Particle Tracking in Lake Superior using FVCOM with focus on Apostle Islands

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Weber_umn_0130M_22819.pdf (5.09 MB)

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https://hdl.handle.net/11299/225079

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Particle Tracking in Lake Superior using FVCOM with focus on Apostle Islands

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Weber, Grace

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2021-08

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Abstract

This study explores the movement of simulated neutrally buoyant drifters in far western Lake Superior. It was motivated by a desire to understand the transport and fate of microplastic particles originating near the region’s population centers and their potential impact on the Apostle Islands National Lakeshore. Particle movements were determined using the Finite Volume Coastal Ocean Model (FVCOM) configuration developed by the Large Lakes Observatory at the University of Minnesota Duluth. When exploring vertically averaged monthly output for the years 2015 and 2018, particles (which could include microplastic particles or suspended sediments) were modeled as passive drifters and advected using model output during each month. Exploring month- long and three month-long model runs showed that drifters originating in the St. Louis and Nemadji estuaries move predominantly towards the Apostle Islands. Drifters are also predicted to be more prevalent on the northern side of the Apostle islands. Drifters were also observed to travel faster in the late summer months, with more drifters entering and staying in the Apostle Islands during those months as well. The drifter tracks suggest that if a microplastic or other neutrally-buoyant particle is deposited inside of the estuary, assuming no large wind events, it will most likely end up in the Apostle Islands within 3 months, especially during the late summer months. The results of this analysis will help researchers to better understand the source, transport and fate of microplastics in Lake Superior. Part of this research was intended to aid in further understanding microplastic sampling research done in the Apostle Islands during June through December of 2015 (Whitmire et al 2017), and May and August of 2018 (Minor et al 2020).

Keywords

fvcom

Lake

limnology

microplastic

modeling

Superior

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University of Minnesota M.S. thesis. August 2021. Major: Physics. Advisor: Jay Austin. 1 computer file (PDF); iv, 54 pages.

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Weber, Grace. (2021). Particle Tracking in Lake Superior using FVCOM with focus on Apostle Islands. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/225079.

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