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1.
广州白云山风景区酸雨梯度分布 总被引:11,自引:4,他引:7
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. 相似文献
2.
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。 相似文献
3.
中国南极长城站1998年大气降水化学特征的初步研究 总被引:3,自引:0,他引:3
文中报告了 1998年 1~ 12月 ,在中国南极长城站 (6 2°13′S ,5 8°5 8′W ,海拔 10 .0m)采集的 115个有效降水样品的 pH值、电导率和化学组分分析结果。长城站地区降水的年平均 pH值为 5 .6 2 ,电导率年平均值为 85 .16 μS/cm。秋季期间降水的 pH值和电导率较高 ,其它季节较低。降水中最主要的离子为Cl-,Na+ ,其他离子按平均浓度值依次排列为SO42 -,Mg2 + ,Ca2 + ,K+ ,NO3 -,NH4+ 。除NO3 -,NH4+ 外 ,各主要离子浓度间呈显著正相关 ,表明其来源具有同一性。降水样品的离子组成比例与周围海区的海水接近 ,显示了海盐是降水中可溶性离子的主要来源 ,而其它源只对Ca2 + 有一定贡献。该地区的降水具有较典型的海洋性降水的化学特征 相似文献
4.
利用2007—2009年瓦里关本底台降水化学观测资料,分析了瓦里关降水的pH值、电导率及Cl-、NO-3、SO2-4、NH+4、K+、Na+、Ca2+、Mg2+等离子成分的分布特征。结果表明,瓦里关pH值和电导率的年平均值分别为6.60和21.26μs/cm,2007—2009年呈逐年升高趋势。根据pH值,瓦里关降水以中性降水为主,占总降水的65.13%,其次为碱性降水,酸雨最少。离子浓度大小排序依次为Ca2+SO2-4Na+NH+4Cl-Mg2+NO-3K+,且存在明显的季节变化特征,K+、Na+、Ca2+、Mg2+有相似的来源。瓦里关降水中SO2-4/NO3-的范围为0.35~16.48,平均值为3.07;2007—2009年SO2-4/NO-3值呈逐年下降趋势;SO2-4/NO-3全年存在两个峰值,分别在4月和9—10月。 相似文献
5.
合肥市不同天气条件下大气气溶胶粒子理化特征分析 总被引:6,自引:2,他引:4
为探讨合肥市霾天气大气气溶胶粒子的组成及来源,在2012-2013年代表性月份用安德森分级采样器在合肥市区进行大气气溶胶粒子采样,并分析各样本中水溶性无机离子成分(NH4+、Mg2+、Ca2+、Na+、 K+、NO2-、NO3-、Cl-、SO42-)。根据同期气象资料把采样背景天气分为晴空、雾、霾、轻雾等4类,详细分析了这4种天气下大气细粒子(指PM2.1)和粗粒子(粒径大于2.1 μm部分)的浓度、组成以及主要离子组分的异同。结果表明:(1)观测期间晴空天多对应空气质量优良,雾、霾天对应轻度到重度污染,从晴空天到雾、霾天,PM2.1浓度大幅度上升,且其占总悬浮颗粒物(TSP)的比例显著上升。(2)从晴空天到雾、霾天,水溶性无机离子质量占PM2.1质量浓度的比例上升,分别为46%(晴空)、67%(霾)、61%(雾)、80%(轻雾)。PM2.1中水溶性无机离子浓度居前3位的雾、霾天是SO42-、NO3-和NH4+,晴空天为SO42-、Ca2+、NO3-。(3)与晴空天相比,霾天PM2.1中水溶性无机离子浓度变化倍数最大的是NO3-(为晴空的6.1倍,下同)、其次是NH4+(3.6倍)和SO42-(3.0倍);雾和轻雾天PM2.1中水溶性无机离子浓度变化最大的是NO3-(>10倍)、其次是NH4+(>5倍)和Cl-(>4.0倍)。(4)4种天气下,与人为污染有关的离子(SO42-、NO3-、Cl-、NH4+)尺度谱存在显著差异,呈双峰型、单峰型、三峰型等;而Ca2+的尺度谱无明显变化,基本上都呈双峰型。(5)在粒径3.3 μm以下,阳、阴离子平衡较好,随着尺度增大变差,且晴空天比雾、霾天差。主要阴离子浓度间、Cl-和Na+间的比值和相关性,在晴空天和雾、霾天差异较大。 相似文献
6.
北京奥运期间气溶胶中水溶性无机离子浓度特征及来源解析 总被引:9,自引:0,他引:9
2008年7—10月在中国科学院大气物理研究所采集气溶胶样品,用离子色谱进行水溶性无机离子分析,并对其组成、质量浓度变化特征、相关性及存在形式、来源解析等方面进行研究。结果显示,整个采样期间,SO42-、NO3-和NH4+是最主要的水溶性离子,主要以(NH4)2SO4和NH4NO3形式存在;SO42-、NO3-和NH4+、Ca2+和Mg2+的相关系数都较高,具有很好的同源性。NO3-/SO42-质量浓度比值表明,奥运前,固定源(燃煤)对水溶性离子的贡献大于流动源(机动车),而奥运期间和奥运后则相反。因子分析表明,交通、燃煤、土壤、建筑尘和生物质燃烧源是采样期间北京大气污染的主要来源。 相似文献
7.
东亚地区降水离子成分时空分布及其特征分析 总被引:17,自引:1,他引:16
利用东亚酸沉降监测网(EANET)观测资料,对2001年东亚地区降水成分的时空分布特征进行了分析,通过与过去的观测进行对比,揭示东亚各地酸雨分布情况及降水化学特性差异,为东亚酸沉降长距离输送模式比较计划提供前期分析资料.分析结果表明:(1)东亚地区降水化学成分表现出明显的地域特征,滨海地区的日本降水含量中Na+、Cl-分别为219、208μmol·L-1居东亚地区之首,而中国西北地区Ca2+、NO-3、NH4+、SO24-、Mg2+、K+含量最高各为755、168、260、768、59.3、53.6 μmol·L-1;降水酸度主要受阳离子Ca2+、NH4+和阴离子SO24-、NO3-的影响.(2)东亚地区降水化学成分季节变化明显,除部分源自人为或工业排放源影响外(如北部地区冬季取暖),东亚地区气候呈季节变化也是影响的主要因子之一.春季沙尘源区沙尘、扬沙频繁,其上空存在较强的西风带,在天气系统冷锋影响下,沙尘粒子易随大风扬起而由锋前强烈抬升气流输送到对流层中层,在高空西风急流作用下输送到下游地区.(3)东亚地区酸雨区降水与以往主要以硫酸型酸雨为主的降水性质不同,除中国西南工业欠发达地区仍为硫酸型外,其他酸雨区均为硫酸和硝酸混合型.表征酸雨类型的特征参量[SO24-]/[NO3-]的比值在中国西南地区为3~5,东南和华南地区为0.5~3;其他各国均在0.5~3之间. 相似文献
8.
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 总被引:15,自引:1,他引:15
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。 相似文献
9.
为了探讨采暖期和非采暖期西安大气颗粒物水溶性组分的化学特征和来源,分别于2005年冬季(2005年12月-2006年2月)和2006年夏季(6~8月)采集西安大气PM2.5和TSP样品,分析其中Na+、NH4+、K+、Mg2+、Ca2+、F-、Cl-、Br-、NO-2、NO-3和SO2-4共11种水溶性离子的浓度,并对其季节特征和来源进行了研究.结果显示,采暖期西安大气PM2.5和TSP中11种水溶性离子的平均浓度分别为53.2μg·m-3和110.3μg·m-3,非采暖期分别为51.3 μg·m-3和89.3μg·m-3.SO2-4、NO-3和NH+4在PM2.5和TSP中均为最主要的离子组分,浓度之和在采暖期分别占到PM2.5和TSP总离子浓度的78%和76%,在非采暖期则占到88%和76%.PM2.5和TSP中,NH+4、SO2-4和NO-3三者之间都有很好的相关性,其在颗粒物中的主要结合形式为(NH4)2SO4、NH4 HSO4和NH4 NO3.硫的转化率(SOR)和氮的转化率(NOR)在非采暖期明显大于采暖期,揭示SO2-4和NO-3的形成机制为气相氧化,主要受温度的控制.阴阳离子平衡和pH值测定的结果表明西安市大气PM2.5稍偏酸性,TSP为碱性,无论是粗、细粒子采暖期比非采暖期更偏酸性.对比10年前的研究结果,显示西安市大气污染控制措施大大降低了采暖期气溶胶中二次组分的污染程度,但主要污染排放源已逐渐由燃煤型向机动车排放转化. 相似文献
10.
天津大气气溶胶化学组分的粒径分布和垂直分布 总被引:7,自引:1,他引:6
2006年8月在天津气象铁塔的10、120、220 m 3个不同高度.利用Andersen分级采样器同步进行大气气溶胶采样,样品用离子色谱和电感耦合等离子体质谱仪进行分析.结果表明,K元素主要集中在细粒子,Mg、Ca、Al、Fe元素主要集中在粗粒子,Na元素则具有双峰结构;总离子浓度随着高度的升高有增加的趋势,SO42-、N3-、NH4+、Ca2+是最主要的水溶性尤机离子;二次源是水溶性离子重要的贡献源.NO3-、SO42-、NH4+随着高度升高,浓度有向小粒径集中的趋势;各层气溶胶阴阳离子平衡值小于1,表明气溶胶偏碱性,与天津地处北方,土壤偏碱性,且非采暖期地面扬尘是主要的气溶胶来源有关;各层NO3-/SO42-平均值为0.48,表明非采暖期固定排放源(燃煤)仍然是天津大气细粒子中水溶性离子的主要来源. 相似文献
11.
Hong-Wei Xiao Hua-Yun Xiao Ai-Min Long Yan-Li Wang Cong-Qiang Liu 《Journal of Atmospheric Chemistry》2013,70(3):269-281
This study systematically analyzed the concentrations of cations and anions and determined the pH in the rainwater at Guiyang from Oct. 2008 to Sep. 2009. The pH in the rainwater varied between 3.35 and 9.99 with a volume-weighted mean value of 4.23. The volume-weighted mean concentrations of anions followed the order SO4 2->Cl->F->NO3 -, whereas the volume-weighted mean concentrations of cations followed the order Ca2+>NH4 +>Na+>Mg2+>K+. This finding indicates that SO4 2- was the main anion and that Ca2+ and NH4 + were the main cations. Significant correlations between each pair of ions (SO4 2-, NO3 -, NH4 +, Ca2+, and Mg2+) were observed, suggesting that CaSO4, Ca(NO3)2, MgSO4, Mg(NO3)2, NH4NO3, (NH4)2SO4, and/or NH4HSO4 exist in the atmosphere at Guiyang. The soil-derived species (such as Ca2+) played an important role in the neutralization of the acidity in rainwater. The SO4 2- and NO3 - in the rainwater were mainly from anthropogenic sources, and their contributions accounted for 98.1 % and 94.7 %, respectively. NH4 + was also most likely derived from anthropogenic sources, such as domestic and commercial sewage, and played an important role in the neutralization of the rainwater at Guiyang. 相似文献
12.
B. Oberholzer J. L. Collett Jr. J. Staehelin A. Waldvogel 《Journal of Atmospheric Chemistry》1992,14(1-4):61-71
An in-cloud scavenging case study of the major ions (NH4
+, SO4
2- and NO3
-) determining the cloudwater composition at a mountain site (1620 m.a.s.l.) is presented. A comparison between in-cloud measurements of the cloudwater composition, liquid water content, gas concentrations and aerosol concentrations and pre-cloud gas and aerosol concentrations yields the following results. Cloudwater concentrations resulted from scavenging of about half of the available NH3, aerosol NH4
+, aerosol NO3
-, and aerosol SO4
2-. Approximately a third of the SO2 was scavenged by the cloudwater and oxidized to SO4
2-. Cloud acidity during the first two hours of cloud interception (pH 3.24) was determined mostly by the scavenged gases (NH3, SO2, and HNO3); aerosol contributions to the acidity were found to be small. Observations of gas and aerosol concentrations at three elevations prior to several winter precipitation events indicated that NH3 concentrations are typically half (12–80 %) of the total (gas and aerosol) N (-III) concentrations. HNO3 typically is present at much lower concentrations (1–55 %) than aerosol NO3
-. Concentrations of SO2 are a substantial component of total sulfur, with concentrations averaging 60 % (14–76 %) of the total S (IV and VI). 相似文献
13.
Chemical compositions of wet precipitation and anthropogenic influences at a developing urban site in southeastern China 总被引:14,自引:0,他引:14
Miaoyun Zhang Shijie Wang Fengchang Wu Xianghong Yuan Ying Zhang 《Atmospheric Research》2007,84(4):311-322
A comprehensive study on the chemical compositions of wet precipitation was carried out from January 2004 to December 2004 in Jinhua, southeastern China's Zhejiang Province. All samples were analyzed for pH, electrical conductivity and major ions (F−, Cl−, NO3−, SO42−, K+, Na+, Ca2+, Mg2+ and NH4+). The rainwater was typically acidic with a volume-weighted mean pH of 4.54, which ranged from 3.64 to 6.76. SO42− and NO3− were the main anions, while NH4+ and Ca2+ were the main cations. The concentrations of these major ions were generally higher compared to those reported in other parts of the world, but much lower than those in northern China.Wet deposition fluxes of major ions showed pronounced seasonal variations with maximum in spring and minimum in autumn. Significant correlations were found in soil-derived species among Ca2+, Mg2+ and K+ and sea-salt species between Na+ and Cl−. Other relatively good correlations were also observed between Ca2+ and SO42-, Mg2+ and SO42-, Mg2+ and NO3−, Mg2+ and Cl−. Principal component analysis was also performed on individual precipitation to find possible sources of the major ionic species. Varimax rotated four components accounting for 85.9% of the total variance, and were interpreted as acid and alkaline pollutants, sea spray and mixed source, soil and acid/neutralization. Calculation of enrichment factors for rainwater components relative to soil and seawater indicated that Ca2+ and K+ mainly originated from the terrestrial source, and SO42- and NO3− were mostly attributed for the anthropogenic activities in the study area. In general, the results suggested that precipitation chemistry is strongly influenced by anthropogenic sources rather than natural and marine sources. The pollutants in rainwater were mainly derived from long distance transport, local industry and traffic sources. 相似文献
14.
2018年1月,利用颗粒物采样器采集武汉市大气PM2.5样品并进行水溶性无机离子(F-、Cl-、NO3-、SO42-、Na+、NH4+、K+、Mg2+、Ca2+)的分析.结果表明,NO3-、SO42-、NH4+是PM2.5中最主要的3种水溶性无机离子,除Mg2+与Ca2+外,PM2.5与WSⅡs (水溶性无机离子)之间的相关性显著,且移动源贡献占主导地位.阴阳离子平衡表明武汉市冬季灰霾期PM2.5呈中性或弱酸性.通过混合单粒子拉格朗日综合轨迹模式模拟并采用分层聚类得出了4种主要的后向气流轨迹及相应的PM2.5和水溶性离子浓度,结果表明区域传输对此次灰霾期影响较大. 相似文献
15.
MEASUREMENT OF pH AND CHEMICAL ANALYSIS OF RAIN WATER IN RURAL AREA OF INDIA 总被引:1,自引:0,他引:1 
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下载免费PDF全文 Large number of rain water samples, at 7 rural locations in the semi-arid region of the DeccanPlateau were collected during 4 consecutive monsoon seasons (1979-1982).pH, conductivityand the major ionic components (C1~-, SO_4~= , NO_3~- , NH_4~+ , Na~+, K~+, Ca~(++), Mg~(++) of the abovesamples were determined. The pH of rain water was found to be highly alkaline and the valuesvaried from 6.4 to 7.8. Soil-oriented elements showed good correltioan (r~0.6) with pH valuesof rain water. The high concentration of soil-oriented elements, specially Ca~(++), is found to play animportant role in neutralizing the acidity of rain water and maintaining high alkaline pH. The studysuggested that the contribution of atmospheric aerosol of natural sources (sea and soil) to thechemical composition of rain water is more than that of anthropogenic origin. 相似文献
16.
In this study, variations of the chemical composition of precipitation in Nanjing, China, over a 12-year period (1992–2003) are presented. The average annual concentration of pH value was 5.15, ranging from 4.93 to 5.36, and there was no significant trend in the acidity of precipitation. SO42−, Cl− and NO3− were the main anions, while Ca2+, NH4+ and Mg2+ were the main cations. The concentrations of these main ions were very high compared to those reported in many other areas around the world. Most of the ions came from anthropogenic and crustal sources. High correlations were found among dust-derived cations Ca2+, Mg2+and K+, between Cl− and SO42−, between Cl− and NH4+ and between acidic anions and dust-derived cations, such as SO42− and Ca2+, SO42− and K+, Cl− and Ca2+, Cl− and K+, F− and Mg2+ and F− and K+. A significant decreasing trend was observed in concentration of SO42− because of the abatement strategies for SO2 emissions and energy policy change, while a significant increasing trend was found in the contribution of NO3− to acidification due to the rapidly growing number of motor vehicles. A significant decreasing trend was found in dust-derived cation Ca2+ due to more stringent controls of industrial dust emissions and rapid urbanization reducing the amount of open land, while the contribution of NH4+ to neutralization increased relatively. 相似文献
17.
M. Ciężka M. Modelska M. Górka A. Trojanowska-Olichwer D. Widory 《Journal of Atmospheric Chemistry》2016,73(1):61-80
The chemical compositions (Na+, NH4 +, K+, Mg2+, Ca2+, Cl?, NO2 ?, NO3 ?, SO4 2?, HCO3 ?) of wet precipitation and nitrogen isotope compositions δ15N(NH4 +) were studied from January to December 2010 in Wroc?aw (SW Poland). Results of a principle component analysis show that 82 % of the data variability can be explained by three main factors: 1) F1 (40 %) observed during vegetative season (electrical conductivity, HCO3 ?, NO3 ?, NO2 ?, NH4 + and SO4 2?), mainly controlling rainwater mineralization; 2) F2 (26 %) observed during vegetative and heating seasons (K+, Ca2+ and Mg2+), probably representing a combination of two processes: anthropogenic dusts and fertilizers application in agricultural fields, and 3) F3 (16 %) reported mainly during heating season (Na+ and Cl?) probably indicating the influence of marine aerosols. Variations of δ15N(NH4 +) from ?11.5 to 18.5?‰ identify three main pathways for the formation of NH4 +: 1) equilibrium fractionation between NH3 and NH4 +; 2) kinetic exchange between NH3 and NH4 +; 3) NH4 + exchange between atmospheric salts particles and precipitation. The coupled chemical/statistical analysis and δ15N(NH4 +) approach shows that while fossil fuels burning is the main source of NH4 + in precipitation during the heating season, during the vegetative season NH4 + originates from local sewage irrigation fields in Osobowice or agricultural fertilizers. 相似文献
18.
Daily rainwater samples collected at Lijiang in 2009 were analyzed for pH, electrical conductivity, major ion (SO4 2?, Cl?, NO3 ?, Na+, Ca2+, Mg2+, and NH4 +) concentrations, and δ18O. The rainwater was alkaline with the volume-weighted mean pH of 6.34 (range: 5.71 to 7.11). Ion concentrations and δ18O during the pre-monsoon period were higher than in the monsoon. Air mass trajectories indicated that water vapor from South Asia was polluted with biomass burning emissions during the pre-monsoon. Precipitation during the monsoon was mainly transported by flow from the Bay of Bengal, and it showed high sea salt ion concentrations. Some precipitation brought by southwest monsoon originated from Burma; it was characterized by low δ18O and low sea salt, indicating that the water vapor from the region was mainly recycled monsoon precipitation. Water vapor from South China contained large quantities of SO4 2?, NO3 ?, and NH4 +. Throughout the study, Ca2+ was the main neutralizing agent. Positive matrix factorization analysis indicated that crustal dust sources contributed the following percentages of the ions Ca2+ 85 %, Mg2+ 75 %, K+ 61 %, NO3 ? 32 % and SO4 2? 21 %. Anthropogenic sources accounted for 79 %, 68 %, and 76 % of the SO4 2?, NO3 ? and NH4 +, respectively; and approximately 93 %, 99 %, and 37 % of the Cl?, Na+, and K+ were from a sea salt source. 相似文献
19.
Ranjit Kumar Abha Rani S. P. Singh K. Maharaj Kumari S. S. Srivastava 《Journal of Atmospheric Chemistry》2002,41(3):265-279
Rainwater samples were collected for the monsoon period of 1988 and 1991–1996 at Dayalbagh (Agra), a suburban site situated in semiaridregion. The mean pH was 7.01 ±1.03 well above 5.6, which is the reference pH. Concentration of Ca2+ was observed to be highest followed by Mg2+, NH4
+,SO4
2–, Cl–,NO3
–, Na+, F– and K+. The ratios of SO4
2– + NO3
– andCa2+ + Mg2+ (TA/TC) have been considered as indicatorfor acidity. In the Agra region ratio of TA/TC is quite below 1.0 indicating alkaline nature of rainwater. The lowest value of 0.24 was observed in 1991 likely due to the lowest rain depth of the decade. The highest value of 0.54 was observed in 1996, a year with a large rain depth and increase in line (vehicular traffic) and area sources (population growth). Good correlation between Ca2+ and NO3
–,Ca2+ and SO4
2– andSO4
2– and NO3
–,indicates that wind carried dust and soil play a significant role in neutralization of precipitation acidity. 相似文献
20.
Chemical characteristics of wet precipitation at an urban site of Guangzhou, South China 总被引:5,自引:0,他引:5
The pH variation and chemical characteristics of rainwater were investigated from January 2006 to December 2006 at an urban site of Guangzhou, South China. The rainwater was typically acidic with a volume-weighted mean pH value of 4.49, which ranged from 3.52 to 6.28. The volume-weighted mean equivalent concentration of components followed the order: SO42− > Ca2+ > Cl− > NH4+ > Na+ > NO3− > K+ > Mg2+ > F−, indicating that SO42−, Cl− and NO3− were the main anions, while Ca2+ and NH4+, were the main cations. Ca2+ and NH4+ were major neutralization constituents of the precipitation. Furthermore, correlation analysis and principal component analysis method were performed to identify possible common sources of major ions. Sources of the major ions were assessed based on enrichment factor method. 相似文献