广州白云山风景区酸雨梯度分布

对1999年白云山风景区1~10月的降水pH 值、化学成分以及1月、6月大气低层的气溶胶进行了监测.分析结果表明(1)白云山3个测点降水的平均pH值最低为4.83,最高为5.29;酸雨频率最低58 %,最高91 %;强酸雨频率最低19 %,最高39 %.降水酸度和酸雨频率呈梯度变化,pH值随高度增高而减小,酸雨和强酸雨频率增加.(2)冬季近地层大气中偏碱性气溶胶在白云山的组成比较稳定,山上和山下测点气溶胶水溶性离子成分基本一致;而夏季山上、山下的成分有所不同,山上的SO42-比例明显增大.另外,尽管气溶胶中NO3-的含量极少,但降水中NO3-有明显的富集现象.(3)白云山降水离子成分中SO42-占阴离子的比例最大、NO3-次之;Ca2+占阳离子的比例最大、NH4+稍低.随高度上升SO42-和Ca2+在降水中的比例有所下降,而NO3-和NH4+比例明显增加,NO3-和NH4+对山上降水酸度的影响是相对增大的.(4)受附近公路交通的直接影响,白云山降水中的NO3-比例较大,NO3-/SO42-当量浓度比值平均达到0.4;NO3-对白云山降水酸度有较大的贡献,而且这一贡献随高度而增大.     

Precipitation chemistry and corresponding transport patterns of influencing air masses at Huangshan Mountain in East China

One hundred and ten samples of rainwater were collected for chemical analysis at the summit of Huangshan Mountain, a high-altitude site in East China, from July 2010 to June 2011. The volume-weighted-mean （VWM） pH for the whole sampling period was 5.03. SO2- and Ca2＋ were the most abundant anion and cation, respectively. The ionic concentrations varied monthly with the highest concentrations in winter/spring and the lowest in summer. Evident inter-correlations were found among most ions, indicating the common sources for some species and fully mixing characteristics of the alpine precipitation chemistry. The VWM ratio of [SO]-]/[NO3] was 2.54, suggesting the acidity of rainwater comes from both nitric and sulfuric acids. Compared with contemporary observations at other alpine continental sites in China, the precipitation at Huangshan Mountain was the least polluted, with the lowest ionic concentrations. Trajectories to Huangshan Mountain on rainy days could be classified into six groups. The rainwater with influencing air masses originating in Mongolia was the most polluted with limited effect. The emissions of Jiangxi, Anhui, Zhejiang and Jiangsu provinces had a strong influence on the overall rain chemistry at Huangshan Mountain. The rainwater with influencing air masses from Inner Mongolia was heavily polluted by anthropogenic pollutants.     

Source identification and variation in the chemical composition of rainwater at coastal and industrial areas of India

Studies on precipitation chemistry were carried out to understand the nature and sources of rainwater at Rameswaram and NTPC Dadri, India representing coastal and industrial region during 2010. The rainwater samples, collected at these locations, were analyzed for major ions and pH. The data were assessed for its quality. The pH of rainwater at two locations varied from 5.53 to 6.73 and 5.1–6.6, indicating alkaline nature except a few acidic events. The dominance of Cl− and Na+ were observed in coastal environment whereas dominance of Ca2+ was seen in industrial environment. The nss-SO42- (37.9%) at Rameswaram is less influenced by anthropogenic activities whereas nss-SO42- (72.5%) at NTPC Dadri is influenced by pollutants emitted by anthropogenic sources. The ratio of H+/(NO3- + SO42-) was observed as 0.04 and 0.008 for Rameswaram and NTPC Dadri which is close to zero, indicate 99.99% of acidity was neutralized in precipitation. Ca2+, NH4+ and Mg2+ play an important role in neutralization of acidic ions in rainwater. For source identification, correlation matrix analysis was established, which showed that in general, at both sites; correlation between the acidic ions SO42- and NO3- indicating their origin from similar sources, because of the similarity in their behavior in precipitation and the co-emissions of their precursors SO2 and NOX. The correlation coefficient of (SO42- + NO3-) vs (Ca2+) at Rameswaram and NTPC Dadri were 0.77 and 0.87 indicates that CaCO3 is the major neutralizing agent for both the region. Overall, the influence of marine, terrestrial and anthropogenic sources was observed in the rain events.     

Chemical character of precipitation and related particles and trace gases in the North and South of China

Rainwater samples were collected at four sites, including Beijing and Mazhuang Town in the north of China, Shenzhen and Mangdang Mountain in the south of China. Character of atmospheric particles and gases were also measured at Mazhuang Town and Mangdang Mountain. Both of Beijing and Shenzhen are urban sites; Mazhuang Town and Mangdang Mountain are rural and remote sites respectively. The atmospheric pollution at rural plain site in the north of China was more serious than that at remote mountain site in the south of China. At Beijing, Mazhuang Town, Shenzhen and Mangdang Mountain the average pH values in rainwater were 6.02, 5.97, 4.72 and 4.81, respectively and the concentrations of total ions in rainwater were 1454, 1125, 187 and 191 μeq/l, respectively. While the acidity of the rain was higher in the south than that in the north, the rainwater in the north of China was more severely polluted than that in the south. The major acidic ion in the rainwater is SO₄^2-, and NH₄⁺ is the most important neutralizing ion in rainwater at the four sites, followed by Ca²⁺. The amounts of organic acid in precipitation were compared with other sites in the world. The ratios of organic acid to total free acid in rainwater at Mangdang Mountain was 13.8% and the influence of organic acid on acidity of rainwater at mountain site in the south of China is more important. The variation of atmospheric particles, gases and components in rainwater and cloud-fog water during special rain and cloud-fog events was discussed. The importance of washout process varied with atmospheric species. The impacts of rainfall, rain duration time and wind speed on wash-out process were estimated by regression analysis.     

广州黄埔工业区近地层气溶胶分级水溶性成分的物理化学特征

通过对在黄埔工业区收集的气溶胶样品的质量谱与水溶性离子成分谱的分析表明 :总气溶胶质量与诸离子浓度均明显高于华南大陆的值 ,其分布表现为明显的 3峰分布 ,气溶胶中以 SO2 - 4,NO- 3 ,Ca2 ,NH 4 为主要的离子成分 ;较之华南陆地测站 ,除离子浓度成倍增加外 ,SO2 - 4的浓度占了阴离子含量的绝大部分 ,NO- 3 ,NH 4 的含量比重显著增加 ,以及 NO- 3 ,SO2 - 4,NH 4 ,K 较多地存在于细粒态粒子中是其主要特点。     

两广大陆地区酸雨的时空分布规律和化学特点

自１９８８年１月至１９８９年１２月，建立了一个包括７０个监测点的酸沉降测网，进行了常规的干，湿沉降同步观测，获得了大量的监测数据，结果表明：两广地区大面积出现酸雨，酸雨污染较严重地区是广东省粤北和珠江三角洲及广西的“汀桂走廊”。这些地区经济发展迅速，又是ＳＯ２，ＮＯｘ排放量较多的地区。降水酸度季节分布明显，即：春季＞冬季＞秋季＞夏季。降水中主要离子是Ｃａ＾２＋，ＮＨ＾＋４和ＳＯ＾２－４，化学组成以     

广州地区春季污染雾的化学特征分析

使用2005年2～3月在广州地区采集的雾水样品资料,分析了广州地区污染雾雾水的化学组分;对3次典型污染雾过程雾水的离子浓度及其可能的来源进行了分析。广州地区的污染雾雾水中的诸离子浓度远高于雨水中的值,因而,雾不但造成视程障碍,而且是高浓度污染的液态颗粒物,对人体健康十分有害。在雾水中浓度最高的阴离子是SO4=, 其次是NO3-;在阳离子中Ca++、NH4+的浓度最高。雨水比雾水更酸,说明虽然雾水中的离子浓度较雨水高得多,但大量的离子成分中存在更多的缓冲物质,比如说NH4+和Ca++。雾水中的Ca++、SO4=、Mg++有明显的富集现象,广州地区的污染雾雾水主要受大陆环境和人类活动的影响。这期间广州地区出现严重污染雾与水汽充足和大量气溶胶污染粒子的存在直接有关。     

南岭大瑶山浓雾雾水的化学成分研究

文中利用 1998年 12月～ 1999年 1月和 2 0 0 1年 2～ 3月在南岭山地采集的雾水样品资料 ,分析了南岭山地浓雾雾水的化学成分 ;对 3次典型浓雾过程雾水的离子浓度及其可能的来源进行了分析 ;发现酸雾的频率达 5 1% ,酸雾的危害不容忽视。南岭山地的浓雾雾水中的诸离子浓度远高于雨水。不同过程雾水的化学特征变化差异明显 ,在雾水中浓度最高的阴离子是SO2 -4,其次是NO-3 ;阳离子Ca2 ,NH 4 的浓度最高。雨水比雾水酸性更强 ,说明虽然雾水中的离子浓度较雨水高得多 ,但大量的离子成分中存在更多的缓冲物质 ,比如说NH 4 和Ca2 。雾水中的Ca2 ,SO2 -4,Mg2 有明显的富集现象 ,南岭大瑶山的雾水主要受大陆环境和人类活动的影响。     

RBF神经网络的汛期旱涝预报方法研究

分析广州2003年1～6月的SO2、NO2和PM10指数,发现(1)SO2、NO2和PM10具有非常好的同步变化关系,且以NO2和PM10的相关最大。(2)从月平均值来看,PM10是整个时段的主要污染物,SO2次之,NO2最小(1月除外);PM10和NO2呈现出逐月减小趋势,SO2变化平稳。主要讨论PM10指数的变化。(3)从月方差值来看,SO2、NO2和PM10的最大值均在1月,次大值在2月。(4)给出了几种地面气压型,结论显示主要清洁时段出现在锋区强风型,主要污染时段出现在脊内回流型。在脊内回流型下,若由前期的静风转吹东南(从东到南)风时,指数会增大。     

Summer rain events in south-east Asia: Spatial and temporal variations

During the summer monsoon period in south-east Asia marine airstreams normally prevail at the south China coast. However, when tropical cyclones approach then polluted airmasses from south-eastern China can impart high ionic concentrations and high acidity to rainwater. This is illustrated by two examples and the small-scale horizontal variations in rainwater composition are minor during these episodes. Since long-term quality-assured studies of the composition of rainwater in south-east Asia are scarce, the results at three sampling sites in Hong Kong during summer monsoon periods are compared with previous data from the same season. The results for the mid- to end-1990's show a similar trend to those for the ambient concentrations of sulphate and nitrate in aerosol in Hong Kong, which show flattened trends from 1995 to 1999. A marked increase in acidity is found in the summer monsoon period of 2004 which is attributed to the greater proportion of approaching cyclone weather systems in the dataset, reflecting both the increased local emission sources and the burgeoning economic growth of the Pearl River Delta Region. Comparison of the rainwater composition with that at other south-east Asian cities during the summer monsoon period shows that it is most acidic in Hong Kong.     

辽宁农村代表区域降水离子组成及与气态污染物相关性

对辽宁农村代表区域站点——辽中县马龙村观测站2007年2月至2008年1月酸雨、气态污染物浓度观测资料进行了研究。结果表明：辽中站降水的化学组成阴离子主要为SO4^2-和NO3-阳离子主要为NH4和Ca2＋,SO4^2-／NO3-比值为2．9．Na＋／Cl-比值较大,大于1。各种离子浓度冬春季高,夏秋季较低,表明研究区域降水酸化与污染关系不显著。实测的9种主要阴离子、阳离子总浓度比（∑阴离子／∑阳离子）与降水pH值相关性不高,表明目前酸雨研究观测的主要9种阴阳离子不能完全包括降水中的离子组成。降水酸性与近地面污染气体浓度相关各异,pH与NOx、CO、NO2和O3浓度有较明显的负相关,与SO2浓度负相关不明显;降水pH值与颗粒物等碱性污染物浓度正相关明显。降水中主要致酸离子SO4^2-和NO3-的浓度与相应酸性气体污染物SO2和NOx近地面浓度的相关不明显。     

黄山夏季气溶胶多尺度吸湿性的参数化方案构建研究

利用2014年7月在黄山光明顶观测的气溶胶吸湿性参数（κ）和气溶胶离子化学组分、有机碳（OC,organic carbon）数据,对多尺度气溶胶吸湿性参数进行分析,并在此基础上建立了多尺度κ的参数化方案。研究结果表明,影响黄山夏季气溶胶来源的主要气团包括西南气团、北方气团以及东南气团。黄山夏季κ的变化范围为0.2-0.48,且随粒径增大成先增大后减小的分布特征;气溶胶粒径在0.15-1.1 μm的强吸湿段,κ>0.3,而在粒径小于0.15 μm和粒径大于1.1 μm弱吸湿段,κκ分布不同,气溶胶粒子在小于1.1 μm的粒径段,当受西南气团影响时,κ值最大,而受东南气团影响时,κ值最小;在气溶胶粒径大于1.1 μm时,κ在两个气团背景下呈现与气溶胶粒径小于1.1 μm时相反的分布特征。影响粒径小于1.1 μm气溶胶吸湿能力的主要水溶性化学组分为NH4+、SO42-、水溶性有机碳（WSOC,water soluble organic carbon）,而影响大于1.1 μm粒径范围气溶胶吸湿能力的主要水溶性化学组分为NH4+、SO42-、NO3-、WSOC和Ca2+。由气溶胶多尺度离子化学组分和WSOC构建的气溶胶κ的参数化方案,在小于1.1 μm和大于1.1 μm的粒径范围内的表达式分别为κreg=0.12+0.45fNH4++0.63fSO42-+0.18fWSOC和κreg=0.01+0.78fNH4++0.76fNO3-+0.8fSO42--0.28fCa2++0.14fWSOC（f为对应组分的质量份数）。两个参数化方案均能较好地预报κ,预报值κreg与κ的计算值间存在较好的相关关系,相关系数通过了置信度99%的显著性检验,且预报误差在30%范围内。      

Relationships Between Rainwater Composition and Synoptic Weather Systems Deduced from Measurement and Analysis of Hong Kong Daily Rainwater Data

The composition of Hong Kong rainwater has been studied in the context of seven types of prevailing synoptic weather system. These represent different precipitating airmass origins in terms of continental, maritime, local or mixed sources. Replicate sampling was performed on a daily basis from 1994–1995 for both bulk deposition (n = 60) and simultaneous wet deposition (n = 27) collectors. Reliable analytical data were obtained for the concentrations of the soluble components H+, Na+, Ca2+, K+, Mg2+, Cl-, NO3- and SO42-. The acidity of rainwater was found to be greater when Hong Kong was under the influence of an approaching cyclone (type AC), northeasterly monsoon (type NE) or cold front (type CF) than for prevailing easterly anticyclones (type E), southerly/southwesterly monsoon systems (type S), or cyclonic flows (type C). A common characteristic of occasions of acid rain in Hong Kong was the build-up of local pollutants under conditions of low windspeed, as shown by the significant correlation between rainwater pH and lognormal surface windspeed, but not windvector. The acidity of Hong Kong rainwater was thus largely determined by local sources, although the participation of a continental airmass was evident for some systems. The daily bulk deposition flux of H+ on rainy days varied by more than an order of magnitude from type C (0.2 meq m-2 d-1) to types AC, trough (T) and NE (>2 meq m-2 d-1).     

小张庄近地面大气环境特性变化观测分析

根据１９９３年１０月,１９９５年５月和１９９７年４月在农业生态环境“全球５００佳”－安徽省颖上县小张庄（３４°４７′Ｎ,１１６°２３′Ｅ）所进行的近地面污染气体（ＳＯ２,Ｏ３,ＮＯｘ）和气溶胶的观测结果,给出了这些微量气体的浓度平均概况及随时间和季节变化的一些特征,这三次观测表明,小张庄大气环境质量是持续好的,地面Ｏ３浓度主要取决于地面总辐射强度控制下的光化学反应过程;小张庄大气气溶胶粒子９９％是     

Precipitation Chemistry in Semi-Arid Areas of Southern Africa: A Case Study of a Rural and an Industrial Site

Experimental data on the precipitation chemistry in the semi-arid savanna of South Africa is presented in this paper. A total of 901 rainwater samples were collected with automatic wet-only samplers at a rural site, Louis Trichardt, and at an industrial site, Amersfoort, from July 1986 to June 1999. The chemical composition of precipitation was analysed for seven inorganic and two organic ions, using ion chromatography. The most abundant ion was SO₄ ^{2 –} and a large proportion of theprecipitation is acidic, with 98% of samples at Amersfoort and 94% at LouisTrichardt having a pH below 5.6 (average pH of 4.4 and 4.9, respectively). This acidity results from a mixture of mineral and organic acids, with mineral acids being the primary contributors to the precipitation acidity in Amersfoort, while at Louis Trichardt, organic and mineral acids contribute equal amounts of acidity. It was found that the composition of rainwater is controlled by five sources: marine, terrigenous, nitrogenous, biomass burning and anthropogenic sources. The relative contributions of these sources at the two sites were calculated. Anthropogenic sources dominate at Amersfoort and biomass burning at Louis Trichardt. Most ions exhibit a seasonal pattern at Louis Trichardt, with the highest concentrations occurring during the austral spring as a result of agricultural activities and biomass combustion, while at Amersfoort it is less pronounced due to the dominance of relatively constant industrial emissions. The results are compared to observations from other African regions.     

北京北部城区 SO2和NO2浓度垂直分布特点初探

2001年1～3月在中国科学院大气物理研究所320 m铁塔10个不同高度(320、240、200、140、100、80、47、15、8 m和地面)使用无动力扩散采样器对SO2和NO2日平均总量及夜间平均浓度进行了观测.结果表明,200m以下高度SO2和NO2浓度较大.北京城区不同高度大气中SO2的浓度1月份最高.NO2浓度1月份和2月份呈现高值.不同高度SO2和NO2浓度与逆温强度有明显的正相关.     

华南一次暖区暴雨的演变及云微物理机制模拟研究

利用WRF v4.0中尺度模式及0.25 °×0.25 °高分辨率的GDAS分析资料,对2017年6月15日发生在华南的一次典型暖区暴雨过程进行数值研究。多源观测资料对比分析表明,Thompson aerosol aware云微物理方案与YSU边界层方案组合合理再现了此次暴雨的演变过程。观测与模拟的强风速下传、低层风场切变及降水之间存在较好的对应关系,强的雷达反射率与水汽通量散度中心一致。在中尺度对流系统（MCS）发展和成熟阶段,冷池的出流抬升是新生对流的重要触发条件,地形的动力抬升作用并非主导。云微物理分析指出,由于华南上空充沛的水汽及过冷雨水,雪的最大来源项表现为水汽凝华成雪,而霰的最大来源项为过冷雨滴碰并冰晶、雪并冻结成霰。在零度层之下的1.5 km区域,冰相粒子的融化率可达暖雨过程（1×10-4g/(kg·s)的2倍,暗示其在融化层对雨水形成的支配作用,而雪霰的重力沉降扮演了重要角色。此外,相变过程显著影响着大气的温度变化,当对流云底较低时,低层的水汽凝结将抵消雨水蒸发导致的冷却作用,减弱地面冷池的强度。      

抚顺市区酸雨分布特征研究

降水酸度在一定程度上反映了降水和大气的污染程度。以煤烟型城市抚顺为研究对象,分析了抚顺市区降水污染的现状及降水pH值的频率、时间、空间的分布特征,以此为城市环境治理提供参考依据。结果表明:抚顺的酸雨主要出现在10月和12月,降水污染主要受局地影响。降水月平均pH值与同期降水量有关,酸雨频率的季节分布与空气中的SO2和NOX浓度的季节分布状况相一致。     

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     

广州地区1994年6月洪涝期间降水的物理化学特征

受9403号强热带风暴登陆和锋面暴雨的影响,致使珠江下游出现百年一遇特大洪涝灾害,本文在此期间分析了在从化气象站密集观测的雨水成分与雨滴谱资料,结果表明:（1）雨滴谱型以多峰谱为主,极少出现无峰谱;（2） 雨水的pH值均比较低;（3）在雨水离子中以SO2-4和NH+4的浓度最高,雨水中被富集的主要是NO-3;（4）气溶胶水溶性离子成分中,SO2-4和Ca2+的浓度最高。