500毫巴湿位势倾向诊断分析和应用

本文用湿位势倾向方程进行诊断分析,表明,湿大气中差动潜热能平流对500毫巴湿位势倾向有重要影响。日常业务中计算500毫巴层位势倾向,在判断未来低值系统的移动和暴雨落区中,有一定指示意义。     

苏皖地区大陆岩石圈地幔的长时性--地幔橄榄岩捕虏体的锇同位素模式年龄

中国(USTC)和法国(CRPG)两个实验室测定了苏皖地区地幔橄榄岩捕虏体全岩的锇同位素组成,结果187Os/188Os=0.119～0.129(USTC,n=25,n为样品数,下同)和0.117～0.131(CRPG,n=17).大部分样品的Os同位素组成(<0.1290)呈亏损特征,Os同位素组成与主量成分之间有线性相关性.用187Os/188Os-Al2O3代用等时线法获得的模式年龄为(2.5±0.1)Ga(USTC)和(1.9±0.1)Ga(CRPG),为晚太古代-早元古代.样品组中最低的187Os/188Os比值为0.119(USTC)和0.117(CRPG),相应的Re亏损模式年龄为1.1Ga(USTC)和1.4Ga(CRPG),为中元古代.锇同位素模式年龄表明苏皖地区新生代玄武岩中包含的地幔橄榄岩捕虏体具有古老的形成年龄(早元古-中元古代),它们是经过显生宙岩石圈地幔减薄作用后的残余地幔的碎片,而不是显生宙"置换作用"中产生的新生地幔.     

加拿大的地理教学

加拿大的教育既有英国的特色，又有法国特色，同时也深受美国影响。     

大陆下地壳拆沉模式初探

下地壳拆沉是人们关注的问题,文中指出下地壳拆沉必须满足至少三个条件：（1）地壳加厚使其下部达到熘辉岩相是拆沉的前提.（2）大规模岩浆活动使大量低密度的中酸性物质移出下地壳,使下地壳密度增加直至超过下伏地幔.由于下地壳榴辉岩石部分熔融所形成的岩浆具有埃达克岩的地球化学特征,因此,大规模魂达克岩的熔出是下地壳拆沉的先决和必要条件.（3）岩石圈地幔转化为软流圈地幔,使下地壳能够进入地幔.陆壳下的岩石圈地幔原先是冷的、刚性的和不易流动的，如果有热和水的加入，可以被软化，使其变成热的、塑性的和易流动的软流圈地幔。因此，岩石圈了幔转化为软流圈地幔是下地壳拆沉的必要条件。作者认为，下地壳不大可能整体拆沉，而很可能是一块一块如飘雪花似地拆沉。如果下地壳的密度降低（低于下伏地幔），如果地幔停止热的供给，如果陆壳底部的软流圈地幔幔又恢复为岩石圈地幔，拆沉即终止。文中讨论了中国东部中生代下地壳拆沉的可能性，探讨了岩石圈减薄的机制，认为下地壳不需要也不可能与岩石圈地幔一道拆况。     

DVD技术在气象影视素材库建设中的应用

分析了如何将高品质DVD制作技术应用到省级气象影视素材库建设中的方法,以及充分利用DVD的高画质、多音轨、多字幕等相关制作技术为气象影视工作服务的技巧。     

黔中降起的油气勘探壁垒——兼论海相碳酸盐岩烃源岩

黔中隆起在地质构造上属于扬子地块的滇黔隆褶带．南华纪晚期初现雏形，震旦纪—奥陶纪为水下隆起，燕山运动使其整体抬高，喜马拉雅运动时急剧隆升，构造地貌长期相对隆起。地表油苗油样分析结果显示，在红外吸收谱图中缩合芳烃结构及含氧基团吸收明显，有机质热成熟度高，且遭受了氧化蚀变：震旦系以上地层大量暴露，地表水溶蚀下渗深度在黔西南地区可达3000-4000m；作为长期存在的古隆起，经历了多次抬升，直至挽近仍处于严重剥蚀阶段。地腹可能存在酸性岩浆热源使有机质过度热演化、保存条件不佳以及缺少勘探目的层，是黔中隆起油气勘探的三大壁垒。兼谈了碳酸盐岩烃源岩问题．认为形成大油气田的烃源岩主要是泥质岩系，“碳酸盐岩烃源岩”只是从属性的．分布在泥质烃源岩系的边缘或局部范围。     

中国云南哀牢山含海蓝宝石伟晶岩的起源和成岩模拟实验研究

The Ailaoshan aquamarine-bearing pegmatites are associated with Proterozoic metamorphic rocks in the southern portion of the Ailaoshan fault-folded complex.The gem-bearing pegmatite mineralization zones of the region occur in areas generally consistent with the regional tectonic trend.The pegmatites are found in metamorphic rocks,migmatites and in the inner/outer contact zones of gneissoid granites. The Rb-Sr isochron drawn for the pegmatites is 26～31 Ma,(i.e.in Himalayan).The homogenization temperatures of melt and liquid inclusions in minerals vary from 185 to 920℃,which are comparable to the inclusions observed in banded migmatites and ptygmatic quartz veins in the surrounding metamorphic rocks. The mineralization fluids of the pegmatite were rich in HCO_3 and CO_2,and their compositional assemblages are comparable to metamorphic fluids.Results of H,O,C,Si etc.isotopic analyses and REE,and Be analyses indicates that the sources of mineralization components that formed the pegmatites are closely associated with metamorphic fluids and the enclosing metamorphic rocks. A pegmatite structure simulation experiment was conducted at high temperature and pressure(840℃and 1,500×105Pa.),with various metamorphic rock samples in a water-rich and volatile-rich environment.When the liquidus was reached,the temperature was gradually decreased at the rate of 5～10℃/day over a time period of three months.SEM energy-dispersive spectrum analyses were performed on the experimental products.A series of pegmatoid textures were observed including zonal texture,megacryst texture,drusy cavities,crystal druses,and vesicular texture along with more than ten types of minerals including plagioclase,microcline,quartz and biotite.Different metamorphic rock melts generated different mineral assemblages.Experiment results revealed that the partial melting of metamorphic rocks could form melts similar to pegmatite magmas. Based upon the geological characteristics,geochemistry,and pegmatite texture simulation experimental results,it is concluded that the mineralization components of Ailaoshan aquamarine-bearing pegmatites came from metamorphic rocks.The petrogenetic model for the origin of pegmatites is related to ultrametamorphism and metamorphic anatexis.