Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut?

Microplastics, any plastic <5mm in size, have increased substantially in our water system within the last century. Microplastics have the ability to enter into the food chain from lower trophic level organisms before bioaccumulating to higher trophic level organisms, such as ringed-seals. When in...

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Main Author: Radford, Brynne
Format: Article in Journal/Newspaper
Language:unknown
Published: MacEwan Open Journals 2023
Subjects:
Online Access:https://journals.macewan.ca/studentresearch/article/view/2643
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spelling ftmacewanuojs:oai:journals.macewan.ca:article/2643 2023-09-26T15:15:06+02:00 Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut? Radford, Brynne 2023-08-25 https://journals.macewan.ca/studentresearch/article/view/2643 unknown MacEwan Open Journals https://journals.macewan.ca/studentresearch/article/view/2643 Student Research Proceedings; Vol. 8 No. 1 (2023): Student Research Day 2023 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2023 ftmacewanuojs 2023-08-27T17:42:33Z Microplastics, any plastic <5mm in size, have increased substantially in our water system within the last century. Microplastics have the ability to enter into the food chain from lower trophic level organisms before bioaccumulating to higher trophic level organisms, such as ringed-seals. When ingested in high concentrations, microplastics can have several toxic effects, for example, damage to DNA infertility, and disruption of the nervous system. We investigated the accumulation of microplastics within the stomachs of 10 ringed seals from Arviat, Nunavut to determine if microplastics are accumulating in higher trophic level organisms and traveling to remote Arctic waters. Stomach contents from 40 seals were removed anddigested in 20% KOH for 7 days, followed by vacuum filtration onto filters. Using a stereomicroscope, microplastics were individually removed from the isolated stomach material, characterized by their size and morphological traits, and the polymer type of each microplastic determined using Raman spectroscopy. everal polyethylene particles were identified within the 1000µm and 500µm size fraction of the isolated material, and we predict more polymer types are present within lower sizes. These findings will allow us to determine that microplastics are bioaccumulating across higher trophic level organisms, demonstrating the severity of plastic pollution within the earth's water system. This data will serve as a baseline for future monitoring studies regarding bioaccumulation of microplastics. Faculty Mentor: Dr. Matthew Ross & Dr. David Locky Article in Journal/Newspaper Arctic Arviat Nunavut Pusa hispida MacEwan Open Journals (MacEwan University) Arctic Nunavut
institution Open Polar
collection MacEwan Open Journals (MacEwan University)
op_collection_id ftmacewanuojs
language unknown
description Microplastics, any plastic <5mm in size, have increased substantially in our water system within the last century. Microplastics have the ability to enter into the food chain from lower trophic level organisms before bioaccumulating to higher trophic level organisms, such as ringed-seals. When ingested in high concentrations, microplastics can have several toxic effects, for example, damage to DNA infertility, and disruption of the nervous system. We investigated the accumulation of microplastics within the stomachs of 10 ringed seals from Arviat, Nunavut to determine if microplastics are accumulating in higher trophic level organisms and traveling to remote Arctic waters. Stomach contents from 40 seals were removed anddigested in 20% KOH for 7 days, followed by vacuum filtration onto filters. Using a stereomicroscope, microplastics were individually removed from the isolated stomach material, characterized by their size and morphological traits, and the polymer type of each microplastic determined using Raman spectroscopy. everal polyethylene particles were identified within the 1000µm and 500µm size fraction of the isolated material, and we predict more polymer types are present within lower sizes. These findings will allow us to determine that microplastics are bioaccumulating across higher trophic level organisms, demonstrating the severity of plastic pollution within the earth's water system. This data will serve as a baseline for future monitoring studies regarding bioaccumulation of microplastics. Faculty Mentor: Dr. Matthew Ross & Dr. David Locky
format Article in Journal/Newspaper
author Radford, Brynne
spellingShingle Radford, Brynne
Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut?
author_facet Radford, Brynne
author_sort Radford, Brynne
title Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut?
title_short Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut?
title_full Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut?
title_fullStr Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut?
title_full_unstemmed Are there microplastics in the stomachs of ringed seals (Pusa hispida) from Arviat, Nunavut?
title_sort are there microplastics in the stomachs of ringed seals (pusa hispida) from arviat, nunavut?
publisher MacEwan Open Journals
publishDate 2023
url https://journals.macewan.ca/studentresearch/article/view/2643
geographic Arctic
Nunavut
geographic_facet Arctic
Nunavut
genre Arctic
Arviat
Nunavut
Pusa hispida
genre_facet Arctic
Arviat
Nunavut
Pusa hispida
op_source Student Research Proceedings; Vol. 8 No. 1 (2023): Student Research Day 2023
op_relation https://journals.macewan.ca/studentresearch/article/view/2643
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