• 全国中文核心期刊
  • 中国科技核心期刊
  • 美国工程索引(EI)收录期刊

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

水库汞生物地球化学循环研究进展

蒋红梅 冯新斌

蒋红梅, 冯新斌. 水库汞生物地球化学循环研究进展[J]. 水科学进展, 2007, 18(3): 462-467.
引用本文: 蒋红梅, 冯新斌. 水库汞生物地球化学循环研究进展[J]. 水科学进展, 2007, 18(3): 462-467.
JIANG Hong-mei, FENG Xin-bin. Developments in the biogeochemical cycle of mercury in reservoirs[J]. Advances in Water Science, 2007, 18(3): 462-467.
Citation: JIANG Hong-mei, FENG Xin-bin. Developments in the biogeochemical cycle of mercury in reservoirs[J]. Advances in Water Science, 2007, 18(3): 462-467.

水库汞生物地球化学循环研究进展

基金项目: 中国科学院"百人计划"资助项目;国家自然科学基金资助项目(40532014)
详细信息
    作者简介:

    蒋红梅(1976- ),女,重庆人,博士,主要从事环境地球化学研究.E-mail:jianghongmei@ccrdi.cmhk.com

  • 中图分类号: X524;G353.11

Developments in the biogeochemical cycle of mercury in reservoirs

Funds: The study is financially supported by the National Natural Science Foundation of China(No.40532014).
  • 摘要: 对近年来国内外有关水库汞生物地球化学循环的研究现状进行了综述,主要从基质释汞行为、汞释放对水体的影响、汞在水库水生食物链中的迁移富集和水库对河流汞输送的影响等四个方面进行了探讨,并指出该领域研究工作的薄弱环节及发展方向.
  • [1] Smith F A,Sharma R P,Lynn R I,et al.Mercury and selected pesticide levels in fish and wildlife of Utah:I Levels of mercury,DDT,DDE,Dieldrin and PCB in fish[J].Environ Toxicol Chem,1974,12:218-223.
    [2] Abernathy A R,Cumbie P M.Mercury accumulation by largemouth bass(Micropterus salmoides) in recently impounded reservoirs[J].Environm Cont Tox,1977,17:595-602.
    [3] Cox J A,Carnahan J,Dinuzio J,et al.Source of mercury in fish in new impoundments[J].Environm Cont Tox,1979,23:779-783.
    [4] Heyes A,Moore T R,Rudd J W M,et al.Methylmercury in pristine and impounded boreal peatlands,experimental lakes area,Qntario[J].Can J Fish Aquat Sci,2000,57(11):2 211-2 222.
    [5] Kelly C A,Rudd J W M,Bodaly R A,et al.Increases in fluxes of greenhouse gases and methylmercury following flooding of an experimental reservoir[J].Environ Sci Technol,1997,31:1334-1344.
    [6] Tremblay A,Cloutier L,Lucotte M.Total mercury and methylmercury fluxes via emerging insects in recently flooded hydroelectric reservoirs and a natural lake[J].Sci Tot Environ,1998,219:209-221.
    [7] Bergkamp G,McCartney M,Dugan P,et al.Dams,ecosystem functions and environmental restoration[Z].Thematic reviews II 1,World Commission of Dams,Cape Town,www.dams.org,2000.
    [8] Friedl G,Wüest A.Disrupting biogeochemical cycles-Consequences of damming[J].Aquat Sci,2002,64:55-65.
    [9] Verdon R,Brouard D,Demers C,et al.Mercury evolution 1978-1988 in fishes of the La Grande Hydroeletric Complex,Quebec Canada[J].Water Air Soil Pollut,1991,56:405-417.
    [10] Bodaly R A,St.Louis V L,Paterson M J,et al.Bioaccumulation of mercury in the aquatic food chain in newly flooded areas[A].In Sigel A,Sigel H,(eds),Metal ions in biological systems:Mercury and it effects on the environment and biology[C].Marcel Dekker,New York,NY.1997.
    [11] S t Louis V L,Kelly C A,Duchemin E,et al.Reservoir surfaces as sources of greenhouses gases to the stmosphere:A global estimate[J].Bioscience,2000,50(9):766-775.
    [12] Jackson T A.The mercury problem in recently formed reservoirs of northern Manitoba(Canada):effects of impoundment and other factors on the production of methylmercury by microorganisms in sediments[J].Can J Fish Aquat Sci,1988,45:97-121.
    [13] Verta M,Rekolainen S,Kinnunen K.Causes of increased fish mercury levels in Finnish reservoirs[M].Publications of Water Research Institute,National Board of Waters Finland,1986.65.
    [14] Fearnside P M.Environmental impacts of Brazil's Tucurui Dam:Unlearned lessons for hydroelectric development in Amazonia[J].Environ.Manag,2001,27:377-396.
    [15] Cossa D,Gobeil C.Mercury speciation in the lower St Lawrence estuary[J].Can J Fish Aquat Sci,2000,57(Suppl 1):138-147.
    [16] Heyes A,Moore TR,Rudd JWM.Mercury and methylmercury in decomposing vegetation of a pristine and impounded wetland[J].J Environ Qual,1998,27:591-599.
    [17] Morrison K A,Thérien N.Release of organic carbon,Kjeldahl nitrogen and total phosphorus from flooded vegetation[J].Water Qual Res J Can,1996,31:305-318.
    [18] Thérien N,Morrison K.In vitro release of mercury and methylmercury from flooded organic matter[A].In:Lucotte M,Schetagne R,Therien N,et al(ds),Mercury in the biogeochemical cycle:natural environments and hydroelectric reservoirs of northern Québec[C].Berlin,New York,Springer.1999.
    [19] Hall B D,St Louis V L,Bodaly R A.The stimulation of methylmercury production by decomposition of flooded birch leaves and jack pine needles[J].Biogeochemistry,2004,68:107-129.
    [20] Ramlal P S,Rudd J W M,Hecky R E.Methods for measuring specific rates of mercury methylation and degradation and their use in determining factors controlling net rates of mercury methylation[J].Appl Environ Microbial,1986,51:110-114.
    [21] St Louis V L,Rudd J W M,Kelly C A,et al.The rise and fall of mercury methylation in an experimental reservoir[J].Environ Sci Technol,2004,38:1 348-1 358.
    [22] Grondin A,Lucotte M,Mucci A,et al.Mercury and lead profiles and burdens in soils of Québec(Canada) before and after flooding[J].Can J Fish Aquat Sci,1995,52:2 493-2 506.
    [23] Lucotte M,Montgomery S,Begin M.Mercury dynamics at the flooded soil-water interface in reservoirs of Northern Quebec:in situ observations[A].In:Lucotte M,Schetagne R,Therien N,et al(eds),Mercury in the Biogeochemical Cycle,Natural Environments and Hydroelectric Reservoirs of Northern Quebec[C].Berlin,New York,Springer.1999.
    [24] Montgomery S,Mucci A,Lucotte M.The application of in situ dialysis samples for close interval investigations of total dissolved mercury in interstitial waters[J].Water Air Soil Pollut,1996,87:219-229.
    [25] Ramlal P S,Kelly C A,Rudd J W M,et al.Site of methylmercury production in remote Canadian Shield lakes[J].Can J Fish Aquat Sci,1993,50:972-979.
    [26] Ducheminé,Lucotte M,Canuel R.Source of organic matter responsible for greenhouse gas emissions from hydroelectric complexes of the boreal region[A].Fourth International Symposium on the Geochemistry of the Earth's Surface[C].Ilkley,UK.1996.
    [27] Watras C J,Bloom N S.The vertical distribution of mercury species in Wisconsin lakes:accumulation in plankton layers[A].In:Watras C J,Huchabee J W(eds),Mercury Pollution-Integration and Synthesis[C].Lewis Publishers,Boca Raton,FL.1994.
    [28] Montgomery S,Lucotte M,Rheault I.Temporal and spatial influences of flooding on dissolved mercury in boreal reservoirs[J].Sci Tot Environ,2000,260:147-157.
    [29] Brigham M E,Krabbenhoft D P,Olson M L,et al.Mthylmercury in flood-control inpoundment and natural waters of Northwestern Minnesota,1997-1999[J].Water Air and Soil Pollut,2002,138:61-78.
    [30] Canavan C M,Caldwell C A,Bloom N S.Discharge of methylmercury-enriched hypolimnetic water from a stratified reservoir[J].Sci Tot Environ,2000,260:159-170.
    [31] Gagnon C,Pelletier E,Mucci A,et al.Diagenetic behaviour of methylmercury in organic-rich coastal sediments[J].Limnol Oceanogr,1996,41(3):428-434.
    [32] Paterson M J,Rudd J W M,St Louis V.Increases in total and methylmercury in zooplankton following flooding of a peatland reservoir[J].Environ Sci Technol,1998,32:3 868-3 874.
    [33] Kehrig H A,Malm O,Akagi H,et al.Methylmercury in Fish and Hair from Balbina Reservoir,Brazilian Amazon[J].Environ Res,1998,77:84-90.
    [34] 徐小清,肖定帮,方涛,等.三峡库区非线性延迟的环境效应及其防治对策[J].长江流域资源与环境,2002,11(1):74-78.
    [35] 徐小清,丘昌强,邓冠强,等.三峡库区汞污染的化学生态效应[J].水生生物学报,1999,23(3):197-203.
    [36] Hall B D,Rosenberg D M,Wiens A P.Methylmercury in aquatic insects from an experimental reservoir[J].Can J Fish Aquat Sci,1998,55:2 036-2 047.
    [37] Johnston T A,Bodaly R A,Mathias J A.Predicting fish mercury levels from physical characteristics of boreal reservoirs[J].Can J Fish Aquat Sci,1991,48:1 468-1 475.
    [38] Anderson M R,Scruton D A,Williams U P,et al.Mercury in fish in the smallwood reservoir,Labrador,twenty one years after impoundment[J].Water,Air and Soil Pollut,1995,80:927-93.
    [39] Ikingura J R,Akagi H.Total mercury and methylmercury levels in fish from hydroelectric reservoirs in Tanzania[J].Sci Tot Environ,2003,304:355-368.
    [40] Gilmour C C,Henry E A.Mercury methylation in aquatic systems affected by acid deposition[J].Environ Pollut,1991,71:131-169.
    [41] Brouard D,Demers C,Lalumiere R,et al.Summary Report:Evolution of FishMercury Levels in fish of the La Grande Hydroelectric Complex,Québec(1978-1989)[R].Hydro Québec,Montreal,PQ.1990.
    [42] Meili M.Mercury in Lakes and Rivers[A].In Sigel A,Sigel H,(eds),Metal ions in biological systems:Mercury and it effects on the environment and biology[C].Marcel Dekker,New York,NY.1997.
    [43] Barkay T,Gillman M,Turner R R.Effects of dissolved organic carbon and salinity on bioavailability of mercury[J].Appl Environ Microbiol,1997,63:4 267-4 271.
    [44] Back R C,Watras C J.Mercury in zooplankton of northern Wisconsin lakes:taxonomic and site-specific trends[J].Water Air and Soil Pollut,1995,80:931-938.
    [45] Driscoll C T,Blette V,Yan C,et al.The role of dissolved organic carbon in the chemistry and bioavailability of mercury in remote Adirondack lakes[J].Water Air and Soil Pollut,1995,80:499-508.
    [46] Diamond M,Ganapathy M,Peterson S,et al.Mercury dynamics in the Lahontan Reservoir,Nevada:Application of the Qwasi fugacty/Aquivalence multispecies model[J].Water Air and Soil Pollut,2000,117:133-156.
    [47] Schetagne R,Doyon J F,Fournier J J.Export of mercury downstream from reservoirs[J].Sci Tot Environ,2000,260:135-145.
    [48] Schetagne R,Doyon J,Fournier J.Export of methylmercury downstream of reservoirs[A].In:Barbosa JP,Boas RV,Melamed R(eds),Book of Abstracts of Fifth International Conference on Mercury as a Global[C].Pollutant,23-28 May 1999,Rio de Janeiro.1999.
    [49] Jiang Hongmei,Feng Xinbin,Dai Qianjing.Damming Effect on the Distribution of Mercury in Wujiang River[J].Chinese Journal of Geochemistry,2005,24(2):179-183.
    [50] 王雨春.人为活动对流域生源要素生物地球化学行为影响的研究[D].北京:中国科学院生态环境研究中心,2003.
    [51] Ullrich S M,Tanton T W,Abdrashitova S A.Mercury in the aquatic environment:a review of factors affecting methylation[J].Critical Reviews in Environmental Science and Technology,2001,31(3):241-293.
  • [1] 宋策, 周孝德, 唐旺.  水库对河流水温影响的评价指标 . 水科学进展, 2012, 23(3): 419-426. doi: CNKI: 32.1309.P.20120501.1617.004
    [2] 赵炎, 曾源, 吴炳方, 陈永柏, 王强, 袁超.  水库水气界面温室气体通量监测方法综述 . 水科学进展, 2011, 22(1): 135-146.
    [3] 万新宇, 包为民, 王光谦.  基于相似性的多沙水库坝址含沙量预测 . 水科学进展, 2010, 21(1): 36-42.
    [4] 梅亚东, 杨娜, 翟丽妮.  雅砻江下游梯级水库生态友好型优化调度 . 水科学进展, 2009, 20(5): 721-725.
    [5] 袁晶, 张小峰, 张为.  可变网格下的水库滑坡涌浪数值模拟研究 . 水科学进展, 2008, 19(4): 546-551.
    [6] 范丽丽, 沙海飞, 吴时强, 周辉, 陈惠玲.  水库深孔挑射出流对复氧的试验研究 . 水科学进展, 2006, 17(2): 176-180.
    [7] 高波, 王银堂, 胡四一.  水库汛限水位调整与运用 . 水科学进展, 2005, 16(3): 326-333.
    [8] 尹正杰, 胡铁松, 崔远来, 王小林, 曾志炫.  水库多目标供水调度规则研究 . 水科学进展, 2005, 16(6): 875-880.
    [9] 程金平, 刘彩娥, 王文华.  汞等重金属元素在黄浦江中迁移富集研究 . 水科学进展, 2005, 16(6): 767-772.
    [10] 邱瑞田, 王本德, 周惠成.  水库汛期限制水位控制理论与观念的更新探讨 . 水科学进展, 2004, 15(1): 68-72.
    [11] 王本德, 于义彬, 刘金禄, 王淑英.  水库洪水调度系统的模糊循环迭代模型及应用 . 水科学进展, 2004, 15(2): 233-237.
    [12] 周祖昊, 袁宏源, 崔远来, 罗强.  有限供水条件下水库和田间配水整合优化调度 . 水科学进展, 2003, 14(2): 172-177.
    [13] 韩菲, 陈永灿, 刘昭伟.  湖泊及水库富营养化模型研究综述 . 水科学进展, 2003, 14(6): 785-791.
    [14] 马光文, 王黎, 过夏明.  分时电价下多用途水库的运用方式研究 . 水科学进展, 2002, 13(5): 583-587.
    [15] 王玲玲, 严忠民.  石梁河水库消力池强紊动水流的数值模拟 . 水科学进展, 2002, 13(3): 363-367.
    [16] 邬红娟, 郭生练.  水库水文情势与浮游植物群落结构 . 水科学进展, 2001, 12(1): 51-55.
    [17] 邵东国, 宋星源, 夏军, 孙志强.  洋河水库防洪实时优化调度模型研究 . 水科学进展, 1999, 10(2): 135-139.
    [18] 陈俊合, 陈小红.  水库三维Fe、Mn迁移模型——阿哈水库实例研究 . 水科学进展, 1999, 10(1): 14-19.
    [19] 都金康, 周广安.  水库群防洪调度的逐次优化方法 . 水科学进展, 1994, 5(2): 134-141.
    [20] 申献辰.  官厅水库水和沉积物中的重金属 . 水科学进展, 1992, 3(4): 288-294.
  • 加载中
计量
  • 文章访问数:  8
  • HTML全文浏览量:  5
  • PDF下载量:  542
  • 被引次数: 0
出版历程
  • 收稿日期:  2006-02-06
  • 修回日期:  2006-05-20
  • 刊出日期:  2007-05-25

水库汞生物地球化学循环研究进展

    基金项目:  中国科学院"百人计划"资助项目;国家自然科学基金资助项目(40532014)
    作者简介:

    蒋红梅(1976- ),女,重庆人,博士,主要从事环境地球化学研究.E-mail:jianghongmei@ccrdi.cmhk.com

  • 中图分类号: X524;G353.11

摘要: 对近年来国内外有关水库汞生物地球化学循环的研究现状进行了综述,主要从基质释汞行为、汞释放对水体的影响、汞在水库水生食物链中的迁移富集和水库对河流汞输送的影响等四个方面进行了探讨,并指出该领域研究工作的薄弱环节及发展方向.

English Abstract

蒋红梅, 冯新斌. 水库汞生物地球化学循环研究进展[J]. 水科学进展, 2007, 18(3): 462-467.
引用本文: 蒋红梅, 冯新斌. 水库汞生物地球化学循环研究进展[J]. 水科学进展, 2007, 18(3): 462-467.
JIANG Hong-mei, FENG Xin-bin. Developments in the biogeochemical cycle of mercury in reservoirs[J]. Advances in Water Science, 2007, 18(3): 462-467.
Citation: JIANG Hong-mei, FENG Xin-bin. Developments in the biogeochemical cycle of mercury in reservoirs[J]. Advances in Water Science, 2007, 18(3): 462-467.
参考文献 (51)

目录

    /

    返回文章
    返回