Kady Palmer, Eckerd College
Contaminants. One word, countless different connotations. Therefore, the exposure to contaminants is a constant concern to both the public and the scientific community. The study I will be performing this summer focuses on perfluorinated chemicals, or PFCs. PFCs are a class of contaminants that are utilized in many commercially available products (ex: non-stick pans, stain resistant sprays, and water-resistant materials) and have been classified as highly abundant and persistent chemicals of concern, in relation to overall environmental and, subsequently, human health.
Photo from: “Should You Ban Your Teflon Pan? California.” Savvy California, January 1, 2015. https://savvycalifornia.com/teflon-pan-toxic-or-not/.
Through various mechanisms, PFCs have been noted to integrate into the environment and end up in the air, soil, and water. As this is happening, the organisms living in these areas become exposed and are put into a precarious situation. Little research has been performed on examining exactly what the effect these compounds have on organisms in these types of environments. Although it would be just as interesting to scoop water samples from different places to determine a basis for this environmental change, my project will be delving a bit deeper. Because previous studies have shown data supporting PFC accumulation in the bloodstream of different marine animals and their subsequent health consequences, I will be expanding this research by analyzing the types and abundance of PFCs in the Florida manatee.
The Florida manatee (Trichechus manatus latirostris) inhabits areas of warm water, close to the shoreline. Unfortunately, manatees have a history of endangerment, as a result of human impacts (boat strikes, entanglements, drowning due to drainages) and environmental changes. Perfluorinated chemicals, as described above, could very well be impacting manatees in ways currently unknown. This study aims to isolate the types and abundance of PFCs in Florida manatees and potential health concerns associated with this exposure. While the health of manatees is undoubtedly important, the results of this research could provide insight as to the overall health of the ecosystems examined. Manatees could function as a model for other organisms, demonstrating the possible repurcussions of PFC exposure. If that is the case, the knowledge gained from this organism, living so close to the shoreline of human inhabited areas, may be applicable in aiding future human research.
Photo from: “West Indian Manatee.” Southeast Region of the U.S. Fish and Wildlife Service. Accessed June 23, 2017. https://www.fws.gov/southeast/wildlife/mammals/manatee/.
I’d like to sincerely thank everyone involved in the National Institute of Standards and Technology laboratories who have been a wealth of information and guidance, specifically Dr. Jessica Reiner, Jackie Bangma, and my mentor, Dr. John Bowden. This project would not be possible without samples and information provided by Robert Bonde with USGS, funding from the National Science Foundation, and the College of Charleston’s Grice Marine Laboratory.
Bangma, Jacqueline T., John A. Bowden, Arnold M. Brunell, Ian Christie, Brendan Finnell, Matthew P. Guillette, Martin Jones, et al. “Perfluorinated Alkyl Acids in Plasma of American Alligators (Alligator Mississippiensis) from Florida and South Carolina.” Environmental Toxicology and Chemistry, no. 4 (2017): 917. doi:10.1002/etc.3600.
“CDC – NBP – Biomonitoring Summaries – PFCs.” Accessed June 19, 2017. https://www.cdc.gov/biomonitoring/pfcs_biomonitoringsummary.html.
“West Indian Manatee”. Southeast Region of the U.S. Fish and Wildlife Service. Accessed June 23, 2017. https://www.fws.gov/southeast/wildlife/mammals/manatee/.