广州夏季硫酸盐巨粒子的分布特征

作者分析了１９８７年８－９月广州观的硫酸盐巨粒子资料，主要结果是：（１）干直径大于２μｍ的硫酸盐巨粒了平均浓度１．２个．Ｌ＾－１，平均含盐量３．０μｇ．ｍ＾－３，其中干直径大于４μｍ的特大粒子平均为０．６个．Ｌ＾－１，均低于南海西沙永兴岛的结果。（２）浓度谱是典型的准单调下降型幂函数递减谱，其谱型参数与永贪的结果甚为接近；质量谱在单对数坐标中为较为平直的分布，表明各谱段粒子对含盐量均有贡献。（２）     

广州盛夏期海盐核(Cl~-)巨粒子的分布特征

本文分析了1987年8至9月间在广州观测的Cl~-巨盐核资料。主要结果有:①干直径大于2μm的Cl~-核平均浓度31个/L,平均含盐量0.84μg /m~3,其中于直径大于4μm的特大核平均为3个/L,最大于直径25μm,均远低于南海海域的值。②浓度谱呈典型的单峰型幂函数递减谱,谱型窄而光滑;质量谱也表现为单峰分布。③盐核的日际变化与天气系统有密切关系,台风活动可造成海盐粒子浓度的大量增多,形成所谓“盐核暴”现象。     

华南地区大气气溶胶质量谱与水溶性成分谱分布的初步研究

为了提供讨论华南地区酸性降水形成机制的背景资料，１９８８年１月与８－９月，在广州、柳州、韶关、南宁、阳朔、龙门使用Ａｎｄｅｒｓｅｎ气溶胶分级采样器采集了分级气溶胶样品，并对水溶性的Ｆ＾－、Ｃｌ＾－、ＮＯ３＾－、ＳＯ４＾－－、Ｎａ＾＋、ＮＨ４＾＋、Ｋ＾＋、Ｃａ＾＋＋、Ｍｇ＾＋＋进行了分析。结果表明，在工业城市中粗粒态粒子显著多于清洁地区。工业城市气溶胶水溶性成分中的ＳＯ４＾－－、Ｃａ＾＋＋显著高于清     

细粒子污染形成灰霾天气导致广州地区能见度下降

用NCAR/NCEP1958～1997年共40年资料对南海夏季风撤退的气候特征进行了分析。8月上旬西伯利亚冷空气开始南进,由于青藏高原的阻挡作用,在我国东部大陆推进得很快,到达南海后继续向南推进,最后导致9月中旬左右南海夏季风从南海撤退。就个别年份而言,最早的撤退时间是8月中,最晚的是10月中,可以差两个月。南海夏季风撤退与建立过程是很不相同的,南海夏季风和夏季风雨带的建立都是爆发性的,在全区域几乎是同时建立,但撤退是由北向南缓慢撤退的,历时一个月左右。在撤退期间,南海降水形势变化不大,但在撤退之后,南海夏季风雨季转变为ITCZ雨季,其相应和雨区随着太阳南移向南推进。南海夏季风撤退后,南海降水30～60天振荡明显减弱,而准两周振荡仍比较活跃。     

华南准静止锋暖区内降水的物理化学特征

介绍了一次华南准静止暖区内降水的物理化学特征的综合观测分析结果。主要有：①暖区内积云降水雨滴浓度不高，但滴径较大，谱型以多峰谱为主；②雨水ｐＨ值较低，平均４．４３，离子成分中ＮＯ３，Ｃｌ，ＳＯ４，ＮＨ＾＋４，Ｎａ＾＋的浓度较高；③本次降水清除了气溶胶总质量的４５％，对Ｃｌ，Ｆ，ＮＯ３的清除率较高；④由于气溶胶中阴离子被雨水清除的效率较高（主要是ＮＯ３）而阳离子的清除率低，致使雨水ｐＨ值下降，这可能     

广西地苏地下河下游地区航空红外彩色片目视解译

<正> 于1977年11月航摄的地苏地下河下游地区近红外彩色像片,色彩鲜艳,层次丰富,影像清晰,空间分辨率高。山地、丘陵、植被、道路、村庄、田园、河流及水塘等都能直接识别。从色彩上易把第四系疏松堆积层与碳酸盐岩基岩区分开;断层、大型裂隙等有较明显的显示;可进行较高倾角岩层产状测量,并据此判断褶皱轴部的位置;除峰丛、峰林、谷地与洼地等宏观地貌形态显而易见外,还能判别漏斗、塌陷、溶井、落水洞、泉点、地下河出口及溢洪口等。通过综合分析,可判断地下河的位置并圈定其流域。     

A THREE-DIMENSIONAL NUMERICAL STUDY ON DENSE FOG OVER MOUNTAINOUS AREAS

Using the non-hydrostatic meso-scale model MM5v3, dense fog that occurred from March 7 to March 8, 2001 over the Mts. Nanling area was studied. With integrated field experiments and observations, the occurrence, development and lift mechanism of fog were analyzed. The results indicate that before the coming of stratiform clouds, southerly warm and wet air ascended along mountainside and cooling condensation formed mountain fog. Then fog was formed by the stratiform on cloud-contacting mountaintop. A front inversion layer accelerated the development and extended the duration of the lower cloud and fog. The intensity, occurrence time, mass content and the variation of temperature and relative humidity of the fog agreed with those of the observation. It showed that the meso-scale model has the potential to forecast mountain fog.     

STUDY ON THE VISIBILITY REDUCTION CAUSED BY ATMOSPHERIC HAZE IN GUANGZHOU AREA

In recent years the pollution of aerosol is getting worse and worse in Guangzhou area. The haze weather mainly occurs from October to April of the following year, resulting in visibility deterioration. From the beginning of the 1980's the visibility dramatically deteriorated, obviously increasing haze weather, in which there are three big fluctuations, respectively showing the periods of pollution of dust, sulphate and dust, fine particle from photochemical process and sulphate and dust accompanying the development of economy. The long-term tendency of visibility caused by fog and light fog does not have the tendency due to human activity or economical development and the variation mainly show the inner interannual and interdecadal variation of climate. The deterioration of visibility has close relation to the fine particles in Guangzhou area, with half of PM10 surpassing the limits set by national second graded standard, meanwhile, all values of PM2.5 rise above the day-mean limits of American national standard, indicating very high fine particle concentration. The ratio of PM2.5 to PM10 is also very high, reaching 62% - 69%, especially higher in dry seasons than in rainy seasons.