共查询到19条相似文献,搜索用时 609 毫秒
1.
火山是岩浆活动在地表的主要呈现形式,古老火山由于剥蚀作用出露多阶段火山喷发产物及岩浆通道、岩浆房等,从而为揭示岩浆房内部结构和成分演化提供重要窗口。锆石在长期结晶生长过程中,能够记录岩浆系统的结晶分异、晶体- 熔体分离和岩浆补给等过程。闽西南晚侏罗世廖天山破火山是保存最完整的中国东南部晚中生代早期代表性破火山之一,本文对其开展锆石U- Pb年代学、Lu- Hf同位素组成和微量元素成分分析,以期揭示其火山活动时序、岩浆来源和演化过程。廖天山火山活动具有阶段性和多期次性,一段火山活动开始于约161. 5±0. 7 Ma,喷发断续且规模较为有限;二段火山岩形成于159. 9±0. 9~156. 9±0. 8 Ma,该时段喷发产物规模巨大,构成破火山主体;最后岩浆在153. 2±0. 7 Ma沿火山通道侵出形成流纹斑岩岩穹,标志着火山活动的结束。锆石Lu- Hf同位素组成显示,廖天山破火山岩浆主要源于古元古代地壳基底的部分重熔,但有不同程度的亏损幔源物质贡献,且在三个火山活动阶段中幔源物质参与比例不同,二段火山岩中相对较低。不同批次岩浆可能从源区分别上升,在深部岩浆房发生岩浆混合,而后在浅部岩浆房短暂留存发生分离结晶作用。根据岩浆来源的变化和火山岩相组合,我们认为廖天山火山活动形成于相对挤压转向伸展的构造环境,受制于晚侏罗世古太平洋板块俯冲以及板片俯冲角度变化的地球动力学背景。 相似文献
2.
由于大洋板块向大陆板块的不断俯冲,在钦敦-睡宝盆地的中部形成南北向断续分布的火山岛弧。自白垩纪至中新世,岛弧带的火山喷发整体较为连续,并经历了4个演化时期。由于岛弧带相距周围的区域物源较远,沉积物供给相对不足,火山喷发强烈时形成的火山碎屑物会成为其附近区域的主要物源。岛弧带的火山活动不仅改变沉积体系的物质组成,还对沉积体系的展布起到阻挡作用,并在其周围形成新的沉积体系。宽缓的海岸平原-滨浅海沉积背景使盆地具备形成沼泽的先天条件,在偏离岛弧带不受火山活动影响的地区能够发育大范围的煤系地层,而在受火山活动影响的岛弧带内只发育小范围的煤系地层。由于持续的火山活动对优质储层的形成不利,应尽量避免在火山影响范围较大的地区寻找有利储层。 相似文献
3.
全球GPS矢量场的分区描述及规律性分析 总被引:2,自引:0,他引:2
以平均选择的GPS站点运动年速率编制了全球板块运动矢量场,从而揭示了以下几点规律:1从北大西洋洋脊东侧起,直至西北太平洋岛弧带,欧亚大板块总体呈现顺时针宽弧形运动;2从北大西洋洋脊西侧直至美洲大陆西边缘,北美大板块呈现反时针宽弧形运动;3从南大西洋洋脊东侧起,直至克马德克—新西兰一线,非洲板块和印—澳板块一并呈现从北东指向渐变为北北东指向的运动;4东南太平洋洋脊西侧太平洋板块总体向北西西方向运动;5东南太平洋脊东侧海底大小板块总体向北东东运动;6南美洲整体向北运动;7北极区总体向太平洋北缘运动;南极洲总体向大西洋区运动,并有分裂—对旋迹象。分析上述运动的分区展布,可推论以下几点运动动力学的认识:1拖动全球板块一级运动势态的地幔流可分解为由南极区向北的径向流与由大西洋洋脊和东南太平洋洋脊的东西两侧纬向流的二元动力联合作用,从而造成全球性指向北东和北西的斜向运动;2以重力大地水准面所展现的低阶双重非对称的地球,是引导表壳发育张裂洋脊带和汇聚俯冲带的力学条件;3沿赤道两侧不协调运动带呈现压扭、张扭的复杂变动除了南半球与北半球地幔流在运动指向和速度的差异而造成之外,还可能与地球质心的偏心和南、北半球自转速度的差异变化有关;4南极洲相对环南极洋脊的偏极分流运动还有待进一步研究。在以上认识的基础上,本文讨论了造成三大洋脊在全球表壳的分布、全球深俯冲带仅仅在环太平洋边缘带内发育、北半球和南半球的板块径向、纬向运动有整体性差异等问题的原因。造成上述现象是与地球整体的双重不对称性有关,即北、南半球和0°/180°半球的缩、胀和快、慢的双重非对称,而这种双重不对称性是地球内部物质的热状态、运动状态以及质量分布等原因造成的,我们认为以重力大地水准面所展现的低阶双重非对称的地球表壳,既是约束地幔流的上边界条件,又是引导表壳发育张裂带的力学条件,目前地球表面的这些一级构造因素并不是随意造成的,它们有着深刻的地球物理背景。本文还着重讨论了双重非对称畸形壳体的构造力学背景,根据GPS资料建立了地球热流驱动的地幔经、纬向一级对流格局。 相似文献
4.
火山活动与深部碳循环的关系 总被引:8,自引:0,他引:8
火山活动是导致地球深部碳向地表输送的重要途径之一,它促进了地球层圈物质交换与深部循环作用.目前,火山活动与深部碳循环关系的研究主要集中在: 1)火山喷发向大气圈中输送CO2气体的通量与总量; 2)火山气体的来源及其演变历史; 3)不同类型的火山喷发(例如,大火山岩省、洋中脊和俯冲带火山活动)对地球深部碳循环贡献的差异.文章通过对青藏高原北部阿什库勒火山群1951年阿什火山喷发物斑晶中原生岩浆包裹体和基质玻璃的实验室测定表明,阿什火山喷出的气体成分主要由H2O,CO2,S,Cl和F组成,利用"岩石学方法"计算的阿什火山喷发向大气圈输送的CO2气体总量为1.01×109kg. 相似文献
5.
台湾-吕宋岛双火山弧的构造意义 总被引:3,自引:0,他引:3
扼要评介了国内外关于台湾-吕宋岛双火山弧在南海沿马尼拉海沟俯冲的动力学过程和俯冲板块深部形态等方面研究的成果;认为目前的动力学模式还不够完善,没有能够对台湾-吕宋岛双火山弧中存在的第四纪火山间断做出合理的解释,为此引入“板片窗”概念,对已经提出的动力学模式进行了修改;并统计1964~2006年发生于菲律宾地区的地震震中位置,认为存在于菲律宾群岛17°~19°N之间的深源地震稀疏带和存在于14°~15°N之间的喇叭状地震稀疏带是地震作用对于南海板片窗构造存在的反映;结合研究区域已有应力场研究资料,认为俯冲的南海亚板块中板片窗两侧俯冲倾角的差异,应该是造成俯冲带内应力分布出现分带现象的原因之一。 相似文献
6.
华北板块东缘晚古生代火山活动及其大地构造含义 总被引:4,自引:0,他引:4
在华北板块东缘,从皖北,鲁西到冀中,辽东,分布着一条长达千余km的晚古生代北北东向火山活动带,已发现的火山岩主要为正常火山碎屑岩和沉积火山碎屑岩,岩石化学分析表明为钙碱系列中(酸)性火山岩,在华北晚古生代煤系中记录了这种强烈的火山活动,包含有丰富的火山碎屑以及由火山灰堆积蚀变而成的煤矸层(tonstein)。作者认为,在晚古生代,华北板块东缘可能存在一火山弧链,即华北板块东缘为一主支大陆边缘。 相似文献
7.
长白山天池火山老虎洞期火山活动发生在更新世晚期白头山组碱性粗面岩喷发之后,火山活动的产物主要为玄武岩质火山碎屑岩和少量玄武岩质或粗面岩质熔岩;老虎洞组火山岩的稀土元素地球化学特征介于早期玄武岩和气象站组碱流岩两者之间,将二者有机地联系在一起,使整个天池火山岩的演化趋势更加清晰。老虎洞组火山岩的存在充分证明了天池火山的粗面岩类与该区早期的大量玄武岩具有成因联系。长白山天池火山活动的成因并非简单地用西太平洋板块的俯冲作用所能解释的。 相似文献
8.
阿留申俯冲带位于环太平洋俯冲带最北端,是东太平洋型俯冲和西太平洋俯冲的过渡区域。该俯冲带火山岛弧距离海沟的距离从东向西逐渐增大,而形成地球上独特的岛弧火山链与海沟V字型斜交的现象。这一现象的运动学成因目前并没有统一的认识。本文通过对阿留申俯冲带几何形态数据、运动学数据进行整理分析,尝试运用构造赤道理论探讨该现象形成的运动学背景。阿留申俯冲带的几何学数据表明:从俯冲带东段(175°E)至俯冲带西段(155°W),火山岛弧距俯冲海沟的距离从80 km增加至250 km。与此同时,俯冲板片的倾角由60°减小至30°。板块的运动学分析表明:相对北美板块,太平洋板块的东段的运动矢量为48 mm/a,向北运动;逐渐转变为西段的78mm/a,向西北方向运动。相对于软流圈,太平洋板块的运动方向没有改变,始终向西北方向运动,速率向西逐渐增加。因此,在俯冲带的东段太平洋板块的绝对运动方向和相对运动方向存在30°左右的夹角,而这个夹角在西段几乎不存在。太平洋板块的绝对运动方向和相对运动方向之间的夹角不同,会导致软流圈对俯冲板片的反作用力差异,从而形成不同的俯冲角度和俯冲带宽度。太平洋板块相对北美板块和相对地幔的速度方向夹角的变化被认为是引起阿留申火山弧与海沟"V"字型斜交的运动学成因。 相似文献
9.
台湾岛是吕宋岛弧(相当于菲律宾海板块西缘)与中国大陆边缘(属于欧亚板块)强烈碰撞的结果。这一碰撞带位于马尼拉海沟俯决带的北部延伸。沿此带,南海盆地向东一东南俯冲到吕宋岛弧之下。向北,强烈的俯冲与激烈碰撞之间的变化是递变发展的。相反,在台湾东部,碰撞带与Ryukyu活动边缘之界线十分清析。后者与菲律宾西部海盆地向西北方向上的欧亚大陆边缘下的俯冲作用有关。对于台湾东、南部这两个关键区的构造研究是1984年10月—11月R/V Jean-Char(?)ot “Pop_2”号勘察的主要目的。分别在20°15′N和21°45′N之间对马尼拉俯冲带的北端以 相似文献
10.
新生代以来,强烈而频繁的火山活动铸成了长白山火山的主体——白头山火山锥。近几年来,从火山学和火山灾害学角度在该区进行研究和调查所获得的资料发现,长白山天池地区在全新世至少有六期火山活动在地表留下了记录。除白云峰期和八卦庙期喷发出大量碱流岩质浮岩形成的火山碎屑流造成了严重的火山灾害之外,其他四次喷发的规模均较小、影响面不大。老虎洞期活动发生在浮岩喷发之前,主要产物为玄武质火山渣和熔岩;气象站期喷发可能是该火山近期活动的表现,以碱流岩喷溢为主。这些喷发活动证实,该区近代火山活动不仅从未停止过,相反,活动的频度却逐渐加大。 相似文献
11.
Sanjiang area in Southwestern China is tectonically sit-uated at the east end of Himalaya-Tethys tectonic do-main and at the conjunction of Tethyan MountainChain and Circum-Pacific Mountain Chain.It is one ofthe key areas to understand the global tectonics and alsoone of gigantic metallogenic provinces in China and evenin the world.Volcanism had occurred during the periodof time from Proterozoic to Cenozoic.The most impor-tant and active periods of volcanism,however,areCarboniferous,Permian and Triassic.The pattern ofspatial distribution of Sanjiang volcanic rocks andophiolites can essentially be described as that severalintra——continental micro-massif volcanic districts arerespectively sandwiched between each two of four couplingophiolite—are volcanic belts,which are successively fromwest to east:Dingqing-Nujiang belt,Laneangjiangbelt,Jinshajiang belt and Ganzi-Litang belt.Fourtectono-magmatic types of volcanic rocks have been recognized in Sanjiang area as follows:mid-ocean-ridge/para-mid-ocean-rid 相似文献
12.
Volcanoes were created, grew, uplifted, became dormant or extinct, and were accreted as part of continents during continuous arc–continent collision. Volcanic rocks in Eastern Taiwan’s Coastal Range (CR) are part of the northern Luzon Arc, an oceanic island arc produced by the subduction of the South China Sea Plate beneath the Philippine Sea Plate. Igneous rocks are characterized by intrusive bodies, lava and pyroclastic flows, and volcaniclastic rocks with minor tephra deposits. Based on volcanic facies associations, Sr–Nd isotopic geochemistry, and the geography of the region, four volcanoes were identified in the CR: Yuemei, Chimei, Chengkuangao, and Tuluanshan. Near-vent facies associations show different degrees of erosion in the volcanic edifices for Chimei, Chengkuangao, and Tuluanshan. Yuemei lacks near-vent rocks, implying that Yuemei’s main volcanic body may have been subducted at the Ryukyu Trench with the northward motion of the Philippine Sea Plate. These data suggest a hypothesis for the evolution of volcanism and geomorphology during arc growth and ensuing arc–continent collision in the northern Luzon Arc, which suggests that these volcanoes were formed from the seafloor, emerging as islands during arc volcanism. They then became dormant or extinct during collision, and finally, were uplifted and accreted by additional collision. The oldest volcano, Yuemei, may have already been subducted into the Ryukyu Trench. 相似文献
13.
长白山天池火山双岩浆房岩浆作用与互动式喷发 总被引:6,自引:0,他引:6
广义的长白山火山在我国境内包括天池火山、望天鹅火山、图们江火山和龙岗火山,是我国最大的第四纪火山岩分布区。长白山各个火山区的火山活动具有此起彼伏的穿时性特征,天池火山之下地壳和地幔两个岩浆房具有上下呼应、互动式喷发之特点。一方面来自地幔的钾质粗面玄武岩浆直接喷出地表,在天池火山锥体内外形成诸多小火山渣锥;另一方面钾质粗面玄武岩浆持续补给地壳岩浆房,发生岩浆分离结晶作用和混合作用,形成双峰式火山岩特征并触发千年大喷发。西太平洋板块俯冲-东北亚大陆弧后引张是长白山天池火山喷发的动力学机制。 相似文献
14.
The spatial distribution of recent (under 2 Ma) volcanism has been studied in relation to mantle hotspots and the evolution of the present-day supercontinent which we named Northern Pangea. Recent volcanism is observed in Eurasia, North and South America, Africa, Greenland, the Arctic, and the Atlantic, Indian, and Pacific Oceans. Several types of volcanism are distinguished: mid-ocean ridge (MOR) volcanism; subduction volcanism of island arcs and active continental margins (IA + ACM); continental collision (CC) volcanism; intraplate (IP) volcanism related to mantle hotspots, continental rifts, and transcontinental belts. Continental volcanism is obviously related to the evolution of Northern Pangea, which comprises Eurasia, North and South America, India, Australia, and Africa. The supercontinent is large, with predominant continental crust. The geodynamic setting and recent volcanism of Northern Pangea are determined by two opposite processes. On one hand, subduction from the Pacific Ocean, India, the Arabian Peninsula, and Africa consolidates the supercontinent. On the other hand, the spreading of oceanic plates from the Atlantic splits Northern Pangea, changes its shape as compared with Wegener’s Pangea, and causes the Atlantic geodynamics to spread to the Arctic. The long-lasting steady subduction beneath Eurasia and North America favored intense IA + ACM volcanism. Also, it caused cold lithosphere to accumulate in the deep mantle in northern Northern Pangea and replace the hot deep mantle, which was pressed to the supercontinental margins. Later on, this mantle rose as plumes (IP mafic magma sources), which were the ascending currents of global mantle convection and minor convection systems at convergent plate boundaries. Wegener’s Pangea broke up because of the African superplume, which occupied consecutively the Central Atlantic, the South Atlantic, and the Indian Ocean and expanded toward the Arctic. Intraplate plume magmatism in Eurasia and North America was accompanied by surface collisional or subduction magmatism. In the Atlantic, Arctic, Indian, and Pacific Oceans, deep-level plume magmatism (high-alkali mafic rocks) was accompanied by surface spreading magmatism (tholeiitic basalts). 相似文献
15.
The Gyeongsang Basin, the largest Cretaceous nonmarine sedimentary basin in Korea, formed as a continental back-arc basin related to NNW-directed subduction of the (proto-) Pacific Plate underneath the Eurasia Plate. The basin can be divided into an earlier-formed western back-arc depression and a later-formed eastern volcanic arc platform. We investigated the basin evolution and the associated tectonic settings, largely based on an analysis of structures individuated in the field in the back-arc region. From 127 Ma, the basin initiated as a NNE-trending narrow depression bordered by NNE-striking sinistral faults, and then progressively expanded under a transtensional kinematics induced by progressive trench roll-back. Sinistral shearing of inherited NNE-striking structures played an important role in basin subsidence, and secondary WNW- to NW-striking transverse faults acted as normal faults. The NNE-striking principal displacement zone in the west of the basin runs along the western marginal area of the Jinju and Daegu domains and passes through the Uiseong domain from south to north, but most of this zone is now preserved as deep structures. Volcanic activity starting at ca. 115 Ma was characterized mainly by episodic basaltic eruptions occurring contemporaneously with back-arc deposition of a sedimentary sequence. After ca. 90 Ma, a transtensional kinematics changed to a strike-slip one, and the basin expansion and sedimentation in the back-arc region terminated. During the strike-slip event, rhyolitic-dacitic volcanism increased in intensity as a large NE-trending volcanic arc developed close to subduction zone and its loading caused the stratal flexure in the back-arc region, and the orientations of the shortening and stretching axes remained NW–SE and NE–SW, respectively. Additionally, continuing sinistral shear generated local depressions along the faults located in the west of the back-arc region and within the volcanic arc. 相似文献
16.
鉴于大陆岩浆弧上盘广泛分布有碳酸盐岩,岩体上升侵位过程使其碳通量明显的高于洋内岛弧,从而有可能影响着地质历史长时间尺度(百万年)的气候变化。陆弧碳的排放可分为两部分,一部分是与喷出岩相关的火山作用,另一部分是与侵入岩相关的脱碳过程。侵入岩的体量一般是喷出岩体量的10倍以上,由此与侵入岩有关的脱碳作用释放的碳通量不可忽视,可能类似与喷出岩有关的火山作用释放的碳通量甚至更大。火山作用能够将气体直接排入大气中,因此在以往的工作中研究较为充分。但与侵入岩相关的脱碳过程如:矽卡岩化,发生在地下,关于地下脱碳过程如何将碳释放到大气中还缺少详细的工作。本文,通过对比研究火山地区和非火山地区与侵入岩相关的深部脱碳过程,发现深部碳可以通过区域断层系统、地下水系统和热泉、火山通道、隐爆角砾岩筒、高频率的岩浆热液事件等途径瞬时地释放进入大气。通过初步估算,发现单个矽卡岩矿化事件所产生的二氧化碳通量(0.02~0.2Mt/yr)能够与目前地球绝大部分的普通单个火山的碳通量(<0.5Mt/yr)类比。因此岩浆深部脱碳过程对大气的影响至少与火山相当,其对气候的影响不可忽视。 相似文献
17.
The 1973 discovery of an underwater archaeological site during dredging for a ferry landing at Mulifanua on Upolu raised important unanswered questions about the prehistory of Samoa, particularly the evolution of Holocene shorelines and relative local sea levels. A cultural horizon yielding Lapita potsherds, the only decorated Lapita assemblage yet found in Samoa and dating to ca. 2.8 ka, lies at a depth of 2.25 m below modern sea level beneath a capping of cemented paleobeachrock. With fluctuating hydro-isostatic sea level taken into account, the sherd occurrence implies subsidence of a former coastline by ca. 4 m at a mean rate of 1.4 mm/yr. Shoreline features on both Upolu and nearby Savai'i are fully compatible with bulk Holocene subsidence. We attribute the observed subsidence to downflexure of the lithosphere from volcano loading centered on the Savai'i locus of historic volcanism, and conclude that any other Lapita sites that may exist in Samoa have subsided by a comparable amount. Although the Samoan linear volcanic chain resembles other Pacific hotspot tracks where active volcano loading is confined to their southeastern ends, the most voluminous Holocene eruptions in Samoa have occurred on Savai'i at the northwestern end of the exposed island chain. Samoan volcanism has evidently been influenced by lateral flexure of the Pacific plate as it moves past the northern extension of the Tonga subduction zone, and the active volcanism is apparently controlled by a longitudinal rift, which transects both Upolu and Savai'i and is superimposed upon older volcanic edifices that may record earlier hotspot volcanism. Early archaeological sites in American Samoa display a variable record of subsidence and possible uplift apparently related to volcano loading in the Manu'a Islands and possibly to the location of Tutuila in a position to be affected by uparching of lithosphere between downflexures beneath more active volcanic islands to the east and west. Bulk subsidence of Upolu and Savai'i may be the fundamental cause of damaging coastal erosion in modern Samoa. © 1998 John Wiley & Sons, Inc. 相似文献
18.
Makoto Yamano Masataka Kinoshita Shusaku Goto 《International Journal of Earth Sciences》2008,97(2):345-352
Thirty-three new measurements on the seaward slope and outer rise of the Japan Trench along a parallel of 38°45′N revealed
the existence of high heat flow anomalies on the subducting Pacific plate, where the seafloor age is about 135 m.y.. The most
prominent anomaly with the highest value of 114 mW/m2 is associated with a small mound on the outer rise, which was reported to be a kind of mud volcano. On the seaward slope
of the trench, heat flow is variable: high (70–90 mW/m2) at some locations and normal for the seafloor age (about 50 mW/m2) at others. The spatial variation of heat flow may be related to development of normal faults and horst/graben structures
due to bending of the Pacific plate before subduction, with fluid flow along the fault zones enhancing the vertical heat transfer.
Possible heat sources of the high heat flow anomalies are intra-plate volcanism in the last several million years like that
discovered recently on the Pacific plate east of the Japan Trench. 相似文献
19.
中国东北地区新生代火山活动的构造背景 总被引:5,自引:1,他引:4
中国东北地区新生代以玄武岩为主的喷发经历了60~29 Ma、25~15 Ma、<2 Ma三期及不同喷发期之间的过渡阶段,而每一期又可以分为若干旋回。火山作用形成于不同的构造部位,沿断裂和非断裂分布的玄武岩均有存在,且与不同时期的大陆边缘构造演化相匹配。不同的构造背景下火山活动的分布也不同,且具明显的迁移性。构造环境体现为非造山大陆边缘张裂隙、上地幔上隆的陆内拉张环境、陆内非造山环境等特征。上新世晚期—更新世以来的火山活动与中国西南部地区的大陆板块间的碰撞作用没有关系。 相似文献