丽江-玉龙雪山地区大气降水化学特征
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摘要
2014年6—8月分别对丽江-玉龙雪山索道区,甘海子,丽江市区,龙蟠镇等4个地区进行降水采集,共采集87个样品,对主要化学离子(Na~+、K~+、NH_4~+、Ca~(2+)、Mg~(2+)、SO_4~(2-)、Cl~-、NO_3~-)电荷浓度进行分析.结果表明,离子总浓度丽江市区>龙蟠镇>甘海子>索道区.阳离子含量最高的为Ca~(2+)和NH_4~+,阴离子含量最高的为SO2-4.分析1997—2014年丽江降水离子含量,SO_4~(2-)与NO_3~-的比值逐年下降,表明旅游业和交通运输业对丽江大气环境质量影响显著.采用主因子分析法进行分析,NH_4~+、SO_4~(2-)、NO_3~-在第一因子中为高载荷,受人类污染的影响,Na~+与K~+、Cl~-在第二因子中高载荷,受海洋源影响.Ca~(2+)、Mg~(2+)在第三因子中高载荷,受陆地源影响.
From June to August of 2014,a total of 87 rainwater samples were collected from glacial park(at Yulong Snow Mountain),Ganhaizi Basin,Lijiang City and Longpan Town.The major ions(Na~+,K~+,NH_4~+,Ca~(2+),Mg~(2+),SO_4~(2-),Cl-,NO_3~-) of the samples were analyzed.The results showed that the total ion concentration decreased in the following order:Lijiang City > Longpan Town >Ganhaizi Basin > glacial park.Ca~(2+)and NH_4~+had the highest concentrations among cations,and SO_4~(2-)was the dominant anion.In addition,our result showed that the ratio of SO_4~(2-)to NO_3~-decreased gradually in rainwater from 1997 to 2014,indicating that transportation and tourism had a great impact on the quality of atmospheric environment in Lijiang city.We also used factor analysis methods to investigate the source of chemical ions in the precipitation.We found that NH_4~+,SO_4~(2-),NO_3~-were high loaded in the first factor.They were closely related to anthropogenic emissions.Na+,K+,Cl-were high loaded in the second factor.They were mainly originated from sea salt particulates.Ca~(2+)and Mg~(2+)were high loaded in the third factor.They were mainly from local dust.
From June to August of 2014,a total of 87 rainwater samples were collected from glacial park(at Yulong Snow Mountain),Ganhaizi Basin,Lijiang City and Longpan Town.The major ions(Na~+,K~+,NH_4~+,Ca~(2+),Mg~(2+),SO_4~(2-),Cl-,NO_3~-) of the samples were analyzed.The results showed that the total ion concentration decreased in the following order:Lijiang City > Longpan Town >Ganhaizi Basin > glacial park.Ca~(2+)and NH_4~+had the highest concentrations among cations,and SO_4~(2-)was the dominant anion.In addition,our result showed that the ratio of SO_4~(2-)to NO_3~-decreased gradually in rainwater from 1997 to 2014,indicating that transportation and tourism had a great impact on the quality of atmospheric environment in Lijiang city.We also used factor analysis methods to investigate the source of chemical ions in the precipitation.We found that NH_4~+,SO_4~(2-),NO_3~-were high loaded in the first factor.They were closely related to anthropogenic emissions.Na+,K+,Cl-were high loaded in the second factor.They were mainly originated from sea salt particulates.Ca~(2+)and Mg~(2+)were high loaded in the third factor.They were mainly from local dust.
引文
[1]GALLOWAY J N,LIKENS G E,KEENE W C,et al.The composition of precipitation in remote areas of the world[J].Journal of Geophysical Research,1982,87(NC11):128-130.
[2]康世昌,丛志远.青藏高原大气降水和气溶胶化学特征研究进展[J].冰川冻土,2006,28(3):371-379.KANG S C,CONG Z Y.Progress in study on precipitation and aerosol chemistry in the Tibetan Plateau[J].Journal of Glaciology and Geocryology,2006,28(3):371-379(in Chinese).
[3]李向应,秦大河,韩添丁,等.中国西部冰冻圈地区大气降水化学的研究进展[J].地理科学进展,2011,30(1):3-16.LI X Y,QIN D H,HAN T D,et al.Progress in precipitation chemistry in cryosphere regions of western China[J].Progress in Geography,2011,30(1):3-16(in Chinese).
[4]唐孝炎,张远航,邵敏.大气环境化学[M].北京:高等教育出版社,2006.TANG X Y,ZHANG Y H,SHAO M.Atmospheric environmental chemistry[M].Beijing:Higher Education Press,2006(in Chinese).
[5]ZHAO Z P,TIAN L D,Fischer E,et al.Study of chemical composition of precipitation at an Alpine site and a rural site in the Urumqi River Valley,eastern Tien Shan,China[J].Atmospheric Environment,2008,42(39):8934-8942.
[6]MPHEPYA J N,PIENAAR J J,GALY-LACAUX C,et al.Precipitation chemistry in semi-arid areas of Southern Africa:A case study of a rural and an industrial site[J].Journal of Atmospheric Chemistry,2004,47(1):1-24.
[7]AL-MOMANI I F,ATAMAN O Y,ANWARI M A,et al.Chemical composition of precipitation near an industrial area at Izmir,Turkey[J].Atmospheric Environment,1995,29(10):1131-1143.
[8]王文兴,许鹏举.中国大气降水化学研究进展[J].化学进展,2009,21(2):266-281.WANG W X,XU P J.Research progress in precipitation chemistry in China[J].Progress in Chemistry,2009,21(2):266-281(in Chinese).
[9]ZENG Y,Hopke P K.A study of the sources of acid precipitation in Ontario,Canada[J].Atmospheric Environment,1989,23(7):1499-1509.
[10]ITO M,MITCHELL M J,DRISCOLL C T.Spatial patterns of precipitation quantity and chemistry and air temperature in the Adirondack region of New York[J].Atmospheric Environment,2002,36(6):1051-1062.
[11]Alastuey A,Querol X,Chaves A,et al.Bulk deposition in a rural area located around a large coal-fired power station,northeast Spain.[J].Environmental Pollution,1999,106(3):359-367.
[12]汤洁,徐晓斌,巴金,等.近年来京津地区酸雨形势变化的特点分析—气溶胶影响的探讨[J].中国科学院大学学报,2007,24(5):667-673.YANG J,XU X B,BA J,et al.Trend of precipitation acidity in Beijing-Tianjin region—The implication of particle abatement effort[J].Journal of the Graduate School of the Chinese Academy of Sciences,2007,24(5):667-673(in Chinese).
[13]徐梅,郑勇,易笑园.天津市酸雨及其成因初探[J].气象科技,2007,35(6):792-796.XU M,ZHENG Y,YI,X,Y.Study of acid rain in Tianjin and its formation causes[J].Meteorological Science and Technology,2007,35(6):792-796(in Chinese).
[14]胡敏,张静,吴志军.北京降水化学组成特征及其对大气颗粒物的去除作用[J].中国科学,2005,35(2):169-176.HU M,ZHANG J,WU Z J.Chemical composition of precipitation in Beijing and its effect on atmospheric particulate matter removal[J].Science in China,2005,35(2):169-176(in Chinese).
[15]文涛,袁河清,李萍.长沙市酸雨的特点及防治措施研究[J].华南师范大学学报自然科学版,2008(3):89-94.WEN T,YUAN H Q,LI P.Eaturesand countermeasures of acid rain in Changsha City[J].Ournal of South China Normal University,2008(3):89-94(in Chinese).
[16]巴金,汤洁,王淑凤,等.重庆地区近10年酸雨时空分布和季节变化特征分析[J].气象,2008,34(9):81-88.BA J,TANG J,WANG S F,et al.Analysis of spatio-temporal distribution and seasonality of acid rain in Chongqing from 1997 to 2006[J].Meteorological Monthly,2008,34(9):81-88(in Chinese).
[17]沙晨燕,何文珊,童春富,等.上海近期酸雨变化特征及其化学组分分析[J].环境科学研究,2007,20(5):31-34.SHA C Y,HE W S,DONG C F,et al.Analysis on the variation of acidity and chemical compositions of rainwater in Shanghai[J].Research of Environmental Sciences,2007,20(5):31-34(in Chinese).
[18]刘辰,何凌燕,牛彧文,等.深圳降水中低分子量有机酸对降雨酸性的贡献[J].环境科学研究,2007,20(5):20-25.LIU C,HE L Y,NIU Y W,et al.Wet deposition of low molecular weight carboxylic acids in Shenzhen[J].Research of Environmental Sciences,2007,20(5):20-25(in Chinese).
[19]陈伯通,罗建中,冯爱坤.广州地区酸雨状况及其影响因素探讨[J].环境污染与防治,2006,28(2):112-115.CHEN B T,LUO J Z,FENG A K.Acid raining in Guangzhou area[J].Environmental pollution and control,2006,28(2):112-115(in Chinese).
[20]刘君峰,宋之光,许涛.广州地区雨水化学组成与雨水酸度主控因子研究[J].环境科学,2006,27(10):1998-2002.LIU J F,SONG Z G,XU T.Study on ionic composition of rainwater at Guangzhou and the primary factors of rainwater acidity[J].Environmental Science,2006,27(10):1998-2002(in Chinese).
[21]马丽雅,王斌,杨俊国.四川省酸雨时空分布特征[J].环境科学与管理,2008,33(4):26-29.MA L Y,WANG B,YANG J G.Spatial-temporal distribution of acid rain in Sichuan Province[J].Environmental Science and Management,2008,33(4):26-29(in Chinese).
[22]高一,卫滇萍,等.贵州省2002年酸雨污染情况分析[J].地球与环境,2005,33(1):59-62.GAO Y,WEI D P,et al.2002 acid rain pollution in Guizhou province-A circumstance analysis[J].Earth and Environment,2005,33(1):59-62(in Chinese).
[23]刘新春,何清,霍文,等.新疆城市酸雨分布特征及变化趋势分析[J].水土保持研究,2009,16(1):115-120.LIU X C,HE Q,HUO W,et al.Analysis of distribution and variation trend of acid rain in the cities of Xin Jiang[J].Research on Soil and water conservation,2009,16(1):115-120(in Chinese).
[24]陈伟.嘉峪关市降水偏碱性的成因初探[J].中国环境监测,2006,22(2):72-74.CHEN W.Research on decline alka lescence of the precipitation factors in Jiayuguan[J].Environmental Monitoring in China,2006,22(2):72-74(in Chinese).
[25]章典,师长兴,假拉.青藏高原降水化学研究[J].环境科学学报,2004,24(3):555-557.ZHANG D,SHI C X,JIA L.A study of chemical properties of rains on the Tibetan Plateau[J].Actascientiae Circumstantiae,2004,24(3):555-557(in Chinese).
[26]章典,师长兴,假拉.西藏降水化学分析[J].干旱区研究,2005,22(4):471-475.ZHANG D,SHI C X,JIA L.Analysis on chemical composition of rainfall on the Tibet Plateau[J].Arid Zone Research,22(4):471-475(in Chinese).
[27]李宗省,何元庆,贾文雄,等.丽江市夏季降水化学组成分析[J].环境科学,2009,30(2):362-367.LI Z X,HE Y Q,JIA W X,et al.Analysis on chemical compositions of rainwater in Summer,Lijiang City,China[J].EnvironmentalScience,2009,30(2):362-367(in Chinese).
[28]李宗省,何元庆,庞洪喜,等.我国典型季风海洋性冰川区雪坑中主要阴、阳离子的来源[J].地理学报,2007,62(9):992-1001.LI Z X,HE Y Q,PANG H X,et al.Source of major anions and cations of snowpacks in the typical monsoonal temperate glacial region of China[J].Acta Geographica Sinica,2007,62(9):992-1001(in Chinese).
[29]李宗省,何元庆,院玲玲,等.丽江市降水中常量离子的化学特征[J].环境化学,2008,27(5):648-652.LI Z X,HE Y Q,YUAN L L,et al.Chemical characteristics on major ions of rainwater in Lijiang City[J].Environmental Chemistry,2008,27(5):648-652(in Chinese).
[30]朱国锋,何元庆,蒲焘,等.夏季玉龙雪山地区不同水体常规阴离子特征及其来源分析[J].环境科学,2011,32(3):626-631.ZHU G F,HE Y Q,PU T.Character and sources of conventional anion in different water bodies on the summer in Yulong Snow Mountain Area[J].Environmental Science,2011,32(3):626-631(in Chinese).
[31]朱国锋,何元庆,蒲焘,等.夏季玉龙雪山及丽江盆地水体主要无机离子特征[J].地理科学进展,2011,30(7):868-874.ZHU G F,HE Y Q,PU T.Characteristics of different water bodies in summer over Yulong Snow Mountain Area[J].Progress in Geography,2011,30(7):868-874(in Chinese).
[32]朱国锋,蒲焘,何元庆,等.雨季玉龙雪山白水1号冰川表层雪中无机离子特征及环境意义[J].自然资源学报,2013,28(4):678-686.ZHU G F,PU T,HE Y Q.Inorganic ion characteristics and climatic-environmental significance of rainy season surface snow in Baishui Glacier No.1,Yulong Snow Mountain,China[J].Journal of Natural Resources,2013,28(4):678-686(in Chinese).
[33]NIU H W,HE Y Q,LU X X,et al.Chemical composition of rainwater in the Yulong Snow Mountain region,southwestern China[J].Atmospheric Research,2014,144(3):195-206.
[34]NIU H W,Kang S C,SHI X F,et al.Water-soluble elements in snow and ice on Mt.Yulong[J].Science of the Total Environment,2016,574:889-900.
[35]牛贺文,何元庆,辛慧娟,等.玉龙雪山积雪中粉尘微粒的沉积特征[J].环境化学,2014,33(8):1347-1353.NIUH W,HE Y Q,XIN H J,et al.Characteristics of mircroparticles in the snow cover in Mt.Yulong region.[J].Environmental Chemistry,2014,33(8):1347-1353(in Chinese).
[36]NIU H W,HE Y Q,ZHU G F,et al.Environmental implications of the snow chemistry from Mt.Yulong,southeastern Tibetan Plateau[J].Quaternary International,2013,313(10):168-178.
[37]丽江市国民经济和社会发展统计公报[R].丽江市统计局,2015.Statistical bulletin of the national economic and social development of Lijiang[R].Lijiang Municipal Bureau of Statistics,2005(in Chinese).
[38]王艳,葛福玲,刘晓环,等.泰山降水的离子组成特征分析[J].中国环境科学,2006,26(4):422-426.WANG Y,GE F L,LIU X H,et al.Analysis of ionic composition characteristics of precipitation at Mount Taishan[J].China Environmental Science,2006,26(4):422-426(in Chinese).
[39]朱国锋,何元庆,蒲焘,等.玉龙雪山地区不同海拔高度降水中常量无机离子特征分析[J].环境科学,2011,32(4):963-970.ZHU G F,HEY Q,PU T,et al.Characteristics of constant inorganic ions in precipitation at different altitudes precipitation in Yulong Snow Mountain Area[J].Environmental Science,2011,32(4):963-970(in Chinese).
[40]HUANG Y,WANG Y,ZHANG L.Long-term trend of chemical composition of wet atmospheric precipitation during 1986-2006 at Shenzhen City,China[J].Atmospheric Environment,2008,42(16):3740-3750(in Chinese).
[41]YANG F M,HE K B,LEI Y.Chemical characters of atmospheric precipitation in Beijing in years of 2001-2003.[J].China Environmental Science,2004,24(5),538-541.
[42]ZHANG D D,PEART M,JIM C Y,et al.Precipitation chemistry of Lhasa and other remote towns,Tibet[J].Atmospheric Environment,2003,37(2):231-240.
[43]KANG S,MAYEWSKI P A,QIN D,et al.Seasonal differences in snow chemistry from the vicinity of Mt.Everest,central Himalayas[J].Atmospheric Environment,2004,38(18):2819-2829.
[44]王春凤,何元庆,张宁宁,等.丽江-玉龙雪山不同区域大气降水化学特征[J].环境科学研究,2012,25(1):18-23.WANG C F,HE Y Q,ZHANG N N,et al.Chemical characteristics of rainwater in different regions of Lijiang-Yulong Snow Mountain.[J].Research of Environmental Sciences,2012,25(1):18-23(in Chinese).
[45]林雨霏,刘素美,纪雷等.黄海西部春、夏季湿沉降常量离子化学特征研究[J].环境化学,2005,24(5):617-619.LIN Y F,LIU S M,JI L,et al.Study on chemical characteristics of heavy metal ions in wet deposition in spring and summer in western of Yellow Sea.[J].Environmental Chemistry,2005,24(5):617-619(in Chinese).
[2]康世昌,丛志远.青藏高原大气降水和气溶胶化学特征研究进展[J].冰川冻土,2006,28(3):371-379.KANG S C,CONG Z Y.Progress in study on precipitation and aerosol chemistry in the Tibetan Plateau[J].Journal of Glaciology and Geocryology,2006,28(3):371-379(in Chinese).
[3]李向应,秦大河,韩添丁,等.中国西部冰冻圈地区大气降水化学的研究进展[J].地理科学进展,2011,30(1):3-16.LI X Y,QIN D H,HAN T D,et al.Progress in precipitation chemistry in cryosphere regions of western China[J].Progress in Geography,2011,30(1):3-16(in Chinese).
[4]唐孝炎,张远航,邵敏.大气环境化学[M].北京:高等教育出版社,2006.TANG X Y,ZHANG Y H,SHAO M.Atmospheric environmental chemistry[M].Beijing:Higher Education Press,2006(in Chinese).
[5]ZHAO Z P,TIAN L D,Fischer E,et al.Study of chemical composition of precipitation at an Alpine site and a rural site in the Urumqi River Valley,eastern Tien Shan,China[J].Atmospheric Environment,2008,42(39):8934-8942.
[6]MPHEPYA J N,PIENAAR J J,GALY-LACAUX C,et al.Precipitation chemistry in semi-arid areas of Southern Africa:A case study of a rural and an industrial site[J].Journal of Atmospheric Chemistry,2004,47(1):1-24.
[7]AL-MOMANI I F,ATAMAN O Y,ANWARI M A,et al.Chemical composition of precipitation near an industrial area at Izmir,Turkey[J].Atmospheric Environment,1995,29(10):1131-1143.
[8]王文兴,许鹏举.中国大气降水化学研究进展[J].化学进展,2009,21(2):266-281.WANG W X,XU P J.Research progress in precipitation chemistry in China[J].Progress in Chemistry,2009,21(2):266-281(in Chinese).
[9]ZENG Y,Hopke P K.A study of the sources of acid precipitation in Ontario,Canada[J].Atmospheric Environment,1989,23(7):1499-1509.
[10]ITO M,MITCHELL M J,DRISCOLL C T.Spatial patterns of precipitation quantity and chemistry and air temperature in the Adirondack region of New York[J].Atmospheric Environment,2002,36(6):1051-1062.
[11]Alastuey A,Querol X,Chaves A,et al.Bulk deposition in a rural area located around a large coal-fired power station,northeast Spain.[J].Environmental Pollution,1999,106(3):359-367.
[12]汤洁,徐晓斌,巴金,等.近年来京津地区酸雨形势变化的特点分析—气溶胶影响的探讨[J].中国科学院大学学报,2007,24(5):667-673.YANG J,XU X B,BA J,et al.Trend of precipitation acidity in Beijing-Tianjin region—The implication of particle abatement effort[J].Journal of the Graduate School of the Chinese Academy of Sciences,2007,24(5):667-673(in Chinese).
[13]徐梅,郑勇,易笑园.天津市酸雨及其成因初探[J].气象科技,2007,35(6):792-796.XU M,ZHENG Y,YI,X,Y.Study of acid rain in Tianjin and its formation causes[J].Meteorological Science and Technology,2007,35(6):792-796(in Chinese).
[14]胡敏,张静,吴志军.北京降水化学组成特征及其对大气颗粒物的去除作用[J].中国科学,2005,35(2):169-176.HU M,ZHANG J,WU Z J.Chemical composition of precipitation in Beijing and its effect on atmospheric particulate matter removal[J].Science in China,2005,35(2):169-176(in Chinese).
[15]文涛,袁河清,李萍.长沙市酸雨的特点及防治措施研究[J].华南师范大学学报自然科学版,2008(3):89-94.WEN T,YUAN H Q,LI P.Eaturesand countermeasures of acid rain in Changsha City[J].Ournal of South China Normal University,2008(3):89-94(in Chinese).
[16]巴金,汤洁,王淑凤,等.重庆地区近10年酸雨时空分布和季节变化特征分析[J].气象,2008,34(9):81-88.BA J,TANG J,WANG S F,et al.Analysis of spatio-temporal distribution and seasonality of acid rain in Chongqing from 1997 to 2006[J].Meteorological Monthly,2008,34(9):81-88(in Chinese).
[17]沙晨燕,何文珊,童春富,等.上海近期酸雨变化特征及其化学组分分析[J].环境科学研究,2007,20(5):31-34.SHA C Y,HE W S,DONG C F,et al.Analysis on the variation of acidity and chemical compositions of rainwater in Shanghai[J].Research of Environmental Sciences,2007,20(5):31-34(in Chinese).
[18]刘辰,何凌燕,牛彧文,等.深圳降水中低分子量有机酸对降雨酸性的贡献[J].环境科学研究,2007,20(5):20-25.LIU C,HE L Y,NIU Y W,et al.Wet deposition of low molecular weight carboxylic acids in Shenzhen[J].Research of Environmental Sciences,2007,20(5):20-25(in Chinese).
[19]陈伯通,罗建中,冯爱坤.广州地区酸雨状况及其影响因素探讨[J].环境污染与防治,2006,28(2):112-115.CHEN B T,LUO J Z,FENG A K.Acid raining in Guangzhou area[J].Environmental pollution and control,2006,28(2):112-115(in Chinese).
[20]刘君峰,宋之光,许涛.广州地区雨水化学组成与雨水酸度主控因子研究[J].环境科学,2006,27(10):1998-2002.LIU J F,SONG Z G,XU T.Study on ionic composition of rainwater at Guangzhou and the primary factors of rainwater acidity[J].Environmental Science,2006,27(10):1998-2002(in Chinese).
[21]马丽雅,王斌,杨俊国.四川省酸雨时空分布特征[J].环境科学与管理,2008,33(4):26-29.MA L Y,WANG B,YANG J G.Spatial-temporal distribution of acid rain in Sichuan Province[J].Environmental Science and Management,2008,33(4):26-29(in Chinese).
[22]高一,卫滇萍,等.贵州省2002年酸雨污染情况分析[J].地球与环境,2005,33(1):59-62.GAO Y,WEI D P,et al.2002 acid rain pollution in Guizhou province-A circumstance analysis[J].Earth and Environment,2005,33(1):59-62(in Chinese).
[23]刘新春,何清,霍文,等.新疆城市酸雨分布特征及变化趋势分析[J].水土保持研究,2009,16(1):115-120.LIU X C,HE Q,HUO W,et al.Analysis of distribution and variation trend of acid rain in the cities of Xin Jiang[J].Research on Soil and water conservation,2009,16(1):115-120(in Chinese).
[24]陈伟.嘉峪关市降水偏碱性的成因初探[J].中国环境监测,2006,22(2):72-74.CHEN W.Research on decline alka lescence of the precipitation factors in Jiayuguan[J].Environmental Monitoring in China,2006,22(2):72-74(in Chinese).
[25]章典,师长兴,假拉.青藏高原降水化学研究[J].环境科学学报,2004,24(3):555-557.ZHANG D,SHI C X,JIA L.A study of chemical properties of rains on the Tibetan Plateau[J].Actascientiae Circumstantiae,2004,24(3):555-557(in Chinese).
[26]章典,师长兴,假拉.西藏降水化学分析[J].干旱区研究,2005,22(4):471-475.ZHANG D,SHI C X,JIA L.Analysis on chemical composition of rainfall on the Tibet Plateau[J].Arid Zone Research,22(4):471-475(in Chinese).
[27]李宗省,何元庆,贾文雄,等.丽江市夏季降水化学组成分析[J].环境科学,2009,30(2):362-367.LI Z X,HE Y Q,JIA W X,et al.Analysis on chemical compositions of rainwater in Summer,Lijiang City,China[J].EnvironmentalScience,2009,30(2):362-367(in Chinese).
[28]李宗省,何元庆,庞洪喜,等.我国典型季风海洋性冰川区雪坑中主要阴、阳离子的来源[J].地理学报,2007,62(9):992-1001.LI Z X,HE Y Q,PANG H X,et al.Source of major anions and cations of snowpacks in the typical monsoonal temperate glacial region of China[J].Acta Geographica Sinica,2007,62(9):992-1001(in Chinese).
[29]李宗省,何元庆,院玲玲,等.丽江市降水中常量离子的化学特征[J].环境化学,2008,27(5):648-652.LI Z X,HE Y Q,YUAN L L,et al.Chemical characteristics on major ions of rainwater in Lijiang City[J].Environmental Chemistry,2008,27(5):648-652(in Chinese).
[30]朱国锋,何元庆,蒲焘,等.夏季玉龙雪山地区不同水体常规阴离子特征及其来源分析[J].环境科学,2011,32(3):626-631.ZHU G F,HE Y Q,PU T.Character and sources of conventional anion in different water bodies on the summer in Yulong Snow Mountain Area[J].Environmental Science,2011,32(3):626-631(in Chinese).
[31]朱国锋,何元庆,蒲焘,等.夏季玉龙雪山及丽江盆地水体主要无机离子特征[J].地理科学进展,2011,30(7):868-874.ZHU G F,HE Y Q,PU T.Characteristics of different water bodies in summer over Yulong Snow Mountain Area[J].Progress in Geography,2011,30(7):868-874(in Chinese).
[32]朱国锋,蒲焘,何元庆,等.雨季玉龙雪山白水1号冰川表层雪中无机离子特征及环境意义[J].自然资源学报,2013,28(4):678-686.ZHU G F,PU T,HE Y Q.Inorganic ion characteristics and climatic-environmental significance of rainy season surface snow in Baishui Glacier No.1,Yulong Snow Mountain,China[J].Journal of Natural Resources,2013,28(4):678-686(in Chinese).
[33]NIU H W,HE Y Q,LU X X,et al.Chemical composition of rainwater in the Yulong Snow Mountain region,southwestern China[J].Atmospheric Research,2014,144(3):195-206.
[34]NIU H W,Kang S C,SHI X F,et al.Water-soluble elements in snow and ice on Mt.Yulong[J].Science of the Total Environment,2016,574:889-900.
[35]牛贺文,何元庆,辛慧娟,等.玉龙雪山积雪中粉尘微粒的沉积特征[J].环境化学,2014,33(8):1347-1353.NIUH W,HE Y Q,XIN H J,et al.Characteristics of mircroparticles in the snow cover in Mt.Yulong region.[J].Environmental Chemistry,2014,33(8):1347-1353(in Chinese).
[36]NIU H W,HE Y Q,ZHU G F,et al.Environmental implications of the snow chemistry from Mt.Yulong,southeastern Tibetan Plateau[J].Quaternary International,2013,313(10):168-178.
[37]丽江市国民经济和社会发展统计公报[R].丽江市统计局,2015.Statistical bulletin of the national economic and social development of Lijiang[R].Lijiang Municipal Bureau of Statistics,2005(in Chinese).
[38]王艳,葛福玲,刘晓环,等.泰山降水的离子组成特征分析[J].中国环境科学,2006,26(4):422-426.WANG Y,GE F L,LIU X H,et al.Analysis of ionic composition characteristics of precipitation at Mount Taishan[J].China Environmental Science,2006,26(4):422-426(in Chinese).
[39]朱国锋,何元庆,蒲焘,等.玉龙雪山地区不同海拔高度降水中常量无机离子特征分析[J].环境科学,2011,32(4):963-970.ZHU G F,HEY Q,PU T,et al.Characteristics of constant inorganic ions in precipitation at different altitudes precipitation in Yulong Snow Mountain Area[J].Environmental Science,2011,32(4):963-970(in Chinese).
[40]HUANG Y,WANG Y,ZHANG L.Long-term trend of chemical composition of wet atmospheric precipitation during 1986-2006 at Shenzhen City,China[J].Atmospheric Environment,2008,42(16):3740-3750(in Chinese).
[41]YANG F M,HE K B,LEI Y.Chemical characters of atmospheric precipitation in Beijing in years of 2001-2003.[J].China Environmental Science,2004,24(5),538-541.
[42]ZHANG D D,PEART M,JIM C Y,et al.Precipitation chemistry of Lhasa and other remote towns,Tibet[J].Atmospheric Environment,2003,37(2):231-240.
[43]KANG S,MAYEWSKI P A,QIN D,et al.Seasonal differences in snow chemistry from the vicinity of Mt.Everest,central Himalayas[J].Atmospheric Environment,2004,38(18):2819-2829.
[44]王春凤,何元庆,张宁宁,等.丽江-玉龙雪山不同区域大气降水化学特征[J].环境科学研究,2012,25(1):18-23.WANG C F,HE Y Q,ZHANG N N,et al.Chemical characteristics of rainwater in different regions of Lijiang-Yulong Snow Mountain.[J].Research of Environmental Sciences,2012,25(1):18-23(in Chinese).
[45]林雨霏,刘素美,纪雷等.黄海西部春、夏季湿沉降常量离子化学特征研究[J].环境化学,2005,24(5):617-619.LIN Y F,LIU S M,JI L,et al.Study on chemical characteristics of heavy metal ions in wet deposition in spring and summer in western of Yellow Sea.[J].Environmental Chemistry,2005,24(5):617-619(in Chinese).