Journal Article(s)
Passive samplers accurately predict PAH levels in resident crayfish.. Sci Total Environ. 544:782-791. .
2016.
Predicting polycyclic aromatic hydrocarbon concentrations in resident aquatic organisms using passive samplers and partial least-squares calibration.. Environ Sci Technol. 48(11):6291-9. .
2014.
Estimating risk at a Superfund site using passive sampling devices as biological surrogates in human health risk models.. Chemosphere. 85(6):920-7. .
2011.
Passive sampling devices enable capacity building and characterization of bioavailable pesticide along the Niger, Senegal and Bani Rivers of Africa.. Philos Trans R Soc Lond B Biol Sci. 369(1639):20130110. .
2014.
Spatial and temporal variation of freely dissolved polycyclic aromatic hydrocarbons in an urban river undergoing Superfund remediation.. Environ Sci Technol. 42(24):9065-71. .
2008.
Field trial and modeling of uptake rates of in situ lipid-free polyethylene membrane passive sampler.. Environ Sci Technol. 42(12):4486-93. .
2008.
Platform/Presentation(s)
Predicting PAH contamination in resident shellfish. Oregon State University Superfund Research Program External Advisory Council Meeting. Corvallis, Oregon. .
2016.
Predicting PAH Contamination in Resident Shellfish. Oregon State University Superfund Research Program’s Environmental Health Science Trainee Colloquium. Corvallis, OR. .
2015.
Passive water sampling predicts PAH contamination in signal crayfish, Pacifastacus leniusculus. SETAC North America 36th Annual Meeting. Salt Lake City, Utah. .
2015.
Mitigating or Eliminating Pesticide Risks in Surface Waters in the Pacific Northwest and West Africa with Targeted Research, Extension, and Education Programs. (Invited Speaker) The Use and Value of Environmental Monitoring in the Assessment and Analysis of Risks, Semi-Annual International IPM Symposium, Transcending Boundaries, Portland OR. .
2009.
Strategies and Challenges of Capacity Building and Technology Transfer for Environmental Monitoring in the United States and Western Africa. SETAC North America 31st Annual Conference. .
2010.
Poster(s)
Passive Sampling Devices Enable Capacity Building and Characterization of Bioavailable Mixtures along the Niger, Senegal and Bani Rivers of Africa. Society of Toxicology 53rd Annual Meeting, Phoenix, AZ. .
2014.
Legacy pollutant levels in crayfish compared to passive sampling devices: Determination of correlations and development of bioaccumulation models. SETAC North American 33rd Annual National Conference. .
2012.
Overcoming the Technical Challenges of an International Human and Eological Health Risk Project in Western Africa. Part 2: Integrating Quality Assurance and Trace Pesticide Analysis Between Laboratories. The Society for Environmental Toxicology and Chemistry. North America Annual Meeting, Tampa, FL, USA. .
2008.
Overcoming the technical challenges of an international human and ecological health risk project in Western Africa. The Society for Environmental Toxicology and Chemistry. North America Annual Meeting, Milwaukee, WI, USA. .
2007.
Site-specific toxic effects in zebrafish embryos exposed to passive sampling device extracts linked to differences in environmental contaminant mixtures. SETAC North America 30th Annual Conference. .
2009.
Site specific toxic effects in zebrafish embryos to passive sampling device extracts linked to differences in environmental contaminant mixtures. Superfund Research Program Annual Meeting. .
2009.
Using passive sampling devices in human health risk assessment models: biologically relevant and spatio-temporal specific measures of exposure. Superfund Research Program Annual Meeting/SETAC North America 31st Annual Conference. .
2010.
An Innovative Approach to Quantifying Risk at a MGP Remediation Project Using Passive Sampling Devices. EPRI MGP 2010 Symposium. .
2010.