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Atmospheric mercury over sea ice during the OASIS-2009 campaign

A. Steffen, J. Bottenheim, A. Cole, T. A. Douglas, R. Ebinghaus, U. Friess, S. Netcheva, S. Nghiem, H. Sihler and R. Staebler
Atmospheric Chemistry and Physics 13 (14) 7007 (2013)
https://doi.org/10.5194/acp-13-7007-2013

Atmospheric mercury over sea ice during the OASIS-2009 campaign

A. Steffen, J. Bottenheim, A. Cole, et al.
Atmospheric Chemistry and Physics Discussions 13 (3) 5687 (2013)
https://doi.org/10.5194/acpd-13-5687-2013

Ten-year trends in atmospheric mercury concentrations, meteorological effects and climate variables at Zeppelin, Ny-Ålesund

T. Berg, K. A. Pfaffhuber, A. S. Cole, O. Engelsen and A. Steffen
Atmospheric Chemistry and Physics 13 (13) 6575 (2013)
https://doi.org/10.5194/acp-13-6575-2013

Ten years trends in atmospheric mercury concentrations, meteorological effects and climate variables at Zeppelin, Ny-Ålesund

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Atmospheric Chemistry and Physics Discussions 13 (1) 2273 (2013)
https://doi.org/10.5194/acpd-13-2273-2013

Ten-year trends of atmospheric mercury in the high Arctic compared to Canadian sub-Arctic and mid-latitude sites

A. S. Cole, A. Steffen, K. A. Pfaffhuber, T. Berg, M. Pilote, L. Poissant, R. Tordon and H. Hung
Atmospheric Chemistry and Physics 13 (3) 1535 (2013)
https://doi.org/10.5194/acp-13-1535-2013

Measurement-based modelling of bromine-induced oxidation of mercury above the Dead Sea

E. Tas, D. Obrist, M. Peleg, V. Matveev, X. Faïn, D. Asaf and M. Luria
Atmospheric Chemistry and Physics 12 (5) 2429 (2012)
https://doi.org/10.5194/acp-12-2429-2012

A compilation of tropospheric measurements of gas-phase and aerosol chemistry in polar regions

R. Sander and J. Bottenheim
Earth System Science Data 4 (1) 215 (2012)
https://doi.org/10.5194/essd-4-215-2012

Ten-year trends of atmospheric mercury in the high Arctic compared to Canadian sub-Arctic and mid-latitude sites

A. S. Cole, A. Steffen, K. Aspmo Pfaffhuber, et al.
Atmospheric Chemistry and Physics Discussions 12 (8) 20209 (2012)
https://doi.org/10.5194/acpd-12-20209-2012

A compilation of tropospheric measurements of gas-phase and aerosol chemistry in polar regions

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Earth System Science Data Discussions 5 (2) 585 (2012)
https://doi.org/10.5194/essdd-5-585-2012

How relevant is the deposition of mercury onto snowpacks? – Part 2: A modeling study

D. Durnford, A. Dastoor, A. Ryzhkov, L. Poissant, M. Pilote and D. Figueras-Nieto
Atmospheric Chemistry and Physics 12 (19) 9251 (2012)
https://doi.org/10.5194/acp-12-9251-2012

Measurement-based modeling of bromine-induced oxidation of mercury above the Dead Sea

E. Tas, D. Obrist, M. Peleg, et al.
Atmospheric Chemistry and Physics Discussions 11 (8) 24467 (2011)
https://doi.org/10.5194/acpd-11-24467-2011

Total gaseous mercury depletion events observed at Cape Point during 2007–2008

E.-G. Brunke, C. Labuschagne, R. Ebinghaus, H. H. Kock and F. Slemr
Atmospheric Chemistry and Physics Discussions 9 (5) 20979 (2009)
https://doi.org/10.5194/acpd-9-20979-2009

Mercury Fate and Transport in the Global Atmosphere

Aurélien Dommergue, Christophe P. Ferrari, Marc Amyot, et al.
Mercury Fate and Transport in the Global Atmosphere 293 (2009)
https://doi.org/10.1007/978-0-387-93958-2_10

Reaction of gaseous mercury with molecular iodine, atomic iodine, and iodine oxide radicals — Kinetics, product studies, and atmospheric implications

Farhad Raofie, Graydon Snider and Parisa A Ariya
Canadian Journal of Chemistry 86 (8) 811 (2008)
https://doi.org/10.1139/v08-088

Contemporary and preindustrial mass budgets of mercury in the Hudson Bay Marine System: The role of sediment recycling

Alexander Hare, Gary A. Stern, Robie W. Macdonald, Zou Zou Kuzyk and Feiyue Wang
Science of The Total Environment 406 (1-2) 190 (2008)
https://doi.org/10.1016/j.scitotenv.2008.07.033

Transport of Hg from Atmospheric mercury depletion events to the mainland of Norway and its possible influence on Hg deposition

Torunn Berg, Katrine Aspmo and Eiliv Steinnes
Geophysical Research Letters 35 (9) (2008)
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Simulation of atmospheric mercury depletion events (AMDEs) during polar springtime using the MECCA box model

Z.-Q. Xie, R. Sander, U. Pöschl and F. Slemr
Atmospheric Chemistry and Physics Discussions 8 (4) 13197 (2008)
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Enhanced concentrations of dissolved gaseous mercury in the surface waters of the Arctic Ocean

M.E. Andersson, J. Sommar, K. Gårdfeldt and O. Lindqvist
Marine Chemistry 110 (3-4) 190 (2008)
https://doi.org/10.1016/j.marchem.2008.04.002

Simulation of atmospheric mercury depletion events (AMDEs) during polar springtime using the MECCA box model

Z.-Q. Xie, R. Sander, U. Pöschl and F. Slemr
Atmospheric Chemistry and Physics 8 (23) 7165 (2008)
https://doi.org/10.5194/acp-8-7165-2008

A synthesis of atmospheric mercury depletion event chemistry in the atmosphere and snow

A. Steffen, T. Douglas, M. Amyot, P. Ariya, K. Aspmo, T. Berg, J. Bottenheim, S. Brooks, F. Cobbett, A. Dastoor, A. Dommergue, R. Ebinghaus, C. Ferrari, K. Gardfeldt, M. E. Goodsite, D. Lean, A. J. Poulain, C. Scherz, H. Skov, J. Sommar and C. Temme
Atmospheric Chemistry and Physics 8 (6) 1445 (2008)
https://doi.org/10.5194/acp-8-1445-2008

Evaluation of an Offline Method for the Analysis of Atmospheric Reactive Gaseous Mercury and Particulate Mercury

Mihalis Lazaridis, Victoria Aleksandropoulou, Victoria Aleksandropoulou, et al.
Journal of the Air & Waste Management Association 58 (3) 377 (2008)
https://doi.org/10.3155/1047-3289.58.3.377

A synthesis of atmospheric mercury depletion event chemistry linking atmosphere, snow and water

A. Steffen, T. Douglas, M. Amyot, et al.
Atmospheric Chemistry and Physics Discussions 7 (4) 10837 (2007)
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Fate of inorganic mercury and methyl mercury within the snow cover in the low arctic tundra on the shore of Hudson Bay (Québec, Canada)

Philippe Constant, Laurier Poissant, Richard Villemur, Emmanuel Yumvihoze and David Lean
Journal of Geophysical Research: Atmospheres 112 (D8) (2007)
https://doi.org/10.1029/2006JD007961

Mercury in the Arctic atmosphere: An analysis of eight years of measurements of GEM at Alert (Canada) and a comparison with observations at Amderma (Russia) and Kuujjuarapik (Canada)

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Science of The Total Environment 342 (1-3) 185 (2005)
https://doi.org/10.1016/j.scitotenv.2004.12.048