华北克拉通的组成及其变质演化

华北克拉通早前寒武纪变质基底主要由五套不同类型的变质岩系组成。克拉通在形成过程中经历了多期构造活动、多期岩浆侵位、多期变质作用以及不同程度的混合岩化和深熔作用,岩石已遭受多次不同地质作用的叠加改造,因此华北克拉通具有复杂的演化历史。从太古宙到古元古代末的克拉通形成,华北克拉通主要经历了五期区域变质作用。鞍山地区的古—中太古代经历了角闪岩相变质作用改造,尚未获得变质年龄数据。但在TTG岩系中已获得3 560 Ma和3 000~3 300 Ma早期的变质年龄。河南鲁山太华杂岩的中太古代斜长角闪岩中获得2 776~2 792 Ma和2 671~2 651 Ma两期变质作用年龄信息,代表了新太古代早期的变质作用。新太古代麻粒岩-TTG岩系和新太古代花岗-绿岩系都经历了新太古代晚期—古元古代初的变质作用改造。在古元古代阶段,在华北克拉通北缘在1 965~1 900 Ma期间发生了中低压/高压麻粒岩相变质,局部发生超高温变质,这期变质作用与陆块间的俯冲碰撞及其后的地幔上涌有关。在古元古代晚期(1 890~1 800 Ma)在华北克拉通的中部及东部的胶—辽—吉带发生了高压麻粒岩相-角闪岩相的区域变质,代表了陆块间的碰撞拼合过程。不同变质岩系类型经历的变质作用反映了不同的构造背景。太古宙晚期大量的TTG岩系及呈面状分布的中/低压麻粒岩主要出露在华北克拉通的中北部,普遍具有逆时针的p-T轨迹,反映了地幔柱底板垫托的构造环境。新太古代的花岗-绿岩系在新太古代晚期—古元古代早期经历的变质作用多为顺时针的p-T演化轨迹,反映其发生可能与弧后+地幔柱联合作用的构造背景。古元古代晚期的两期变质作用多表现为高压麻粒岩相的顺时针p-T演化轨迹,反映了不同陆块(地块)之间碰撞拼合的过程,意味着类似显生宙的板块构造体制已经出现。     

峨眉山玄武岩浆喷发对贵州西部区域成矿贡献研究

早、晚二叠世之间大规模峨眉山玄武岩喷发是峨眉地幔热柱基性岩浆活动的高峰期.峨眉山玄武岩在贵州西部地区广泛分布,它不仅以矿源层形式参与钼、铜、铅、锌、金、锑、汞、铊等以地下水热液成矿作用为主的层控矿床的形成,而且它自身形成火山气液型矿床--玄武岩铜矿及伴生热液型铂、钯等矿化点;再者它是外生矿床--高砷煤、高氟煤、高硫煤、高汞煤形成的主要原因.     

中亚造山带西段俯冲起始时限及机制探讨

中亚造山带是世界上最大的显生宙增生型造山带,是研究增生造山过程和大陆地壳生长的绝佳场所,其形成记录了新元古代—早中生代古亚洲洋发展演化历程,主要由一系列微陆块、岛弧、海山/大洋高原、增生杂岩及蛇绿混杂岩构成.中亚造山带西段蛇绿混杂岩物质组成基本一致,除了典型的蛇绿岩组分外,大多发育典型的海山岩石组合,即枕状玄武岩、火山...     

一种污水排海的近远区计算与控制方法──以大亚湾水容量计算及污水排海为例

针对点容量计算中混合区限制的要求，采用了动量积分法、经验公式法和有限差分法，分别对污水排放后可能引起的近区、过渡区和远区的污水浓度变化进行了模拟预测，并就一定的限制性条件对容量点近区、高浓度混合区及容量点远区影响范围进行了分析。在大亚湾水容量计算及污水排海规划中的应用表明，该法具有计算机时较省、精度相对较高等优点。     

基于高斯烟羽模型的船舶尾气扩散研究

为有效对港区大气污染进行治理、分析船舶尾气,本文详细介绍了一种基于高斯烟羽模型,通过MATLAB模拟仿真模型,其包括实验仿真过程、技术原理及理论模型对船舶尾气扩散进行的研究。该模型是在传统的高斯烟羽模型的基础上,通过对实源像源进行加权选择输入参数;通过矢量合成确定了气体扩散的方向,利用合成后的"风速"进行计算仿真,有效模拟了船舶尾气在港区或者海洋环境中的气体扩散模型。其模型简单且可以有效模拟船舶尾气扩散。并且进一步对后续模型的精确优化进行分析。     

Delineation of the 85°E ridge and its structure in the Mahanadi Offshore Basin,Eastern Continental Margin of India (ECMI), from seismic reflection imaging

The passive Eastern Continental Margin of India (ECMI) evolved during the break up of India and East Antarctica in the Early Cretaceous. The 85°E ridge is a prominent linear aseismic feature extending from the Afanasy Nikitin Seamounts northward to the Mahanadi basin along the ECMI. Earlier workers have interpreted the ridge to be a prominent hot spot trail. In the absence of conclusive data, the extension of the ridge towards its northern extremity below the thick Bengal Fan sediments was a matter of postulation. In the present study, interpretation of high resolution 2-D reflection data from the Mahanadi Offshore Basin, located in the northern part of the ridge, unequivocally indicates continuation of the ridge across the continent–ocean boundary into the slope and shelf tracts of the ECMI. Its morphology and internal architecture suggest a volcanic plume related origin that can be correlated with the activity of the Kerguelen hot spot in the nascent Indian Ocean. In the continental region, the plume related volcanic activity appears to have obliterated all seismic features typical of continental crust. The deeper oceanic crust, over which the hot spot plume erupted, shows the presence of linear NS aligned basement highs, corresponding with the ridge, underlain by a depressed Moho discontinuity. In the deep oceanic basin, the ridge influences the sediment dispersal pattern from the Early Cretaceous (?)/early part of Late Cretaceous times till the end of Oligocene, which is an important aspect for understanding the hydrocarbon potential of the basin.     

Field evidence of differential food utilization of phytal harpacticoids collected from Fucus serratus indicated by δC and δN stable isotopes

The present study is the first to compare trophic relationships of several co-occurring phytal harpacticoid species, in their natural habitat, using both δ¹³C and δ¹⁵N signatures. Three phytal harpacticoid species/taxa (Zaus spinatus, Tisbe spp., and Parathalestris cf. intermedia) all collected from the alga Fucus serratus, at different times of the year, were analyzed. The results indicated that the harpacticoids were utilizing food sources differently. Specific food sources of the three species/taxa could not be accurately pinpointed, but there were strong indications that F. serratus and fragments from it did contribute significantly to the diet of P. cf. intermedia and Tisbe spp. Both of these harpacticoid species overlapped in δ¹³C and δ¹⁵N values with some of the macrofaunal species, collected from the same site in Hvassahraun, Iceland, while no overlap was seen for Z. spinatus. The signatures for Z. spinatus indicated that its food sources changed seasonally.     

2019年10月12日广西玉林北流MS 5.2地震深部孕震环境

地震是地壳或岩石圈构造变形的一种方式,施加于边界断层及其活动块体内的力决定了它们的变形方式(伸展、挤压、走滑),而变形(或地震)的空间分布受岩石圈流变学控制,尤其是受断层和其间块体强度以及这些块体与岩石圈耦合作用的控制( Thatcher,2009).而火山岩浆作为低粘度熔体,其活动通常也会产生地震,地震类型和大小与岩...     

The influence of medium-range transport on O3 levels at a rural site in Israel

Simultaneous ozone measurements were made at a rural site, 25 km SSW of the city of Jerusalem, and in the center of the city during a period of 28 months. The ozone data were supplemented by SO₂, NO/NO _x ,and meteorological measurements at both sites. Elevated ozone concentrations were recorded at the rural site, mostly during the spring months (May and June) during which the monthly averages and the monthly averages of the daily 30 min maximum levels equalled those measured in the city. During the summer months, both average and peak levels were lower at the rural site by 20 and 35 ppb. The increased ozone levels at the rural site were accompanied by a parallel increase of SO₂ and NO _x ,suggesting hat the excess ozone at the rural site is a result of a transformation during transport of air pollutants from coastal sources.     

The Darfur Dome,western Sudan: the product of a subcontinental mantle plume

Field investigations, K-Ar age determinations and chemical data were used to describe the development of an intraplate volcanic province, the Darfur Dome, Sudan. Magmatism started 36 Ma ago at a small subvolcanic complex (Jebel Kussa) in the center of the dome and was active in the same area between 26 and 23 Ma. Two major volcanic fields (Marra Mountains and Tagabo Hills) developed between 16 and 10 Ma. Volcanism started again at 6.8 Ma with a third volcanic field (Meidob Hills) and at 4.3 Ma in the Marra Mountains and with the reactivation of the center. Activity then continued until the late Quaternary. Having started in the center of the Darfur Dome, volcanism moved in 36 Ma 200 km towards the NNE and 100 km SSW No essential difference in the alkaline magma types (basanitic to phonolitic-trachytic, with different amounts of assimilation of crustal material) in the different fields, was observed. Magmatism is thought to have been produced by a rising mantle plume and volcanism was triggered by stress resolution along the Central African Fault Zone.