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Microplastics in the Indian and South Atlantic oceans translocate to gills, digestive glands, and muscle of the chokka squid Loligo reynaudii

Francois Bothma, Ryan C. Uren, Lucian Iordachescu, Carl D. van der Lingen, Hindrik Bouwman

2024Marine Pollution Bulletin13 citationsDOIOpen Access PDF

Abstract

Comparative microplastic (MP) data for cephalopods between oceans is scarce. Our aim was to quantify, characterise, and compare MPs in gills, digestive gland, and mantle of chokka squid from the South Atlantic Ocean (SAO) and Indian Ocean (IO) off the coast of South Africa. South African squid had more MPs compared with other studies (means = 2.0 and 0.4 in SAO and IO squid mantle, respectively). Blue fibres were dominant. Identifiable MPs were polyethylene. Despite IO water having higher MP concentrations than the SAO, SAO squid had higher MP concentrations. Dilution by growth is the likely reason for the lower MP concentrations. Fibres were shorter in SAO than IO squid. However, we could not explain why fibre and mantle lengths from both oceans were positively correlated. Squid may not be the best indicator of marine MPs. The characteristics of MPs in squid can be used to track stocks and migrations.

Topics & Concepts

SquidLoligoMolluscaFisheryMicroplasticsOceanographyMantle (geology)GillBiologyZoologyGeologyFish <Actinopterygii>PaleontologyMicroplastics and Plastic PollutionCephalopods and Marine BiologyMarine Biology and Environmental Chemistry
Microplastics in the Indian and South Atlantic oceans translocate to gills, digestive glands, and muscle of the chokka squid Loligo reynaudii | Litcius