ultimately the long-term chemical differentiation of the Earth. More supplementary geochemical data along Tonga-Kermadec arc and tests in other arcs are needed. 相似文献
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利用最新钻探的马页1井的井下资料和大量岩心样品的测试分析数据,并结合野外地质调查资料,从富有机质页岩的有机地化、矿物组分、储集特性和裂缝特征等方面,系统地研究了滇东地区马龙区块下寒武统筇竹寺组黑色页岩的储层特征。研究区筇竹寺组黑色页岩有机碳丰度较高,TOC含量普遍大于2%;由于筇竹寺组地层较老,黑色页岩的有机质均处于高成熟过成熟阶段;黑色页岩的矿物组分主要为碎屑矿物、碳酸盐矿物和黏土矿物。脆性矿物含量较高,脆性指数平均值为0.62。黏土矿物主要以伊利石为主,其次为伊蒙混层和绿泥石,高岭石含量较低;该区筇竹寺组页岩的孔、渗较低,孔隙类型复杂多样,主要包括“墨水瓶”孔、板状孔和狭缝型孔。页岩主要发育纳米级中孔,且比表面积和总孔体积偏小,平均值分别为9.18 m2/g和10.38×10-3cm3/g;储层裂缝以高角度缝为主,上部碳质页岩裂缝发育,下部粉砂质页岩裂缝不发育。有机碳含量和脆性矿物含量促进了页岩裂缝的发育;与国内外典型海相页岩储层对比,滇东地区马龙区块筇竹寺组页岩以粉砂质页岩为主,碳质页岩层较薄,而Fort Worth盆地Barnett页岩、焦石坝地区龙马溪组页岩和岑巩区块牛蹄塘组页岩主要为硅质页岩和碳质页岩,筇竹寺组页岩的岩相与这3组海相页岩相比较差;筇竹寺组页岩有机碳含量低于其他3组海相页岩,有机质丰度中等;筇竹寺组页岩脆性矿物含量与龙马溪组页岩相当,稍低于牛蹄塘组页岩,脆性较好;Barnett页岩和龙马溪组页岩无论在储集物性上还是有机质孔隙发育程度上都要优于筇竹寺组页岩和牛蹄塘组页岩,筇竹寺组页岩有机质孔隙主要发育于有机质与黏土的混合物中;筇竹寺组页岩裂缝发育程度低于Barnett页岩、龙马溪组页岩和牛蹄塘组页岩。此外,筇竹寺组页岩含气量低于其他3组海相页岩,但吸附能力较强。 相似文献
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2005年9月11日~24日,我们参加了中国大洋矿产资源研究开发协会组织的环球航次(DY105-17A航次).在"大洋一号"科考船上,先后使用了电视抓斗、MAPRs、摄像拖体、多波束、磁力仪、集成化拖体、CTD和近海底磁力仪等调查设备,对东太平洋海隆的13°N和1°N~3°S两个区块,进行了热液活动调查.以往对东太平洋海隆13°N热液活动的调查研究程度比较高,国际上曾对该区域进行过许多次的航次调查工作,积累了为数众多的数据和资料,2003年11月我们也曾先后使用多波束、CTD、浅层剖面仪、拖网、抓斗和柱状取样器等设备,对东太平洋海隆13°N的热液活动进行了调查,绘制了多波束水深图,获得了宝贵的海底热液硫化物、沉积物、岩石、生物和近海底的水体样品,对该区的地形特征、底质和热液活动情况有了一定的了解.而东太平洋海隆的1°N~3°S,尚属于一个调查研究程度比较低的地段,也没有热液活动是否存在的证据.DY105-17A航次,使我们从海况、海流、水文、地形地貌、底质情况等多个方面对这个区域有了更多的了解和认识,同时在该区赤道附近发现了新的浊度异常,为未来进一步调查证实该区存在热液活动提供了必要的证据. 相似文献
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雅浦岛弧基本由变质岩组成,与西太平洋的其他岛弧具有显著区别。利用在雅浦岛弧获得的变质岩样品,研究了角闪岩的变质温压条件,并进一步探讨了雅浦岛弧变质岩的构造环境,以及加罗林洋底高原及海山的俯冲侵蚀对雅浦岛弧的影响。雅浦岛弧变质岩的矿物组合结果显示,其变质相为角闪岩相和绿片岩相;对雅浦岛弧变质岩进行了电子探针微区分析,采用角闪石单矿物温度压力计、斜长石-角闪石Na-Ca交换温度计和角闪石-斜长石Al-Si压力计来计算变质P-T条件。矿物温压计的估算结果表明,雅浦岛弧角闪岩变质P-T条件为493.6~630℃/3.8~6kbar,为中等P/T型变质相系。结合矿物组合及温压计估算结果,认为雅浦变质岩可能经历了岛弧区域变质作用。雅浦变质岩代表的构造环境为雅浦岛弧基底。雅浦角闪岩的埋藏深度大约为15~20km,雅浦岛弧变质岩的出露是俯冲侵蚀的结果。加罗林洋底高原及海山促进了雅浦岛弧俯冲侵蚀的发育,使得雅浦岛弧的弧前地区甚至岛弧都遭受侵蚀,导致变质岩基底出露于海底。 相似文献
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本文采用模糊逻辑推理方法对地下水位进行预测,收到较好的效果,该方法与其它方法相比提高了预测精度,简化了计算方法。 相似文献
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西太平洋若干沟-弧-盆体系及板内岩浆成因研究进展 总被引:1,自引:0,他引:1
板块俯冲和板内岩浆作用都是导致地表和地球内部物质大规模循环的重要地质过程。但是,两个地质过程的岩浆成因机制,以及成因上的内在联系都存在很大争议。西太平洋是全球沟-弧-盆体系最发育的地区,也是全球板内火山作用(海山和洋底高原)分布最集中的场所。为阐明西太平洋海盆的上地幔软流圈性质、岛弧岩浆形成的控制机制、以及板块内部火山作用(碱性火山岩)的成因机制,在中国科学院战略性先导科技专项(A类)"热带西太平洋海洋系统物质能量交换及其影响"项目的资助下,本文对西太平洋马里亚纳-雅浦俯冲系统、汤加-科玛迪克俯冲带及其俯冲前缘海盆的成因机制、南中国海扩张期海盆玄武岩和板内火山作用、西太平洋海盆上地幔的Dupal异常分布和成因机制等展开了系统的岩石学和地球化学研究,并取得了新的科学认识和成果。主要认识包括:(1)雅浦岛弧主要由变质岩-角闪岩组成,其形成于3—6Kbar温压条件下,代表岛弧下部来自帕里西维拉海盆的变质基底;(2)加洛林洋脊主要由玄武岩组成,其不是一个岛弧,而可能是一个地幔柱形成的洋底高原;(3)汤加-科玛迪克岛弧岩浆组成体现了西南太平洋俯冲板片俯冲速率的直接影响;(4)厘定了汤加-科玛迪克俯冲前缘板块的年龄(103.7Ma),并认识到其代表古太平洋扩张中心并消耗了Ontong Java超级地幔柱的组分;(5)首次在南海发现了碳酸盐化的硅酸岩岩浆向碱性玄武岩转化的现象,提出了板内碱性玄武岩成因的新链条;(6)西太平洋海盆的地幔广泛存在Dupal异常,该异常从西太平洋岛弧俯冲带一直延伸至南海海盆,其中南海海盆的Dupal异常主要受到大陆裂解和海南地幔柱作用的双重影响。通过以上认识,进一步揭示了西太平洋沟-弧-盆体系和板内岩浆体系作用机制,以及俯冲板片物质与板内火山活动之间的成因关联,这对于深刻理解板块构造导致的地球内外物质循环规律有一定的推动作用。 相似文献
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The serpentinized peridotites overlying the subducted zones in the Izu-Bonin-Mariana (IBM) arc system have been interpret as the cause of the low-velocity layer identified beneath the IBM froearc, in turn few earthquakes occurred along the plate boundary. Chrysotile, which is a low temperature and highly hydrated phase of serpentine with low frictional strength, has been suggested as the low velocity material in the serpentinized peridotites, besides, brucite is inferred to be likely conducive to stable sliding. However, such idea encounters challenging in our serpentinized peridotites from the southern Mariana forearc, which absent both the above minerals. The presence of talc, which characterized by its weak, low-friction and inherently stable sliding behavior, provides new clue. Here we report the occurrence of talc in serpentinized peridotites collected from the landward trench slope of the southern Mariana forearc. We infer that talc is mainly forming as a result of the reaction of serpentine minerals with silica-saturated fluids released from the subducting slab, and talc also occurs as talc veins sometimes. Due to its unique physical properties, talc may therefore play a significant role in aseismic slip in the IBM subduction zone.
相似文献10.
白垩纪以来太平洋上地幔组成和温度变化 总被引:1,自引:0,他引:1
张国良 《海洋学报(英文版)》2016,35(4):19-25
The geological evolution of the Earth during the mid-Cretaceous were shown to be anomalous, e.g., the pause of the geomagnetic field, the global sea level rise, and increased intra-plate volcanic activities, which could be attributed to deep mantle processes. As the anomalous volcanic activities occurred mainly in the Cretaceous Pacific, here we use basalt chemical compositions from the oceanic drilling(DSDP/ODP/IODP) sites to investigate their mantle sources and melting conditions. Based on locations relative to the Pacific plateaus, we classified these sites as oceanic plateau basalts, normal mid-ocean ridge basalts, and near-plateau seafloor basalts. This study shows that those normal mid-ocean ridge basalts formed during mid-Cretaceous are broadly similar in average Na8, La/Sm and Sm/Yb ratios and Sr-Nd isotopic compositions to modern Pacific spreading ridge(the East Pacific Rise). The Ontong Java plateau(125–90 Ma) basalts have distinctly lower Na8 and143Nd/144 Nd, and higher La/Sm and 87Sr/86 Sr than normal seafloor basalts, whereas those for the near-plateau seafloor basalts are similar to the plateau basalts, indicating influences from the Ontong Java mantle source. The super mantle plume activity that might have formed the Ontong Java plateau influenced the mantle source of the simultaneously formed large areas of seafloor basalts. Based on the chemical data from normal seafloor basalts, I propose that the mantle compositions and melting conditions of the normal mid-ocean ridges during the Cretaceous are similar to the fast spreading East Pacific Rise. Slight variations of mid-Cretaceous normal seafloor basalts in melting conditions could be related to the local mantle source and spreading rate. 相似文献