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亚热带与温带森林小流域生态系统汞的生物地球化学循环及其同位素分馏
Biogeochemical cycling and isotopic fractionation of mercury in subtropical and temperate forest ecosystem

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文摘 汞是通过大气进行长距离传输的全球污染物,引起国际社会和学术界高度关注.陆地森林生态系统是全球物质循环最为活跃的地方,但其对全球汞的生物地球化学循环影响的认识还不清楚.同时,森林生态系统汞的生物地球化学循环过程可能对全球大气汞同位素组成产生重要的影响,但目前这两方面的研究还非常缺乏,制约了对全球尺度汞的生物地球化学循环深化规律的把握.本课题组拟在我国温带和亚热带选择3个森林小流域,首先系统开展森林小流域汞的质量平衡研究工作,深入刻画森林流域汞的生物地球化学演化规律,在此基础上开展流域汞的生物地球化学循环过程中汞同位素的分馏特征研究,最终建立流域尺度森林系统汞及其同位素的生物地球化学模型.该项目将极大推进对森林流域尺度汞的生物地球化学循环的认识,探讨森林生态系统与大气汞交换过程对全球尺度汞生物地球化学循环和对大气汞同位素组成的影响,为最终建立基于汞同位素的全球汞生物地球化学循环模型提供基础数据.
其他语种文摘 Mercury is regarded as a global pollutant due to the fact that it can be transported for a long distance in the atmosphere,and thus attracts attentions from both public sectors and scientific society. The mass exchanges in forest ecosystems are very active, but the role of forest ecosystem on global mercury geochemical cycling is still largely unknown. Meanwhile, the cycling of mercury in forest ecosystem may have altered mercury isotope ratios in the atmosphere. However, so far the knowledge on these two aspects is still lacking,hindering our understanding of the global cycle of mercury in the environment. In the project, we will select 3 small forest catchments from subtropical and temperate regions in China as our study areas. First of all,we will establish a detailed mercury mass balance in the ecosystems, and decipher the biogeochemical cycling of mercury in forest ecosystems. Based on this, we will investigate mercury isotope fractionation during mercury geochemical cycling processes in the forest ecosystems. Finally, we will develop biogeochemical cycling models in forest ecosystem for both mercury and mercury isotopes. Our project will advance our knowledge on mercury cycling in forest ecosystems, and discuss the impact of mercury exchange between atmosphere and forest on the global cycling of mercury in the atmosphere and on mercury isotope ratios in global atmosphere. In the end, our project will provide important data for the development of new generation global mercury models based on mercury isotope information.
来源 环境化学 ,2015,34(2):203-211 【核心库】
关键词 ; 森林生态系统 ; 汞同位素 ; 质量平衡 ; 生物地球化学循环
地址

中国科学院地球化学研究所, 环境地球化学国家重点实验室, 贵阳, 550002

语种 中文
文献类型 研究性论文
ISSN 0254-6108
基金 国家自然科学基金项目
文献收藏号 CSCD:5367002

参考文献 共 81 共5页

1.  Lindqvist O. Mercury in the swedish environment-recent research on causes,consequences and corrective methods. Water Air and Soil Pollution,1991,55(1/2):R11-& 被引 122    
2.  Selin N E. Global biogeochemical cycling of mercury : A review. Annual Review of Environment and Resources,2009,34:43-63 被引 50    
3.  Selin N E. Chemical cycling and deposition of atmospheric mercury : Global constraints from observations. Journal of Geophysical Research-Atmospheres,2007,112(D2):D02308 被引 15    
4.  Selin N E. Global 3-D land-ocean-atmosphere model for mercury: Present-day versus preindustrial cycles and anthropogenic enrichment factors for deposition. Global Biogeochemical Cycles,2008,22(3) 被引 9    
5.  Ryaboshapko A. Intercomparison study of atmospheric mercury models: 1. Comparison of models with short-term measurements. Science of the Total Environment,2007,376(1/3):228-240 被引 3    
6.  Ryaboshapko A. Intercomparison study of atmospheric mercury models: 2. Modelling results vs. longterm observations and comparison of country deposition budgets. Science of the Total Environment,2007,377(2/3):319-333 被引 2    
7.  Lin C J. Scientific uncertainties in atmospheric mercury models I: Model science evaluation. Atmospheric Environment,2006,40(16):2911-2928 被引 5    
8.  Bullock O R. Atmospheric mercury simulation using the CMAQ model: Formulation description and analysis of wet deposition results. Atmospheric Environment,2002,36(13):2135-2146 被引 14    
9.  Ryaboshapko A. Comparison of mercury chemistry models. Atmospheric Environment,2002,36(24):3881-3898 被引 4    
10.  Seigneur C. Multiscale modeling of the atmospheric fate and transport of mercury. Journal of Geophysical Research-Atmospheres,2001,106(D21):27795-27809 被引 5    
11.  Bergan T. Mercury in the global troposphere: A three-dimensional model study. Atmospheric Environment,1999,33(10):1575-1585 被引 20    
12.  Jung G. ECHMERIT V1.0-A new global fully coupled mercury-chemistry and transport model. Geoscientific Model Development,2009,2(2):175-195 被引 1    
13.  Travnikov O. Hemispheric transport of air pollution part b: mercury, chapter 4,global and regional modelling// pirrone n, keating t. hemispheric transport of air pollution part b: mercur,2010:97-138 被引 1    
14.  FAO. Percentage of land area covered by forest in 2010,2014 被引 1    
15.  Pan Y. A large and persistent carbon sink in the world's forests. Science,2011,333(6045):988-993 被引 255    
16.  Obrist D. Mercury distribution across 14 US forests. Part I: Spatial patterns of concentrations in biomass, litter, and soils. Environmental Science & Technology,2011,45(9):3974-3981 被引 20    
17.  Graydon J A. The role of terrestrial vegetation in atmospheric Hg deposition: Pools and fluxes of spike and ambient Hg from the METAALICUS experiment. Global Biogeochemical Cycles,2012,26(1):GB1022 被引 1    
18.  Gustin M S. An update on the natural sources and sinks of atmospheric mercury. Applied Geochemistry,2008,23(3):482-493 被引 9    
19.  Obrist D. Atmospheric mercury pollution due to losses of terrestrial carbon pools?. Biogeochemistry,2007,85(2):119-123 被引 9    
20.  Lindberg S E. Air/ surface exchange of mercury vapor over forests-The need for a reassessment of continental biogenic emissions. Atmospheric Environment,1998,32(5):895-908 被引 20    
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