Magnetic Levitation (MagLev) to Isolate and Evaluate Micron-sized Particles In the Russian River

Abstract

Microplastics threaten human health and ecosystem sustainability. Current density-based methods include sink-float method and sucrose density gradient. Our goal is to diagnose microplastic contamination in the Russian River, which will aid policymakers and Sonoma County residents in waste management habits. Our hypothesis is that MagLev is a viable technique for analyzing crude microplastic samples. We used a plankton net of 50 micron pore size to collect samples at the Russian River’s confluence with Dry Creek, and 30% H2O2 and nile red dye to detect synthetic material. We constructed MagLev device and developed solution for sample analysis. We used density standard beads of 0.9, 1.03, and 1.3 g/cc and a cis cinnamic acid crystal with a density of ~1.2 g/cc. SEM revealed mixture of particles. Future studies should identify microplastics by elimination and reference to plastics of known density, with potential projects including distinguishing plankton organisms.

Results

Title	Format	Download	Students
Magnetic Levitation (MagLev) to Isolate and Evaluate Micron-sized Particles In the Russian River	poster	atkinson_maglev_poster.pdf atkinson_maglev_poster.pdf	Camila Carrillo, Cesar Torres

Key Terms: Russian Riverkeeper, trace analysis, paramagnetic, magnet, water