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1.
印度大陆与亚洲大陆早期碰撞过程与动力学模型——来自西藏冈底斯新生代火成岩证据 总被引:18,自引:3,他引:18
为了揭示青藏高原的形成演化及其隆升历史,本文主要立足于西藏冈底斯带新生代岩浆岩,研究了印度—亚洲大陆碰撞早期阶段的关键岩石记录、详细碰撞过程和深部动力机制。西藏新生代火山-岩浆活动贯穿于主碰撞造山过程的始终,形成规模巨大的冈底斯火成岩浆岩带,其中,火山活动形成著名的林子宗第三纪火山岩系(64~43Ma),岩浆作用则形成3个时间连续、但组合不同的岩浆序列,即:1壳源花岗岩组合(65~50Ma)、2正εNd花岗岩-辉长岩组合(52~47Ma)和3幔源玄武质次火山岩-辉绿岩组合(53~42Ma)。林子宗第三纪火山岩系形成于印度—亚洲大陆对接碰撞之后(~65Ma),不整合覆盖于中生代褶皱构造层之上,中下部钙碱性—高钾钙碱性火山岩显示岛弧/陆缘弧地球化学特征,主要来自于洋壳板片流体交代的地幔楔形区,上部钾玄岩系火山岩则更多地显示壳源特征。壳源花岗岩主要侵位于冈底斯东段腾冲地区,成因类型为白云母过铝花岗岩和富钾钙碱性花岗岩,其高(87Sr/86Sr)i(>0.710)和低εNd(<-7)同位素组成反映其源于碰撞加厚的砂泥质地壳的深熔作用。正εNd值(+2~+5)花岗岩和辉长岩沿冈底斯带成对侵位,花岗岩具有埃达克岩与弧花岗岩过渡特征,其形成有较多的幔源物质贡献;辉长岩正εNd值特征(+2.5~+7.0)、REE平坦型或弱富集型以及亏损大部分不相容元素(Nb,P,Ti,U,Th,LREE)特征,反映软流圈地幔对岩浆形成产生重要贡献。幔源玄武质次火山岩主要为钙碱性岩系,REE平坦型,低(87Sr/86Sr)i(<0.7060)、高εNd(高达+4.3),同位素组成接近于MORB,证明其来源于亏损的软流圈地幔。根据这些构造-岩浆事件的时空分布、岩石组合特征、岩石地球化学以及岩浆演变序列,提出了一个青藏高原大陆碰撞的四阶段演化模式。这个模式强调了170~60Ma,新特提斯洋板片回转,印度大陆与亚洲大陆发生碰撞(≥65Ma),并导致加厚地壳深熔;260~54Ma,印度大陆板片向北陡深俯冲,下地壳缩短加厚,地壳深熔作用持续;353~41Ma,新特提斯洋板片发生断离,并向下拆沉。软流圈物质透过板片断离窗上涌,诱发地幔楔、上覆加厚的镁铁质下地壳熔融;4陡深俯冲的印度大陆板片因特提斯洋板片断离而发生折返,开始低角度俯冲(<40Ma),导致高原内部的陆内俯冲、走滑剪切与地壳缩短,造成冈底斯岩浆间断(40~26Ma)和拉萨地体初始抬升。因此,在青藏高原碰撞造山过程中,主碰撞期造山(65~41Ma)的动力机制主要是印度大陆板片的陡角度俯冲和特提斯洋板片断离,晚碰撞期造山(40~26Ma)的动力机制主要为印度大陆板片的低角度俯冲。 相似文献
2.
青藏高原巨厚地壳:生长、加厚与演化 总被引:5,自引:0,他引:5
大陆地壳约占地表面积的40%, 其成因与生长, 是一个关乎人类生存和资源供给的基础地学问题。人们普遍认为, 大洋俯冲通过岛弧拼贴和幔源岩浆底侵形成造山带新生陆壳,大陆碰撞过程只对现存地壳进行再造,不产生新生地壳。青藏高原经历古/新特提斯大洋俯冲和印 亚大陆强烈碰撞, 拥有全球最厚的陆壳(65~80km), 是研究大陆地壳的形成、生长、加厚、演化与保存的天然实验室。我们研究表明, 古/新特提斯大洋的相继俯冲消减, 产生多期次的幔源镁铁质弧岩浆(270~66Ma), 在弧地壳下部底侵和上部侵位, 导致地壳侧向加积和垂向生长并加厚约10km。在同(软)碰撞期(65~41Ma), 印度大陆岩石圈俯冲导致俯冲前缘的洋壳板片回转和断离, 诱发软流圈地幔熔融及其幔源岩浆上升侵位, 在冈底斯碰撞带形成新生地壳, 并导致地壳加厚6~9km。在晚(硬)碰撞期(40~26Ma), 冈底斯碰撞造山带内不同地壳块体(地体)间发生逆冲叠覆, 导致中深层次地壳缩短加厚10~20km; 在碰撞带的后陆区, 印度大陆岩石圈地幔俯冲诱发软流圈沿地幔通道上涌, 侵蚀和吞噬地幔岩石圈, 并诱发其部分熔融, 向地壳注入大量幔源镁铁质岩浆, 形成新生地壳, 维持高原生长。在后碰撞期(<25Ma), 碰撞带和后陆区均发生地壳伸展与有限减薄, 伴有新生地幔组分少量注入和高原陆表强烈剥蚀。粗略估计:形成并保存于大陆碰撞造山带的新生地壳量占整个陆壳的28%, 大洋俯冲与大陆碰撞分别为青藏高原贡献了75%和25%的新生地壳。我们提出, 青藏高原巨厚地壳的形成发育, 实际上是幔源岩浆向地壳注入添加与中下地壳缩短加厚连续或交互作用的结果。伴随大洋俯冲与大陆碰撞, 巨厚地壳物质组成发生以新生地壳形成和古老地壳再造为特征的动态演变。镁铁质新生下地壳的大规模重熔与长英质岩浆大量侵位可能是巨厚地壳长英质化的主要机制。 相似文献
3.
冈底斯岩浆弧的形成与演化 总被引:10,自引:6,他引:4
位于青藏高原南部的冈底斯岩浆弧是新特提斯大洋岩石圈长期俯冲导致的中生代岩浆作用的产物,而且在印度与亚洲大陆碰撞过程中叠加了强烈的新生代岩浆作用,是世界上典型的复合型大陆岩浆弧,也是研究增生与碰撞造山作用和大陆地壳生长与再造的天然实验室。基于岩浆、变质和成矿作用研究成果,我们将冈底斯弧的形成与演化历史划分5期,即新特提斯洋早期俯冲、新特提斯洋中脊俯冲、新特提斯洋晚期俯冲、印度-亚洲大陆碰撞和后碰撞期。第1期发生在晚白垩世之前,是以新特提斯洋岩石圈的长期俯冲、地幔楔部分熔融形成钙碱性弧岩浆岩为特征。长期的幔源岩浆作用导致了整个冈底斯弧发生显著的新生地壳生长,并在岩浆弧西部形成了一个大型的与俯冲相关的斑岩型铜矿。第2期发生在晚白垩世,活动的新特提斯洋中脊发生俯冲,软流软圈沿板片窗上涌,使上升的软流圈、地幔楔和俯冲洋壳发生部分熔融,导致了强烈的幔源岩浆作用和显著的新生地壳生长与加厚,并以不同类型和不同成分岩浆岩的同时发育和伴随的高温变质作用为特征。第3期发生在晚白垩世晚期,为新特提斯洋脊俯冲后残余大洋岩石圈的俯冲期,以正常的弧型岩浆作用为特征。第4期发生在古新世至中始新世,伴随印度与亚洲大陆的碰撞,俯冲的新特提斯洋岩石圈回转和断离引起软流圈上涌,诱发了强烈的幔源岩浆作用。在此阶段,大陆碰撞导致的地壳挤压缩短和幔源岩浆的底侵与增生,使冈底斯弧经历了显著的地壳生长和加厚,新生和古老加厚下地壳的高压、高温变质和部分熔融,幔源和壳源岩浆岩的共生和强烈的岩浆混合。所形成的I型花岗岩大多继承了新生地壳弧型岩浆岩的化学成分,并多显出埃达克岩的地球化学特征。在岩浆弧北部形成了一系列与起源于古老地壳花岗岩相关的Pb-Zn矿床。第5期发生在晚渐新世到早-中中新世的后碰撞挤压过程中,以地壳的继续加厚,加厚下地壳的高温变质、部分熔融和埃达克质岩石的形成为特征。在岩浆弧东段南部形成了一系列与起源于新生加厚下地壳埃达克质岩石相关的斑岩型Cu-Au-Mo矿。冈底斯带的多期岩浆、变质与成矿作用为其从新特提斯洋俯冲到印度-亚洲大陆碰撞的构造演化提供了重要限定。 相似文献
4.
位于青藏高原南部的冈底斯岩浆弧形成于中生代新特提斯大洋岩石圈的长期俯冲过程中,而且在印度与亚洲大陆碰撞过程中叠加了强烈的新生代岩浆作用,是世界上典型的复合型大陆岩浆弧,已经成为研究汇聚板块边缘岩浆作用和大陆地壳生长与再造的天然实验室。基于对现有研究成果的总结,我们将冈底斯岩浆弧的岩浆构造演化划分为5个阶段:第1阶段发生在晚白垩世之前,以新特提斯洋岩石圈长期正常俯冲和钙碱性弧岩浆岩的发育为特征;第2阶段发生在晚白垩世时期,以活动的新特提斯洋中脊发生俯冲和强烈的岩浆作用与显著的新生地壳生长为特征;第3阶段发生在晚白垩世晚期,以残余的新特提斯大洋岩石圈俯冲和正常弧型岩浆作用为特征;第4阶段发生在古新世至中始新世,以印度与亚洲大陆碰撞、俯冲的新特提斯洋岩石圈回转和断离,及其诱发的幔源岩浆作用、新生和古老地壳的强烈再造为特征;第5阶段为发生在晚渐新世到中中新世的后碰撞阶段,深俯冲印度岩石圈的回转和断离,或加厚岩石圈地幔的对流移去导致了加厚下地壳的部分熔融和埃达克质岩石的广泛发育,同时伴随幔源钾质超钾质岩浆作用。冈底斯弧岩浆作用与岩浆成分的系统时空变化很好地记录了从新特提斯洋俯冲到印度亚洲大陆碰撞的完整构造演化过程。 相似文献
5.
西藏冈底斯仁布-拉萨一带花岗岩基的地球化学及其意义 总被引:9,自引:7,他引:2
冈底斯岩基记录了特提斯洋壳俯冲消减过渡到印度与亚洲大陆碰撞的深部过程,可以反演壳幔相互作用和高原地壳加厚的历史。本文对冈底斯岩基中段的仁布岩体和拉萨岩体进行了系统的元素、Sr-Nd-Pb同位素和锆石SHRIMP U-Pb定年与Hf同位素研究。本文测年结果为82~45Ma,仁布岩体和拉萨岩体年龄为晚白垩纪到早第三纪。岩石为含有辉长质和闪长质包体的中酸性花岗岩类,岩石类型复杂。岩石富集轻稀土元素和大离子亲石元素,稀土元素总量较低,具有高场强元素的负异常;Sr-Nd-Pb同位素成分表明新特提斯洋地幔端元的较大贡献,岩石具有亏损的Nd同位素和年轻的地幔模式年龄(εNd=-1.5~3.3,tDM=0.5~1.2)和较大变化范围的正的锆石Hf同位素成分(6个ε单位),表明岩石源区中亏损地幔占有较大贡献,冈底斯岩基显示初生地壳特征。本文进一步揭示出,冈底斯岩基中段存在岩浆底侵与岩浆混合作用,大规模的幔源基性岩浆底侵,不仅导致之后经过岩浆混合形成的花岗岩岩基具有初生陆壳成分,同时也是导致冈底斯南部地壳垂向加厚与增生的重要因素。 相似文献
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青藏高原碰撞造山带:I.主碰撞造山成矿作用 总被引:10,自引:1,他引:10
大陆碰撞与成矿作用是当代成矿学研究的重要前沿。与板块构造成矿作用研究相比,大陆碰撞造山带的成矿作用研究则明显薄弱。文章以青藏高原主碰撞带为对象,研究了印度—亚洲大陆主碰撞过程与区域成矿作用的耦合关系,并初步建立了主碰撞造山成矿模型。研究表明,印度—亚洲大陆主碰撞始于65Ma,延续至41Ma,形成了以藏南前陆冲断带、冈底斯主碰撞构造_岩浆带和藏北陆内褶皱_逆冲带为特征的青藏高原碰撞造山带主体。伴随陆_陆碰撞,在冈底斯带相继发育①壳源白云母花岗岩_钾质钙碱性花岗岩组合(66~50Ma)、② εNd花岗岩_辉长岩组合(52~47Ma)和③幔源玄武质次火山岩_辉绿岩脉组合(42Ma),以及大面积分布的巨厚(5000m)的林子宗火山岩系(65~43Ma),反映深部相继发生大陆碰撞和板片陡深俯冲(65~52Ma)→板片断离(52~42Ma)→板片低角度俯冲(<40Ma)等重要过程。在主碰撞期,初步识别出4个重要的成矿事件:①与壳源花岗岩有关的Sn、稀有金属成矿事件,在藏东滇西形成腾冲Sn、稀有金属矿集区;②与壳/幔花岗岩有关的Cu_Au_Mo成矿事件,在冈底斯南缘形成长达百余公里的Cu_Au矿化带;③与碰撞造山有关的剪切带型Au成矿事件,沿雅鲁藏布江缝合带分布,形成具有较大成矿潜力的Au矿化带;④与挤压抬升有关的Cu_Au成矿事件,形成以雄村大型铜金矿为代表的斑岩型/浅成低温复合型Cu_Au矿床。在综合研究基础上,初步建立了大陆主碰撞造山区域成矿模型。 相似文献
7.
拉萨地块南部冈底斯岩浆带主要形成于中生代–早新生代(205~40 Ma),正的锆石ε_(Hf)(t)和全岩ε_(Nd)(t)显示了新生地壳组分的特征,其形成普遍被认为与新特提斯洋俯冲或印度–欧亚大陆碰撞后的板片断离有关。作者近期的研究工作显示,冈底斯岩浆带中部的早始新世挡顶拉和先弄错纳花岗质侵入岩具有明显的负ε_(Nd)(t)值。锆石LA-ICP-MS U-Pb年龄表明,上述侵入岩形成于~50 Ma,与冈底斯早新生代岩浆大爆发时期(~50 Ma)一致。挡顶拉和先弄错纳侵入岩具有轻稀土元素富集、重稀土元素亏损以及中等的负Eu异常特征,但先弄错纳岩体具有低的稀土元素总量和更明显的轻、重稀土元素分异。挡顶拉和先弄错纳侵入岩具有明显富集的Sr-Nd同位素组成:(~(87)Sr/~(86)Sr)i=0.7096~0.7121,εNd(t)=-7.3~-8.0。这些侵入岩主要可能来自古老地壳的重熔,且其源区组成矿物可能为黑云母+角闪石+石英+斜长石,岩浆在上升过程中经历了结晶分异。尽管目前的研究资料还无法解释这种富集的同位素特征是与拉萨古老地壳的部分熔融有关,还是与俯冲的印度古老大陆地壳物质熔融有关,但是明显负ε_(Nd)(t)值的花岗质岩石在拉萨地块南部冈底斯岩基中部的出现,有可能为新特提斯洋俯冲及印度–欧亚大陆碰撞过程提供新的启示。 相似文献
8.
青藏高原碰撞造山带:Ⅰ.主碰撞造山成矿作用 总被引:63,自引:25,他引:63
大陆碰撞与成矿作用是当代成矿学研究的重要前沿。与板块构造成矿作用研究相比,大陆碰撞造山带的成矿作用研究则明显薄弱。文章以青藏高原主碰撞带为对象,研究了印度-亚洲大陆主碰撞过程与区域成矿作用的耦合关系,并初步建立了主碰撞造山成矿模型。研究表明,印度-亚洲大陆主碰撞始于65Ma,延续至41Ma,形成了以藏南前陆冲断带、冈底斯主碰撞构造-岩浆带和藏北陆内褶皱-逆冲带为特征的青藏高原碰撞造山带主体。伴随陆-陆碰撞,在冈底斯带相继发育①壳源白云母花岗岩-钾质钙碱性花岗岩组合(66-50Ma)、②+εNd花岗岩-辉长岩组合(52-47Ma)和③幔源玄武质次火山岩-辉绿岩脉组合(42Ma),以及大面积分布的巨厚(5000m)的林子宗火山岩系(65-43Ma),反映深部相继发生大陆碰撞和板片陡深俯冲(65-52Ma)→板片断离(52-42Ma)→板片低角度俯冲(〈40Ma)等重要过程。在主碰撞期,初步识别出4个重要的成矿事件:①与壳源花岗岩有关的Sn、稀有金属成矿事件,在藏东滇西形成腾冲Sn、稀有金属矿集区;②与壳/幔花岗岩有关的Cu-AuMo成矿事件,在冈底斯南缘形成长达百余公里的Cu-Au矿化带;③与碰撞造山有关的剪切带型Au成矿事件,沿雅鲁藏布江缝合带分布,形成具有较大成矿潜力的A-u矿化带;④与挤压抬升有关的Cu-Au成矿事件,形成以雄村大型铜金矿为代表的斑岩型/浅成低温复合型Cu-Au矿床。在综合研究基础上,初步建立了大陆主碰撞造山区域成矿模型。 相似文献
9.
青藏高原拉萨地块碰撞-后碰撞岩浆作用的三种类型及其对大陆俯冲和成矿作用的启示:Sr-Nd同位素证据 总被引:19,自引:13,他引:19
青藏高原拉萨地块是揭示印度与亚洲大陆碰撞的最重要的地区之一,其中广泛发育的碰撞-后碰撞岩浆作用记录了这一地区从特提斯洋俯冲消减到印度大陆陆内俯冲的全过程.本文基于对最新的Sr-Nd同位素资料的分析,从高原岩石圈的三种主要地球化学端元入手,分析了拉萨地块碰撞-后碰撞岩浆作用的类型及其在大陆俯冲与成矿作用方面的意义.青藏高原岩石圈可以分为三种主要的地球化学端元,一是青藏高原北部地球化学省(包括羌塘、可可西里和西昆仑)代表的青藏原始岩石圈地幔地球化学端元,42Ma以来在高原北部广泛分布的钾质岩浆岩的Nd-Sr同位素成分比较均一和稳定,同位素比值的范围较窄,^87Sr/^86Sr=0.707101~0.710536,εNd=-2~-9,tDM=0.7~1.3Ga;二是雅鲁藏布江蛇绿岩代表的新特提斯洋地幔端元,^87Sr/^86Sr=0.703000~0.706205,εNd=+7.8~+10,呈印度洋型MORB特征,属于印度洋型地幔域;三是喜马拉雅带地壳基底和花岗岩类显示的喜马拉雅地壳地球化学端元,εNd=-12~-25,^87Sr/^86Sr=0.733110~0.760000,具相对古老的Nd模式年龄,tDM=1.9~2.9Ga.拉萨地块碰撞-后碰撞岩浆作用可以划分出三种地球化学类型,即拉萨地块原地型、亲特提斯洋型和亲喜马拉雅型.这三种岩浆作用类型受控于上述三种地球化学端元在其源区的比例及相互作用.其中,拉萨地块原地型与青藏高原北部地球化学省特征一致,亲特提斯洋型代表了与新特提斯洋俯冲消减及其后的再循环有关的岩浆作用,亲喜马拉雅型岩浆岩的Sr-Nd同位素特征则可能指示了喜马拉雅大陆地壳端元的参与.超钾质火山岩是揭示印度大陆岩石圈向北俯冲的重要证据,印度大陆岩石圈俯冲作用可能同时控制了超钾质岩石和盐类矿床的产出,古老地壳物质作为源区参与了超钾质岩石和盐类矿床的成岩与成矿作用.拉萨地块中部地区的含矿斑岩属于亲特提斯洋型岩浆作用,因此具亲特提斯洋型特征的火山岩、浅成斑岩和深成侵入岩,是进一步寻找铜、钼、金矿床的重要目标. 相似文献
10.
印度-亚洲大陆碰撞之后的新特提斯洋板片的断离过程及其产生的岩浆作用一直是青藏高原南部地质研究中受到广泛关注但存在极大争议的问题.分析了青藏高原南部拉萨地块上新特提斯洋板片断离存在的问题,总结了目前用于限制板片断离过程的岩石学方法.对拉萨地块南部典型地区早新生代镁铁质岩石开展了详细的地质年代学、主微量元素和Sr-Nd-Hf同位素地球化学分析,厘定了~57 Ma和~50 Ma与新特提斯洋板片断离过程密切相关的两套岩石.~57 Ma的镁铁质岩石显示出高的Zr/Y和Ti/Y比值,不同于拉萨地块南部广泛分布的岛弧岩浆地球化学特征,表明它们形成于板内伸展背景下,很可能代表了新特提斯板片断离的开始.~50 Ma的镁铁质岩石为富闪深成岩,反映了印度-亚洲大陆碰撞后南拉萨地块岩石圈中的富水环境,暗示大洋板片断离后仍然持续释放流体至上覆岩石圈地幔中.结合拉萨地块上已有的镁铁质岩石的年代学和地球化学数据,重建了新特提斯洋在印度-亚洲大陆碰撞之后从初始撕裂至板片完全断离的全过程,即新特提斯板片在~57 Ma开始发生初始撕裂,随后以高角度俯冲并与印度大陆岩石圈脱离,导致中拉萨和南拉萨地块同时出现广泛的镁铁质岩浆作用,在~50 Ma大洋板片完全断离.拉萨地块内部岩石圈地幔地球化学组成存在极大的不均一性,中拉萨地块和南拉萨地块东部的局部地区存在古老的岩石圈物质组成,而南拉萨地块中部主要为亏损的岩石圈.拉萨地块内局部古老富集岩石圈可能受到新特提斯洋板片断离后深部地幔物质上涌的影响转变为新生的亏损岩石圈,这一过程很可能促进了拉萨地块的中酸性岩浆大爆发作用和大陆地壳生长. 相似文献
11.
Guboglo M. N. 《GeoJournal》1980,4(1):53-58
International unity is becoming ever stronger in this country owing to an increasing similarity in the development of the cultural environment. This comprises the provision of all the country's republics with a sufficient number of schools, theatres, and other institutions and cultural information media in accordance with the needs of the population. An important part is played by the rise in ‘the general educational level, as well as the level of professional qualifications and skills. Among all the Soviet nations and nationalities, this rise being more rapid among formerly backward peoples. Prominent among the factors of internationalization is the progressive development of the nationalities’ cultural resources, while professional culture is being increasingly brought within the reach of the masses.The implementation of the nationalities policy promotes the all-round development of all Soviet nations and nationalities, their drawing together, the upsurge of the individual capabilities of every Soviet citizen. 相似文献
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13.
Chronological analyses of correlations between certain global repeating events (mass extinctions of marine organisms, meteorite impacts, and flashes in the frequency of geomagnetic reversals) during the Phanerozoic Eon and the motion of the solar system in the Galaxy are presented for five rotationally symmetrical models for the regular Galactic gravitational field. Thirteen of sixteen mass-extinction events can be described by a repetition interval of 183±3 million years. This is in agreement with the anomalistic period (interval between two subsequent passages of the Sun through the apocenter of its Galactic orbit) in the model of Allen and Martos. The positions of the minima and maxima in Gaussian functions approximating the frequency distribution for geomagnetic reversals also agree with the times of passage of the Sun through the apocenter and pericenter, respectively, of its Galactic orbit in this model. The maximum in the distribution of the deviations of the dates of mass extinctions from the nearest dates of impacts of large, crater-forming bodies is close to zero, providing evidence that many such events are correlated. As a rule, extinctions follow impact events. The impacts of large bodies have occurred most often when the solar system passes through the Galactic plane, while mass extinctions occur more often at some distance from the Galactic plane (about 40 pc). As a rule, intervals of increases in the frequency of geomagnetic reversals coincide with dates of impacts of large bodies. At the same time, these intervals do not show a clear correlation with the dates of mass extinctions. The intensity of mass extinctions, like the energy released by impacts, is consistently higher in periods when the Sun is moving from the apocenter toward the pericenter of its orbit, than when it is moving from the pericenter toward the apocenter. Thus, there is evidence for a variety of relationships between repeating global events in the Phanerozoic and the motion of the Sun in the Galaxy. Long-period variations in the frequency of geomagnetic reversals are correlated with the orbital motion of the Sun, and increases in the frequency of geomagnetic reversals are correlated with impacts. Mass extinctions are correlated with the impacts of large bodies, whose motions may have been perturbed by clouds of interstellar material concentrated toward the Galactic plane and by the shock front associated with the Perseus spiral arm, through which the solar system passes. The velocity of the Sun relative to the spiral pattern is estimated. 相似文献
14.
Deviation of the major axis of the inertia ellipsoid of the Moon from the direction toward the Earth
B. P. Kondratyev 《Astronomy Reports》2017,61(8):709-714
It is known from observations that the center of mass of the Moon does not coincide with the geometric center of its figure, and the line connecting these two centers is not aligned with the direction toward the center of the Earth, instead deviating toward the Southeast. This stationary deviation of the axis of the inertia ellipsoid of the Moon to the South of the direction toward the Earth is analyzed. A system of five linear differential equations describing the physical libration of the Moon in latitude is considered, and these equations are derived using a new vector method taking into account perturbations from the Earth and partly from the Sun. The characteristic equation of this system is obtained, and all five oscillation frequencies are found. Special attention is paid to the fifth (zero) frequency, for which the solution of the latitude libration equations are stationary and represents a previously unknown additional motion of the rotational axis of theMoon in a cone with a small opening angle. In contrast to the astronomical precession of the Earth, the rotation of the angular-velocity vector is in the positive direction (counter-clockwise), with the period T 3 = 27.32 days. On this basis, this phenomenon has been named “quasi-precession.” This quasi-precession leads to a stationary inclination of the major axis of the inertia ellipsoid of theMoon to the South (for an observer on Earth), making it possible to explain one component of the observed deviation of the center of mass of the Moon from the direction toward the Earth. The opening angle of the quasiprecession cone is approximately 0.834″. 相似文献
15.
位于华北和扬子两板块碰撞带中的苏鲁榴辉岩形成的温压条件不但是超高压,而且是高温。榴辉岩的PTt轨迹表明其为陆-陆磁撞俯冲带的产物。榴辉岩的区域性围岩花岗质片麻岩为新元古代同碰撞期花岗岩,榴辉岩及其他直接围岩皆呈包体存在于其中,并见新元古代花岗岩呈脉状侵入榴辉岩包体中。区域性围岩新元古代花岗岩的锆石中发现有柯石英、绿辉石等包裹体,表明新元古代花岗岩的组成物质也经受过超高压变质作用,且榴辉岩与围岩新元古代花岗岩的锆石U-Pb体系同位素年龄基本相同。但新元古代花岗岩所记录的变质作用和变形作用期次(或阶段)却少于榴辉岩。椐上述可得如下推断:超高压榴辉岩与新元古代花岗岩岩浆是同时在碰撞带底部(俯冲板块前部)形成的;榴辉岩的第一折返阶段是由新元古代花岗岩岩浆携带上升的,其第二折返阶段是和新元古代花岗岩一起由逆冲及区域性隆起而上升,遭受剥蚀。 相似文献
16.
17.
摩擦桩基桩土间极限摩阻力取值问题探讨 总被引:1,自引:0,他引:1
通过对广珠东线高速公路横沥大桥的试桩及土体的工程地质条件分析,总结出影响摩擦桩基桩土间极限摩阻力取值的一般问题以及解决问题的方法和措施。 相似文献
18.
某高速公路下伏煤矿采空区稳定性分析 总被引:10,自引:0,他引:10
在论述某高速公路下伏砦脖煤矿采空区地质、采矿和工程地质特征的基础上, 进行了稳定性数值模拟分析, 定性与定量地分析与评价了该煤矿采空区的地表变形特征及稳定性。研究结果表明: 该煤矿采空区的变形尚未完成, 对拟建的高速公路将产生很大的危害, 必须采取相应的工程治理措施。 相似文献
19.
The Importance of the Precipitation and the Susceptibility of the Slopes for the Triggering of Landslides Along the Roads 总被引:3,自引:1,他引:2
Clemente Irigaray Francisco Lamas Rachid El Hamdouni Tomás Fernández José Chacón 《Natural Hazards》2000,21(1):65-81
In order to characterise the influence of the heavyrains on the observed landslides during the 1996–1997hydrological cycle, rainfall records for the last 100years are analysed from 104 stations in easternAndalusia. Regarding the amounts of rain recordedbetween October 1996 and March 1997 in the 104stations studied, 31 presented new all-time records;15 presented values that were 80–100% of thepre-1995 record; 49 stations, 80–50%; and 9stations, < 50%. A map has been devised of thesusceptibility of the materials through which thesouth-eastern Andalusian road network crosses,together with an inventory of the damage caused byinstability phenomena on banks and cuttings of theroad network during the winter of 1996–1997. Therelationships between the rainfall during the studyperiod, the damage caused to the road network and thesusceptibility of the materials affected are analysed.The results indicate that there is a clearcorrespondence between the rainfall recorded and thesusceptibility of the materials with the inventorieddamage. It is concluded that the widespread seriousdamage caused in early 1997 to the roads andsurrounding areas in the Alpujarra region and thecoast of the Province of Granada was mainly caused bythe extraordinarily heavy rains. However, considerablyless damage was observed where the susceptibility ofthe terrain is low, thus highlighting the extremeusefulness of terrain-susceptibility maps for riskprevention and territorial planning. 相似文献
20.
The structure of the eastern Pyrenees consists mainly of south-directed thrusts involving basement and cover rocks. An antiformal stack developed by the piling up of basement thrust sheets which outcrop in the Axial zone. These structures account for a thin-skinned thrust model rather than a vertical fault model in which the Axial zone would be essentially autochthonous, and the North-Pyrenean fault the axial plane of a fan thrust system. New data from the Eastern Pyrenees and the thin-skinned model suggest that(1) the structure east of the Pedraforca nappe is similar to that of the Central Pyrenees; (2) the cover rocks of the South-Pyrenean units and of the Axial zone-after restoration—built up a northwards-thickening prism consistent with the existence of a unique Pyrenean sedimentary basin during Mesozoic time; (3) the Axial zone is only a complex antiformal stack developed as a part of South-Pyrenean system related to the Paleogene thrusting-tectonics. The Axial zone palaeogeographic area had no special meaning during Mesozoic time. 相似文献