帮助 关于我们

返回检索结果

青藏高原贡嘎山冰川区水体中Hg的空间分布及其源汇特征
Spatial distribution and source /sink characteristic of mercury in the water samples from the Mt. Gongga area in the Tibetan Plateau

查看参考文献32篇

梅露 1   王训 1   冯新斌 1 *   罗辑 2  
文摘 通过测定青藏高原东北部贡嘎山冰川区流域尺度的雪样、冰川、地表水、地下渗透水的汞(Hg)含量及形态,发现流域水样的总Hg浓度介于1.74—17.8 ng·L~(-1)之间,其60%以上的形态为颗粒态汞; Hg的空间分布存在明显的海拔效应,即低温高海拔区域具有Hg的冷捕获和放大积累效应;从降雪到冰雪融化形成汇流河水再到地下渗透的过程中,Hg发生了重要的沉淀作用,土壤能够吸附大量的Hg.进一步通过主成分分析,建立多重线性回归模型,定量确定了水体环境中大气沉降的正贡献为163.3%,沉淀作用的负贡献为-69.8%.这些结果表明,大气沉降的颗粒物不仅是水体环境的Hg输入的主要来源,还是土壤Hg的重要来源,青藏高原可能是全球大气Hg循环中重要的沉降汇集区.
其他语种文摘 The Tibetan Plateau has been considered as one of the sensitive ecosystems to suffer from global environmental changes and pollutants inputs. In this study,surface snow,glacial,surface water and seepage water were sampled and analyzed for total mercury (Hg~T) in the Mt. Gongga area,China. The total mercury concentrations in these samples ranged from 1.74 to 17.8 ng·L~(-1). Particle bound mercury predominated the atmospheric mercury inputs. The concentration of Hg~T increased with the increase of altitude,suggesting mercury accumulated by“cold trapping”in high elevated regions. In addition,Hg~T concentration exhibited a diseasing trend from surface snow, surface river,and to the underground seepage water. This reveals the sedimentation of mercury during runoff transportation occurred. Principal component analysis (PCA) and multiple linear regression (MLR) suggested that atmospheric deposition mainly contributed to the accumulation of Hg~T (163.3%),and sedimentation of Hg during runoff transportation was attributed to the decrease Hg~T (-69.8%). This study suggests sedimentation of Hg with particle is the main source for Hg accumulation in water bodies and soil,and the Tibetan Plateau may present a significant Hg sink in the global Hg cycling.
来源 环境化学 ,2016,35(8):1549-1556 【核心库】
DOI 10.7524/j.issn.0254-6108.2016.08.2015122301
关键词 青藏高原 ; Hg循环 ; 大气沉降 ; 海拔效应 ; 土壤沉淀作用 ; 全球变暖
地址

1. 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, 550081  

2. 中国科学院成都山地灾害与环境研究所, 成都, 610041

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 ;  国家973计划
文献收藏号 CSCD:5778063

参考文献 共 32 共2页

1.  WHO. World Health Organization (WHO),Environmental Health Criteria. Inorganic Mercury,vol. 118,1991 CSCD被引 1    
2.  Zhang Q G. Mercury in wild fish from high-altitude aquatic ecosystems in the Tibetan Plateau. Environ Sci Technol,2014,48:5220-5228 CSCD被引 7    
3.  Fitzgerald W F. The case for atmospheric mercury contamination in remote areas. Environmental Science & Technology,1998,32(1):1-7 CSCD被引 34    
4.  Schuster P F. Atmospheric mercury deposition during the last 270 years:A glacial ice core record of natural and anthropogenic sources. Environmental Science & Technology,2002,36(11):2303-2310 CSCD被引 21    
5.  Swain E B. Increasing rates of atmospheric mercury deposition in midcontinental North America. Science,1992,1257(5071):784-787 CSCD被引 14    
6.  Allan R J. Atmospheric mercury contamination of remote aquatic ecosystems in Canada. Water Sci Technol,1999,39(12):173-177 CSCD被引 2    
7.  Mast M A. Mercury transport in a high-elevation watershed in Rocky Mountain National Park,Colorado. Water,Air,Soil Pollut,2005,164(1/4):21-42 CSCD被引 1    
8.  Krabbenhoft D P. Mercury loading and methylmercury production and cycling in high-altitude lakes from the western United States. Water,Air,Soil Pollut,2002,2(2):233-249 CSCD被引 3    
9.  Davidson D A. Orographic cold-trapping of persistent organic pollutants by vegetation in mountains of western Canada. Environmental Science & Technology,2003,37:209-215 CSCD被引 10    
10.  Jaward F M. PCBs and selected organochlorine compounds in Italian mountain air:The influence of altitude and forest ecosystem type. Environmental Science & Technology,2005,39:3455-3463 CSCD被引 6    
11.  Kang J H. Atmospheric deposition of persistent organic pollutants to the East Rongbuk Glacier in the Himalayas. Science of the Total Environment,2009,408:57-63 CSCD被引 5    
12.  Wang X P. Concentration level and distribution of polycyclic aromatic hydrocarbons in soil and grass around Mt. Qomolangma,China. Chinese Science Bulletin,2007,52:1405-1413 CSCD被引 4    
13.  Wang X P. The recent deposition of persistent organic pollutants and mercury to the Dasuopu glacier,Mt. Xixiabangma,central Himalayas. Sci Total Environ,2008,394(1):134-143 CSCD被引 10    
14.  Yang R. Accumulation features of organochlorine pesticides and heavy metals in fish from high mountain lakes and Lhasa River in the Tibetan Plateau. Environment International,2007,33:151-156 CSCD被引 3    
15.  Huang J. Seasonal variations,speciation and possible sources of mercury in the snowpack of Zhadang glacier, Mt. Nyainqentanglha,southern Tibetan Plateau. Science of the Total Environment,2012,429:223-230 CSCD被引 10    
16.  Loewen M. Atmospheric transport of mercury to the Tibetan Plateau. Environmental Science & Technology,2007,41:7632-7638 CSCD被引 17    
17.  US EPA. Method 1631:Mercury in Water by Oxidation,Purge and Trap,and Cold Vapor Atomic Fluorescence Spectrometry. EPA-821-R-02-19,2002 CSCD被引 1    
18.  阎海鱼. 天然水体中痕量汞的开矿分析方法研究. 分析测试学报,2003,22(5):10-13 CSCD被引 45    
19.  Huang J. Spatial distribution and magnification processes of mercury in snow from high-elevation glaciers in the Tibetan Plateau. Atmos Environ,2012,46:140-146 CSCD被引 9    
20.  Wu G. Dust concentration and flux in ice cores from the Tibetan Plateau over the past few decades. Tellus B,2010,62:197-206 CSCD被引 4    
引证文献 4

1 孙学军 山地冰川消融过程中汞的行为及环境效应综述 地球科学进展,2017,32(6):589-598
CSCD被引 5

2 陈虎林 西藏麦地卡湿地水化学特征初探 高原科学研究,2020,4(1):14-19
CSCD被引 3

显示所有4篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号