Geochemistry of Late Cretaceous （ 60 - 67 Ma） igneous activities in the Hebrides Terrace seamount （guyot） area, Scotland

Tholeiitic basalts in various stages of alteration were dredged from Late Cretaceous volcanic rocks (60 -67 Ma) in the Hebrides Terrace seamount area in the Atlantic Ocean. These rocks are extrusive olivine basalts, including high- and low-Al basalts. High-Al basalts are depleted in MgO, CaO, Cr,Sc, V, St, Zr and enriched in TiO2, Na2O, Nb, Rb as compared with low-A1 basalts. Petrography and bulk-rock composition (major, trace and rare-earth elements) data defined clear tholeiitic suites displaying possible liquid lines of descent related to different degrees of crystal fractionation and partial melting.Isotopic dating of dredged samples gave the guyot an age of 60 - 67 Ma, in support of the assumption that it was formed during the Late Cretaceous.     

基于Open Inventor的地层三维可视化

地震解释成果数据作为三维地层的数据来源,对其进行预处理并插入断层线约束,最终构建成三角网格曲面.利用三维图形软件开发包Open Inventor,在Net平台上采用C#开发语言将建模之后的三角网数据进行三维动态显示.实现了地层数据、断层数据、井数据的综合展示和交互,具备一定的独立性和较好的通用性,可以很好地服务于地质研...     

Skilful Forecasts of Summer Rainfall in the Yangtze River Basin from November

Variability in the East Asian summer monsoon(EASM) brings the risk of heavy flooding or drought to the Yangtze River basin, with potentially devastating impacts. Early forecasts of the likelihood of enhanced or reduced monsoon rainfall can enable better management of water and hydropower resources by decision-makers, supporting livelihoods and major economic and population centres across eastern China. This paper demonstrates that the EASM is predictable in a dynamical forecast model from the pr...     

Map of Mafic Dyke Swarms and Related Units of Russia and Adjacent Regions

正Work is currently underway to produce a map in Arc GISTM 10 of the mafic dyke swarms and related units(volcanics,sills and layered intrusions)of Russia and adjacent regions at a scale of 1:5,000,000.Over the past     

Giant Circumferential Dyke Swarms on Earth: Possible Analogues of Coronae on Venus and Similar Features on Mars

正Venusian coronae are large(60-2600 km diameter)tectono-magmatic features characterized by quasi-circular graben-fissure systems and topographic features such as a central dome,central depression,circular rim or circular     

植被作用下土壤抗剪强度和径流侵蚀力的耦合效应

利用野外径流小区动态监测和人工模拟降雨试验,阐明了草被和灌木的减流减沙效应,从力学层面揭示了坡面侵蚀产沙的过程机理。结果表明,与裸地相比,野外坡面草地和灌木地径流量分别减少28.1%~56.5%和85.7%~100%、产沙量分别减少84.9%~90.7%和98.5%~100%;在人工模拟降雨强度下,草地和灌木地径流量分别减少51.9%~90.9%和61.7%~80.6%、产沙量分别减少93.6%~99.2%和95.5%~99.2%;植被具有明显的增强土壤抗剪强度的作用,不同植被坡面抗剪强度与剪切面上的法向压力成正比,且符合库仑定律;不同下垫面条件下土壤黏聚力与坡面径流量和侵蚀产沙量呈显著的负相关关系,随着黏聚力的增大,径流量和侵蚀产沙量呈下降趋势;草地和灌木地坡面侵蚀临界径流切应力分别为裸地的2.64~3.16倍和2.44~3.18倍,建立了不同被覆坡面临界径流切应力与土壤抗剪强度和黏聚力的关系。研究结果对定量评价植被减蚀作用和深化土壤侵蚀力学过程有一定的参考意义。     

祁连山中段白垩纪以来阶段性构造抬升过程的磷灰石裂变径迹证据

祁连山作为青藏高原的东北边界,是研究青藏高原隆升和扩展的重要区域,利用磷灰石裂变径迹分析反映的祁连山地区白垩纪以来阶段性隆升和扩展新认识对理解青藏高原的隆升过程有重要的意义。分别采自南祁连陆块、疏勒南山—拉脊山缝合带、中祁连陆块和北祁连缝合带22个样品的磷灰石裂变径迹年龄介于(124±11)Ma与(13±2)Ma之间,平均径迹长度介于(13.6±2.3)μm和(10.3±1.8)μm之间。时间-温度反演模拟结果表明祁连山地区至少经历了3个重要构造活动阶段:1)白垩纪早期((129±14)~(115±17)Ma)祁连山隆升,南祁连陆块和疏勒南山—拉脊山缝合带的冷却速率及剥蚀速率均较大,并且祁连山南部可能率先抬升而初步构成高原的东北边界;2)白垩纪中晚期—中新世((115±17)~(25±7)Ma)祁连山构造平静,南祁连陆块和疏勒南山—拉脊山缝合带冷却速率及剥蚀速率均较低;3)中新世以来祁连山由南向北逐渐扩展,构造活动强烈而最终形成盆-山构造地貌格局。祁连山白垩纪早期的快速冷却过程可能是受拉萨地块和羌塘地块碰撞的影响;中新世以来向北扩展则主要是受印度—欧亚板块碰撞的影响。     

http://www.sciencedirect.com/science/article/pii/S167498711600030X

Proterozoic(pre-Ediacaran) glaciations occurred under strongly seasonal climates near sea level in low palaeolatitudes.Metre-scale primary sand wedges in Cryogenian periglacial deposits are identical to those actively forming,through the infilling of seasonal(winter) thermal contraction-cracks in permafrost by windblown sand,in present-day polar regions with a mean monthly air temperature range of40 ℃ and mean annual air temperatures of-20 ℃ or lower.Varve-like rhythmites with dropstones in Proterozoic glacial successions are consistent with an active seasonal freeze-thaw cycle.The seasonal(annual) oscillation of sea level recorded by tidal rhythmites in Cryogenian glacial successions indicates a significant seasonal cycle and extensive open seas.Palaeomagnetic data determined directly for Proterozoic glacial deposits and closely associated rocks indicate low palaeolatitudes:Cryogenian deposits in South Australia accumulated at 10°,most other Cryogenian deposits at 20° and Palaeoproterozoic deposits at 15° palaeolatitude.Palaeomagnetic data imply that the Proterozoic geomagnetic field approximated a geocentric axial dipole,hence palaeolatitudes represent geographic latitudes.The Cryogenian glacial environment included glacier-free,continental permafrost regions with ground frozen on a kyr time-scale,aeolian sand-sheets,extensive and long-lived open seas,and an active hydrological cycle.This palaeoenvironment conflicts with the 'snowball Earth' and 'slushball Earth' hypotheses,which cannot accommodate large seasonal changes of temperature near the equator.Consequently,their proponents have attempted to refute the evidence for strong seasonality by introducing Popperian'auxiliary assumptions'.However,non-actualistic arguments that the Cryogenian sand wedges indicate diurnal or weakly seasonal temperature changes are based on misunderstandings of periglacial processes.Modelling of a strongly seasonal climate for a frozen-over Earth is invalidated by the evidence for persistent open seas and glacier-free continental regions during Cryogenian glaciations,and gives a mean monthly air temperature range of only 10 ℃ for 10° latitude.By contrast,a strongly seasonal climate in low palaeolatitudes,based on the actualistic interpretation of cryogenic sand wedges and other structures,is consistent with a high obliquity of the ecliptic(54°) during Proterozoic low-latitude glaciations,whereby the equator would be cooler than the poles,on average,and global seasonality would be greatly amplified.