Selective Ingestion and Egestion of Plastic Particles by the Blue Mussel (<i>Mytilus edulis</i>) and Eastern Oyster (<i>Crassostrea virginica</i>): Implications for Using Bivalves as Bioindicators of Microplastic Pollution

Ward, J. Evan; Zhao, Shiye; Holohan, Bridget A.; Mladinich, Kayla; Griffin, Tyler W.; Wozniak, Jennifer; Shumway, Sandra E.

doi:10.1021/acs.est.9b02073

Cited by 236 publications

(112 citation statements)

References 67 publications

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“…In mussels, waterborne particles are captured via the gills, with capture efficiency and ingestion dependent upon particle size, shape, hydrophobicity, and aggregation within biogenic matrices (e.g. marine snow) (Kach and Ward, 2008;Porter et al, 2018;Rosa et al, 2018;Ward and Targett, 1989;Ward and Shumway, 2004); particles are subsequently sorted via the labial palps (Beninger et al, 1995), and either ingested or ejected within pseudofaeces (Ward et al, 2019b;Zhao et al, 2018). Microplastics have been shown to aggregate in the gills and digestive glands (Avio et al, 2015;Browne et al, 2008;Paul-Pont et al, 2016;Pittura et al, 2018;Revel et al, 2019;von Moos et al, 2012) and adhere on organs not associated with feeding, including the adductor muscles, foot and mantle (Kolandhasamy et al, 2018); there is also some evidence that <20 µm microplastics can translocate into the haemolymph (Browne et al, 2008;von Moos et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Microplastics, microfibres and nanoplastics cause variable sub-lethal responses in mussels (Mytilus spp.)

Cole

Liddle

Consolandi

et al. 2020

Marine Pollution Bulletin

141

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We compare the toxicity of microplastics, microfibres and nanoplastics on mussels. Mussels (Mytilus spp.) were exposed to 500 ng mL-1 of 20 µm polystyrene microplastics, 10x30 µm polyamide microfibres or 50 nm polystyrene nanoplastics for 24 h or 7 days. Biomarkers of immune response, oxidative stress response, lysosomal destabilisation and genotoxic damage were measured in haemolymph, digestive gland and gills. Microplastics and microfibres were observed in the digestive glands, with significantly higher plastic concentrations after 7-days exposure (ANOVA, P<0.05). Nanoplastics had a significant effect on hyalinocyte-granulocyte ratios (ANOVA, P<0.05), indicative of a heightened immune response. SOD activity was significantly increased followed 24 h exposure to plastics (two-way ANOVA, P<0.05), but returned to normal levels after 7-days exposure. No evidence of lysosomal destabilisation or genotoxic damage was observed from any form of plastic. The study highlights how particle size is a key factor in plastic particulate toxicity.

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Section: Introductionmentioning

confidence: 99%

Microplastics, microfibres and nanoplastics cause variable sub-lethal responses in mussels (Mytilus spp.)

Cole

Liddle

Consolandi

et al. 2020

Marine Pollution Bulletin

141

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“…These authors concluded that their study emphasised the gap of knowledge on the feeding behaviour of mussels in relation to MPs, in this case, fragments and the necessity to investigate it in different marine species and under different exposure regimes. Ward et al [20] unequivocally showed that the selective ingestion and egestion of plastic particles by the blue mussel and Eastern oyster (C. virginica) precludes their use as bioindicators of MPs pollution. These authors advised, given recent proposals to adopt bivalve molluscs that filter feed from the water column as bioindicators of MPs pollution (e.g., [15]), the proposed organisms should ingest without bias the majority of plastic particles to which they are exposed.…”

Section: Laboratory Researchmentioning

confidence: 99%

“…As noted within the introduction, the well mixed nature of the water column due to currents, wind and storm events would preclude assigning a particular source of plastic microfiber contamination to the shellfish. More importantly though are the conclusions and subsequent advice of Ward et al [20] who state that filter feeders such as the oyster, because of their bias in food ingestion cannot be used as biomonitors of MPs thus rendering the observations and conclusions of Covernton et al [40] with respect to the oyster unsubstantiated.…”

Section: Plos Onementioning

confidence: 99%

Use of sediment dwelling bivalves to biomonitor plastic particle pollution in intertidal regions; A review and study

Bendell

LeCadre²,

Zhou

2020

PLoS ONE

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We explore the possibility of using the varnish (Nutallia obscurata) and Manila (Venerupis philippinarum) clams as biomonitors of microplastics (MPs) pollution. A short review is first provided on the use of bivalves for biomonitoring MPs in aquatic ecosystems. From the conclusions drawn from our review we determine if the sediment dwelling varnish and Manila clam could possibly be good choices for this purpose. We sampled 8 intertidal sites located within two distinct regions of coastal British Columbia, Burrard Inlet (5 sites) and Baynes Sound (3 sites). Each intertidal region had its own particular use; within Burrard Inlet, BMP a heavily used marine park, CP, EB, J, and AP, popular local beaches, and within Baynes Sound, Met and NHB, two intertidal regions heavily exploited by the shellfish industry and RU an intertidal region with limited aquaculture activity. Microfragments were recovered from bivalves collected from all intertidal regions except for AP. Microspheres were recovered primarily from bivalves sampled from Baynes Sound at NHB where high numbers of spheres within sediments had previously been reported. BMP and Met had the highest number of particles present within individual clams which were predominantly high density polyethylene (HDPE) and a polypropylene composite (PPC). Both polymers are extensively used by the shellfish industry in all gear types, as well as in industrial and recreational marine activities. The spatial distribution of recovered MPs was indicative of the anthropogenic use of the intertidal region suggesting these bivalves, for microfragments and microspheres, may be suitable as biomonitors and could prove to be useful tools for determining whether reduction policies for plastics use are having a positive effect on their release into marine environments.

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“…Blue mussels and eastern oysters were used in a laboratory experiment to compare ingestion and egestion of spherical and fibrous microplastics (Ward et al, 2019). Both species rejected larger spheres (1,000 μm) at a higher rate than smaller spheres and rejected a higher proportion of large microspheres than long microfibers.…”

Section: Effects Of Microplastic Debrismentioning

confidence: 99%

Effects of pollution on marine organisms

Mearns

Morrison

Arthur³

et al. 2020

Water Environment Research

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This review covers selected 2019 articles on the biological effects of pollutants, including human physical disturbances, on marine and estuarine plants, animals, ecosystems, and habitats. The review, based largely on journal articles, covers field, and laboratory measurement activities (bioaccumulation of contaminants, field assessment surveys, toxicity testing, and biomarkers) as well as pollution issues of current interest including endocrine disrupters, emerging contaminants, wastewater discharges, marine debris, dredging, and disposal. Special emphasis is placed on effects of oil spills and marine debris due largely to the 2010 Deepwater Horizon oil blowout in the Gulf of Mexico and proliferation of data on the assimilation and effects of marine debris microparticulates. Several topical areas reviewed in the past (e.g., mass mortalities ocean acidification) were dropped this year. The focus of this review is on effects, not on pollutant sources, chemistry, fate, or transport. There is considerable overlap across subject areas (e.g., some bioaccumulation data may be appeared in other topical categories such as effects of wastewater discharges, or biomarker studies appearing in oil toxicity literature). Therefore, we strongly urge readers to use keyword searching of the text and references to locate related but distributed information. Although nearly 400 papers are cited, these now represent a fraction of the literature on these subjects. Use this review mainly as a starting point. And please consult the original papers before citing them.

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Selective Ingestion and Egestion of Plastic Particles by the Blue Mussel (Mytilus edulis) and Eastern Oyster (Crassostrea virginica): Implications for Using Bivalves as Bioindicators of Microplastic Pollution

Cited by 236 publications

References 67 publications

Microplastics, microfibres and nanoplastics cause variable sub-lethal responses in mussels (Mytilus spp.)

Microplastics, microfibres and nanoplastics cause variable sub-lethal responses in mussels (Mytilus spp.)

Use of sediment dwelling bivalves to biomonitor plastic particle pollution in intertidal regions; A review and study

Effects of pollution on marine organisms

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