|Benefits of mercury controls for the United States|
A Giang, NE Selin
Proceedings of the National Academy of Sciences 113 (2), 286-291, 2016
|Continuing sources of PCBs: the significance of building sealants|
M Robson, L Melymuk, SA Csiszar, A Giang, ML Diamond, PA Helm
Environment international 36 (6), 506-513, 2010
|Impacts of the minamata convention on mercury emissions and global deposition from coal-fired power generation in Asia|
A Giang, LC Stokes, DG Streets, ES Corbitt, NE Selin
Environmental Science & Technology 49 (9), 5326-5335, 2015
|SO-MUM: a coupled atmospheric transport and multimedia model used to predict intraurban-scale PCB and PBDE emissions and fate|
SA Csiszar, SM Daggupaty, S Verkoeyen, A Giang, ML Diamond
Environmental science & technology 47 (1), 436-445, 2013
|Use of a global model to understand speciated atmospheric mercury observations at five high-elevation sites|
P Weiss-Penzias, HM Amos, NE Selin, MS Gustin, DA Jaffe, D Obrist, ...
|Costs of IQ loss from leaded aviation gasoline emissions|
PJ Wolfe, A Giang, A Ashok, NE Selin, SRH Barrett
Environmental science & technology 50 (17), 9026-9033, 2016
|Evaluating EDGARv4. tox2 speciated mercury emissions ex-post scenarios and their impacts on modelled global and regional wet deposition patterns|
M Muntean, G Janssens-Maenhout, S Song, A Giang, NE Selin, H Zhong, ...
Atmospheric Environment 184, 56-68, 2018
|Splitting the south: China and India’s divergence in international environmental negotiations|
LC Stokes, A Giang, NE Selin
Global Environmental Politics 16 (4), 12-31, 2016
|Present and future mercury concentrations in Chinese rice: insights from modeling|
SY Kwon, NE Selin, A Giang, VJ Karplus, D Zhang
Global Biogeochemical Cycles 32 (3), 437-462, 2018
|Responses of deposition and bioaccumulation in the Great Lakes region to policy and other large-scale drivers of mercury emissions|
JA Perlinger, NR Urban, A Giang, NE Selin, AN Hendricks, H Zhang, ...
Environmental Science: Processes & Impacts 20 (1), 195-209, 2018
|Global and local impacts of delayed mercury mitigation efforts|
H Angot, N Hoffman, A Giang, CP Thackray, AN Hendricks, NR Urban, ...
Environmental science & technology 52 (22), 12968-12977, 2018
|Constraints from observations and modeling on atmosphere–surface exchange of mercury in eastern North AmericaAtmosphere-surface exchange of mercury in eastern North America|
S Song, NE Selin, LE Gratz, JL Ambrose, DA Jaffe, V Shah, L Jaeglé, ...
Elementa: Science of the Anthropocene 4, 2016
|Comments on “Supplemental Finding That It Is Appropriate and Necessary to Regulate Hazardous Air Pollutants from Coal-and Oil-Fired Electric Utility Steam Generating Units”|
A Giang, K Mulvaney, NE Selin
|Use of NOMADSS Observations to Improve Our Understanding of the Land and Ocean Fluxes of Mercury|
S Song, NE Selin, DA Jaffe, L Jaeglé, L Gratz, JL Ambrose, V Shah, ...
AGUFM 2014, A32A-07, 2014
|Understanding factors influencing the detection of mercury policies in modelled Laurentian Great Lakes wet deposition|
A Giang, S Song, M Muntean, G Janssens-Maenhout, A Harvey, E Berg, ...
Environmental Science: Processes & Impacts 20 (10), 1373-1389, 2018
|Atmospheric transference of the toxic burden of Atmosphere-Surface Exchangeable Pollutants to the Great Lakes region|
JA Perlinger, A Giang, H Zhang, A Kumar, NE Selin, S Wu
2016 AGU Fall Meeting, 2016
|Quantifying the health and economic impacts of mercury: an integrated assessment approach|
Massachusetts Institute of Technology, 2013
|Cumulative air pollution indicators highlight unique patterns of injustice in urban Canada|
A Giang, K Castellani
Environmental Research Letters 15 (12), 124063, 2020
|Mitigating In-Use Methane Emissions during Maritime Transportation Operations: A Policy Analysis|
I Laskar, A Giang
AGU Fall Meeting 2020, 2020
|Bridging Systems Modeling Advances Across Socioecological Domains II Posters|
A Giang, S Fletcher, M Lickley, M Edwards
AGU Fall Meeting 2020, 2020