Microplastics in intertidal water of South Australia and the mussel Mytilus spp.; the contrasting effect of population on concentration

Microplastics in intertidal water of South Australia and the mussel Mytilus spp.; the contrasting effect of population on concentration

Microplastics, plastic particles <5 mm in size, are of global concern as human-caused pollutants in marine and fresh waters, and yet little is known of their distribution, behaviour and ecological impact in the intertidal environment of South Australia. This study confirms for the first time, the...

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Bibliographic Details
Published in:The Science of the total environment Vol. 831; p. 154875
Main Authors: Klein, Janet R., Beaman, Julian, Kirkbride, K. Paul, Patten, Corey, Burke da Silva, Karen
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 20-07-2022
Subjects:
Blue mussel
Intertidal water
Microplastic
Population
Single-use plastics
South Australia
Blue mussel
Population
Intertidal water
Microplastic
Single-use plastics
South Australia
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Summary:Microplastics, plastic particles <5 mm in size, are of global concern as human-caused pollutants in marine and fresh waters, and yet little is known of their distribution, behaviour and ecological impact in the intertidal environment of South Australia. This study confirms for the first time, the presence of microplastic in the South Australian intertidal ecosystem by quantifying the abundance of particles in intertidal water and in the keystone species, the blue mussel, Mytilus spp., an important fisheries species, at ten and six locations respectively, along the South Australian coastline. For a remote region known for its pristine environment, microplastic concentration in intertidal water was found to be low to moderate (mean = 8.21 particles l−1 ± 4.91) relative to global levels and microplastic abundance in mussels (mean = 3.58 ± 8.18 particles individual−1) was within the range also reported globally. Microplastic particles were ubiquitous across sites and bioavailable by size in water (mean = 906.36 μm) and in mussel (mean = 983.29 μm) raising concerns for the health of South Australia's unique coastal ecosystems and for the human food chain. Furthermore, a positive correlation was found between human coastal population size and microplastic concentration in intertidal water, irrespective of influences from industry - tourism, fishing and shipping ports. FTIR analysis determined plastic type to include polyamide (PA), polyethylene (PE), polypropylene (PP), acrylic resin, polyethyleneterephthalate (PET) and cellulose, suggesting synthetic and semi-synthetic particles from single-use, short-life cycle products, fabrics, ropes and cordage. Our findings shed light on the urgent need to establish the local sources of microplastic pollution in order to assist the community, industry and government to reduce the impact of microplastic on the fragile marine systems within South Australian intertidal waters and on the organisms associated with the human food chain. [Display omitted] •Microplastic are ubiquitous in intertidal waters along the South Australian coastline•Microplastic concentration in intertidal water is positively associated with human coastal population size•Microplastic in wild mussel, Mytilus spp., is affected by mussel size but not the concentration in intertidal water•Microplastic from single-use plastics, textiles and fishing industry
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2022.154875