Publication Beamlines Strategic Pillar
Wahba, Haytham M.; Lecoq, Lauriane; Stevenson, Michael; Mansour, Ahmed; Cappadocia, Laurent et al. (2016). Structural and Biochemical Characterization of a Copper-Binding Mutant of the Organomercurial Lyase MerB: Insight into the Key Role of the Active Site Aspartic Acid in Hg–Carbon Bond Cleavage and Metal Binding Specificity. Biochemistry 55(7) , 1070-1081. 10.1021/acs.biochem.5b01298. [PDB: 5c17] CMCF-ID Environment
Nearing, Michelle M.; Koch, Iris; Reimer, Kenneth J. (2014). Arsenic Speciation in Edible Mushrooms. Environmental Science and Technology 48(24) , 14203-14210. 10.1021/es5038468. CLS-APS Environment
Caumette, G.; Koch, I.; House, K.; Reimer, K. J. (2014). Arsenic cycling in freshwater phytoplankton and zooplankton cultures. Environmental Chemistry 11(5) , 496. 10.1071/en14039. CLS-APS Environment
Liu, Peng; Ptacek, Carol J.; Blowes, David W.; Landis, Richard C. (2016). Mechanisms of mercury removal by biochars produced from different feedstocks determined using X-ray absorption spectroscopy. Journal of Hazardous Materials 308, 233-242. 10.1016/j.jhazmat.2016.01.007. CLS-APS, SXRMB Environment
Hamilton, Jordan G.; Farrell, Richard E.; Chen, Ning; Feng, Renfei; Reid, Joel et al. (2016). Characterizing Zinc Speciation in Soils from a Smelter-Affected Boreal Forest Ecosystem. Journal of Environmental Quality 45(2) , 684-692. 10.2134/jeq2015.03.0145. CMCF-BM, HXMA, VESPERS Environment
Revesz, Erika; Fortin, Danielle; Paktunc, Dogan (2016). Reductive dissolution of arsenical ferrihydrite by bacteria. Applied Geochemistry 66, 129-139. 10.1016/j.apgeochem.2015.12.007. CLS-APS Environment
MacDonald, Tracy C.; Nehzati, Susan; Sylvain, Nicole J.; James, Ashley K.; Korbas, Malgorzata et al. (2015). Phenylthiourea alters toxicity of mercury compounds in zebrafish larvae. Journal of Inorganic Biochemistry 151, 10-17. 10.1016/j.jinorgbio.2015.07.003. CLS-APS Environment
Schaller, Jörg; Koch, Iris; Caumette, Guilhem; Nearing, Michelle; Reimer, Kenneth J. et al. (2015). Strategies of Gammarus pulex L. to cope with arsenic — Results from speciation analyses by IC–ICP-MS and XAS micro-mapping. Science of the Total Environment 530-531, 430-433. 10.1016/j.scitotenv.2015.06.015. CLS-APS Environment
Revesz, Erika; Fortin, Danielle; Paktunc, Dogan (2015). Reductive dissolution of scorodite in the presence of Shewanella sp. CN32 and Shewanella sp. ANA-3. Applied Geochemistry 63, 347-356. 10.1016/j.apgeochem.2015.09.022. CLS-APS Environment
Moncur, Michael C.; Paktunc, Dogan; Jean Birks, S.; Ptacek, Carol J.; Welsh, Brent et al. (2015). Source and distribution of naturally occurring arsenic in groundwater from Alberta’s Southern Oil Sands Regions. Applied Geochemistry 62, 171-185. 10.1016/j.apgeochem.2015.02.015. CLS-APS Environment
Fawcett, Skya E.; Jamieson, Heather E.; Nordstrom, D. Kirk; McCleskey, R. Blaine (2015). Arsenic and antimony geochemistry of mine wastes, associated waters and sediments at the Giant Mine, Yellowknife, Northwest Territories, Canada. Applied Geochemistry 62, 3-17. 10.1016/j.apgeochem.2014.12.012. CLS-APS Environment
Shuster, Jeremiah; Johnston, Chad W.; Magarvey, Nathan A.; Gordon, Robert A.; Barron, Keith et al. (2014). Structural and Chemical Characterization of Placer Gold Grains: Implications for Bacterial Contributions to Grain Formation. Geomicrobiology Journal 32(2) , 158-169. 10.1080/01490451.2014.935534. CLS-APS Environment
Nearing, Michelle M.; Koch, Iris; Reimer, Kenneth J. (2015). Uptake and transformation of arsenic during the vegetative life stage of terrestrial fungi. Environmental Pollution 197, 108-115. 10.1016/j.envpol.2014.12.006. CLS-APS Environment
Choudhury, Sanjukta; Thomas, Jith K.; Sylvain, Nicole J.; Ponomarenko, Olena; Gordon, Robert A. et al. (2015). Selenium Preferentially Accumulates in the Eye Lens Following Embryonic Exposure: A Confocal X-ray Fluorescence Imaging Study. Environmental Science and Technology 49(4) , 2255-2261. 10.1021/es503848s. CLS-APS Environment
Chen, Chunmei; Dynes, James J.; Wang, Jian; Sparks, Donald L. (2014). Properties of Fe-Organic Matter Associations via Coprecipitation versus Adsorption. Environmental Science and Technology 48(23) , 13751-13759. 10.1021/es503669u. SM Environment