Verfügbarkeit: Fourth International Conference on Mercury as a Global Pollutant

Fourth International Conference on Mercury as a Global Pollutant: August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts]

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Bibliographische Detailangaben
Körperschaft:	International Conference on Mercury as a Global Pollutant Hamburg (VerfasserIn)
Format:	Tagungsbericht Buch
Sprache:	German
Veröffentlicht:	Geesthacht 1996
Schlagworte:	Quecksilberbelastung Umweltgift Quecksilber Konferenzschrift > 1996 > Hamburg
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Nebent.: Mercury as a global pollutant
Beschreibung:	XXXI, 521 S.

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Datensatz im Suchindex

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adam_text	Ţnhlp Of Contents ю- -------- 2 global mercury cycle-how large is the human impact? .......................................... Rodne, H. ji· Ч Mercury contamination in the developing world: problems and soluùons.......................... ClcsTY ΐ) btematìmalagreementsforlimitatìonandreductìonofheavymetalsandpersistent ........... ^ organic pollutants (POP) ............................................................... Jost, D. and Schmid, E. Session 1__________--------—-----------—-------------------- ~ Human Health: Canadian Aboriginal ........................·............... 5 Exposure patterns and long term sequelae on adults and children in two Canadian indigenous communities exposed to methyhnercury .................................................. D Wheatley, B. and Paradis, S. Social and cultural impacts of mercury pollution on Aboriginal Peoples in Canada ...............7 Wheatley, MA. Fish consumption and contaminants in fish: A model of MeHg risk exposure .....................8 Paradis, S. and Wheatley, B. Session 2_________________________________________________--------- Human Health: Amazon ..........................................................9 Follow-up of mercury levels in fish, human hair and urine in the Madeira and Tapajós basins, Amazon, Brazil ........................................................................10 Malm, O., Guimarães, J-RJD., Castro, M.B., Bastos, WH., Viana, J.P., Branches, FJ.P., Silveira, E.G., and Pfeiffer, W.C. Fish contamination and human exposure to mercury in Rio Tartarugalzinho, Amapa, Northern Amazon ............................................................................... Ц Bidone, E.D., Castilhos, Z.C., Santos, U.S., Souza, T-M-C, and Lacerda, L.D. Mercury contamination of riverine populations of apiacás region in the Brazilian Amazon ....................................................................................................12 Barbosa, A-C, Garcia, M.A., de Souza, J.R, Barreto, F.A.B., Botan, Cde J., and Nascimento E.C.M. Session З _____________________ Human Health: International ..................................................13 Altered motricity in Amazonian populations exposed to methyknercury .................. 14 Lebel, J., Mergler, D., Branches, F., Lucotte, M., Amorim, M., Dolbec, J.,Soumis, N. and .............. Couillard, A. Studies on the levels of Hg and MeHg accumulated in the bodies of special stouds of the population living on the river Songhua ............................;.,_ 15 Ming, G., Cinan, G., et al. ................................. ш The health safety program for workers exposed to elemental mercury at the mercury mine in Idrija ..............................................................................................16 Kobal, A. and Dizdarevic, T. Session 4 Aquatic Systems: Watersheds 1 ..............................................17 Seasonal influences on partitioning and transport of total and methylmercury from contrasting watersheds ...................................................................................18 Babiarz, Cl., James P. Hurley, J.P., Benoit, J.M., Shafer, M.M, Andren, A.W., and Webb, D.A. Stomatal uptake of CE^HgClCg) in Norway Spruce - an important pathway for the deposition of methylmercury to forest ecosystems ...................................................19 Munthe, J., Karlsson, P.-E. and Schager, P. Catchment inputs of mercury and methylmercury to freshwaterecosystems: A review ......................................................................................................20 Bishop, K.H., and Lee, Y.H. Session 5____________________________________________________ Aquatic Systems: Watersheds II .............................................21 Total and methylmercury concentrations and fluxes from small catchments in South-Finland ............................................................................................22 Verta, M., and Porvari, P. Factors affecting mercury and methylmercury in runoff waters from forested catchments - statistical evaluation using multivariate methods .......................................23 Parkman, H., Munthe, J., Röttorp, J., and Hultberg, H. Ecosystem turnover of atmospheric methylmercury and mercury in relation to critical load of methylmercury to aquatic environments ..............................................24 Iverfeldt, À., Verta, M., Parkman, H., Porvari, P., Munthe, J., and Hultberg, H. Session 6____________________________________________________ Aquatic Systems: Selenium ....................................................25 Dramatic effects of selenium addition to lakes on the mercury and selenium concentrations and the survival of fish .................................................................26 Meili, M. Methylmercury and selenium interactions in aquatic ecosystems ...................................27 Hultberg, H., Verta, M., Munthe, J., Parkman, H. and Bengtsson, Å. Mercury levels in perch (Perca fluviatilis) in relation to environmental factors in Norway ....................................................................................................28 Fjeld, E., and Rognerud, S. Session 7____________________________________ Atmosphere: Atmospheric Processes .......................................29 Modelling the atmospheric chemistry of mercury. Validation and sensitivity analysis of different deposition processes ........................................................................30 Pleijel, K., and Munthe, J. iv ^tribution and orighs of тегсшу species іпШер^^ ................. 31 Bloom, N.S., Prestbo, RM. Tokos, J.S., Von der Geest, E., and E.S. Kuhn Total- and methyl-mercuiy wet deposition: findings fJheNa^nal Atinosphenc Deposition Program s Mercury Deposition Network (NADP/MDN)..............................- Vermette, S., Bloom, N.. and Lindberg, S. Atmosphere: Deposition Processes .......................................... 33 A Comprehensive Eulerian Modelling Framework for Airborne Mercury Species: Development and Application of a Tropospheric Chemistry Module ...............................¿4 Petersen, G., Munthe, J., Bloxam, R., and Kumar, A.V. Modeling the Atmospheric Chemistry of Mercury Using Naturally Occurring, Particle-Reactive Radionuclides .........................................................................35 Lamborg, C.H., and Fitzgerald, W.F. Dry deposition of atmospheric mercury: recent measurements and implications for future studies ..............................................................................................36 Keeler, GJ., Glinson, G., and Evans, G. Session 9___________________________________________________ Atmosphere: Long Range Transport .......................................37 Lagrangian Modeling of Mercury Air Emission, Transport and Deposition with Source-Type Шсгіїгапайоп .............................................................................38 Bullock, Jr., O. R. Transport and wet deposition of atmospheric mercury to Lake Michigan .........................39 Landis, M.S. and Keeler, GJ. A Eulerian model of mercury atmospheric transport, chemistry and deposition ..................40 Bloxam, R., Schroeder, W.H., and Petersen G. Session 10__________________________________________________ Analytical: Novel Methods For Organomercury ........................41 ¡niSiŠS^gS^™^™^^^^ ......... Hintelmann, H., and Evans, R.D. ................................................. Mercury speciation: A fully automatic gas chromatography/atomic fluorescence in- Stockwëi p^ ^ ................................................. 43 -ICP-MS Falter, R., and ligen, G. Analytical: Novel Methods For Total Mercury. 45 .46 Novel analytical method for determination of low levels of total mercury in petroleum and its products by gold amalgamation CV AFS .........................................47 Liang, L., Horvat, M., and Danilchik, P. ATMOS HG - A novel mercury spectrometer .........................................................48 Sholupov, S.E., Ganeyev, AA, and Zhang, J. Session 12_________________________________________________ Analytical: Analytical Interferences .......................................49 Resolution of matrix effects on analysis of total and methyl mercury in aqueous samples from the Florida Everglades ...................................................................50 Olson, ML., Cleckner, L.B., King, SA., Hurley, JP., and Krabbenhoft, DP. Artifact formation of methyl mercury during extraction of environmental samples by distillation ..................................................................................................51 Bloom, N.S., Colman, J.A., and Barber, L. Interferences in the collection of total gaseous mercury on gold-coated sand: Observations from South Rorida .......................................................................52 Gm, CA., Prestbo, E.M., Hall, В., Bloom, N.S., and Lindberg, S.E. Session 13__________________________________________________ Analytical: Quality Assurance 1 .............................................53 The IAEA intercomparison exercises for the determination of total and MeHg in marine biological samples ................................................................................54 Horvat, M., Liang, L., Azemard, S., Mandic, V., and Coquery, M. International field intercomparison measurements of atmospheric mercury species at Mace Head, Ireland .......................................................................................55 Ebinghaus, R., Jennings, S.G., Schroeder, W.H., Berg, T., Buttermore, L., DonaghyX, Ferrara, R., Guentzel, J., Kenny, C, Kock, H.H., Kvietkus, K., Mazzolai, В., Mühleck, T., Munthe, J., Prestbo, E.M., Schneeberger, D., Sommar, J., Urba, Α., Wallschläger, D., and Xiao, Z. Establishment and analytical quality control of laboratories for Hg determination in biological and geological samples in the Amazon-Brazil .............................................56 Bastos, W.R., Malm, O., and Cleary, D. Session 14__________________________________________________ Analytical: Quality Assurance II ............................................57 SM&T (BCR) activities for the quality control of mercurydetermination in the environment ...............................................................................................58 Quevauviller, Ph., Fortunati, G.U., and Kramer, K.K. Sequential extraction: an approach for the speciation of mercury compounds in soils and sediments .............................................................................................59 v.d. Kammer, F., Thoeming, J., Sobral, L.G.S., and Wilken, R,-D. Methods for measuring mercury and other trace species in rainfall, aerosols and the atmosphere in Rorida ....................................................................................60 Landing, W.M., Guentzel, JJL, Perry Jr., J J., Gill, G.A., and Pollman, CD. vi Session 15_______________________________________________________ Aquatic Systems: Lakes 1 ......................................................61 Fate of mercury in a seepage lake with increasing pH levels ........................................62 Garrison, PJ., Benoit, J.M., Cleckner, L.B, Rada, G.R., and Weiner, J.G. Mercury cycling in an experimentally acidified seepage lake .............................. 63 Watras, CJ., and Morrison, K.A. Changes in the biogeochemistry of methyl mercury following experimental flooding of a boreal forest wetland ........................................_ ЄЛ Rudd, J.W.M Bodaly, R.A., Branfireun, В., Hall, B.D., Harris . , Heyes! Äl. Kelly, C.A., ............. Paterson, M., Sellers, P., Sparling, R., and StXouis, VX. Session 16 _________ Aquatic Systems: Lakes II. Increases in mercury in fish and inver Bodaly, R.A., Paterson, MJ., Rosenber Rudd, J.W.M., and St. Louis, VX. weOľíľ61^ decOmposinS veSetation of a pristine and . Heyes, Α., Moore, T.R., and Rudd, Üwi.............................................................. 67 ................68 Aquatic Systems: Lakes III ........... Factors regulating the bioeeochpmictr,,^ ................................................69 Adirondack Region ofK^k^SA Щ ІП remote lakes ώ ^ CX.Yan.C.Schofield,^^^^^ ..................................70 :Hnf mo^d (R-MCM) to 23 MAPP lakes in ^.сл·.^ ?^!^^ . ......................... 71 •and Bowles, K. ° - ІШ^У, Papua New Guinea .............. 72 Aquatic Systems: - 76 ,S.M., and Goldman! CJL VD Session 19_______________________________________________ Aquatic Systems: Sediments II ...............................................77 Mercury distribution in sediment cores from southern Amazon lakes ..............................78 Gomes, MR., Ayres, G Α., and Lacerda, L.D. Mercury Speciarion in Samples from Marine, Limnic and Terrestrial Ecosystems ...............79 Emons, H., Rossbach, M., May, К., and Augustin-Castro, В. Mercury and lead burdens in soils, lichen and snow as indicators of atmospheric deposition in Québec (Easthern Canada) ...............................................................80 Caron, B. and Lucotte, M. Session 20 _____________________________________________________ Biogeochemical Cycling: Historical Trends ..............................81 Emissions and historical records of mercury pollution in North America during the past 150 years .............................................................................................82 Pirrone, N.. Keeler, GJ., Nriagu, J.O., and Allegrini, I. Recent Declines in Atmospheric Mercury Deposition in the Upper Midwest, USA ..............83 Engström, DR., and Swain, E.B. Historic mercury deposition and biota accumulation .................................................84 Porcella, D.B., Swain, E.B., Engstrom, D.R., and Keirstad, M. Session 21__________________________________________________ Biogeochemical Cycling: Global Cycles ...................................85 Comparative study of mercury and cadmium speciation with respect to their global abundances ................................................................................................86 Tauson, VI., Zúbkov, V.S., Men shikov, V.l., and Parkhomenko, I.Y. Mercury Emissions from Voléanos .....................................................................87 Fitzgerald, W.F. Mercury as a pollutant in Siberia: sources, fluxes and contribution to the global cycles .......................................................................................................88 Obolensky, A.A., and Yagolnitser, M.A. Session 22___________________________________________________ Biogeochemical Cycling: Global and Oceanic Cycles ..................89 A global view of the sources and sinks for atmospheric organic mercury .........................90 Prestbo, E.M., and Bloom, N.S. The temporal evolution of methyl mercury concentrations of different flooded soils of northern .................................................................................................91 Begin, M., and Lucotte, M. A regional mercury budget for Siberia and the contribution of the region in global balances ....................................................................................................92 Sukhenko, S.A. and Vasiliev, O.F. vui Session 23 Biogeochemical Cycling: Regional Terrestrial Cycles ................93 Atmospheric transport and deposition of mercury in Rorida ........................................94 Guentzel, JI», Landing, W.M., Gill, G Α., and Pollman, CD. The relative importance of slash and bum agriculture on the presence of mercury in Amazonian forest ecosystems ...........................................................................95 Roulet, M., Lucotte, M., Farella, N.. Serique, G., Coelho, HL, Sousa Passos, C J., De Jesus da Siva, E., and Scavone de Andrade, P. Hg and methylmercury budgets for the Patuxent river, a subestuary of Chesapeake Bay, USA ..................................................................................................96 Gilmour, C.C, Mason, R., Riedel,G., Sullivan, K., and Benoit, J. Session 24 ____________________________________________ Biogeochemical Cycling: Regional Marine Cycles ......................97 Speciation and Mass Balance of Mercury in the Lower St-Lawrence Estuary and Saguenay Fjord (Canada) ................................................................................98 Cossa, D.andGobeil.C Sources and cycling of mercury and methylmercury in Long Island Sound: Preliminary results ........................................................................................99 Vandal, G., Fitzgerald, W., Rolfhus, K., Russ, C, and Lamborg, C. Natural formation rates of reduced mercury and methylmercury in the Scheldt estuary and the North Sea. ............................................................. доО Baeyens, W. and Leermakers, M. 2 Human Health: Epidemiology .................... 101 ^SÄrLSTSXÄ^Í^^»^ ............. IM Cramp, K., Kjellstrom, T., Shipp, Α., Silvers, A. and Stewart, A. ............................. Monitoring methylmercury during pregnancy in the Seychelles Islands 103 Cemicman. E.. Rnwr ρ . — ~ » ... ·> Ш1ио ................ ШЈ Human Health: Risk ............................................................105 Probabilistic assessment of human health risks from exposure to methylmercury: Application to aboriginal peoples in Canada .........................................................106 Hill, R.A., Hoover, SM., and Watson, T.A. Application of Pharmacokinetic Mode Tools for Evaluatin h I 107 IX Regional multimedia modeling of mercury health risk .............................................108 Seigneur, C, Pai, P., Mitchell, D., and Levin, L. Session 27__________________________________________________ Human Health: Risk/Policy ...................................................109 Mercury in the environment of the industrial city (Central Russia, Mordovian Republic, Saransk) .....................................................................................110 Yanin, E.P. Methylmercury and human health: A critical review of the epidemiology with special reference to exposure uncertainties ........................................................... Ill Lipfert, F.W. Integrated assessment of ecological and human health risk of mercury exposure ...............112 Schoeny, R., Mahaffey, КЛ., Rice, G., and Keating, M. Session 28__________________________________________________ Aquatic Systems: Food webs 1 ..............................................113 Methylmercury dynamics from a foodweb and a modeling perspective ..........................114 Tsalkitzis, E., and Bloom, N.S Trophic-level comparisons of total mercury concentrations and pool sizes in two lakes with contrasting food web structures ..........................................................115 McQueen, DJ., Mierle, G., Petri, B.M., Demers, E., Ramcharan, С, Wong, АЛ-К-, Amyot, M., Yan, NJ)., Popiel, S.A., Rocchi, A.M., Hughes, К., and Sutey, S. Mercury concentration and speciation in the plankton of northern Wisconsin lakes ............116 Back, R.C. and Watras, C J. Session 29__________________________________________________ Aquatic Systems: Food webs Π .............................................117 Mercury and methylmercury accumulation in aquatic insects of Northern Québec, Canada ...................................................................................................118 Tremblay, Α., Lucotte, M., and Cloutier, L. Availability of sediment-bound methyl and inorganic mercury to a suspension feeding mussel ..........................................................................................119 Gagnon, C, and Fisher, N.S. Seasonality of total mercury and methylmercury in water and plankton from low alkalinity lakes in Northeastern Minnesota ...........................................................120 Monson, В., Brezonik, P., Strassman, R., and Swain, E. Session 30___________________________________________________ Aquatic Systems: Birds .......................................................121 Quantification of pollution inputs of mercury to epi-pelagic and meso-pelagic marine food chains ......................................................................................122 Furness, R.W., Thompson, DJL, and Monteiro, LJR. Methylmercury accumulation in an insectivorous song bird breeding near an experimentally created reservoir .......................................................................123 St-Louis, V.L., Rudd, J.WM., Rosenberg, D.M., Omole, R., Gemuti, P., and Weins, AJ. Мссшу expose of passerine bMs inicióse »local emission source,in Norway and Slovakia ...............................;··;..... Stuwer Rosten, L., Kalas, LA., Mankovska, В., and Stemnes, E. Atmosphere: Atmospheric Measurements ................................ 125 Atmospheric mercury in the Great Lakes region: Spatial and seasonal variation in ^ gas-and particle-phase mercury concentrations ..................................................... Burice, JM. and Keeler, G J. Monitoring of atmospheric mercury at Cape Point and Wank .....................................127 Slemr, F., Robertson, P., and Brankę, E. High-temporal-resolution measurements of total gaseous mercury in air at Alert, Northwest Territories, Canada ....................................................................... ll° Schroeder, W.H., and Schneeberger, Du. Session 32-----------------------------------------------_------------------------------ Atmosphere: Air Water Exchange .........................................129 Modeling the effect of light on volatile mercury production in lakes .............................130 Amyot, ML, Greg Mierle, G, Lean.D.R.S., Gill, G Α., and McQueen, DJ. The kinetics of elemental Hg production in natural and purified waters ..........................131 Rolfhus, KLR., and Fitzgerald, W.F. Micrometeorological studies of air/surface exchange of mercury vapor over Lake Gardsjon, Sweden and in the Florida Everglades ...................................................132 Lindberg, S. E., Meyers, T. P., and Munthe, J. Session 33__________________________________________________ Atmosphere: Emissions from Terrestrial Systems .....................133 Mercury fluxes from contaminated floodplains to the atmosphere - their determination and mechanism .......................................... I34 Wallschläger, D., Kock, H.H., Schroeder, W.H., Ebinghaus, R., and Wilken, R.-D. ..................... SoiVatmosphere exchange of methyl mercury and inorganic mercury: Evidence for the photo-snmulated emission of Hg° .................... ;_ 1№υι Carpi, Α., Lindberg, S.E., Prestbo, E.M., and Bloom, N.S. Poissant, L., and Casimir, A. ................................................................ Light induced flux of mercury from substrate. . 1 γ, Sexaver Gustin, M., and Taylor, G.E. .................................................. ession 3d____________ Contaminated Sites: Mining I XJ ь ........................................ 139 Maseru, B.E.Fenara, R., PamcM.MXandStomi. M.* ............................................ И0 Xl Database of sites of historic mercury amalgamation milling of gold and silver ores in the United States .....................................................................................141 ВаѕпатЈВХ., Lechler, PJ., and Miller, ЈЛ. Mercury contamination and specian on in the Carson River and Lahontan Reservoir ...........142 Mach, CJE., Peterson, S., and Bloom, N.S. Session 35_____________-------------------------------------------------------- Contaminated Sites: Mining Π ..............................................143 Biomonitoring of mercury contamination in the Idrija mining area using terrestrial wildlife ...................................................................................................144 Gnam us, A. , and HorvatJL Atmospheric mercury deposition and distribution in soils from Southern Amazon .............145 Souza, M., Ayres, CA., and Lacerda, L.D. Atmospheric mercury sources in the ML Amiata area ..............................................146 Ferrara, R. and Mazzolai, В. Session 36_______________________________________ Contaminated Sites: Industrial Sites 1 .....................................147 Temporal variation of mercury and its organic mercury species at the sites of three former caustic soda plants .............................................................................148 Hempel, M., Wilken, R.-D., and Schaule, G. Distribution, bioavalability and speciation of mercury in contaminated soils and groundwater of a former wood impregnation plant .................................................149 Schöndorf, Th., Egli, M., Biester, H., Mailahn, W., and Rotard, W. Simulating the distribution of mercury in a large, shallow lake with multiple basins ...........150 Bale, AJE. Session 37__________________________________________________ Contaminated Sites: Industrial Sites II ...................................151 Mercury in the Imandra Lake, Murmansk Region, Russia ........................................152 Dauvalter, V., Moiseenko, T., Rodyushkin, I., Öhlander, В., Ponter, С, Kudryavtseva, L., Sharov, Α., ödman, F., and Peinerud, E. Paniculate mercury fluxes from the most contaminated area in Ria de Aveiro, Portugal ..................................................................................................153 Pereira, MJE., Duarte, A-C, and Millward, G.E. Mercury contamination in resource rich Guizhou Province in China .............................154 Jingyi, L., Weiyuan, H., and Liya, Q. Session 38___________________________________________________ Contaminated Sites: Remediation I ........................................155 Evaluation of Various Remediation Options for Onondaga Lake .................................156 Bigham,G.N., Henry, Ε,Α., and Dodge-Murphy, L J. Remediation goals for human and ecologicalexposure to soil mercury at cast fork poplar creek, Oak Ridge, Tennessee .................................................................157 Hadden, CT., Cornaby, B.W., and Zafran, F.Z. xu Mercuiy bioaccumulation, exposure, and ecological risks at the Carson River site, Nevada ................................................................................................... Peterson, S.C. Session 39________________________________——------------——------------------------ Contaminated Sites: Remediation Π .......................................159 Remediation technology of mercury contaminated soil by low temperature thermal treatment .................................................................................................160 Matsuyama, A-, Hayasaka, H., Higaki, K., Yabuta, H., Sano, T., and Akagi, H. Remediation of mercury contaminated soils by electroleaching ...................................161 Thöming, J., Sobral, LCS., Santos, R.L.C., Hempel, M., and Wilken, R.D. Removal of mercury from groundwater using air stripping after tin reduction ..................162 Turner, R. R., and Southworth, G. R. Session 40___________________________________________________________ Aquatic Systems: Everglades 1 ..............................................163 Mercury transformation processes in the Everglades: Temporal variations in mercury phase and species distribution and controlled exposure experiments ..................164 Krabbenhoft, DP., Hurley, JP., Olson, Mi., and Cleckner, LU. System controls on the aqueous mercury distribution in the Northern Everglades ....... 165 Hurley, J.P., Krabbenhoft, DP., Aiken, G., Cleckner, L.B., King, S.A., and Olson, ML. ............. Mercury methylation and sulfur cycling in the Northern Everglades ... 166 Gilmour, CC, Gill, GA., Stordal, M.C., and Spiker, E. Session 41 Aquatic Systems: Everglades II. 167 168 Relationships between Water Chemistry and Trophic Transfer of Total and Methyl Mercury in the Northern Everglades .................................................................. Cleckner, L.B., Garrison, PJ., Hurley, J.P., and Krabbenhoft, DP. Spatial and temporal patterns of mercury contamination in fish from the Rorida Everglades ...............................................................................................169 Lange, T.R., Royals, HJE., and Ware, FJ. An environmental screening model analysis of mercury in the Florida everglades .............170 Ambrose Jr., R. В., Shell, K.-J., and Tsiros, I. Aquatic Systems: Methylation I ............................................. Multi-media monitoring of mercury and associated parameters in the Everglades canalsystem .......................................................................* Stober, Q J., Jones, R.D., Scheidt, DJ., and Thornton, К. 171 172 _____., ^w., culli II Sulfate stimulation of MeHg production in incubated peat? .......................................173 Heyes, Α., Moore, TIL, Rudd, J.W.M., and Kelly, C.A Hg methylation in a lake of the Pantanal floodplain, Brazil ........................................174 Guimarães, J.R.D., Malm, O., Brito, E.M.S., and Meili, M. ХШ Sexsion 43------------------------------------------------------------------------- Aquatic Systems: Methylation II ...........................................175 A stable isotope study of methylmercury production and turnover in forests soils: Methods development and initial results .............................................................176 Munthe, J., Parkman, H., Lee, Y.-H., Iverfeldt, À., Hultberg, H., and Haraldsson, C. Bacterial mercury resistance genes in polluted soils and sediments ...............................177 Bruce K.D., Strike P., and Ritchie DA. Photodegradation of methylmercury in lakes ........................................................178 Sellers, P., Kelly, CA., and Rudd, J.W.M. Session 44__________________________________________________ Aquatic Systems: Fish 1 .......................................................179 Influence of growth rates on mercury accumulation in fish. I. Empirical analyses of the growth dilution hypothesis ........................................................................180 Trudei, M., and Rasmussen, J.B. Use of polynomial regression analysis with indicator variables for interpretation of monitoring data of mercury levels in fish ............................................................181 Tremblay, G., Legendre, P. , Shetagne, R. , and Verdón, R. Different mercury bioaccumulation rates between sympatric populations of dwarf and normal lake whitefish {coregonus clupeaformis) in the La Grande Complex Watershed, James Bay, Québec .....................................................................182 Doyon, J.-F., Schetagne, R., and Verdón, R. Session 45__________________________________________________ Aquatic Systems: Fish Π ......................................................183 Methyl mercury accumulation in rainbow trout and the trout food chain in lakes Okareka, Okaro, Tarawera, Rotorua and Rotomahana, New Zealand ...........................184 Kim, JP., and Burggraff, S. Factors affecting fish mercury concentration in Arkansas lakes and streams, USA ............185 Thornton, K.W., Price, Α., Armstrong, M., Nix, J., Giese, J., and Turman, D. Mercury concentrations in predatory fishes from randomly-selected lakes in Maine, USA: Effects of species and environment ...........................................................186 Stafford, C, Haines, T., and Mower, B. Session 46__________________________________________________ Analytical: Atmospheric Hg II ..............................................187 Sampling and determination of gas phase divalent mercury with KC1 coated denuders ................................................................................................. igg Xiao, ZJ?., Sommar, J., Wei, S., and Lindqvist, O. Studies of gas-phase тегсигуСП) in ambient air ....................................................189 Stratton, WJ., and Lindberg, SE. Determination of atmospheric gaseous HgCii) at the pg/m3 level by collection onto cation exchange membranes, followed by dual amalgamation/cold vapor atomic fluorescence spectrometry .............................................................................190 Bloom, N.S., Prestbo, EM., and Von der Geest, E. XIV 47 191 Analytical: Flue Gases .....................................· ................ Inventoiy of anthropogenic mercury emission from Guizhou Province, China. ................ Ш Lindqvist, О., Wei, S., and Tan, H. Mercury in a peat-fired power plant: Mass balance study and speciation in the ................. ^ atmospheric emissions ...........................................................* 1................ Siemens, V., Tolvanen, M., Salmikangas, T., Hatanpää, E., Hofften, R, and Larjava, К. Experimental investigation of mercury speciation in coal combustion flue gases ...............194 Laudai, Dl., Galbreath, KX., and Zygarlicke, Ch J. Session 48______________.___________-------------------------------------------------- Atmosphere: Source Receptor Relationship .............................195 Large Scale Atmospheric Mercury and Trace Elements Measurements in Amazonia ...........196 ArtaxoJ»., Fernandes, E.T., MartinsJ.V., Yamasoe, M.A., Xiao, Z., Lindqvist, О., Maenhaut, W., Hacon, S., and Campos, R.C. The relationships between mercury, trace metals, and major ions in precipitation collected in Florida: The Rorida Atmospheric Mercury Study (FAMS) .........................197 Реїту jr., J J., Landing, W.M., Guentzel, J.L., Gill, GA, and Pollman, CD. A comparison of vapor phase, and fine and coarse paniculate atmospheric mercury at Perch river, New York (USA) .....................................................................198 Ames, M., Olmez, I., and Meier.S. Session 49_______________________________________________________ Atmosphere: Receptor Modelling and Exchange Rates ...............199 Receptor modeling of atmospheric mercury in South Florida: Preliminary results .............200 Zweidinger, RJS., Stevens, R.K., and Keeler, G. Atmospheric sources, transport and deposition of mercury in South Florida· SUAMPProject ............................................. «лі ϋνοηοΜ.Τ.,Οπιηβν,Ι.Κ., and Keeler, G J. .................................................... Mercury volatilization from riparian vegetation ....................... 202 Leonard, TJL.SexauerGustin.M, and Taylor, G.E. .......................................... — ---------———________ Aquatic Systems: Humic Acids ............................ 203 Mercury speciation studies with humic acid ......................... A Desai,M.V.M.,andPadmanabhan,H. ......................................................... 204 «^-«205 , аи», V Datoek0· S-D- XV Session 51______________________________________________________ Human Health: Amalgam.....................................................207 Мегсшу bürden nom dental amalgam fillings .......................................................208 Halbach, SL Investigations on the interpretation power of the DMPS test for mercury .......................209 Drasch, G., Scharl, К., Roider, G., Schiwara, H.-W., and Zilker, Th. Postersessions________________________________________________211 Human Health - 1 ...............................................................211 Determination of mercury in urine and hair for dentists and medical personnel in Brasilia - Brazil ..........................................................................................212 Barbosa, A-C, Cruz, TJHLE., Barreto, FA-B., Botan, Cde J., and Nascimento, E-CM. Application of principal component analysis to methylmercury dose-response data. ...........213 Hoover, SM, Hill, R.A., and Watson, T.A. Mercury in northern Québec: Role of the mercury agreement and status of research and monitoring ..........................................................................................214 Chevalier, G., Dumont, C, and Langlois, C. Information tools related to mercury in the environment and to human exposure for the James Bay Cree .....................................................................................215 Sbeghen, J., and Noöl, F. Assessing the oral bioavailability of inorganic mercury in soil ....................................216 Schoof, RA., Ruby, M/V., and Nicholson, A. Mercury in the atmosphere of St.Petersburg — distribution, origins and influence on human health .........................................................................................217 Dreval, T.V., Mashyanov, N.R., Ryzhov, V.V., Sholupov, SJE., Reshetov, V.V., Sobolev, M.B., and Vorms V.V. Accumulation and excretion of mercury by rats when food is supplemented by inorganic salt ............................................................................................218 Bolotnikov, LA., Volokhova, N.I., Ostashkova, V.V.I, Timopheev, A.D., and Huvarinen, H. Eritroţest - the effective method for the evaluation of the toxic effect of mercury on organisms ................................................................................................219 Bolotnikov, LA., and Zharskaya, V.D. Determination of mercury in human tissues coming from an industrial district by CV AAS techniques .....................................................................................220 Baranowska, I., Szmyd, E., Baranowski, J. Surplus mercury—scientific questions facing policymakers .......................................221 Anscombe, F.R. Mercury values in urine of inhabitants of StPetersburg ...........................................222 Pogarev S.E., Ryzhov V.V., Dreval T.V., and Mashyanov N.R. The effect of mercurial intoxication on lipid metabolism and pol processes in rats .............223 Ostashkova, V.A., Sudakova, N.M., and Volokhova, N.I. Exposure to metallic mercury in workers in a tropical chloralkali plant evaluated through urine analysis, Rio de Janeiro, Brazil ......................................................224 Malm, 0., Calasans, C, Fernandes Α,Ρ., Bastos, WJR. and Pfeiffer, W.C. Correlation of mercury with selenium in human scalp hair at a typical mercury- polluted area in China ..................................................................................225 Chai, Ζ., Feng, W., Qian, Q., and Guan, M. xvi Medico-biological studies of the low-dose mercury effects upon the organism of children ................................................................................................... 226 Zharskaya, V.D., and Chukhlovina, MX. The evaluation of internal doses of mercury at intermittent exposure to Hg°at the mineinldrija ............................................................................................ Kobal, Α., Nanut, E., Horvat, M., Stegnar, P., and Sabadin, A. Mercury levels in Vietnamese pregnant women as neutron activation analysis and influence of industrial waste on public health and agricultural environment .....................228 Anh, N.T., Dung, RM., Mua, L.T, Tien, H.T., and Nghia, ND. Risk assessment of mercury in Alta Floresta Amazon Basin ......................................229 Hacon, S., Rochedo, E-RJR., Campos, R., and Drude de Lacerda, L. Some theoretical and applied aspects of technogenic mercury in soil .............................230 Korshun, M.N. Toxicity and hazard of inorganic mercury derivatives (experimental data) .......................231 Trachtenberg, M., and Korshun, M.N. Studies on problems of mercury hazard for human health in Ukraine ............................232 Trachtenberg, M. Sensitivity of mercury exposure calculations to physical and biological parameters ............233 Levin, L, Seigneur, C, and Whipple, С Science panel on the bioavailability of mercury in soils ......................... 234 Canady, R.A., Hanley, JJE., and Susten, A.S. Application of neutron activation analysis for the determination of mercury in head hairofBrazmanpopulauonalgroupsatriskofmercurycontamination 235 Vasconcellos, Μ,ΒΑ, Saud, M., Fávaro, D.I.T., and Paletti, J. ......................... : Variability in ................................................. 236 Analytic - I .......... ****········............ 237 ГГГГ Biester, H., and Eicher, I. .............................................................239 ЇЇЙЙА W» of Cabral de Goes, M.A. .........................................................240 ^. .............242 ,H., В ........................................ 243 .....................................244 xvu A comparison of extraction and aqueous phase ethylation for the determination of methylmercury ..........................................................................................245 Petri, B.M., Mierle, G., and McQueen, DJ. A fully automated atomic fluorescence system for the determination of-mercury in the environment from 10 14to IO 5 gms/litre .........................................................246 Stockwell, RB., and Coras, W.T. Use of an instrument based on atomic fluorescence to measure mercury levels in na¬ tural gas plants incorporating mercury removal systems ...........................................247 Stockwell, PJB., Corns, W.T., and Cameron, С Methylmercury analysis in hair samples from Amazon done in Brazil .....................248 Malm, O., Akagi, H., Kherig, H.A., and Guimarães ЈЛ J). Determination of total mercury in sediment samples from Serra Do Navio, Amapa, Brazil, by radiochemical neutron activation analysis ...............................................249 Gonçalves, С, Fávaro, DJ.T., Vasconcellos, M-B.A., Oliveira, S.M.B., Fortier, A.H., and Guimarães, J .R. Solvent extraction of mercury with neotetrazolium chloride in soils ..............................250 Kamburova, M. A simple solvent extraction technique for elimination of matrix interference in the determination of methylmercury in environmental and biological samples by ethylation/GC/CV AFS .................................................................................251 Liang, L., Horvat, M., Cemichiari, E., Gelein, В., and Balogh, S. Measuring of free mercury vapour concentration in topsoil air - a quick and effective method of estimating the degree of technogenical contamination by mercury ..................................................................................................252 Vareikiene, O. Determination of trace levels of total and methylmercury in fish and biological materials ..................................................................................................253 Thantry, S.S., Walvekar, Α,Ρ., Maiti, В., Ali, M.M., and Sudersanan, M. A new method for ultratrace total mercury determination in water ................................254 Urba, Α., Kvietkus, K. Improved atomic fluorescence mercury analyzer ....................................................255 Kvietkus, K. and Šakaly, J. Determination of methylmercury in sediment and fish tissue with HPLC-UV-PCO- CVAAS after distillation and on-line RPC1 8 preconcentration ...................................256 Eiden, R. and Schöler, HJF. An evaluation of steam distillation for isolating methylmercury from waters, sediments and biological tissues ......................................................................257 Bowles, K. and Apte, S. Row-through stripping coulometry for calibrationless determination and speciation of mercury ...............................................................................................258 Beinrohr, E., Kozáková, E., Dzurov, J., and Kottas, P. Mercury environment monitoring .....................................................................259 Ozerova, NA, Antipov, A.B., Genina, RYu., Melnikov, N.G., and Kashkan, G.V. The peculiarities of analytical signal formation after desorption of mercury from collector ..................................................................................................260 Tatsy, Y.G., and Stakheev, Yu.I. The problem of accuracy of mercury determination in environmental samples ..................261 Tatsy, Y.G., and Stakheev, Y.I. xviii 1-Alkynes as Versatile Derivatizing Agents for the Analysis of Mercury (П) and MethylmercuryOQ) ......................................................................................26^ Fabbri, D., Gottarelli, MC, Lombardo, M., Trombini, C, Vassura, L, Bolletta, F., Prodi, L., and Zaccheroni, N. Quest about extraction specificity of SS-Na^ for HgS ......................................... 263 Yao, A. and Qing, Ch. Effect of temperature on the growth of mercury on gold and silver (111) surfaces - an STM study ............................................................ 2¿¿ Levlin, M., Laakso, Α., Pärkkä, M., and Laitìnen, T. Speciation methods for evaluating human exposure to mercury due to gold minine 2fis Akagi,K,ßnjo,Y.,andHaraguchi,K. ........... Determination of organic mercury in biological samples using ion exchange separation ..................... β Celo, V, Babi, D. Baraj, В. ....................................................................... 266 .............«. ^^ Network: QA/QC Welker, M., and Vermette, S............................................................................ 269 Gemimki,w.,Micliel,U.,andSchni¿D............................................................ 271 272 ^·;ΐ ...............................................274 276 .............277 278 XIX Sample pretreatment system for the reduction of mercuryCII) chloride to metallic mercury vapor and on-line atomic absorption determination system in the combustion flue gases ..................................................................................280 Siemens, V., Kvietkus, K., Urba, Α., and Larjava, K. The effects of acid on mercury vapor oxidation on activated carbons ............................281 Olson, E.S., Shama, R.K., and Young,. B.C. A critical evaluation of a wet-only precipitation collector designed for network operation for mercury and trace elements ............................................................282 Landis, M.S. and Keeler, GJ. The determination of inorganic ionic mercury down to 5 · lO^mol ľ1 by differential-pulse anodic stripping voltammetry .....................................................283 Meyer, S., Scholz, F., and Tritüer, R. Traps and pitfalls of the distillation/ethylation and distillation/ carbamat- complexation methods for MeHg determination ....................................................284 Hintelmann, H., and Falter, R. Contaminated Sites - L ........................................................285 Atmospheric mercury in abandoned mine structures and restored mine buildings ..............286 Ferrara, R., Maseru, B.E., Mazzolai, В., and Di Francesco, F. Vegetation on contaminated sites near a Hg mine and smelter .....................................287 Banasova,V. Response of mercury in fish to decreased concentrations and loading of inorganic mercury in a small stream ..............................................................................288 Southworth, G.R., Turner, R.R., Peterson, MJ., Bogle, M.A., and Ryon, M.G. Natural Mercury Resources in Kyrghyzstan .........................................................289 Osmonbetov, K.O. Contamination of the Kyrghyz Tjan-Shan as the result of mercury, gold and silver mining ....................................................................................................290 Asanov, U.A., Abdraimov, S.A., Osmonbetov, K.O. Trophic transfer coefficients of mercury within the Clear Lake aquatic ecosystem, California ................................................................................................291 Suchánek, Т.Н., Woodward, L.A., Mullen, L.H., Brister, L.L., Woodmansee, CE., Richerson, PJ., and Slotton, D.G. Development of a Site-Specific Sediment Quality Value for Mercury in Onondaga Lake, New York ........................................................................................292 Becker, D.S., and Bigham, GJN. Mercury partitioning and transport in the Fox River, Wisconsin USA ...........................293 Cowell, S.E., Hurley, J.P., Shafer, M.M., Hughes, P.E., and Sonzogni, W.C. Management of oil and gas industry sites contaminated with mercury ...........................294 Harju, J.A., Charlton, D.S., Evans, J.M., Deyell, D. Evaluation of total mercury loading to Onondaga lake via tributaries .............................295 Henry, Ε,Α., Dodge-Murphy, LJ., Driscoll, C.T., and Wang, W. A food-chain model for development of remedial goals for mercury in sediment of east fork poplar creek, Oak Ridge, Tennessee ......................................................296 Hadden, CT., Mitz.S.V., Burns, T.P., and Cornaby, B.W. Total mercury and methylmercury levels in fish and otter scats from the departement Madre de Dios, Pera - A risk for the giant otter (Pteronura brasiliensis, Carnivora, Mammalia)? ..............................................................................................297 Gutleb, A-C, Schenck, C, and Staib, E. xx Evaluatíon of йееп«^епЫ impacts of the piesenœ of шегсшуіпйс Lagoon of Aveiro .................................;···......................... Boia, СМ., Pereira, M.E., and Duarte, A.C. Recovery of Hg-contaminated Aquatic Systems: Role of Mercury-resistant Bacteria ........299 Turner, Rü., and Barkay, T. Rapid field screening for mercury in contaminated sous: met evaluation ............................................................................... Turner, R-R., and Morris, M. Mercury in sous and plants from fields surrounding Estarreja channel (Aveiro Lagoon-Portugal) contaminated by a chlor-alkah plant effluent Tavares, CF., Pereira, МЛ, Duarte, A.C., and Millward, GJE. Evidence of mercury contamination in the Ш river (North-eastern France) ......................302 Probst LL, MesssaKfa Α., Krempp G., and Behra P. Mercury contamination in Sepeüba Bay ..............................................................303 Marins, R.V., Paiva, RC, and Lacerda, L.D. Application of chemical speciation data in the discrimination of natural and anthropogenic mercury sources in the Jordan Creek and Owyhee reservoir system of Idaho and Oregon, US A ............................................................................304 Lechler PJ., and Miller, J.R. A review of the advanced technology available for the abatement of mercury pollution in the metallurgical industry ................................................................305 Mukherjee, A.B. Mercury in lake sediments in the border areas between Russia and Norway ....................306 Dauvalter, V., and Rognerad, S. The lagoon of Ravenna: Characterization of mercury-contaminated sediments .................307 Fabbri, D., Felisatti, О., Lombardo, M., Trombini, C, and Vassura, I. Fate and turnover of mercury in Hg°-polluted sewer sediments ..................................308 H. Biester Stratigraphy of mercury in depositional sediments in the contaminated Sudburv River (Massachusetts, USA) .............................................. J 309 Wiener, LG., Rada, R.G., Frazier, B.E., and Engstrom, D.R. Bioavailability of sediment-associated mercury to Hexagenia Mavflies in the contaminated Sudbury River (Massachusetts, USA^fľ.^ 310 Naimo, TJ., Wiener, J.G., Cope, W.G., and Bloom, N.S. !.! тегсшу in a « Malm, O,Fonseca. МД, »»,„„, РЖ, Ва^ІлГапаріпю RN ............................. з» 314 3.5 3.6 XXI Remediation of a mercury-contaminated site in Egypt. .............................................317 Meschede, Th. Remediation of mercury contaminated East Fork Poplar Creek watershed in Oak Ridge, Tennessee, USA ...............................................................................318 Page, D.G. River seepage and groundwater contamination with mercury: the case of the upper Rhine floodplain ........................................................................................319 Roeck, U., Tremolieres, M., and Carbiener, R. Evaluation of two précipitants for treatment of mercury ...........................................320 Henke, K.R. Mercury in the town of Idrija (Slovenia) after five hundred years of mining and smelting ..................................................................................................321 Miklavcic, V. Removal of mercury from batteries ...................................................................322 Fricke, Л. Retention of total and methyl mercury by urban sewage treatment facilities .....................323 Bodaly, R.A., Rudd, J.W.M., and Flett, RJ. Total mercury concentrations in rivers and streams of historic U.S. placer gold mining districts ..........................................................................................324 Mastrine, J., Bonzongo, J.-CJ., Lyons, WJł, Lechler, P., Miller, J., and Warwick, J.T. Mercury contamination in an abandoned industrial site in São Paulo, Brazil ...................325 Cunha, R.CA., Almeida, N.A., Marker, Α., and Hempel, M. Determination of total mercury and speciation of inorganic and organic mercury in river sediments of a gold mining area in Colombia, South America ..............................326 Stummeyer, J., Wippermann,. T., Zinner, Њ-Ј., Hărăzim, В., and Tacke, K.-D. Criteria for the recognition of „natural mercury: An example from central british columbia .................................................................................................327 Plouffe, A. Mercury speciation and partitioning in three open-pit mine lakes in Nevada, USA .............328 Atkins, D., Kempton, H., and Maley, P. Distribution of total and methyl mercury in a creek ecosystem near Bombay ...................329 Pandit, G.G., Tripathi, R.M., Jha, B.K., and Krishnamoorthy, T.M. Mercury contamination in the vicinity of an industrial emission source in Slovakia: concentration levels in vegetation and soil and speciation in soil as evident from sequential extractions ...................................................................................330 Hellström, F., Steinnes, E., and Mankovska, B. Mercury decontamination in Germany with examples from BSL (former BUNA works) ....................................................................................................331 Richter-Politz, I. Residence sites of mercury in humus and till near a smelter at Flin Flon, Manitoba, Canada ...................................................................................................332 McMartin, I., Henderson, PJ., Hall, G-E-M., Walker, D., and Percival, J.B. Electroleaching of residues containing mercury. Part I: A pilot plant experience in the amazon region .......................................................................................333 Sobral, L.CS., dos Santos, R.L.C., Hempel, M., and Thöming, J. Influence of climatic factors on the extent of mercury contamination of the environment at gold mining in Zabaikalye ...........................................................334 Laperdina, T.G., Melnikova, M.V., and Khvostova, Т.Е. xxii Mercury pollution associated with artisanal mining on lake Victoria Goldfield, in Tanzania. .................................................................................................335 Kinabo, C. Mercury in Gas and Oil Deposits..................................................................... 336 Ozerova, NA, Mashynov, NJL, Pikovsky, Yu.1., Ryzhov, V. V., Ganeev, A.A., Sholupov, SJS., Chernova, A£., Leonthev, LA., Zherebtsov, Yu.D. and Dobryansky, L.A. The role of mercury in the impact of pollution mechanisms on boreal forest ....................337 Goltsova, N.I., Mashyanov, Nil., and Pitulko, V.M. Removal of mercury from gases by modified zeolites in a stationary bed .......................338 Petzoldt, 0., Fell, HJ., and Bräuer, H.W. Mercury legacy of the California gold rush: Biotic mercury trends throughout the historic gold mining region of the Sierra Nevada ...................................................339 Slotton, D.G., Ayers, S.M., Reuter, ЈЛ, and Goldman, CJR. Removal of Mercury from Contaminated Materials and Soils with the Help of Vacuum Evaporation .......................................................... 34q Gaedicke, H., DUI, O., and Edelmann, Chr. Aquatic Systems - 1 ............................................. 341 ^^^ ^^ ............. Saprykin, Α., and Vizhin, V. ............................................ ...............343 345 347 t.^ 34, Ä^L ·CJ- ^Ѕ Ä G* Y St. roiľÄ Ю1тее « p o the „pp,* MssiM. atogh St il ű ............................. ^ Mississippi,Minnesota,and snit Meyer M ...................................... 350 St. CroiľÄ Ю1тее ««»У inputs to the „pp,* MssiM. Batogh St. il ű ............................. ^ Mississippi,Minnesota,and sn.it., Meyer, M, ала Johnson, D.K ...................................... xxiii Deposition and export of atmospheric mercury in a small forested watershed in the Lake Champlain basin in northern Vermont .........................................................354 Scherbatskoy, T., Shanley, J., and Keeler, G. The processing of mercury in forested ecosystems .................................................355 Rea, A. W. and Keeler, G J. Turnover of methylmercury and mercury in boreal catchments in Scandinavia .................356 Lee, Y.-H., Munthe, J., Hultberg, H, Bishop, K.H., Verta, M., and Iverfeld, A. The effect of selenium on bioaccumulation of methylmercury to benthic organisms in lake sediment .........................................................................................357 Nuutinen S., and Kukkonen J. Complexation of methylmercury by freshwater humic substances ...............................358 Hintelmann, H., Welbourn, P.M., and Evans, R.D. Regional patterns of mercury concentration in snowpack, sphagnum, and fish in northeastern North America ...........................................................................359 Haines, T., Mower, В., and Perry, R. Recovery of labile methylmercury in the presence of aquatic humic substances and commercial humic acid .................................................................................360 Monson, B.A., Hu, J., and Brezonik, PI. Study on the forms of organic-Hg in the soil ........................................................361 Yao, Α., and Qing, Ch. Mercury and vanadium levels in sediment from a dredged zone in the Lake Maracaibo strait (Venezuela) ...........................................................................362 Romero, M.E., Bernard, M.B., and de Bautista, S.H. Mercury levels in water and sediments from Sinamaica Lagoon and its inflows (Venezuela) ..............................................................................................363 Colina, M., Oliveros, S., Marquez, R., and Ledo, H. Effect of sulfide on mercury chemistry: solubility, sorption, methylation .......................364 Melamed, R., Paiva,. E.C., and Villas Boas, R.C. Phosphate-background electrolyte interaction affecting the transport of mercury through a Brazilian oxisol ..............................................................................365 Melamed, R. and Villas Boas, R.C. Mercury in an Arctic lake basin Cornwallis Island, Canada .......................................366 Semkin, R.G., Neureuther, R. J., and Mierle, G. Mercury and methylmercury in the River Yare, Norfolk, U.K ...................................367 Downs, S. Mapping of mercury pollution in sediment of central India ........................................368 Patel, K.S., Patel, R.M., Tripathi, АЛ., Chandrawanshi, С Jí., and Aggarwal, S.G. Aquatic Systems - II ...........................................................369 Predicting the rate of decline offish mercury levels in hydroelectric reservoirs of various age and size in Newfoundland, Canada ....................................................370 French, KJ., Anderson, МП. , Scruton, D.A. , and Drew, LJ. Total and Methyl Mercury in the Microlayer and Bulk Water of Lake Michigan: Implications for Trophic Cycling .....................................................................371 Cleckner, L.B., Keeler, GJ., Hurley, J J»., and Meier P.G. Mercury concentration and distribution in Lake Michigan .........................................372 Sullivan, K.A., and Mason, R.P. XXIV Mercury and methylmercury accumulation in zooplankton in hydroelectric reservoirs of northern Québec, Canada ..............................................................373 Tremblay, Α., and Lucotte, M. Mercury biogeochemistry in a natural lake receiving water from a flooded system in northern Québec .........................................................................................374 Kainz, M., and Lucotte, M. Total mercury and methyl mercury accumulation in suspended particulatematter and plankton of a flooded system of northern Quebec (Canada) .......................................375 Montgomery, S., Lucotte, M., and Rheault, I. Mercury stratigraphy in lake sediments in Finnish Lapland .......................................376 Mannio, L, Verta, M, Witick, Α., and Porvari, P. Development of fish mercury concentrations in Finnish reservoirs during 1979- 1994......................................................................................................377 PorvariJ. Mercury accumulation in yellow perch in a Wisconsin (USA) seepage lake after alkalization by groundwater addition .................................................................378 Wiener, J.G., Rada, R.G., Frazier, B.E., and Engel, S. Fluxes of mercury to lake sediments in central and northern Canada inferred from dated sediment cores ...................................................... 379 Lockhart, W.L., Wilkinson, P., Daneil, R.A., and Hunt, ssszttteìsttxstttt ........... 38° ^^ÄtCÄr^r^™1 · ................ 381 Watras, (^„Morrison, K. Α., and¡Backï. ¿.Č. .......................................................... 383 Aquatic Systems - Щ .......................................385 ............................386 .............388 ..........................389 be Teletskoye ..........................390 .392 xxv Mercury bioaccumulation in the Lake Baikal trophic chain ........................................393 Grosheva, E., Beim, Α., and Renzoni, A. A new principle of mercury bioidentification in fresh water .......................................394 Tonkopii, V, Petrova, Ν., Iofïna, I, Slotina, S, and Zaitsevy, I. Enhanced bioaccumulation of mercury in the marine mesopelagic environment ................395 Monteiro, L.R., Costa, V., Furness, R., and Santos, R.S. Dietary mercury, temperature and growth effects on fish metabolism and mercury dynamics in six Ontario lakes .........................................................................396 Harris, R.C., and Bodaly, R.A. Mercury in the blood of beluga whales from the western Canadian Arctic ......................397 Hyatt, CK., Trębacz, E., Metner, D. Α., Wagemann, R., and Lockhart, L. Use of stable isotopes of carbon and nitrogen to investigate mercury biomagnification and pathways in the food web of an experimentally flooded wetland ...................................................................................................398 Embury, J.D. The effects of dissolved phosphorous and humic substances on the bioavailability of methylmercury to algae: preliminary studies to establish boundary conditions ..............399 Moye, HA., Szabo, N.. and Phlips, E. Inorganic mercury and methylmercury bioaccumulation and distribution in two benthic freshwater species - Hexagenia rigida and Corbiculaflwninea - after exposure to the water column or sediment sources .................................................400 Inza, В., Rouleau, C, Tjälve, H., Campbell, P.G.C., Pelletier, E., Boudou, Α., and Ribeyre F. Experimental study of the combined effects of pH and salinity on inorganic mercury and methylmercury bioaccumulation and toxicity in the green shore crab (Carcinus maenas) ..................................................................................................401 Laporte J.M., Ribeyre F., Trachot J.P., and Boudou A. The influence of HgCl2 on the development of seven kinds of micro-organisms in soil ........................................................................................................402 Li, M. Mercury concentrations in tropical (Amazon) and boreal freshwater fish: natural spatial variability and pollution effects ...............................................................403 Meili, M., Malm, O., Guimarães, J.R.D., Forsberg, B.R., Padovani, C.R., Viana, J.P., and Silveira, E.G. Bioaccumulation of mercury in tropical river food webs (Amazon): Similar patterns as in boreal lakes ........................................................................................404 Meili, M., Malm, O., Guimarães, J.R.D., Padovani, C, Forsberg, B Л., Viana, J.P., and Silveira, E.G. Bioaccumulation of methylmercury by phytoplankton and zooplankton along experimental gradients of lake eutrophication, acidification and liming ..........................405 Sundbom, M., and Meili, M. Spatial variation in total and methyl mercury concentrations in otter (lutra canadensis) in Central Ontario, Canada ..............................................................406 Evans, R.D., and Addison, E.M. Aquatic Systems IV ............................................................407 Changes in the mercury concentrations of northern pike, Esox lucius L., in small Finnish forest lakes in a ten year period ..............................................................408 Rask, M., Lodenius, M., Nyberg, K., Korhonen, H., and Vena, M. Mercury in alligators (Alligator mississippiensis) in the southeastern United States ...........409 Jagoe, C.H., Beverly, A.-H., Yanochko, G., Winger, P., and Brisbin Jr., II. XXVI Мегсшу studies in the Everglades Nutrient Removal area .........................................410 King, S.A., Mües, CJ., Krabbenhoft, DP., Hurley, J.P., and Fink, . Evolution of mercury levels in fish of the La Grande hydroelectric complex, Québec (1978-1994)............................................................................................. 4U Langlois, С, Doyon, J.F., Schetagne, R., and Verdón, R. Microbial formation of dimethylmercury and dimethylmercury sulfides in sediments .........412 Baldi, F., and Filippelli, M. Molybdate inhibition of sulphate reducing bacteria grown without sulphate and its implications for understanding mercury methylaüon results in low sulphate environments ............................................................................................413 Meichel, G., Maurice, R., Kelly, C, and Sparling, R. A laboratory study about mercury photochemistry in natural waters .............................414 Costa, M. The use of biomarkers in the prediction of mercury methylation activity in natural substrates ................................................................................................415 Regnell, 0., and Tunlid, A. Patterns of mercury contamination in Ontario lakes, using 1-kg northern pike (Esox luciusL.) as the indicator species .....................................................................416 Innanen, S. Time-course spedation of mercury released during the natural decay of fish tissue inrresnwater Bloom, N.S., and Kuhn, E.S. f H ation » a ПооарШ lake of the Guimarães, J.R.D., Roulet, M., and Lucotte.M. ........................................................ Mercury in fish from some Brazilian estuaries ............. 41Q Kehrig, H., Moreira, L, and Malm, 0. .................................................... ад age· Harris, R.C., and Watras, С J. ....................................................... 420 Harris, R.C.Beals, DJ.,, HutehinsonrD^andB^R^ ........................................... 421 Mercury in the fish from the eastern Adriatic Culln,S.,Zvonaric,T.,andOdzakN ........................................................ 422 .......................423 lSSZïïF «« analyses TracHM., and Rasmussen, J.B. ...............................................................424 427 xxvii Aquatic cycling of mercury in the everglades: 1995 Findings from the ACME .................429 Gilmour, C.C, Krabbenhoft, DP., Hurley, JP., Olson, M., Garrison, P., Cleckner, L., King, S., Gill, G., Stordal, M., Spiker, E., Simon, Ν., Oremland, R., and Di Pasquale, M-M.7 Mercury methylation by IronCEDO-reducing bacteria ................................................430 Gilmour, C.C, Riedel, CS., and Coates, J.D. Distribution of mercury along nutrient gradients in Florida Everglades Marshes, USA .....................................................................................................431 Scheidt, DJ., Jones, R.D., and Stober, QJ. Accumulation of waterborne Hg(H) in the brain of rainbow trout (Salmo gairdneri) by axonal transports whole-body autoradiography study .........................................432 Rouleau, C, and Tjälve, H. Kinetics and body distribution of waterborne ^HgCII) and СНз, ^HgCII) in Phantom midge Larvae (Chaoborus americanus) and effects of chelating agents ...............433 Rouleau, C, Block, M., and Tjälve, H. The effects of eutrophication on the distribution of mercury in the wetland soils of the Everglades (Florida, US A) ........................................................................434 Vaithiyanathan, P., Barber, M. L, Richardson, C. J., and T. Barkay Inorganic mercury and monomethyl mercury in a Scandinavian podzol soil: A study of translocation and evaporation processes ..........................................................435 Schlüter, K., Gäth, S., Seip, H.M., and Alstad, J. Mercury Pollution in the Great Barrier Reef lagoon, Australia ....................................436 Walker, G. St., and Branskill, G. J. Atmosphere - 1 ..................................................................437 Gradient of atmospheric mercury concentration from central Germany to central Sweden ...................................................................................................438 Schmolke, S.R., Schroeder, W.H., Kock, H.H., Schneeberger, D., Munthe, J., and Ebinghaus, R. The effect of paniculate adsorption on mercury atmospheric chemistry ..........................439 Seigneur, C, Abeck, H., Chia, G., and Reinhard, M. The gas phase reactions between selected mercury species and the nitrate radical ..............440 Sommar, J., Hallquist, M, and Ljungström, E. On the reaction of gaseous elemental mercury (Hg°) with H2O2, O3, CHjI, and (CH3)2S ..................................................................................................441 Tokos, J., Calhoun, J., Prestbo, E., and Hall, B. Sorptive Behaviour of Mercury (П) and Methylmercury on Natural Air Paniculate Matter in Precipitation ..................................................................................442 Bloom, N.S. A comprehensive eulerian modelling framework for airborne mercury species: current state and future direction in simulating long-range transport over Europe ..............443 Krueger, 0., and Petersen, G. Identification of sources of atmospheric mercury in the Canadian Arctic using potential source contribution function (PSCF) modeling ..........................................444 Cheng, M-D., and Schroeder, W.H. Mercury deposition in continental Antarctica: Contrasting data from Victoria Land biota ......................................................................................................445 Bargagli, R. andNelli, L. xxviii AnalysU of ambten, тегсшу levels in Sou Horida during Љ= SUAMP Proj«Ľ a meteorological approach ............................................... Dvonch, J.T., Marsik, FJ., and Keeler, G J. Dry and wet deposition of тегсшу near a chlor-alkali plant .....................................447 Martin Lodenius Modelling of Airborne Mercury Transport in the Northern Hemisphere .........................448 Galperin, M., Sofiev, M., and Mantseva, E. Мегсшу in combustion flue gas - A review ........................................................449 Hall, В., and Wang, J. Evaluation and verification of an eulerian, atmospheric fate and transport model of mercury .................................................................................................. 45^ Pai, P., Karamchandani, P., Seigneur C, Allan, МЛ., and Saxena, P. Atmospheric mercury deposition in the Baltic Sea region ..........................................451 Kvietkus, K., Urba, Α., and Sakalys, J. Mercury control and emissions from coal-fired power plants, results from the U.S. Department of Energy toxic emissions study ........................................................452 Miller, St., Ness, S., Weber, G., and Brown, T. Source Characterization in Support of Modeling the Transport of Mercury Emissions in South Florida ............................................................................453 Stevens, R.K., Zweidinger, R., Edgerton, E., Mayhew, W., Kellog, R., and Keeler.G. Atmosphere - II .................................................................455 Mercury in rainwater of the North Sea and Baltic Coast in 1993 and 1994......................456 Holz, J., and Kreutzmann, J. termination of gas phase mercury in mediterranean atmosphere ...............................457 Onal, M., Tuncel, S., Tuncel, G., Aras, N.K., and Olmez, I. Effect of rainfaU exclusion on air/surface exchange rates of mercury over forest ............................................. Advokaat.E.M., and Lindberg, SE. .................................... modified bowen ratio (MBR). ....._ ^1110 flux chamber and the Casimir, Α., Poissant, L., and Béron, P. ............................................................ ¡amended soil.............. 460 .461 ^^.P^andFitzge^K ^^^^ms....................... .464 .465 XXIX Changes of atmospheric mercury levels in Norway ................................................466 Pacyna, J M. and Bexg, T. The content of mercury in current-year needles of picea abies in Bohemia (Czech Republic) .................................................................................................467 Skuhravy, V. Mercury in the ain pollution in Idrija, Slovenia .....................................................468 Gosar, M, Pire, S., Šajn, R., Bidovec, M., Mashyanov, Nil., and Sholupov, SJE. Atmospheric dispersion of mercury in the Amazon basin ..........................................469 Hacon, S., de Cassia M. Alves, R., Rochedo, ЕЛЛ., Artaxo, P., Campos, R., and Drude de Lacerda, L. The air-water exchange of mercury from two great waters ........................................470 Vette, AJ and Keeler, G J. Total and reactive gaseous mercury measurements in Rorida: The FAMS project .............471 Gill, CA., Landing, W.M., Guentzel, Л., Prestbo, E., and Pollman, CD. The relationship between major anions and Hg in event precipitation: Seasonal and source-related influences ...............................................................................472 Hoyer, M.E. and Keeler, G J. Mercury in the atmosphere of the United Kingdom ................................................473 D. S. Lee, G. J. Dollard, S. Peplar, S. Baker, K. Playford, R. D. Kingdon, G. Salway, and J. Goodwin Biogeochemical Cycling - 1 ..................................................475 Mercury pollution in the Baltic Sea ...................................................................476 С. Pohl Modelling of mercury cycling inTrieste bay (Northern Adriatic) .................................477 Oirca, Α., Rajar, R., Harris, R.C., Horvat, M., and Faganeli, J. Mercury deposition resulting from the setting on fire of the grasslands - Estimation of the total annual mercury deposition of the tropical northern Pantanal region, Cen¬ tral Brazil- ................................................................................................478 Tiimpling, jr., W. von, Wilken, R.-D., and Einax, J. Field-Based Research on Mercury Releases in Five Aquatic Ecosystems; Chesapeake Bay, Tampa Bay, Tennessee River, Puget Sound and Midway Island Atoll ......................................................................................................479 Borener, S., and Maughan, J. Mercury in bottom sediment of the Black Sea .......................................................480 Kozlova, S.I. Local scale mass balance of emitted anthropogenic mercury ......................................481 Lyon, B-R, Rice, CE., Keating, M., Bullock, Jr, OR., Cleverly, D., and Maxwell, С J. Preliminary observations of colloidal mercury in an organic-rich estuary .......................482 Guentzel, JJĽ, Powell, R.T., and Landing,W.M. Influence of strong winds on mercury distribution in an aqueous section of a stratified Krka River Estuary ..........................................................................483 Bilinski, H., Kwokal, , PlaWic, M., and Bránica, M. The biogeochemical cycling of mercury in the ocean ...............................................484 Mason, RP., Rolfhus, K.R., Vandal, СМ., Sullivan, K.A., and Fitzgerald, WJF. Mercury in the Chesapeake Bay watershed ..........................................................485 Mason, R.P., Sullivan, K.A., Scudlark, ЈЛ., and Church, T.M. Mercury in the southern Baltic Sea ecosystem ......................................................486 Pempkowiak, J., and Cossa, D. xxx Transport and distribution of anthropogenic mercury in the Saguenay Fjord/St- Lawrence system from preindustrial times to the present ..........................................487 Louchouam, P., Lucotte, M. Mercury in the entire Baltic Sea, from a baseline study for trace heavy metals in the water column ............................................................................................488 Schmidt, D. The ratio of anthropogenic to natural mercury release in Ontario: three emission scenarios .................................................................................................489 Innanen, S. The use of corals as historical recorders of mercury in the marine environment ................490 Horvat, M., Mokhtar, M.B., Mandic, V. , Azemard, S., Bartocci, J., and Readman, J.W. Mercury pollution in Trieste Bay ......................................................................491 Horvat, R, Faganeli, J., Planine, R., Presene, N., Azemard, S., Coquery, M., Sirca, Α., Rajar, R., Byrne, A.R., and Covelli, S. Seasonal and historical trends of total gaseous mercury (TGM) at Lone Island Sound, CT, USA ..................................................... 6 492 Rolfhus, KJR., Lamborg, CR, and Fitzgerald, W J. Mercury distribution m the surface sediments of the Kaštela Bay ...............................493 Odzak, N., Zvonaric, T., and Horvat, M. S,ľrf А? Ѕе^еп,1 тегсшу ñux raüos Ь evaluating the regional and circumarcùc dimensions of mercury deposition.. 494 Landers. D.H., Cubala, С, Johansson, К., Verta, M., Lucotte, м!, and Lockhai wl................. Dissolved mercury distribution in the waters of the Baltic Sea 495 Cossa,D.,Pempkowiak,J.,Sanjuan,J., and Sikora, A. .................................... fe CyCling °f atmosPheric ™*y і northcentral .................................................... 496 .................................................. 497 h -Іприти, budge, 4 .- 505 xxxi
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spelling	International Conference on Mercury as a Global Pollutant 4 1996 Hamburg Verfasser (DE-588)2164405-6 aut Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts] [ed. by: Ralf Ebinghaus ... GKSS Forschungszentrum] Mercury as a global pollutant Geesthacht 1996 XXXI, 521 S. txt rdacontent n rdamedia nc rdacarrier Nebent.: Mercury as a global pollutant Quecksilberbelastung (DE-588)4194421-5 gnd rswk-swf Umweltgift (DE-588)4186801-8 gnd rswk-swf Quecksilber (DE-588)4127830-6 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 1996 Hamburg gnd-content Quecksilberbelastung (DE-588)4194421-5 s DE-604 Quecksilber (DE-588)4127830-6 s Umweltgift (DE-588)4186801-8 s b DE-604 Ebinghaus, Ralf Sonstige oth Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017103954&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts] Quecksilberbelastung (DE-588)4194421-5 gnd Umweltgift (DE-588)4186801-8 gnd Quecksilber (DE-588)4127830-6 gnd
subject_GND	(DE-588)4194421-5 (DE-588)4186801-8 (DE-588)4127830-6 (DE-588)1071861417
title	Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts]
title_alt	Mercury as a global pollutant
title_auth	Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts]
title_exact_search	Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts]
title_full	Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts] [ed. by: Ralf Ebinghaus ... GKSS Forschungszentrum]
title_fullStr	Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts] [ed. by: Ralf Ebinghaus ... GKSS Forschungszentrum]
title_full_unstemmed	Fourth International Conference on Mercury as a Global Pollutant August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts] [ed. by: Ralf Ebinghaus ... GKSS Forschungszentrum]
title_short	Fourth International Conference on Mercury as a Global Pollutant
title_sort	fourth international conference on mercury as a global pollutant august 4 8 1996 congress centre hamburg germany book of abstracts
title_sub	August 4 - 8, 1996 Congress Centre Hamburg, Germany ; [book of abstracts]
topic	Quecksilberbelastung (DE-588)4194421-5 gnd Umweltgift (DE-588)4186801-8 gnd Quecksilber (DE-588)4127830-6 gnd
topic_facet	Quecksilberbelastung Umweltgift Quecksilber Konferenzschrift 1996 Hamburg
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