1.9
BIBLIOGRAPHIE (Sections 1.4 - 1.7)
Dolan, D. M., K. P. McGunagle, S. Perry, and E. Voldner (1993).
Ariya, P.A., A. Khalizov, and A. Gidas (2002). « Reactions of gaseous
Source Investigation for Lake Superior. International Joint
mercury with atomic and molecular halogens; kinetics,
Commission, Windsor, Ontario.
product studies, and atmospheric implications >>. J. Phys.
Chem. A 106, 7310-7320.
Draxler, R. R. and G. D. Hess (1998). « An overview of the
HYSPLIT_4 modelling system for trajectories, dispersion and
Beauchamp, S., N. Burgess, A. D’Entremont, R. Tordon, G. Brun,
deposition >>. Australian Met. Mag. 47, 295.
D. Leger, W. Schroeder, and J. Abraham (1997). « Mercury in
air, water and biota in Kejimkujik National Park, Nova Scotia,
Draxler, R. R. (2000). « Meteorological factors of ozone predict-
Canada >>. Linking Protected Areas with Working Landscape
ability at Houston, Texas >>. J. Air Waste Manage. Assoc. 50,
Conserving Biodiversity: Proceedings of the Third Interna-
259-271.
tional Conference of Science and the Management of
Protected Areas, Calgary. May 12-16, 1997 (Maintaining
Draxler, R. R., J. T. McQueen, B.J.B. Stunder. Atmos. Environ.
Ecological Integrity and Biodiversity).
1994, 2197.
Bullock, O.R., and K.A. Brehme (2002). « Atmospheric mercury
Draxler, R. R. (1991). « The accuracy of trajectories during
simulation using the CMAQ model: formulation description
ANATEX calculated using a dynamic model analyses versus
and analysis of wet deposition results >>. Atmos. Environ, 36,
rawinsonde observations >>. J. Appl. Met. 30,1446-1467.
2135-2146.
Dvonch, J. T., J. R. Graney, F. J. Marsik, G. J. Keeler, and R. K.
Bullock, O.R. (2000). « Modeling assessment of transport and
Stevens (1998). « An investigation of source-receptor
deposition patterns of anthropogenic mercury air emissions
relationships for mercury in south Florida using event
in the United States and Canada >>. Sci. Tot. Environ. 259,
precipitation data >>. Sci. Tot. Environ. 213:95-108.
145-157.
Gardfeldt, K. and M. Jonnson (2003). « Is bimolecular reduction
Bullock, O.R., K.A. Brehme, and G.R. Mapp (1998). « Lagrangian
of Hg(II)-complexes possible in aqueous systems of environ-
modeling of mercury air emission, transport and deposition:
mental importance? >> J. Phys. Chem. A. Sous presse.
An analysis of model sensitivity to emissions uncertainty >>.
Sci. Tot. Environ. 213, 1-12.
Gustin, M. S. (2003). « Are mercury emissions from geologic
sources significant? A status report >>. Sci. Tot. Environ. 304,
Burke, J., M. Hoyer, G. Keeler, and T. Scherbatskoy(1995). « Wet
153-167.
deposition of mercury and ambient mercury concentrations
at a site in the Lake Champlain basin >>. Water, Air and Soil
Hall, B. (1995). « The gas phase oxidation of elemental mercury
Pollution 80, 353-362. Cet article décrit les travaux de
by ozone >>. Water, Air, and Soil Pollution 80, 301-315.
collecte de données effectués depuis 1992.
Keeler, G. (2001). University of Michigan, Ann Arbor, MI. Commu-
Cohen, M., R. Draxler, R. Artz, B. Commoner, P. Bartlett, P. Cooney,
nication personnelle.
K. Couchot, A. Dickar, H. Eisl, C. Hill, J. Quigley, J. E.
Rosenthal, D. Neimi, D. Ratte, M. Deslauriers, R. Laurin, L.
Kellerhals, M., S. Beauchamp, W. Belzer, P. Blanchard, F. Froude, B.
Mathewson-Brake, and J. McDonald (2002). « Modeling the
Harvey, K. McDonald, M. Pilote, L. Poissant, K. Puckett, B.
atmospheric transport and deposition of PCDD/F to the Great
Schroeder, A. Steffen, and R. Tordon (2000). « Temporal and
Lakes >>. Environ. Sci. Technol. 36, 4831-4845.
spatial variability of total gaseous mercury in Canada:
preliminary results from the Canadian Atmospheric Mercury
Cohen, M., B. Commoner, H. Eisl, P. Bartlett, A. Dickar, C. Hill, J.
Measurement Network (CAMNet) >>. Proceedings of the
Quigley, and J. Rosenthal (1995). Quantitative Estimation of
International Conference on Heavy Metals in the Environ-
the entry of dioxins, furans, and hexachlorobenzene into
ment, August 6-10, 2000, Ann Arbor, MI. Conférence tenue
the Great Lakes from airborne and waterborne sources.
conjointement par l’Université du Michigan, le Geological
Center for the Biology of Natural Systems (CBNS), Queens
Survey des États-Unis, Environnement Canada et Elsevier
College, Flushing, New York.
Science Publishers (Oxford, R.-U.).
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