Wilson Center Experts
Todd Kuiken, Ph.D.
Dr. Todd Kuiken is a Senior Program Associate with the Science and Technology Innovation Program at the Woodrow Wilson International Centre for Scholars where he explores the scientific and technological frontier, stimulating discovery and bringing new tools to bear on public policy challenges that emerge as science advances.
He currently is collaborating with DIYbio.org on a project to ensure safety within the rapidly expanding community of amateur biologists and analyzes the potential bio-security threats associated with such a diffuse community. In addition he has numerous projects evaluating and designing new research and governance strategies to proactively address the environmental risks associated with synthetic biology as part of the Wilson Centre’s Synthetic Biology Project. He also works with the Project on Emerging Nanotechnologies, also at the Woodrow Wilson Centre, where he focuses on public policy and the environmental health and safety aspects of nanotechnology.
Dr. Kuiken is a regular speaker on public policy issues related to nanotechnology and synthetic biology and has published a number of articles on nanotechnology, synthetic biology, and mercury cycling. After completing his B.S. in Environmental Management and Technology at Rochester Institute of Technology he worked directly with renowned scientists on the biogeochemical cycling of mercury at the Oak Ridge National Laboratory. He earned an M.A. in Environmental and Resource Policy from The George Washington University concentrating on the scientific, economic and community development aspects of environmental issues. While there he worked at various environmental non-profits including the National Wildlife Federation where he worked within the Clean the Rain campaign that dealt with the environmental and public health threats associated with mercury pollution. Dr. Kuiken earned his Ph.D. from Tennessee Tech University where his research focused on the air/surface exchange of mercury associated with forest ecosystems. As part of his dissertation he synthesized these results with other studies associated with mercury cycling, public health threats and policy alternatives to bring attention to the threats and need for an improved public policy dealing with mercury pollution.
Kuiken, T. DIYbio:Low Risk, High Potential. The Scientist, March 2013.
Dana, G.V., Kuiken, T., Rejeski, D., Snow, A.A. Four steps to avoid a synthetic biology disaster. Nature, 483, No. 7387, 29, 2012.
Kuiken, T. Cleaning up contaminated waste sites: Is nanotechnology the answer? Nano Today, 5(1), 6-8, 2010.
Kuiken, T. Nanomedicine and ethics: is there anything new or unique? WIRES: Nanomedicine and Nanobiotechnology, Volume 2, 1-12, 2010.
Kuiken, T. International Viewpoint and News, Nano in the Arctic. Environmental Earth Sciences, in press.
Kuiken, T. International Viewpoint and News, The Project on Emerging Nanotechnologies and Nanoremediation. Environmental Earth Sciences, 60(4), 903-907, 2010.
Stamenkovic, J., Weisberg, P., Pillai, R., Ericksen, J., Kuiken, T., Lindberg, S., Zhang, H., Rytuba, J., Gustin, M. Application of a rule-based model to estimate mercury exchange for three background biomes in the continental United States. Environmental Science & Technology, 43, 4989-4994, 2009
Karn, B., Kuiken, T., and Otto, M. Nanotechnology and in Situ Remediation: A Review of the Benefits and Potential Risks. Environmental Health Perspectives, 117(12), 2009.
Kuiken, T., Zhang, H., Gustin, M., Lindberg, S. Mercury emission from terrestrial background surfaces in the eastern USA: I. Air/surface exchange of mercury within a southeastern deciduous forest (Tennessee) over one year. Applied Geochemistry, 23(3), 345-355, 2008.
Kuiken, T. Gustin, M., Zhang, H., Lindberg, S., Sedinger, B. Mercury emission from terrestrial background surfaces in the eastern USA: II. Air/surface exchange of mercury within forests from South Carolina to New England. Applied Geochemistry, 23(3), 356-368, 2008.
Zhang, H, Lindberg, S.E., Kuiken, T. Mysterious diel cycles of mercury emission from soils held in the dark at constant temperature. Atmospheric Environment, 42, 5424-5433, 2008.
Zhang, H, Dill, C, Kuiken, T, Ensor, M, Crocker, W. Change of Dissolved Gaseous Mercury (DGM) Concentrations in a Southern Reservoir Lake (Tennessee, USA) Following Seasonal Variation of Solar Radiation. Environmental Science & Technology, 40, 2114-2119, 2006.
Dill C, Kuiken T, Zhang H., Ensor M. Diurnal Variation of Dissolved Gaseous Mercury (DGM) Levels in a Southern Reservoir Lake (Tennessee, USA) in relation to solar radiation. The Science of The Total Environment, 357, 176-193, 2006.
Southworth, G., Lindberg, S.E., Bogle, M.A., Zhang, H., Kuiken, T., Price, Reinhart, D., and Sfeir, H. Airborne emissions of mercury from municipal solid waste II: Potential losses of airborne mercury prior to landfill. Journal of Air & Waste Management Association, 55:870-877, 2005.
Lindberg, S.E., Southworth, G.R., Bogle, M.A., Blasing, T.J., Zhang, H., Kuiken, T., Price, J., Reinhart, D., Sfeir, H., Owens, J., Roy, K. Airborne emissions of mercury from municipal solid waste I: New measurements from six operating landfills in Florida. Journal of Air & Waste Management Association, 55:859-869, 2005.
Lindberg, S., Zhang, H., Vette, A., Gustin, M., Barnett, M., Kuiken, T. Dynamic flux chamber measurement of gaseous mercury emission fluxes over soils: II. Effect of flushing flow rate and verification of a two-resistance exchange interface model. Atmospheric Environment, 36, 847-859, 2002.