Assessing the effectiveness of microplastic extraction methods on fishmeal with different properties
Assessing the effectiveness of microplastic extraction methods on fishmeal with different properties
Microplastic presence in fishmeal is an emerging research area because of its potential to enter food chains, and the importance of fishmeal within global food security. However, fishmeal is a complex medium dependant on fish composition. This study measured properties (organics, carbonates, protein and density) of five fishmeal types (trimmings, sardine and anchovy, krill, tuna and salmon), sourced from locations worldwide (Norway, South America, Antarctica, Spain and Scotland). Microplastic recovery rates were compared for existing methodologies using sodium chloride overflows and potassium hydroxide digestions and then compared to newly developed methods. These methods included dispersants and calcium chloride density separations which were developed and designed to be environmentally conscious and affordable, which we argue should become an international standard approach for researchers. A calcium chloride overflow with dispersant and potassium hydroxide digestion provided the highest recovery rate in sardine and anchovy fishmeal (66.3%). Positive correlations with recovery rate were found with protein content, and negative correlations with organic content. Low recovery rates found here suggest microplastics in fishmeal reported in the literature are underestimated. With complex media such as fishmeal, attention must be paid to variation between types and composition when choosing methods and interpreting results.
606-619
Way, Chloe, Jane
249b08f3-cd8a-4169-b5c0-7e860637c3f5
Hudson, Malcolm
1ae18506-6f2a-48af-8c72-83ab28679f55
Williams, Ian
c9d674ac-ee69-4937-ab43-17e716266e22
Langley, G. John
7ac80d61-b91d-4261-ad17-255f94ea21ea
Marsh, Robert
702c2e7e-ac19-4019-abd9-a8614ab27717
11 February 2022
Way, Chloe, Jane
249b08f3-cd8a-4169-b5c0-7e860637c3f5
Hudson, Malcolm
1ae18506-6f2a-48af-8c72-83ab28679f55
Williams, Ian
c9d674ac-ee69-4937-ab43-17e716266e22
Langley, G. John
7ac80d61-b91d-4261-ad17-255f94ea21ea
Marsh, Robert
702c2e7e-ac19-4019-abd9-a8614ab27717
Way, Chloe, Jane, Hudson, Malcolm, Williams, Ian, Langley, G. John and Marsh, Robert
(2022)
Assessing the effectiveness of microplastic extraction methods on fishmeal with different properties.
Analytical Methods, 14 (6), .
(doi:10.1039/d1ay02154k).
Abstract
Microplastic presence in fishmeal is an emerging research area because of its potential to enter food chains, and the importance of fishmeal within global food security. However, fishmeal is a complex medium dependant on fish composition. This study measured properties (organics, carbonates, protein and density) of five fishmeal types (trimmings, sardine and anchovy, krill, tuna and salmon), sourced from locations worldwide (Norway, South America, Antarctica, Spain and Scotland). Microplastic recovery rates were compared for existing methodologies using sodium chloride overflows and potassium hydroxide digestions and then compared to newly developed methods. These methods included dispersants and calcium chloride density separations which were developed and designed to be environmentally conscious and affordable, which we argue should become an international standard approach for researchers. A calcium chloride overflow with dispersant and potassium hydroxide digestion provided the highest recovery rate in sardine and anchovy fishmeal (66.3%). Positive correlations with recovery rate were found with protein content, and negative correlations with organic content. Low recovery rates found here suggest microplastics in fishmeal reported in the literature are underestimated. With complex media such as fishmeal, attention must be paid to variation between types and composition when choosing methods and interpreting results.
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Accepted/In Press date: 17 January 2022
e-pub ahead of print date: 19 January 2022
Published date: 11 February 2022
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Funding Information:
This work was supported by the School of Geography and Environmental Science at the University of Southampton, and the Leverhulme Trust Southampton Marine and Maritime Institute. We would like to thank Freya Radford for help with sourcing and identifying the spiking microplastics, and the School Laboratory Manager Peter Morgan for his support and input.
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© The Royal Society of Chemistry.
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Local EPrints ID: 454271
URI: http://eprints.soton.ac.uk/id/eprint/454271
ISSN: 1759-9660
PURE UUID: 8e79125c-100e-4997-b278-395844fd5432
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Date deposited: 04 Feb 2022 17:38
Last modified: 06 Jun 2024 04:20
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