Booth Id:
EAEV123
Category:
Earth and Environmental Sciences
Year:
2021
Finalist Names:
Christensen , Rachel (School: Evergreen Senior High School)
Abstract:
Fire-retardant slurries have become a popular method for extinguishing fire, particularly when man-made structures are at risk. However, the chemicals within fire-retardant slurries are known to be toxic to some degree, and these fire-retardant slurries may have long-term adverse effects on sensitive aquatic ecosystems that are not carefully monitored or researched. Specifically, Phos-Chek is the most commonly used fire-retardant slurry for wildfires, so the background information is based on this assumption. After gathering water and soil samples from the Elephant Butte and Lefthand Fires, the samples were sent to the lab to test for the presence of chemical contaminants indicative of Phos-Chek using ion chromatography columns and total nitrogen testing. Specifically, I focused on sulphate, phosphate, and nitrogen contamination levels because these elements are commonly used in fire-retardant slurries. These results indicated no long-term presence of Phos-Chek in the Lefthand samples. Elephant Butte Fire samples illustrated the expected trends (the firezone had higher contamination levels than the samples from above), suggesting that there was Phos-Chek or fertilizer contamination at the Elephant Butte firezone. My results are consistent with Phos-Chek having long-lasting impacts on small rivers, suggesting that further research is warranted. Using pre-existing information, it can be assumed that Phos-Chek would cause acute mortality for sensitive aquatic populations.