中国环境科学
中國環境科學
중국배경과학
China Environmental Science
2015年
9期
2623-2635
,共13页
大气汞%排放%分布%沉降
大氣汞%排放%分佈%沉降
대기홍%배방%분포%침강
atmospheric mercury%emissions%distribution%deposition
综述了最近几十年中国大气汞的排放、分布、传输和沉降方面的研究.中国人为源每年汞排放量为世界最高,达到500~700t左右,超过全球人为排放量的25%~30%,并以每年4.2%的速度增加.通过已有观测和模型估算,中国来自自然地表过程(包括裸露地、地表水和森林土壤等)的汞排放量与人为源汞排放量相当,不容忽视.中国城市、农村和偏远地区大气汞浓度分布和变化范围很大,城市地区的总气态汞(TGM)浓度是北美和欧洲地区相似城市类型TGM的1.5~5倍左右;中国城市颗粒态汞(PHg)浓度比北美和欧洲地区高出2个数量级;中国沿海地区和偏远的背景区TGM、PHg和活性汞(RGM)低于中国内地城市地区,但是也明显高于背景值和北美和欧洲地区.相应地,高含量的大气汞浓度导致大量的大气汞沉降到地表,城市地区和背景区大气汞沉降分别比北美地区高出1~2个数量级和1~2倍.
綜述瞭最近幾十年中國大氣汞的排放、分佈、傳輸和沉降方麵的研究.中國人為源每年汞排放量為世界最高,達到500~700t左右,超過全毬人為排放量的25%~30%,併以每年4.2%的速度增加.通過已有觀測和模型估算,中國來自自然地錶過程(包括裸露地、地錶水和森林土壤等)的汞排放量與人為源汞排放量相噹,不容忽視.中國城市、農村和偏遠地區大氣汞濃度分佈和變化範圍很大,城市地區的總氣態汞(TGM)濃度是北美和歐洲地區相似城市類型TGM的1.5~5倍左右;中國城市顆粒態汞(PHg)濃度比北美和歐洲地區高齣2箇數量級;中國沿海地區和偏遠的揹景區TGM、PHg和活性汞(RGM)低于中國內地城市地區,但是也明顯高于揹景值和北美和歐洲地區.相應地,高含量的大氣汞濃度導緻大量的大氣汞沉降到地錶,城市地區和揹景區大氣汞沉降分彆比北美地區高齣1~2箇數量級和1~2倍.
종술료최근궤십년중국대기홍적배방、분포、전수화침강방면적연구.중국인위원매년홍배방량위세계최고,체도500~700t좌우,초과전구인위배방량적25%~30%,병이매년4.2%적속도증가.통과이유관측화모형고산,중국래자자연지표과정(포괄라로지、지표수화삼림토양등)적홍배방량여인위원홍배방량상당,불용홀시.중국성시、농촌화편원지구대기홍농도분포화변화범위흔대,성시지구적총기태홍(TGM)농도시북미화구주지구상사성시류형TGM적1.5~5배좌우;중국성시과립태홍(PHg)농도비북미화구주지구고출2개수량급;중국연해지구화편원적배경구TGM、PHg화활성홍(RGM)저우중국내지성시지구,단시야명현고우배경치화북미화구주지구.상응지,고함량적대기홍농도도치대량적대기홍침강도지표,성시지구화배경구대기홍침강분별비북미지구고출1~2개수량급화1~2배.
China's economy has developed rapidly in recent decades, but it also brought the persistent pollutants of mercury emissions to the atmosphere rapidly. Mercury as a global pollutant, Chinese mercury emission has received a considerable attention internationally. Thus, this paper reviews the current understanding of and knowledge on atmospheric Hg emissions, distribution transport and deposition in China. Anthropogenic mercury annual emissions from China was the highest in the word and up to about 500~700t, which was more than 25~30% of the global anthropogenic emissions and with an annual increase rate of 4.6%. Emissions of Hg from natural surfaces (including bare soil, water, and vegetation covered soil) was comparable to anthropogenic emissions by the estimation from existing model. Atmospheric Hg exhibits a significant concentration variability among urban, semi-remote, and remote areas. Total Gaseous Mercury (TGM) concentrations in urban areas of China were often 1.5~5 folds higher compared to the corresponding settings in North America and Europe. In turn, particulate mercury (PHg) concentrations in urban areas of China were up to two orders of magnitude higher compared to North America and Europe. TGM, PHg and reactive gaseous mercury (RGM) in coastal areas and remote areas of China were lower than that in central cities, but they were still higher than the corresponding settings in North America and Europe. Accordingly, Hg deposition fluxes tended to be higher in China, with urban areas and remote areas being 1~2 magnitude and1~2 times higher than those in North America and Europe, respectively.