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1.
This paper addresses the composition, geochemistry, isotopic characteristics, and age of rocks from the Carter Seamount of
the Grimaldi seamount group at the eastern margin of the Central Atlantic. The age of the seamount was estimated as 57–58
Ma. Together with other seamounts of the Grimaldi system and the Nadir Seamount, it forms a “hot line” related to the Guinea
Fracture Zone, which was formed during the late Paleocene pulse of volcanism. The Carter Seamount is made up of olivine melilitites,
ankaramites, and analcime-bearing nepheline tephrites, which are differentiated products of the fractional crystallization
of melts similar to an alkaline ultramafic magma. The volcanics contain xenoliths entrained by melt at different depths from
the mantle, layer 3 of the oceanic crust, which was formed at 113–115 Ma, and earlier magma chambers. The rocks were altered
by low-temperature hydrothermal solutions. The parental melts of the volcanics of the Carter Seamount were derived at very
low degrees of mantle melting in the stability field of garnet lherzolite at depths of no less than 105 km. Anomalously high
Th, Nb, Ta, and La contents in the volcanics indicate that a metasomatized mantle reservoir contributed to the formation of
their primary melts. The Sr, Pb, and Nd isotopic systematics of the rocks show that the composition of the mantle source lies
on the mixing line between two mantle components. One of them is a mixture of prevailing HIMU and the depleted mantle, and
the other is an enriched EM2-type mantle reservoir. These data suggest that the formation of the Carter Seamount volcanics
was caused by extension-related decompression melting in the Guinea Fracture Zone of either (1) hot mantle plume material
(HIMU component) affected by carbonate metasomatism or (2) carbonated basic enclaves (eclogites) ubiquitous in the asthenosphere,
whose isotopic characteristics corresponded to the HIMU and EM2 components. In the former case, it is assumed that the melt
assimilated during ascent the material of the metasomatized subcontinental mantle (EM2 component), which was incorporated
into the oceanic lithospheric mantle during rifting and the breakup of Pangea. 相似文献
2.
东北亚中生代火山岩研究若干问题的思考 总被引:14,自引:1,他引:13
东北亚中生代火山岩包括大陆边缘北北东向线型火山岩带,以及大陆内部俄罗斯西伯利亚、蒙古、中国大兴安岭等面型火山岩带。它们是东北亚古亚洲洋构造域向太平洋构造域转换时期深部地幔地球化学过程以及东亚大陆与古太平洋板块相互作用的产物。对它们的研究涉及古生代古亚洲构造域闭合过程的深部地幔的动力学和地球化学演化历史,以及东亚大陆边缘由被动边缘向活动大陆边缘转换历史。古亚洲域大洋岩石圈向地幔深部潜入而引发的热地幔 相似文献
3.
The history of the opening of the South Atlantic in Early Cretaceous time is considered. It is shown that the determining role for continental breakup preparation has been played by tectono-magmatic events within the limits of the distal margins that developed above the plume head. The formation of the Rio Grande Rise–Walvis Ridge volcanic system along the trace of the hot spot is considered. The magmatism in the South Atlantic margins, its sources, and changes in composition during the evolution are described. On the basis of petrogeochemical data, the peculiarities of rocks with a continental signature are shown. Based on Pb–Sr–Nd isotopic studies, it is found that the manifestations of magmatism in the proximal margins had features of enriched components related to the EM I and EM II sources, sometimes with certain participation of the HIMU source. Within the limits of the Walvis Ridge, as magmatism expanded to the newly formed oceanic crust, the participation of depleted asthenospheric mantle became larger in the composition of magmas. The role played by the Tristan plume in magma generation is discussed: it is the most considered as the heat source that determined the melting of the ancient enriched lithosphere. The specifics of the tectono-magmatic evolution of the South Atlantic is pointed out: the origination during spreading of a number of hot spots above the periphery of the African superplume. The diachronous character of the opening of the ocean is considered in the context of northward progradation of the breakup line and its connection with the northern branch of the Atlantic Ocean in the Mid-Cretaceous. 相似文献
4.
Data on the composition of rocks in linear tectono-magmatic rises in the Brazil Basin indicate that volcanic rocks in the Vitoria—Trindade seamount chain were derived from a mantle reservoir unevenly enriched in phosphorus under the effect of melts close to subalkaline picrobasalt. These melts contained much of the EM I mantle component because the plume material was contaminated with continental lithospheric component. A long-lived isotopic homogeneity of the source is typical of the whole structure, including the Trindade and Martin Vaz Islands and the Abrolhos Plateau. The analogous isotopic ratios of rocks at the Fernando de Noronha Islands are reportedly explained by a similar mechanism of melt derivation and the similar evolution of the mantle plume material, which was originally situated beneath the South American continent. Compared to the melts of volcanic rocks of all other seamounts discussed herein, the parental melts of volcanics at the Victoria—Trindade Seamounts were derived at lower degrees of melting of enriched source material at a greater depth. The overwhelming majority of volcanic rocks at the northern chain of the Bahia Seamounts were produced by melts generated with the involvement of material of the HIMU type. At the same time, one of our rock samples was derived from a source of composition close to DM with a certain admixture of enriched material like EM I. The mantle source of rocks of the Pernambuco Seamounts consisted of a mixture of DM and HIMU material with a certain admixture of EM I (or, perhaps, EM II). The 10°–11° S Seamounts were formed near the MAR axial zone at the decompressional melting of chemically homogeneous mantle source that consisted of DM material with an admixture of EM I (or, perhaps, EM II) component. 相似文献
5.
6.
洋岛玄武岩的元素和同位素地球化学特征可以示踪深部地幔的化学结构和化学演化过程。HIMU(Highμ,μ=238U/204Pbt=0)
型玄武岩是一类元素和同位素组成特殊的洋岛玄武岩,被认为与地幔柱中再循环的洋壳物质直接相关,因此,HIMU型玄
武岩的成因是地幔柱(热点) 研究中长期关注的话题。本文概述了HIMU型玄武岩的地球化学定义,对HIMU洋岛的分布、
火山演化阶段以及岩性变化做了综合阐述,并在对比经典HIMU型玄武岩与其他板内玄武岩元素地球化学特征、放射成因
同位素组成以及惰性气体同位素组成特征的基础上,简要探讨其源区组成和成因上的不同。 相似文献
7.
大火成岩省由一个体积巨大的、连续的、以富镁铁岩石占优势的喷出岩及其伴生的侵入岩组成,是一个全球现象。它包括大陆溢流玄武岩和伴生的侵入岩,火山被动边缘玄武岩,大洋高原、海岭、海山群和洋盆溢流玄武岩。Ontong Java和Kerguelen-Broken Ridge大洋高原、北大西洋火山被动边缘、德干和哥伦比亚河大陆溢流玄武岩是3个主要大火成岩省的典型代表。各种不同的大火成岩省在时空分布及组成上都具有相似性,它们具有非常大的体积、高的喷发速率,岩石类型以拉斑玄武岩为主。大火成岩省代表了地球上已知的最大的火山岩浆活动,记录了物质和能量从地球内部向外的大量转换。大火成岩省难以用板块构造来解释,可用热柱模式来解释,通常被认为是与来自下地幔的热柱“头”有关。大火成岩省是地球动力学过程在地壳的表现,因此大火成岩省参数可作为边界条件去反演地幔动力学过程。 相似文献
8.
This paper reports original data on the composition of volcanic rocks in the western part of the Andrew Bain Fault of the South-West Indian Ridge obtained in the 23rd voyage of R/V Akademik Nikolai Strakhov. In accordance with high La/Th and low Nb/U ratios, the basalt compositions of stations S2317, S2318, and S2330 could result from melting of the DM-type source with HIMU traces. Meanwhile, the enriched samples of station S2326 correspond to a mantle source with a considerable contribution of recycled sediments (EM). Sample S2326/35, which is composed of a melt almost completely depleted in EM material, corresponds to the volcanic rocks of the Marion and Prince Edward islands. The obtained and available data on the SWIR segment from Bouvet Island to Andrew Bain Fault are indicative of small mantle heterogeneities in this region. Two possible variants of their origin are considered: either preservation of the enriched material fragments in the depleted mantle during the split of Gondwana or “contamination” of the mantle with plume material with the formation of vein irregularities before opening of the ocean in this region. In the latter case, the plume material could cover a huge area not constrained by the young plume magmatism regions on Bouvet, Marion, and Prince Edward islands. 相似文献
9.
<正>Greenstone belts of the eastern Dharwar Craton,India are reinterpreted as composite tectonostratigraphic terranes of accreted plume-derived and convergent margin-derived magmatic sequences based on new high-precision elemental data.The former are dominated by a komatiile plus Mg-tholeiitic basalt volcanic association,with deep water siliciclastic and banded iron formation(BIF) sedimentary rocks.Plumes melted at90 km under thin rifted continental lithosphere to preserve inlraoceanic and continental margin aspects.Associated alkaline basalts record subduction-recycling of Mesoarchean oceanic crust,incubated in the asthenosphere.and erupted coevally with Mg basalts from a heterogeneous mantle plume.Together.komaliites-Mg basalts-alkaline basalts plot along the Phanerozoic mantle array in Th/Yb versus Nb/Yb coordinate space,representing zoned plumes,establishing that these reservoirs were present in the Neoarchean mantle. Convergent margin magmatic associations are dominated by tholeiitic to calc-alkaline basalts eompositionally similar to recent intraoceanic arcs.As well,boninitic flows sourced in extremely depleted mantle are present,and the association of arc basalts with Mg-andesites-Nb enriched basalts-adakites documented from Cenozoic arcs characterized by subduction of young(20 Ma),hot,oceanic lithosphere. Consequently.Cenozoic style "hot" subduction was operating in the Neoarchean.These diverse volcanic associations were assembled to give composite terranes in a subduction-accretion orogen at~2.1 Ga,coevally with a global accretionary orogen at ~2.7 Ga,and associated orogenic gold mineralization. Archean lithospheric mantle,distinctive in being thick,refractory,and buoyant,formed complementary to the accreted plume and convergent margin terranes.as migrating arcs captured thick plumeplateaus. and the refractory,low density.residue of plume melting coupled with accreted imbricated plume-arc crust. 相似文献
10.
D. G. Nkouathio A. Kagou Dongmo J. M. Bardintzeff P. Wandji H. Bellon A. Pouclet 《Mineralogy and Petrology》2008,94(3-4):287-303
Tombel graben and Mounts Bambouto are two volcanic fields of the typical system of alternating graben and horst structure of the Cameroon Volcanic Line. Tombel graben is a young volcanic field, whereas Mounts Bambouto horst is an old stratovolcano with calderas. Volcanic products in both settings have a signature close to that of Ocean Island Basalt implying a major role of FOZO (focal zone) component and varied contribution of depleted mantle (DMM) and enriched mantle (EM) components. The Cameroon Volcanic Line is a hot line essentially resulting from passive rifting. Eocene to Recent intraplate basaltic volcanism in the study area was probably a result of mantle upwelling coupled with lithospheric extension. The olivine basaltic magma of horst volcanoes evolved in a large-scale, steady-state magmatic reservoir via crystal fractionation and limited contamination to highly differentiated alkaline lavas (trachyte and phonolite). Conversely, rapid ascent of lavas along multiple fault lines of graben structures produced less evolved lavas (hawaiite) within small reservoirs. This model, evaluated for the study area, involves mantle upwelling inside zones of weakness in the lithosphere after intra-continental extension. It can be applied to other parts of the Cameroon Volcanic Line as well, and is similar to that described in other intra-continental rift-related areas in Africa. 相似文献
11.
The composition of ophiolites widespread in the southern Urals shows that they were formed in a suprasubduction setting. Low-Ti
and high-Mg sheeted dikes and volcanic rocks vary from basalt to andesite, and many varieties belong to boninite series. The
rocks of this type extend as a 600-km tract. The volcanic rocks contain chert interbeds with Emsian conodonts. Plagiogranites
localized at the level of the sheeted dike complex and related to this complex genetically are dated at 400 Ma. The ophiolites
make up a base of thick islandarc volcanic sequence. The composition of the igneous rocks and the parameters of their metamorphism
indicate that subduction and ascent of a mantle plume participated in their formation. The nonstationary subduction at the
intraoceanic convergent plate boundary developed, at least, from the Middle Ordovician. 相似文献
12.
S. G. Skolotnev M. E. Bylinskaya L. A. Golovina I. S. Ipat’eva 《Doklady Earth Sciences》2011,437(1):316-322
Micropaleontological and isotope-geochronological investigations of calcareous sedimentary rocks and volcanites dredged out
from the central portion of the submarine Vitoria-Trindade Ridge during the 24th cruise of R/V Akademik Vavilov have been conducted. It has been established based on micropaleontological analysis, which included determination of the
species composition of foraminifera and nannoplankton, that the sequence of sedimentary rocks having a pelagic nature formed
on the slopes of the volcanic seamounts in the central portion of the Vitoria-Trindade Ridge from the Early to Mid-Miocene
to the Holocene; a good correlation between the degree of lithification of these rocks and their age is observed. It has also
been established that the carbonate platforms on the abraded tops of the Davis Seamount and the Dogaressa Bank, which are
located in the east-central portion of the Vitoria-Trindade Ridge, started forming in the Early Miocene (19–24 Ma). It has
been determined using local U-Pb dating of zircon grains with a SHRIMP-II high resolution secondary ion mass spectrometer
that the volcanites forming the upper portion of the volcanic rock sequence of the Jaseur Seamount (29.8 ± 6.6 Ma) located
in the west-central portion of the Vitoria-Trindade Ridge date to the Oligocene. The investigations conducted have confirmed
the opinion that the Vitoria-Trindade Ridge formed in general because of the activity of the hot spot located under the volcanic
Trindade and Martin Vaz Islands. However, separate extended lenticular segments of this ridge existed for a long time as single
structures, within which the age of the seamounts was not linearly dependent on the distance from the location of the hot
spot. Lenses of hot mantle matter that form at the sublithospheric level as a result of impulses of plume activity and move
along with the lithospheric plate play a defining role in the development of individual segments forming the Vitoria-Trindade
Ridge. 相似文献
13.
为探讨不同类型铀矿床是否可能本质上都是地幔柱作用的产物,在“全球热液铀矿成因理论”和“热点铀成矿理论”等前人研究基础之上,结合岩浆岩锆石铀、钍含量研究初步揭示了:(1)铀、钍主要富集于外地核;(2)洋岛玄武岩、板内玄武岩、高分异花岗岩及伟晶岩型铀矿可能为地幔柱产物。对比国内多种类型铀矿床科研成果,总结发现有一定数量的铀矿床与洋岛玄武岩、板内玄武岩、A型花岗岩以及高分异花岗岩紧密伴生,成矿与成岩时空基本耦合。如四川攀枝花大田混合岩型铀矿和松辽盆地钱家店–白兴吐砂岩型铀矿伴生两类玄武岩;甘肃芨岭钠交代型铀矿和陕西商丹伟晶岩型铀矿区伴生两类花岗岩;粤北诸广–贵东花岗岩型铀矿区、赣南多类型铀矿区和江西相山、新疆白杨河火山岩型铀矿区伴生以上四类岩石类型。分析认为上述岩石类型可能是由地幔柱生成并起着导矿或导矿兼储矿的关键作用,据此提出铀矿“核源–地幔柱”成因认识,即:外地核是铀元素的主要发源地,地幔柱是铀运移的统一通道,铀成矿过程可能是外地核中的金属铀呈铀氢化物或铀合金氢化物等形式沿地幔柱上升迁移,直至在浅部地质体氧化聚集成固态铀矿物的过程。 相似文献
14.
洋底高原:了解地球内部的窗口 总被引:4,自引:0,他引:4
洋底高原是洋壳的重要组成部分,它是分布在洋底的一种面积广大、且具有异常洋壳厚度的区域。洋底高原通常规模巨大,绝大多数喷发于大洋环境,岩石组成主要为镁铁质到超镁铁质,岩石类型主要为拉斑玄武岩。大多数洋底高原的岩石组成较为相似,而且均形成于一期或两期时间较短却大规模集中喷发的岩浆活动,目前认为是大规模的热地幔物质从地幔深部上升到岩石圈底部,由于巨大地幔柱头部(地幔羽)引起的熔融作用形成的。正是由于洋底高原与地幔柱之间具有这种十分密切的关系,因此对洋底高原的研究将成为我们了解地球内部的窗口。以ODP对翁通-爪哇和凯尔盖朗(Kerguelen)海台的研究为例,简单介绍了洋底高原的基本特征、地幔柱在其形成过程中的作用以及目前在这一领域还未解决的一些问题。 相似文献
15.
北祁连山元古宙末-寒武纪主动大陆裂谷火山作用 总被引:10,自引:2,他引:10
北祁连山元古宙末-寒武纪大陆裂谷火山岩系为双峰式火山岩套,主要由基性与酸性火山岩组成。基性火山岩有磁性玄武岩与拉斑玄武岩两个岩浆系列,且富集LREE与LIL,其岩浆源区为与洋岛玄武岩源相似的富集地幔柱源。软流圈地幔柱上涌导致岩石圈地慢部分熔融,其熔体与地幔柱衍生熔浆混合,形成本区具有中等钕,锶同位素比值特点的基性岩浆。基性岩浆上侵至陆壳,引起下部陆壳深熔,产生长英质岩浆。地幔柱上隆促使大陆扩张,及至形成北祁连山元古宙末-寒武纪大陆裂谷。 相似文献
16.
A. B. Kotov N. V. Vladykin V. V. Yarmolyuk E. B. Sal’nikova I. A. Sotnikova S. Z. Yakovleva 《Doklady Earth Sciences》2013,453(1):1082-1085
This paper presents the U-Pb zircon age of pulaskite of the main phase (294 ± 1 Ma) and the rare metal syenite (283 ± 8 Ma) of the Burpala alkaline pluton. The geochronological data show that it was formed in the Early Permian. By age, it is comparable with the Synnyr pluton of the Synnyr rift zone, alkaline granitic rocks and bimodal volcanic associations of the Uda-Vitim rift zone, and carbonatites of the Saizhen rift zone of the Central Asian foldbelt. These intraplate igneous complexes were formed almost simultaneously with crustal granitic rocks of the Angara-Vitim batholite. All of this gives ground to suppose that the origination of their parental melts is a result of the influence of the mantle hot spot or mantle plume on the lithosphere that led to extensive crustal anatexis. 相似文献
17.
在中国区域大地构造研究中,对洋岛-海山/洋底高原的识别尚未引起足够重视.为深入研究中国大陆洋板块构造,系统回顾了洋岛-海山/洋底高原的基本概念、基本特征和增生造山过程.洋岛-海山/洋底高原是在海底扩张、大洋壳演化过程中由于地幔热点/柱作用形成的有异常厚度洋壳的区域,是大洋岩石圈的重要组成部分.洋岛-海山/洋底高原在垂向上具有典型的二元结构,下部以镁铁质、超镁铁质岩石为主,上部以碳酸盐岩建造为主.现今大洋盆地中大面积分布着正在演化中和正在俯冲的洋岛-海山,根据比较大地构造学原理,古洋岛-海山的存在指示古大洋盆地的存在,是研究造山带的重要载体.认为地史时期大洋盆地中有相当数量的洋岛、海山,在俯冲增生碰撞造山过程中保留下来的古洋岛-海山残块以构造岩片(块)形式夹持在俯冲增生杂岩中,随大洋盆地关闭;其作为缝合带的重要组成部分,是识别对接带的重要判别依据之一. 相似文献
18.
19.
E. N. Melankholina 《Geotectonics》2008,42(3):225-244
A tectonotype of volcanic passive margins exemplified in the conjugate Norwegian and East Greenland margins is considered, with discussion of the Paleogene igneous complexes and the regional rift structure before continental breakup. Fragments of asymmetrical rift have been retained on both sides of the ocean. Large Cretaceous pre-rift sedimentation basins marking the initial stage of the ocean opening are included into the passive margin as well. The continental breakup was accompanied by intense basaltic magmatism over a short time span. This magmatic episode was distinguished by (1) the formation of widespread plateau-basalt complexes on continents and in near-shore areas of the ocean; (2) the development of thick lava series that are recorded in seaward dipping reflector wedges; (3) thick high-velocity lower crust, resulting from magmatic underplating; (4) asymmetrical accretion of the crust and structure formation. The discussion is based on published seismic data and reference sections selected for each margin with consideration of the composition and thickness of the igneous rocks, their lateral variations, source composition, and eruption and crust formation conditions. The characteristic feature of both sections is the two-member structure of volcanic complexes with substantial geochemical differences between the rocks from the lower and upper parts of the section, which correspond to the pre-breakup and breakup phases. At the initial phase, small magma volumes were melted out from the lithosphere. The geochemical signatures of the upper parts of the sections testify to the melting of the asthenospheric mantle. Their spatiotemporal variations reflect the ascent and melting of the deep plume, which was active during and after continental breakup. In the Greenland area, near the central part of the plume, a N-MORB-type mantle magma source gave way to a depleted Iceland-type mantle, while apart from the central part of the plume, its effect is expressed only in the enormous volume of mantle-derived melt without migration of its source. A variety of evidence is provided for the plume’s activity: the great thickness of the volcanic complexes and the relatively stable composition of the melt; the elevated temperature in the mantle; the specific geochemistry of the breakup-related lavas and their lateral zoning; conclusions on the necessity of dynamic support of volcanic eruptions; and recent results of seismographic tomography. The continental breakup inherited a system of older sedimentary basins in the zone of prolonged extension of the lithosphere in the North Atlantic. The continuous dynamic support of extension was most likely provided by long-term ascent of the Iceland plume. The comparison of the considered tectonotype with other volcanic and non-volcanic margins opens the way to further elucidation of the geodynamic processes responsible for the ocean opening. 相似文献
20.
A GIS layout of the map of recent volcanism in North Eurasia is used to estimate the geodynamic setting of this volcanism.
The fields of recent volcanic activity surround the Russian and Siberian platforms—the largest ancient tectonic blocks of
Eurasia—from the arctic part of North Eurasia to the Russian Northeast and Far East and then via Central Asia to the Caucasus
and West Europe. Asymmetry in the spatial distribution of recent volcanics of North Eurasia is emphasized by compositional
variations and corresponding geodynamic settings. Recent volcanic rocks in the arctic part of North Eurasia comprise the within-plate
alkaline and subalkaline basic rocks on the islands of the Arctic Ocean and tholeiitic basalts of the mid-ocean Gakkel Ridge.
The southern, eastern, and western volcanic fields are characterized by a combination of within-plate alkaline and subalkaline
basic rocks, including carbonatites in Afghanistan, and island-arc or collision basalt-andesite-rhyolite associations. The
spatial distribution of recent volcanism is controlled by the thermal state of the mantle beneath North Eurasia. The enormous
mass of the oceanic lithosphere was subducted during the formation of the Pangea supercontinent primarily beneath Eurasia
(cold superplume) and cooled its mantle, having retained the North Pangea supercontinent almost unchanged for 200 Ma. Volcanic
activity was related to the development of various shallow-seated geodynamic settings and deep-seated within-plate processes.
Within-plate volcanism in eastern and southern North Eurasia is controlled, as a rule, by upper mantle plumes, which appeared
in zones of convergence of lithospheric plates in connection with ascending hot flows compensating submergence of cold lithospheric
slabs. After the breakdown of Pangea, which affected the northern hemisphere of the Earth insignificantly, marine basins with
oceanic crust started to form in the Cretaceous and Cenozoic in response to the subsequent breakdown of the supercontinent
in the northern hemisphere. In our opinion, the young Arctic Ocean that arose before the growth of the Gakkel Ridge and, probably,
the oceanic portion of the Amerasia Basin should be regarded as a typical intracontinental basin within the supercontinent
[48]. Most likely, this basin was formed under the effect of mantle plumes in the course of their propagation (expansion,
after Yu.M. Pushcharovsky) to the north of the Central Atlantic, including an inferred plume of the North Pole (HALIP). 相似文献