|Assessing sources of human methylmercury exposure using stable mercury isotopes|
M Li, LS Sherman, JD Blum, P Grandjean, B Mikkelsen, P Weihe, ...
Environmental science & technology 48 (15), 8800-8806, 2014
|Decadal changes in the edible supply of seafood and methylmercury exposure in the United States|
EM Sunderland, M Li, K Bullard
Environmental health perspectives 126 (1), 017006, 2018
|Future impacts of hydroelectric power development on methylmercury exposures of Canadian indigenous communities|
RSD Calder, AT Schartup, M Li, AP Valberg, PH Balcom, EM Sunderland
Environmental science & technology 50 (23), 13115-13122, 2016
|Environmental origins of methylmercury accumulated in subarctic estuarine fish indicated by mercury stable isotopes|
M Li, AT Schartup, AP Valberg, JD Ewald, DP Krabbenhoft, R Yin, ...
Environmental science & technology 50 (21), 11559-11568, 2016
|Mercury stable isotopes reveal influence of foraging depth on mercury concentrations and growth in Pacific bluefin tuna|
DJ Madigan, M Li, R Yin, H Baumann, OE Snodgrass, H Dewar, ...
Environmental science & technology 52 (11), 6256-6264, 2018
|Insights from mercury stable isotopes into factors affecting the internal body burden of methylmercury in frequent fish consumers|
M Li, K von Stackelberg, C Rheinberger, JK Hammitt, DP Krabbenhoft, ...
Elementa: Science of the Anthropocene 4 (103), 2016
|Results of a national survey of high-frequency fish consumers in the United States|
K von Stackelberg, M Li, E Sunderland
Environmental research 158, 126-136, 2017
|Interactive effects of phosphorus and copper on Hyalella azteca via periphyton in aquatic ecosystems|
M Li, DM Costello, GA Burton Jr
Ecotoxicology and environmental safety 83, 41-46, 2012
|Phospholipid levels predict the tissue distribution of poly-and perfluoroalkyl substances in a marine mammal|
C Dassuncao, H Pickard, M Pfohl, AK Tokranov, M Li, B Mikkelsen, A Slitt, ...
Environmental Science & Technology Letters 6 (3), 119-125, 2019
|Organ-specific differences in mercury speciation and accumulation across ringed seal (Phoca hispida) life stages|
JD Ewald, JL Kirk, M Li, EM Sunderland
Science of The Total Environment 650, 2013-2020, 2019
|Primary amino acids affect the distribution of methylmercury rather than inorganic mercury among tissues of two farmed-raised fish species|
Y Man, R Yin, K Cai, C Qin, J Wang, H Yan, M Li
Chemosphere 225, 320-328, 2019
|Erratum:“Decadal Changes in the Edible Supply of Seafood and Methylmercury Exposure in the United States”|
EM Sunderland, M Li, K Bullard
Environmental health perspectives 126 (2), 029003, 2018
|Assessing lead sources in fishes of the northeast Pacific Ocean|
M Li, D Weis, KE Smith, AE Shiel, WD Smith, BPV Hunt, A Torchinsky, ...
Anthropocene 29, 100234, 2020
|Supporting Information: Future impacts of hydroelectric power development on methylmercury exposures of Canadian Indigenous communities|
RS Calder, AT Schartup, M Li, AP Valberg, P Balcom, EM Sunderland
|Interactive effects of phosphorus and copper on Hyalella azteca and periphyton|
|Selenium and stable mercury isotopes provide new insights into mercury toxicokinetics in pilot whales|
M Li, CA Juang, JD Ewald, R Yin, B Mikkelsen, DP Krabbenhoft, ...
Science of The Total Environment 710, 136325, 2020
|Interdisciplinary methods for linking mercury sources, biogeochemistry, and ecosystem and human health|
A Giang, M Li, H Barnard-Chumik
AGUFM 2019, GH42A-08, 2019
|Deciphering Changes in Foraging Habitats of Beluga Using lead Isotopes|
M Li, D Weis, L Loseto
AGUFM 2019, GH43C-1227, 2019
|Investigating Methylmercury Exposure in North Atlantic Cetaceans Using Multiple Isotope Tracers|
M Li, B Mikkelsen, R Yin, DP Krabbenhoft, EM Sunderland
AGUFM 2016, B33D-0649, 2016
|Adrienne C. Shelton, William F. Tracy|
RE Schattman, D Conner, VE Méndez, RA Alvarez, DR Lyon, ...