Your search keyword '"Tamara S Galloway"' showing total 220 results

1. Cloning retinoid and peroxisome proliferator-activated nuclear receptors of the Pacific oyster and in silico binding to environmental chemicals.

Author

Susanne Vogeler, Tamara S Galloway, Michail Isupov, and Tim P Bean

Subjects

Medicine, Science

Abstract

Disruption of nuclear receptors, a transcription factor superfamily regulating gene expression in animals, is one proposed mechanism through which pollution causes effects in aquatic invertebrates. Environmental pollutants have the ability to interfere with the receptor's functions through direct binding and inducing incorrect signals. Limited knowledge of invertebrate endocrinology and molecular regulatory mechanisms, however, impede the understanding of endocrine disruptive effects in many aquatic invertebrate species. Here, we isolated three nuclear receptors of the Pacific oyster, Crassostrea gigas: two isoforms of the retinoid X receptor, CgRXR-1 and CgRXR-2, a retinoic acid receptor ortholog CgRAR, and a peroxisome proliferator-activated receptor ortholog CgPPAR. Computer modelling of the receptors based on 3D crystal structures of human proteins was used to predict each receptor's ability to bind to different ligands in silico. CgRXR showed high potential to bind and be activated by 9-cis retinoic acid and the organotin tributyltin (TBT). Computer modelling of CgRAR revealed six residues in the ligand binding domain, which prevent the successful interaction with natural and synthetic retinoid ligands. This supports an existing theory of loss of retinoid binding in molluscan RARs. Modelling of CgPPAR was less reliable due to high discrepancies in sequence to its human ortholog. Yet, there are suggestions of binding to TBT, but not to rosiglitazone. The effect of potential receptor ligands on early oyster development was assessed after 24h of chemical exposure. TBT oxide (0.2μg/l), all-trans retinoic acid (ATRA) (0.06 mg/L) and perfluorooctanoic acid (20 mg/L) showed high effects on development (>74% abnormal developed D-shelled larvae), while rosiglitazone (40 mg/L) showed no effect. The results are discussed in relation to a putative direct (TBT) disruption effect on nuclear receptors. The inability of direct binding of ATRA to CgRAR suggests either a disruptive effect through a pathway excluding nuclear receptors or an indirect interaction. Our findings provide valuable information on potential mechanisms of molluscan nuclear receptors and the effects of environmental pollution on aquatic invertebrates.

Published

2017

2. High urinary tungsten concentration is associated with stroke in the National Health and Nutrition Examination Survey 1999-2010.

Author

Jessica Tyrrell, Tamara S Galloway, Ghada Abo-Zaid, David Melzer, Michael H Depledge, and Nicholas J Osborne

Subjects

Medicine, Science

Abstract

BACKGROUND: In recent years there has been an exponential increase in tungsten demand, potentially increasing human exposure to the metal. Currently, the toxicology of tungsten is poorly understood, but mounting evidence suggests that both the elemental metal and its alloys have cytotoxic effects. Here, we investigate the association between tungsten and cardiovascular disease (CVD) or stroke using six waves of the National Health and Nutrition Examination Survey (NHANES). METHODS: We investigated associations using crude and adjusted logistic regression models in a cohort of 8614 adults (18-74 years) with 193 reported stroke diagnoses and 428 reported diagnoses of CVD. We also stratified our data to characterize associations in a subset of younger individuals (18-50 years). RESULTS: Elevated tungsten concentrations were strongly associated with an increase in the prevalence of stroke, independent of typical risk factors (Odds Ratio (OR): 1.66, 95% Confidence Interval (95% CI): 1.17, 2.34). The association between tungsten and stroke in the young age category was still evident (OR: 2.17, 95% CI: 1.33, 3.53). CONCLUSION: This study represents the most comprehensive analysis of the human health effects of tungsten to date. Individuals with higher urinary tungsten concentrations have double the odds of reported stroke. We hypothesize that the pathological pathway resulting from tungsten exposure may involve oxidative stress.

Published

2013

3. Microplastic burden in marine benthic invertebrates depends on species traits and feeding ecology within biogeographical provinces

Author

Adam Porter, Jasmin A. Godbold, Ceri N. Lewis, Georgie Savage, Martin Solan, and Tamara S. Galloway

Subjects

Science

Abstract

Abstract The microplastic body burden of marine animals is often assumed to reflect levels of environmental contamination, yet variations in feeding ecology and regional trait expression could also affect a species’ risk of contaminant uptake. Here, we explore the global inventory of individual microplastic body burden for invertebrate species inhabiting marine sediments across 16 biogeographic provinces. We show that individual microplastic body burden in benthic invertebrates cannot be fully explained by absolute levels of microplastic contamination in the environment, because interspecific differences in behaviour and feeding ecology strongly determine microplastic uptake. Our analyses also indicate a degree of species-specific particle selectivity; likely associated with feeding biology. Highest microplastic burden occurs in the Yellow and Mediterranean Seas and, contrary to expectation, amongst omnivores, predators, and deposit feeders rather than suspension feeding species. Our findings highlight the inadequacy of microplastic uptake risk assessments based on inventories of environmental contamination alone, and the need to understand how species behaviour and trait expression covary with microplastic contamination.

Published

2023

4. Urinary bisphenol a concentration and angiography-defined coronary artery stenosis.

Author

David Melzer, Phil Gates, Nicholas J Osborne, William E Henley, Ricardo Cipelli, Anita Young, Cathryn Money, Paul McCormack, Peter Schofield, David Mosedale, David Grainger, and Tamara S Galloway

Subjects

Medicine, Science

Abstract

Bisphenol A is widely used in food and drinks packaging. There is evidence of associations between raised urinary bisphenol A (uBPA) and increased incidence of reported cardiovascular diagnoses.To estimate associations between BPA exposure and angiographically graded coronary atherosclerosis. 591 patients participating in The Metabonomics and Genomics in Coronary Artery Disease (MaGiCAD) study in Cambridgeshire UK, comparing urinary BPA (uBPA) with grades of severity of coronary artery disease (CAD) on angiography. Linear models were adjusted for BMI, occupational social class and diabetes status. Severe (one to three vessel) CAD was present in 385 patients, 86 had intermediate disease (n=86) and 120 had normal coronary arteries. The (unadjusted) median uBPA concentration was 1.28 ng/mL with normal coronary arteries, and 1.53 ng/mL with severe CAD. Compared to those with normal coronary arteries, uBPA concentration was significantly higher in those with severe CAD (OR per uBPA SD=5.96 ng/ml OR=1.43, CI 1.03 to 1.98, p=0.033), and near significant for intermediate disease (OR=1.69, CI 0.98 to 2.94, p=0.061). There was no significant uBPA difference between patients with severe CAD (needing surgery) and the remaining groups combined.BPA exposure was higher in those with severe coronary artery stenoses compared to those with no vessel disease. Larger studies are needed to estimate true dose response relationships. The mechanisms underlying the association remain to be established.

Published

2012

5. Association of urinary bisphenol a concentration with heart disease: evidence from NHANES 2003/06.

Author

David Melzer, Neil E Rice, Ceri Lewis, William E Henley, and Tamara S Galloway

Subjects

Medicine, Science

Abstract

BackgroundBisphenol A (BPA) is a high production volume chemical widely used in food and drinks packaging. Associations have previously been reported between urinary BPA concentrations and heart disease, diabetes and liver enzymes in adult participants of the National Health and Nutrition Examination Survey (NHANES) 2003/04. We aimed to estimate associations between urinary BPA concentrations and health measures in NHANES 2005/06 and in data pooled across collection years.Methodology and findingsA cross-sectional analysis of NHANES: subjects were n = 1455 (2003/04) and n = 1493 (2005/06) adults aged 18-74 years, representative of the general adult population of the United States. Regression models were adjusted for age, sex, race/ethnicity, education, income, smoking, BMI, waist circumference, and urinary creatinine concentration. Main outcomes were reported diagnoses of heart attack, coronary heart disease, angina and diabetes and serum liver enzyme levels. Urinary BPA concentrations in 2005/06 (geometric mean 1.79 ng/ml, 95% CI: 1.64 to 1.96) were lower than in 2003/04 (2.49 ng/ml, CI: 2.20 to 2.83, difference p-value = 0.00002). Higher BPA concentrations were associated with coronary heart disease in 2005/06 (OR per z-score increase in BPA = 1.33, 95%CI: 1.01 to 1.75, p = 0.043) and in pooled data (OR = 1.42, CI: 1.17 to 1.72, p = 0.001). Associations with diabetes did not reach significance in 2005/06, but pooled estimates remained significant (OR = 1.24, CI: 1.10 to 1.40, p = 0.001). There was no overall association with gamma glutamyl transferase concentrations, but pooled associations with alkaline phosphatase and lactate dehydrogenase remained significant.ConclusionsHigher BPA exposure, reflected in higher urinary concentrations of BPA, is consistently associated with reported heart disease in the general adult population of the USA. Studies to clarify the mechanisms of these associations are urgently needed.

Published

2010

6. Plastic Pollution and Small Juvenile Marine Turtles: A Potential Evolutionary Trap

Author

Emily M. Duncan, Annette C. Broderick, Kay Critchell, Tamara S. Galloway, Mark Hamann, Colin J. Limpus, Penelope K. Lindeque, David Santillo, Anton D. Tucker, Scott Whiting, Erina J. Young, and Brendan J. Godley

Subjects

plastic, marine turtle, pollution, marine debris, evolutionary trap, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The ingestion of plastic by marine turtles is now reported for all species. Small juvenile turtles (including post-hatchling and oceanic juveniles) are thought to be most at risk, due to feeding preferences and overlap with areas of high plastic abundance. Their remote and dispersed life stage, however, results in limited access and assessments. Here, stranded and bycaught specimens from Queensland Australia, Pacific Ocean (PO; n = 65; 1993–2019) and Western Australia, Indian Ocean (IO; n = 56; 2015–2019) provide a unique opportunity to assess the extent of plastic (> 1mm) ingestion in five species [green (Chelonia mydas), loggerhead (Caretta caretta), hawksbill (Eretmochelys imbricata), olive ridley (Lepidochelys olivacea), and flatback turtles (Natator depressus)]. In the Pacific Ocean, high incidence of ingestion occurred in green (83%; n = 36), loggerhead (86%; n = 7), flatback (80%; n = 10) and olive ridley turtles (29%; n = 7). There was an overall lower incidence in IO; highest being in the flatback (28%; n = 18), the loggerhead (21%; n = 14) and green (9%; n = 22). No macroplastic debris ingestion was documented for hawksbill turtles in either site although sample sizes were smaller for this species (PO n = 5; IO n = 2). In the Pacific Ocean, the majority of ingested debris was made up of hard fragments (mean of all species 52%; species averages 46–97%), whereas for the Indian Ocean these were filamentous plastics (52%; 43–77%). The most abundant colour for both sites across all species was clear (PO: 36%; IO: 39%), followed by white for PO (36%) then green and blue for IO (16%; 16%). The polymers most commonly ingested by turtles in both oceans were polyethylene (PE; PO-58%; IO-39%) and polypropylene (PP; PO-20.2%; IO-23.5%). We frame the high occurrence of ingested plastic present in this marine turtle life stage as a potential evolutionary trap as they undertake their development in what are now some of the most polluted areas of the global oceans.

Published

2021

7. Remote, but Not Isolated—Microplastics in the Sub-surface Waters of the Canadian Arctic Archipelago

Author

Kirstie Jones-Williams, Tamara S. Galloway, Victoria L. Peck, and Clara Manno

Subjects

microplastic, microfibre, Arctic, Canada, sub-surface, environmental monitoring, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

As the remote Canadian Arctic Archipelago (CAA) becomes increasingly connected to the rest of the world, there is an impetus to monitor the possible impact of this connectivity. The potential for increases in localised sources of plastic pollution resulting from the increasing navigability of the remote north has yet to be explored. Here we investigate microplastic samples which were collected aboard the Canadian Coast Guard Ship (CCGS) Amundsen in the summer of 2018 using the underway pump and a filtration system with Fourier transform infrared analysis. We investigate the character, abundance, and distribution of microplastic particles and fibres in the sub-surface waters across the Canadian Arctic and add to the limited dataset on plastic pollution in this region. We find that there are low concentrations of microplastics ranging from 0 to 0.282 n L–1 (average 0.031 ± 0.017 n L–1), comprising 71% polyester and acrylics. We investigate the size distribution of retained particles and fibres on three different filter mesh sizes connected to the underway pump (300, 100, and 50 μm) and find that a 300 μm mesh and a 100 μm mesh retain only 6 and 56%, respectively, of the total particles and fibres. We explore the role of shipping as a potential source of textile fibres and we suggest that future monitoring of plastics in the Canadian Arctic should use the current shipping fleet to monitor its own plastic footprint, utilising the underway pump and mesh sizes < 100 μm.

Published

2021

8. A Horizon Scan to Support Chemical Pollution–Related Policymaking for Sustainable and Climate‐Resilient Economies

Author

Christopher Green, Antoaneta Bilyanska, Mags Bradley, Jason Dinsdale, Lorraine Hutt, Thomas Backhaus, Frank Boons, David Bott, Chris Collins, Sarah E. Cornell, Mark Craig, Michael Depledge, Bob Diderich, Richard Fuller, Tamara S. Galloway, Gary R. Hutchison, Nicola Ingrey, Andrew C. Johnson, Rachael Kupka, Peter Matthiessen, Robin Oliver, Stewart Owen, Susan Owens, John Pickett, Sam Robinson, Kerry Sims, Pete Smith, John P. Sumpter, Svetlana Tretsiakova‐McNally, Mengjiao Wang, Tom Welton, Katherine J. Willis, Iseult Lynch, Johnson, Andrew C [0000-0003-1570-3764], Sims, Kerry [0000-0001-6273-4083], Lynch, Iseult [0000-0003-4250-4584], and Apollo - University of Cambridge Repository

Subjects

Early warning, early warning, Chemical pollution, Chemicals management, Health, Toxicology and Mutagenesis, chemical pollution, chemicals management, Agriculture, Ecotoxicology, sustainable chemicals, Sustainable chemicals, Europe, climate change, biodiversity loss, Artificial Intelligence, Biodiversity loss, Climate change, Emerging risk, Horizon scanning, Humans, Environmental Chemistry, emerging risk, Environmental Pollution, horizon scanning

Abstract

Data Availability Statement: All data are included in the Supporting Information for publication online. Supporting Information is available online at https://setac.onlinelibrary.wiley.com/doi/10.1002/etc.5620#support-information-section . Copyright © 2023 Crown copyright and The Authors. While chemicals are vital to modern society through materials, agriculture, textiles, new technology, medicines, and consumer goods, their use is not without risks. Unfortunately, our resources seem inadequate to address the breadth of chemical challenges to the environment and human health. Therefore, it is important we use our intelligence and knowledge wisely to prepare for what lies ahead. The present study used a Delphi-style approach to horizon-scan future chemical threats that need to be considered in the setting of chemicals and environmental policy, which involved a multidisciplinary, multisectoral, and multinational panel of 25 scientists and practitioners (mainly from the United Kingdom, Europe, and other industrialized nations) in a three-stage process. Fifteen issues were shortlisted (from a nominated list of 48), considered by the panel to hold global relevance. The issues span from the need for new chemical manufacturing (including transitioning to non-fossil-fuel feedstocks); challenges from novel materials, food imports, landfills, and tire wear; and opportunities from artificial intelligence, greater data transparency, and the weight-of-evidence approach. The 15 issues can be divided into three classes: new perspectives on historic but insufficiently appreciated chemicals/issues, new or relatively new products and their associated industries, and thinking through approaches we can use to meet these challenges. Chemicals are one threat among many that influence the environment and human health, and interlinkages with wider issues such as climate change and how we mitigate these were clear in this exercise. The horizon scan highlights the value of thinking broadly and consulting widely, considering systems approaches to ensure that interventions appreciate synergies and avoid harmful trade-offs in other areas. We recommend further collaboration between researchers, industry, regulators, and policymakers to perform horizon scanning to inform policymaking, to develop our ability to meet these challenges, and especially to extend the approach to consider also concerns from countries with developing economies. Environ Toxicol Chem 2023;00:1–17. © 2023 Crown copyright and The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC. This article is published with the permission of the Controller of HMSO and the King's Printer for Scotland. Department for Environment, Food and Rural Affairs

Published

2023

9. Long-Term Exposure to Environmentally Relevant Doses of Large Polystyrene Microplastics Disturbs Lipid Homeostasis via Bowel Function Interference

Author

Yongfeng Deng, Hexia Chen, Yichao Huang, Yan Zhang, Hongqiang Ren, Mingliang Fang, Qing Wang, Wen Chen, Robert C. Hale, Tamara S. Galloway, and Da Chen

Subjects

Inflammation, Mammals, Microplastics, General Chemistry, Lipids, Mice, Humans, Animals, Polystyrenes, Dysbiosis, Homeostasis, Environmental Chemistry, Plastics, Water Pollutants, Chemical

Abstract

The question of whether long-term chronic exposure to microplastics (MPs) could induce dose- and size-dependent adverse effects in mammals remains controversial and poorly understood. Our study explored potential health risks from dietary exposure to environmentally relevant doses of polystyrene (PS) MPs, through a mouse model and integrated analyses of the interruptions of fecal microbial metagenomes and plasma lipidomes. After 21 weeks of exposure to the MPs (40-100 μm), mice mainly exhibited gut microbiota dysbiosis, tissue inflammation, and plasma lipid metabolism disorder, although no notable accumulation of MPs was observed in the gut or liver. The change of the relative abundance of microbiota was strongly associated with the exposure dose and size of MPs while less significant effects were observed in gut damage and abnormal lipid metabolism. Moreover, multiomics data suggested that the host abnormal lipid metabolism was closely related to bowel function disruptions, including gut microbiota dysbiosis, increased gut permeability, and inflammation induced by MPs. We revealed for the first time that even without notable accumulation in mouse tissues, long-term exposure to MPs at environmentally relevant doses could still induce widespread health risks. This raises concern on the health risks from the exposure of humans and other mammals to environmentally relevant dose MPs.

Published

2022

10. Distribution and Seasonal Variation of Microplastics in Tallo River, Makassar, Eastern Indonesia

Author

Ega Adhi Wicaksono, Shinta Werorilangi, Tamara S. Galloway, and Akbar Tahir

Subjects

plastics, riverine, coastal, estuary, characteristics, pollution, Chemical technology, TP1-1185

Abstract

Attention towards microplastic (MP) pollution in various environments is increasing, but relatively little attention has been given to the freshwater-riverine environment. As the biggest city in the eastern Indonesia region, Makassar can be a potential source of MP pollution to its riverine area. This study aimed to determine the spatial trends, seasonal variation, and characteristics of MPs in the water and sediment of Tallo River, as the main river in Makassar. Water samples were collected using a neuston net and sediment samples were collected using a sediment corer. The samples collected contained MPs with an abundance ranging from 0.74 ± 0.46 to 3.41 ± 0.13 item/m3 and 16.67 ± 20.82 to 150 ± 36.06 item/kg for water and sediment samples, respectively. The microplastic abundance in the Tallo River was higher in the dry season and tended to increase towards the lower river segment. Fragments (47.80–86.03%) and lines (12.50–47.80%) were the predominant shapes, while blue (19.49–46.15%) and transparent (14.29–38.14%) were the most dominant color. Polyethylene and polypropylene were the common MP polymers found in the Tallo river. Actions to prevent MP pollution in the Makassar riverine area are needed before MP pollution becomes more severe in the future.

Published

2021

11. Island Innovation: Transitioning Towards a Circular Economy for Plastics in Galápagos, Ecuador

Author

Jen S. Jones, Jess Howard, Tamara S. Galloway, Lucía Norris Crespo, and Sol Aspinosa

Published

2023

12. Short Depuration of Oysters Intended for Human Consumption Is Effective at Reducing Exposure to Nanoplastics

Author

Francisca Ribeiro, Denise M. Mitrano, Christian Hacker, Paulina Cherek, Kevin Brigden, Sarit Leat Kaserzon, Kevin V. Thomas, and Tamara S. Galloway

Subjects

Microplastics, Environmental Chemistry, Humans, Animals, Polystyrenes, General Chemistry, Crassostrea, Plastics, Water Pollutants, Chemical, Bivalves, Nanoplastics, Biaccumulation, Food safety, Molluscs

Abstract

Nanoplastics (NPs

Published

2022

13. Salt marshes as the final watershed fate for meso- and microplastic contamination: A case study from Southern Brazil

Author

Lara M. Pinheiro, Larissa M.K. Britz, Vanessa O. Agostini, Andrés Pérez-Parada, Felipe García-Rodríguez, Tamara S. Galloway, and Grasiela L.L. Pinho

Subjects

Geologic Sediments, Environmental Engineering, Microplastics, Wetlands, Environmental Chemistry, Pollution, Waste Management and Disposal, Plastics, Brazil, Ecosystem, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Plastics pose a major threat to aquatic ecosystems especially in smaller size fractions. Salt marshes play a crucial role in maintaining the coastal zone and aquatic food web, yet their contamination, including by plastic materials, is still poorly investigated. This work investigated meso- (MEP, 5-25 mm) and microplastic (MIP, 1 μm-5 mm) contamination of a salt marsh, which reached average levels of 279.63 ± 410.12 items kg

Published

2022

14. Nanoplastics Promote Microcystin Synthesis and Release from Cyanobacterial Microcystis aeruginosa

Author

Xiaoyu Liu, Yue Feng, Li-Juan Feng, Jia-Wen Sun, Fu Xiao, Shu-Guang Wang, Xiang-Yu Li, Jian-Lu Duan, Lin-Lin Zhou, Zhaojun Ding, Jia-Qi Liu, Xian-Zheng Yuan, Yi Shi, Qian Wang, Fan-Ping Zhu, Tamara S. Galloway, Huiyu Tian, and Xiao-Dong Sun

Subjects

chemistry.chemical_classification, Cyanobacteria, biology, Membrane permeability, Aquatic ecosystem, General Chemistry, Microcystin, 010501 environmental sciences, biology.organism_classification, 01 natural sciences, Microbiology, chemistry, Microcystis, polycyclic compounds, Extracellular, Environmental Chemistry, Microcystis aeruginosa, Intracellular, 0105 earth and related environmental sciences

Abstract

Although the fate of nanoplastics (

Published

2020

15. Ingestion of plastics by terrestrial small mammals

Author

Emily Thrift, Adam Porter, Tamara S. Galloway, Frazer G. Coomber, and Fiona Mathews

Subjects

Mammals, Environmental Engineering, Polymers, Polyesters, Pollution, Rats, Eating, Mice, Environmental Chemistry, Animals, Humans, Waste Management and Disposal, Plastics, Ecosystem, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The exposure of wildlife to waste plastic is widely recognised as an issue for aquatic ecosystems but very little is known about terrestrial systems. Here, we addressed the hypothesis that UK small mammals are ingesting plastics by examining faecal samples for the presence of plastic using micro Fourier Transform infrared microscopy. Plastic polymers were detected in four out of the seven species examined (European hedgehog (Erinaceus europaeus), wood mouse (Apodemus sylvaticus); field vole (Microtus agrestis); brown rat (Rattus norvegicus)). Ingestion occurred across species of differing dietary habits (herbivorous, insectivorous and omnivorous) and locations (urban versus non-urban). Densities excreted were comparable with those reported in human studies. The prevalence of confirmed plastics in the 261 faecal samples was 16.5 % (95 % CI 13 %, 22 %). Most (70 %) of the 60 plastic fragments were1 mm (microplastics). Polyester, likely to be derived from textiles, accounted for 27 % of the fragments and was found in all plastic-positive species except for the wood mouse. The high prevalence of polyester in terrestrial ecosystems was unexpected and suggests that evaluation is needed of practices likely to transfer this plastic into the environment (such as sewage sludge application to farmland). Polynorbornene, which is likely to be derived from tyre wear, and polyethylene were also commonly detected polymers. 'Biodegradable' plastics formed 27 % (n = 12) of the particles found in wild mammal faeces, warranting further research to assess their persistence in the environment.

Published

2022

16. Scoping Intergenerational Effects of Nanoplastic on the Lipid Reserves of Antarctic Krill Embryos

Author

Emily Rowlands, Tamara S. Galloway, Matthew Cole, Ceri Lewis, Victoria L. Peck, Sally Thorpe, Sabena Blackbird, George A. Wolff, and Clara Manno

Published

2022

17. Distribution and Risks of Microplastics in Sediments of a Small Coastal River–Estuary System: Functional Areas, Wastewater Treatment Plants, and Dams

Author

Pin Zhao, Wei Luo, Ning Jiang, Bila Ga, Xijun Pang, John Giesy, and Tamara S. Galloway

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

18. Salt Marshes as Final Watershed Fate for Meso- and Microplastic Contamination: A Case Study from Southern Brazil

Author

Lara M. Pinheiro, Larissa M. K. Britz, Vanessa O. Agostini, Andrés Pérez-Parada, Felipe Garcia-Rodriguez, Tamara S. Galloway, and Grasiela L. L. Pinho

Published

2022

19. Uptake of microplastics by marine worms depends on feeding mode and particle shape but not exposure time

Author

Adam Porter, Dan Barber, Catherine Hobbs, John Love, Ann L. Power, Adil Bakir, Tamara S. Galloway, and Ceri Lewis

Subjects

Aquatic Organisms, Environmental Engineering, Microplastics, Animals, Environmental Chemistry, Polychaeta, Plastics, Pollution, Waste Management and Disposal, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The uptake of microplastics into marine species has been widely documented across trophic levels. Feeding mode is suggested as playing an important role in determining different contamination loads across species, but this theory is poorly supported with empirical evidence. Here we use the two distinct feeding modes of the benthic polychaete, Hediste diversicolor (The Harbour Ragworm) (O.F. Müller, 1776), to test the hypothesis that filter feeding will lead to a greater uptake of microplastic particles than deposit feeding. Worms were exposed to both polyamide microfragments and microfibres in either water (as filter feeders) or sediment (as deposit feeders) for 1 week. No effect of exposure time was found between 1 day and 1 week (p0.19) but feeding mode was found to significantly affect the number of microfibres recovered from each worm (p0.001). When exposed to microfibers, filter feeding worms took up ≈15,000 % more fibres than deposit feeding worms (p0.001), whereas when feeding on microfragments there was no difference between feeding modes. Our data demonstrate that both feeding mode and particle characteristics significantly influence the uptake of microplastics by H. diversicolor. Using imaging flow cytometry, filter feeders were found to take up a broader size range of particles, with significantly more smaller and larger particles than deposit feeders (p0.05), commensurate with the range of plastics isolated from the guts of ragworms recovered from the environment. These results demonstrate that biological traits are useful in understanding the uptake of plastics into marine worms and warrant further exploration as a tool for understanding the bioaccessibility of plastics to marine organisms.

Published

2023

20. Microplastic distribution and composition on two Galápagos island beaches, Ecuador: Verifying the use of citizen science derived data in long-term monitoring

Author

Jen S. Jones, Anne Guézou, Sara Medor, Caitlin Nickson, Georgie Savage, Daniela Alarcón-Ruales, Tamara S. Galloway, Juan Pablo Muñoz-Pérez, Sarah E. Nelms, Adam Porter, Martin Thiel, and Ceri Lewis

Subjects

Citizen Science, Microplastics, Health, Toxicology and Mutagenesis, Humans, Ecuador, General Medicine, Toxicology, Plastics, Pollution, Bathing Beaches, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Monitoring beach plastic contamination across space and time is necessary for understanding its sources and ecological effects, and for guiding mitigation. This is logistically and financially challenging, especially for microplastics. Citizen science represents an option for sampling accessible sites to support long term monitoring, but challenges persist around data validation. Here we test a simple citizen science methodology to monitor visible microplastic contamination on sandy beaches using a standard quadrat unit (50 cm × 50 cm x 5 cm depth) sieved to 1 mm, to support the analysis of microplastic on two islands within the marine protected area of the Galápagos Archipelago, Ecuador (San Cristóbal and Santa Cruz islands). High school and university students undertook supervised sampling of two beaches in 2019-2020 collecting over 7000 particles. A sub-sample of the suspected microplastics collected (n = 2,213, ∼30% total) were analysed using FTIR spectrometry, confirming 93% of particles1 mm visually identified by students were microplastics or rubber, validating this method as a crowd-sourced indicator for microplastic contamination. These data provide important insights into the plastic contamination of Galápagos, revealing plastic abundances of 0-2524 particles m

Published

2022

21. The effects of combined ocean acidification and nanoplastic exposures on the embryonic development of Antarctic krill

Author

Victoria L Peck, Sally E. Thorpe, Tamara S. Galloway, Matthew Cole, Ceri Lewis, Clara Manno, and Emily Rowlands

Subjects

Biogeochemical cycle, Krill, Science, Euphausia, Ocean Engineering, QH1-199.5, 010501 environmental sciences, Aquatic Science, Oceanography, 01 natural sciences, Scotia Sea, multi-stressor, plastic pollution, 03 medical and health sciences, Ecotoxicology, 14. Life underwater, 030304 developmental biology, 0105 earth and related environmental sciences, Water Science and Technology, 0303 health sciences, Global and Planetary Change, biology, nanoparticle, Antarctic krill, General. Including nature conservation, geographical distribution, Ocean acidification, biology.organism_classification, 13. Climate action, embryonic development, Environmental science, Seawater, Plastic pollution

Abstract

In aquatic environments, plastic pollution occurs concomitantly with anthropogenic climate stressors such as ocean acidification. Within the Southern Ocean, Antarctic krill (Euphausia Superba) support many marine predators and play a key role in the biogeochemical cycle. Ocean acidification and plastic pollution have been acknowledged to hinder Antarctic krill development and physiology in singularity, however potential multi-stressor effects of plastic particulates coupled with ocean acidification are unexplored. Furthermore, Antarctic krill may be especially vulnerable to plastic pollution due to their close association with sea-ice, a known plastic sink. Here, we investigate the behaviour of nanoplastic [spherical, aminated (NH2), and yellow-green fluorescent polystyrene nanoparticles] in Antarctic seawater and explore the single and combined effects of nanoplastic (160 nm radius, at a concentration of 2.5 μg ml–1) and ocean acidification (pCO2 ∼900, pHT 7.7) on the embryonic development of Antarctic krill. Gravid female krill were collected in the Atlantic sector of the Southern Ocean (North Scotia Sea). Produced eggs were incubated at 0.5 °C in four treatments (control, nanoplastic, ocean acidification and the multi-stressor scenario of nanoplastic presence, and ocean acidification) and their embryonic development after 6 days, at the incubation endpoint, was determined. We observed that negatively charged nanoplastic particles suspended in seawater from the Scotia Sea aggregated to sizes exceeding the nanoscale after 24 h (1054.13 ± 53.49 nm). Further, we found that the proportion of embryos developing through the early stages to reach at least the limb bud stage was highest in the control treatment (21.84%) and lowest in the multi-stressor treatment (13.17%). Since the biological thresholds to any stressors can be altered by the presence of additional stressors, we propose that future nanoplastic ecotoxicology studies should consider the changing global ocean under future climate scenarios for assessments of their impact and highlight that determining the behaviour of nanoplastic particles used in incubation studies is critical to determining their toxicity.

Published

2021

22. Plastic Pollution and Small Juvenile Marine Turtles: A Potential Evolutionary Trap

Author

Annette C. Broderick, David Santillo, Penelope K. Lindeque, Erina J. Young, Mark Hamann, Anton D. Tucker, Colin J. Limpus, Emily M. Duncan, Kay Critchell, Tamara S. Galloway, Brendan J. Godley, and Scott D. Whiting

Subjects

010504 meteorology & atmospheric sciences, Science, marine debris, Zoology, Ocean Engineering, Lepidochelys olivacea, QH1-199.5, Aquatic Science, Oceanography, 01 natural sciences, law.invention, 03 medical and health sciences, plastic, law, Abundance (ecology), Marine debris, pollution, Juvenile, Turtle (robot), marine turtle, 030304 developmental biology, 0105 earth and related environmental sciences, Water Science and Technology, 0303 health sciences, Global and Planetary Change, biology, General. Including nature conservation, geographical distribution, evolutionary trap, biology.organism_classification, Evolutionary trap, Litter, Plastic pollution

Abstract

The ingestion of plastic by marine turtles is now reported for all species. Small juvenile turtles (including post-hatchling and oceanic juveniles) are thought to be most at risk, due to feeding preferences and overlap with areas of high plastic abundance. Their remote and dispersed life stage, however, results in limited access and assessments. Here, stranded and bycaught specimens from Queensland Australia, Pacific Ocean (PO; n = 65; 1993–2019) and Western Australia, Indian Ocean (IO; n = 56; 2015–2019) provide a unique opportunity to assess the extent of plastic (> 1mm) ingestion in five species [green (Chelonia mydas), loggerhead (Caretta caretta), hawksbill (Eretmochelys imbricata), olive ridley (Lepidochelys olivacea), and flatback turtles (Natator depressus)]. In the Pacific Ocean, high incidence of ingestion occurred in green (83%; n = 36), loggerhead (86%; n = 7), flatback (80%; n = 10) and olive ridley turtles (29%; n = 7). There was an overall lower incidence in IO; highest being in the flatback (28%; n = 18), the loggerhead (21%; n = 14) and green (9%; n = 22). No macroplastic debris ingestion was documented for hawksbill turtles in either site although sample sizes were smaller for this species (PO n = 5; IO n = 2). In the Pacific Ocean, the majority of ingested debris was made up of hard fragments (mean of all species 52%; species averages 46–97%), whereas for the Indian Ocean these were filamentous plastics (52%; 43–77%). The most abundant colour for both sites across all species was clear (PO: 36%; IO: 39%), followed by white for PO (36%) then green and blue for IO (16%; 16%). The polymers most commonly ingested by turtles in both oceans were polyethylene (PE; PO-58%; IO-39%) and polypropylene (PP; PO-20.2%; IO-23.5%). We frame the high occurrence of ingested plastic present in this marine turtle life stage as a potential evolutionary trap as they undertake their development in what are now some of the most polluted areas of the global oceans.

Published

2021

23. Remote, but Not Isolated—Microplastics in the Sub-surface Waters of the Canadian Arctic Archipelago

Author

Tamara S. Galloway, Clara Manno, Victoria L Peck, and Kirstie Jones-Williams

Subjects

Microplastics, Canada, 010504 meteorology & atmospheric sciences, Science, Ocean Engineering, QH1-199.5, Aquatic Science, Oceanography, 01 natural sciences, law.invention, 03 medical and health sciences, microfibre, Arctic, law, Environmental monitoring, 14. Life underwater, Filtration, 030304 developmental biology, 0105 earth and related environmental sciences, environmental monitoring, Water Science and Technology, 0303 health sciences, geography, Global and Planetary Change, geography.geographical_feature_category, sub-surface, General. Including nature conservation, geographical distribution, Current (stream), 13. Climate action, Archipelago, Environmental science, Plastic pollution, microplastic, Coast guard

Abstract

As the remote Canadian Arctic Archipelago (CAA) becomes increasingly connected to the rest of the world, there is an impetus to monitor the possible impact of this connectivity. The potential for increases in localised sources of plastic pollution resulting from the increasing navigability of the remote north has yet to be explored. Here we investigate microplastic samples which were collected aboard the Canadian Coast Guard Ship (CCGS) Amundsen in the summer of 2018 using the underway pump and a filtration system with Fourier transform infrared analysis. We investigate the character, abundance, and distribution of microplastic particles and fibres in the sub-surface waters across the Canadian Arctic and add to the limited dataset on plastic pollution in this region. We find that there are low concentrations of microplastics ranging from 0 to 0.282 n L–1 (average 0.031 ± 0.017 n L–1), comprising 71% polyester and acrylics. We investigate the size distribution of retained particles and fibres on three different filter mesh sizes connected to the underway pump (300, 100, and 50 μm) and find that a 300 μm mesh and a 100 μm mesh retain only 6 and 56%, respectively, of the total particles and fibres. We explore the role of shipping as a potential source of textile fibres and we suggest that future monitoring of plastics in the Canadian Arctic should use the current shipping fleet to monitor its own plastic footprint, utilising the underway pump and mesh sizes < 100 μm.

Published

2021

24. Human health impacts of exposure to phthalate plasticizers: An overview of reviews

Author

R.E. Short, Alison Bethel, Jacqualyn Eales, Peter Hopkinson, Ruth Garside, Tamara S. Galloway, and Karyn Morrissey

Subjects

Male, medicine.medical_specialty, Endocrine disruption, Phthalic Acids, Semen quality, chemistry.chemical_compound, Plasticizers, Environmental health, Epidemiology, medicine, Humans, GE1-350, General Environmental Science, Oxidative pathway, business.industry, Confounding, Anogenital distance, Phthalate, Environmental Exposure, medicine.disease, Obesity, Environmental sciences, Semen Analysis, Plastic additive, chemistry, Diabetes Mellitus, Type 2, Autism, Female, Thyroid function, business, Chemical additive, Inflammation pathway

Abstract

In this review of reviews, we overview the current global body of available evidence from structured reviews of epidemiological studies that explore human health outcomes associated with exposure to phthalates (chemical plasticisers commonly found in plastics). We found robust evidence for an association with lower semen quality, neurodevelopment and risk of childhood asthma, and moderate to robust evidence for impact on anogenital distance in boys. We identified moderate evidence for an association between phthalates/metabolites and low birthweight, endometriosis, decreased testosterone, ADHD, Type 2 diabetes and breast/uterine cancer. There was some evidence for other outcomes including anofourchette distance, fetal sex hormones, pre-term birth, lower antral follicle count, reduced oestrodiol, autism, obesity, thyroid function and hearing disorders. We found no reviews of epidemiological human studies on the impact of phthalates from recycled plastics on human health. We recommend that future research should use urine samples as exposure measures, consider confounders in analyses and measure impacts on female reproductive systems. Our findings align with emerging research indicating that health risks can occur at exposure levels below the “safe dose” levels set out by regulators, and are of particular concern given potential additive or synergistic “cocktail effects” of chemicals. This raises important policy and regulatory issues for identifying and controlling plastics and health related impacts and highlights a need for more research into substances of concern entering plastics waste streams via recycling.

Published

2021

25. Distribution and Seasonal Variation of Microplastics in Tallo River, Makassar, Eastern Indonesia

Author

Shinta Werorilangi, Akbar Tahir, Tamara S. Galloway, and Ega Adhi Wicaksono

Subjects

Pollution, Microplastics, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, media_common.quotation_subject, characteristics, coastal, TP1-1185, 010501 environmental sciences, Toxicology, 01 natural sciences, Article, estuary, Dry season, medicine, riverine, pollution, 0105 earth and related environmental sciences, media_common, Hydrology, geography, Chemical Health and Safety, geography.geographical_feature_category, Chemical technology, Sediment, Estuary, Main river, Seasonality, medicine.disease, Environmental science, plastics, Neuston

Abstract

Attention towards microplastic (MP) pollution in various environments is increasing, but relatively little attention has been given to the freshwater-riverine environment. As the biggest city in the eastern Indonesia region, Makassar can be a potential source of MP pollution to its riverine area. This study aimed to determine the spatial trends, seasonal variation, and characteristics of MPs in the water and sediment of Tallo River, as the main river in Makassar. Water samples were collected using a neuston net and sediment samples were collected using a sediment corer. The samples collected contained MPs with an abundance ranging from 0.74 ± 0.46 to 3.41 ± 0.13 item/m3 and 16.67 ± 20.82 to 150 ± 36.06 item/kg for water and sediment samples, respectively. The microplastic abundance in the Tallo River was higher in the dry season and tended to increase towards the lower river segment. Fragments (47.80–86.03%) and lines (12.50–47.80%) were the predominant shapes, while blue (19.49–46.15%) and transparent (14.29–38.14%) were the most dominant color. Polyethylene and polypropylene were the common MP polymers found in the Tallo river. Actions to prevent MP pollution in the Makassar riverine area are needed before MP pollution becomes more severe in the future.

Published

2021

26. Microplastics alter feeding selectivity and faecal density in the copepod, Calanus helgolandicus

Author

Tamara S. Galloway, Ana M. Queirós, Matthew Cole, Rachel L. Coppock, Elaine S. Fileman, and Penelope K. Lindeque

Subjects

Microplastics, Food Chain, Environmental Engineering, 010504 meteorology & atmospheric sciences, Zoology, 010501 environmental sciences, 01 natural sciences, Zooplankton, Copepoda, Feces, Algae, Aquatic plant, Animals, Environmental Chemistry, Ingestion, Waste Management and Disposal, 0105 earth and related environmental sciences, Trophic level, biology, Chemistry, digestive, oral, and skin physiology, Plankton, biology.organism_classification, Pollution, Plastics, Water Pollutants, Chemical, Copepod, Environmental Monitoring

Abstract

Microplastics (1 μm–5 mm) are a ubiquitous marine contaminant of global concern, ingested by a wide range of marine taxa. Copepods are a key component of marine food webs, providing a source of food for higher trophic levels, and playing an important role in marine nutrient cycling. Microplastic ingestion has been documented in copepods, but knowledge gaps remain over how this affects feeding preference and faecal density. Here, we use exposure studies incorporating algal prey and microplastics of varying sizes and shapes at a concentration of 100 microplastics mL−1 to show: (1) prey selection by the copepod Calanus helgolandicus was affected by the size and shape of microplastics and algae they were exposed to; Exposure to nylon fibres resulted in a 6% decrease in ingestion of similar shaped chain-forming algae, whilst exposure to nylon fragments led to an 8% decrease in ingestion of a unicellular algae that were similar in shape and size. (2) Ingestion of microplastics with different densities altered the sinking rates of faecal pellets. Faeces containing low-density polyethylene sank significantly more slowly than controls, whilst sinking rates increased when faeces contained high-density polyethylene terephthalate. These results suggest that C. helgolandicus avoid ingesting algae that are similar in size and/or shape to the microplastic particles they are exposed to, potentially in a bid to avoid consuming the plastic.

Published

2019

27. What goes in, must come out: Combining scat‐based molecular diet analysis and quantification of ingested microplastics in a marine top predator

Author

David Santillo, Penelope K. Lindeque, Sarah E. Nelms, Helen E. Parry, Kimberley A. Bennett, Tamara S. Galloway, and Brendan J. Godley

Subjects

Microplastics, Ecological Modeling, Diet analysis, Zoology, Biology, Ecology, Evolution, Behavior and Systematics, Apex predator

Published

2019

28. Global review of shark and ray entanglement in anthropogenic marine debris

Author

Kristian J. Parton, Tamara S. Galloway, and Brendan J. Godley

Subjects

0106 biological sciences, Final version, Ecology, 010604 marine biology & hydrobiology, Hardware_PERFORMANCEANDRELIABILITY, Quantum entanglement, 010603 evolutionary biology, 01 natural sciences, lcsh:QK1-989, Oceanography, lcsh:Botany, lcsh:Zoology, Marine debris, Hardware_INTEGRATEDCIRCUITS, Environmental science, lcsh:QL1-991, Nature and Landscape Conservation

Abstract

Numerous marine taxa become entangled in anthropogenic marine debris, including cartilaginous fishes (class: Chondrichthyes, e.g. elasmobranchs [sharks, skates and rays], holocephalans [chimaeras]). Here we review research that has been conducted on the susceptibility of these taxa to entanglement in marine debris by conducting a systematic literature review complemented by novel data collection from the social media site Twitter. Our literature review yielded 47 published elasmobranch entanglement events (N = 557 animals) in 26 scientific papers, with 16 different families and 34 species in all 3 major ocean basins affected. The most common entangling objects were ghost fishing gear (74% of animals) followed by polypropylene strapping bands (11% of animals), with other entangling materials such as circular plastic debris, polythene bags and rubber tyres comprising 1% of total entangled animals. Most cases were from the Pacific and Atlantic oceans (49 and 46%, respectively), with a bias towards the USA (44% of animals), the UK (30% of animals) and South Africa (10% of animals). While investigating Twitter, we found 74 cases of elasmobranch entanglement, representing 14 families and 26 species. On Twitter, ghost fishing gear was again the most common entangling material (94.9% of animals), with the majority of entanglement records originating from the Atlantic Ocean (89.4% of total entangled animals). Entanglement in marine debris is symptomatic of a degraded marine environment and is a clear animal welfare issue. Our evidence suggests, however, that this issue is likely a far lesser threat to this taxon than direct or indirect take in marine fisheries. We highlight a relative paucity of scientific data on this subject and recommend a standardisation of reporting in an attempt to accurately quantify elasmobranch entanglement risks and locate interaction hotspots.

Published

2019

29. Accumulation and fate of nano- and micro-plastics and associated contaminants in organisms

Author

Tamara S. Galloway, Francisca Ribeiro, Jake W. O'Brien, and Kevin V. Thomas

Subjects

Microplastics, Environmental chemistry, 010401 analytical chemistry, Conclusive evidence, Marine invertebrates, Contamination, Biology, 01 natural sciences, Spectroscopy, 0104 chemical sciences, Analytical Chemistry

Abstract

Following a decade of research on the environmental impacts of microplastics, a knowledge gap remains on the processes by which micro and nanoplastics pass across biological barriers, enter cells and are subject to biological mechanisms. Here we summarize available literature on the accumulation of microplastics and their associated contaminants in a variety of organisms including humans. Most data on the accumulation of microplastics in both field and lab studies are for marine invertebrates. Microplastics accumulation data for insects, birds, marine mammals and sea turtles are scarce due to methodological issues. There is no conclusive evidence for the mode of accumulation of microplastics in either mammals or humans. The mechanism of chemical partitioning, role of contaminants associated with plastics, and mode of action of both nano- and micro-plastics and associated chemicals in a range of organisms and associated compartments/tissues also requires further research.

Published

2019

30. The impact of nanoplastic on embryonic development of Antarctic krill in current and future acidified conditions of the Southern Ocean

Author

Emily Rowlands, Matthew Cole, Tamara S. Galloway, Ceri Lewis, Clara Manno, Sally E. Thorpe, and Victoria L Peck

Subjects

Oceanography, Antarctic krill, biology, Environmental science, Current (fluid), biology.organism_classification

Abstract

Antarctic krill (Euphausia superba), hereafter krill, are pivotal to the Antarctic marine ecosystem, forming the base of a highly productive system and contributing significantly to the biogeochemical cycle. The negative effects of anthropogenic climate stressors amplified in the Southern Ocean such as rapid warming and ocean acidification (OA) have been acknowledged for krill. Less explored is the impact of increasing plastic pollution, particularly in conditions that reflect the likely future Southern Ocean environment. We hypothesise that krill have heightened vulnerability to multi-stressor scenarios due to their physiological and behavioural traits coupled with rapid environmental changes of their Antarctic habitats. Here, we investigate the single and combined effects of nanoplastic (NP; spherical, aminated (NP-NH2), yellow-green, fluorescent polystyrene nanoparticles) and OA (pCO2-manipulated seawater, pH 7.7) on the embryonic development of krill eggs. Krill were collected in the Scotia Sea within the Atlantic sector of the Southern Ocean in austral summer 2019. Eggs from a single female were incubated in seawater at 0.5 °C for 6 days with three treatments: (i) with 0.16 μm NP, (ii) in acidified conditions, and (iii) with a combined treatment of NP (0.16μm) and acidification. All NP treatments were at a concentration of 2.5μg/ml. We found that exposure to the NP-OA multi-stress treatment negatively impacted the development of embryos, decreasing the probability of reaching the limb bud stage by 9% compared with the control, whilst no significant difference was observed for the singular NP or OA treatments. This preliminary study supports our hypothesis regarding the potential impacts of multiple stressors on vulnerable embryonic stages of this ecologically critical Antarctic species.

Published

2021

31. Benthic fauna contribute to microplastic sequestration in coastal sediments

Author

Pinja Näkki, Rachel L. Coppock, Tamara S. Galloway, Hannah Birgani, Ana M. Queirós, Penelope K. Lindeque, Saskiya Richards, Matthew Cole, Marine Ecosystems Research Group, and Tvärminne Zoological Station

Subjects

Geologic Sediments, Burial, Health, Toxicology and Mutagenesis, Fauna, Microplastics, 0211 other engineering and technologies, meriensuojelu, sedimentit, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, REWORKING, SMALL-SCALE, Waste Management and Disposal, SEA, biology, Ecology, Pollution, COMMUNITY, Habitat, Benthic zone, 1181 Ecology, evolutionary biology, saastuminen, ARENICOLA-MARINA, Bioturbation, meret, Plastics, Environmental Monitoring, Microplastic fate, Environmental Engineering, Marine pollution, Benthos, parasitic diseases, rannikot, Environmental Chemistry, 14. Life underwater, ECHINODERMATA, Amphiura filiformis, 1172 Environmental sciences, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, fungi, käärmetähdet, 15. Life on land, Burrow, biology.organism_classification, mikroroskat, MAINTENANCE, pohjaeläimistö, muovi, BIOTURBATION, Environmental science, BIODIVERSITY, Water Pollutants, Chemical, RESPONSES

Abstract

Highlights • Microplastic burial in coastal sediments were investigated in field and laboratory. • Functional trait analyses reveal burial is rooted in wider benthic-pelagic pathways. • The cumulative effect of macrofauna communities was net burial of microplastics. • Brittlestars ingested and buried nylon fibres and bioturbation activity was reduced. Microplastics are ubiquitous in the marine environment, however, the mechanisms governing their uptake by, and burial within, seabed habitats are poorly understood. In this study, microplastic burial and its impact on fauna-mediated sedimentary processes was quantified at three coastal sites, and the potential contribution of burrowing faunal communities to this process assessed via functional trait diversity analysis of field data. In addition, laboratory exposures were used to assess whether sediment-processing undertaken by the brittlestar Amphiura filiformis, a key species in the sampled area, could explain the burial of microplastic fibres. Field observations confirmed broad-scale burial of microplastics across the coastal seabed, consistent across sites and seasons, with microplastic sequestration linked to benthic-pelagic exchange pathways, driven by burrowing fauna. Brittlestars were observed to bury and line their burrow walls with microfibres during experiments, and their burial activity was also modified following exposure to nylon fibres, relative to controls. Collectively, these results indicate that biodiverse and functionally important seabed habitats act as microplastic sinks, with burrowing fauna contributing to this process via well-known benthic-pelagic pathways, the rates of which are modified by plastic exposure.

Published

2020

32. Plastic contamination of the Galapagos marine food web and the relative risks to native species

Author

Jessica Vagg, Daniela Alarcón-Ruales, Tamara S. Galloway, Juan Pablo Muñoz-Pérez, Brendan J. Godley, David Santillo, Ceri Lewis, Jen Jones, and Adam Porter

Subjects

Fishery, Environmental science, Introduced species, Contamination, Food web

Abstract

Ecuador’s Galapagos Islands and their unique biodiversity are a global conservation priority. We investigated the presence, partitioning and environmental drivers of plastic contamination across the marine ecosystem, designing a systematic risk scoring analysis to identify the most vulnerable species. Beach contamination varied by site (macroplastic 0 - 0.66 items.m-2, large microplastics 0 - 448.8 particles.m-2, small microplastics 0 – 74.6 particles.kg-1), with high plastic accumulation on east-facing beaches indicating input from the Humboldt Current. Local littering and waste management leakages accounted for 2% of macroplastic. Microplastics (including synthetic cellulosics) were prevalent in sediments (6.7 - 86.7 particles.kg-1) and surface seawater (0.04 - 0.89 particles.m-3), with elevated concentrations in the harbour suggesting local input. Microplastics were present in all seven marine invertebrate species examined, found in 52% of individuals (n = 123). Risk scoring identified 32 species in need of urgent, targeted monitoring and mitigation including pinnipeds, seabirds, turtles, sharks and corals.

Published

2020

33. Response to Comment on 'Quantitative Analysis of Selected Plastics in High-Commercial-Value Australian Seafood by Pyrolysis Gas Chromatography Mass Spectrometry'

Author

Michael Gallen, Kevin V. Thomas, Stacey O'Brien, Jochen F. Mueller, Sarah Fraissinet-Tachet, Elvis D. Okoffo, Saer Samanipour, Francisca Ribeiro, Jake W. O'Brien, Sarit Kaserzon, Tamara S. Galloway, and HIMS Other Research (FNWI)

Subjects

Pyrolysis–gas chromatography–mass spectrometry, Chromatography, Seafood, Value (economics), Australia, Environmental Chemistry, Environmental science, General Chemistry, Quantitative analysis (chemistry), Plastics, Gas Chromatography-Mass Spectrometry, Pyrolysis

Published

2020

34. Litter contamination at a salt marsh: An ecological niche for biofouling in South Brazil

Author

Tamara S. Galloway, Lara M. Pinheiro, Vanessa Ochi Agostini, Isadora V. Carvalho, Grasiela Lopes Leães Pinho, and Gustavo Martinez-Souza

Subjects

010504 meteorology & atmospheric sciences, Biofouling, Health, Toxicology and Mutagenesis, 010501 environmental sciences, Toxicology, 01 natural sciences, Algae, Ecosystem, 0105 earth and related environmental sciences, Invertebrate, Ecological niche, geography, geography.geographical_feature_category, biology, Ecology, Estuary, General Medicine, biology.organism_classification, Pollution, Substrate (marine biology), Salt marsh, Wetlands, Litter, Environmental science, Plastics, Brazil

Abstract

The presence of solid litter and its consequences for coastal ecosystems is now being investigated around the world. Different types of material can be discarded in areas such as salt marshes, and various fouling organisms can associate with such items forming the Plastisphere. This study investigated the distribution of solid litter along zones (dry, middle, flooded) of a salt marsh environment in the Patos Lagoon Estuary (South Brazil) and the association of biofouling organisms with these items. Solid litter quantities were significantly higher in the dry zone when compared to the middle and flooded zones, showing an accumulation area where the water rarely reaches. Most items were made of plastic, as shown for many other coastal areas, and originated from food packaging, fishery and shipping activities and personal use. Although not statistically significant, there was a tendency of increased biofouling towards the flooded zone. Thirteen groups were found in association with solid litter items, mainly algae, amphipods, and gastropods. The preference for salt marsh zones, types of material and items’ colour was highly variable among groups of organisms, which can be related to their varied physiological requirements. In summary, significant plastic contamination of salt marshes of the Patos Lagoon was associated with a heterogeneous distribution of fouling communities.

Published

2020

35. Close encounters - microplastic availability to pelagic amphipods in sub-Antarctic and Antarctic surface waters

Author

Matthew Cole, Claire M. Waluda, Clara Manno, Gabriele Stowasser, Kirstie Jones-Williams, and Tamara S. Galloway

Subjects

Synthetic Fibres, Microplastics, 010504 meteorology & atmospheric sciences, Antarctic Regions, 010501 environmental sciences, 01 natural sciences, Zooplankton, Animals, Amphipoda, 14. Life underwater, Southern Ocean, lcsh:Environmental sciences, Ecosystem, 0105 earth and related environmental sciences, General Environmental Science, lcsh:GE1-350, Biota, Pelagic zone, Amphipods, Mespolastics, Oceanography, 13. Climate action, Environmental science, Seawater, Neuston, Plastic pollution, Encounter Rate, Surface water, Plastics, Water Pollutants, Chemical, Environmental Monitoring

Abstract

This study investigated the distribution of plastic debris from the Atlantic portion of the Sub-Antarctic to the Antarctic Peninsula. This region is home to some of the highest concentrations of zooplankton biomass but is also threatened by increasing shipping traffic from fishing and the growing tourism market. Samples were collected using a surface-towed neuston net during the Austral summer 2018, aboard the RRS James Clark Ross. Using Fourier Transform Infrared Spectrometry it was found that 45.6% of the plastic particles isolated from seawater samples were sampling contamination, originating predominantly from the ship. Of the remaining particles, both low density (polyethylene, polypropylene) and high-density (phenoxy and epoxy resins) polymers were found in the surface water suggesting both long-range and local sources of origin. Whilst we found that micro and mesoplastic concentrations in seawater were significantly low (0.013 ± 0.005n/m3) compared to global averages, they were higher along the Antarctic Peninsula than the open ocean (Sub-Antarctic) stations. The potential availability of micro and mesoplastics (MP) to pelagic amphipods was explored, using an observed encounter rate (OER) and a possible encounter rate (PER). The total OER (0.8%) was higher than the PER (0.15%), suggesting that even at low concentrations, microplastics are encountered, and potentially consumed, by amphipods. This study highlights the need to prioritise regions of high zooplankton abundance and to investigate both water and biota to build up a picture of plastic pollution and its potential interaction with the Antarctic Ecosystem.

Published

2020

36. Investigating the presence of microplastics in demersal sharks of the North-East Atlantic

Author

Tamara S. Galloway, Muhammad Tausif, Lucy C. M. Omeyer, David Santillo, Kristian J. Parton, and Brendan J. Godley

Subjects

0106 biological sciences, Pollution, Microplastics, media_common.quotation_subject, Zoology, lcsh:Medicine, Particle (ecology), 010501 environmental sciences, Biology, 01 natural sciences, Demersal zone, Article, Environmental impact, Ichthyology, lcsh:Science, 0105 earth and related environmental sciences, media_common, Pollutant, Marine biology, Multidisciplinary, 010604 marine biology & hydrobiology, lcsh:R, Contamination, Ocean sciences, lcsh:Q

Abstract

Microplastic pollution is ubiquitous in the marine environment and is ingested by numerous marine species. Sharks are an understudied group regarding their susceptibility to microplastic ingestion. Here, we provide evidence of ingestion of microplastic and other anthropogenic fibres in four demersal sharks species found in the waters of the United Kingdom and investigate whether body burdens of contamination vary according to species, sex or size. Sharks were collected from the North-East Atlantic. Stomachs and digestive tracts of 46 sharks of 4 species were examined and 67% of samples contained at least one contaminant particle. Although we acknowledge modest sample size, estimated particle burden increased with body size but did not vary systematically with sex or species. A total of 379 particles were identified, leading to median estimates ranging from 2 to 7.5 ingested contaminants per animal for the 4 species. The majority were fibrous in nature (95%) and blue (88%) or black (9%) in colour. A subsample of contaminants (N = 62) were subject to FT-IR spectroscopy and polymers identified as: synthetic cellulose (33.3%), polypropylene (25%), polyacrylamides (10%) and polyester (8.3%). The level of risk posed to shark species by this level of contamination is unknown. Nevertheless, this study presents the first empirical evidence and an important baseline for ingestion of microplastics and other anthropogenic fibres in native UK shark species and highlights the pervasive nature of these pollutants.

Published

2020

37. A Polar outlook: Potential interactions of micro- and nano-plastic with other anthropogenic stressors

Author

Emily Rowlands, Clara Manno, and Tamara S. Galloway

Subjects

Pollutant, Environmental Engineering, 010504 meteorology & atmospheric sciences, Ecology, Biota, Ocean acidification, 010501 environmental sciences, Particulates, 01 natural sciences, Pollution, Arctic, 13. Climate action, Environmental Chemistry, Environmental science, Marine ecosystem, Ecosystem, 14. Life underwater, Plastic pollution, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

Polar marine ecosystems may have higher sensitivity than other ecosystems to plastic pollution due to recurrent physical and biological features; presence of ice and high UV radiation, slow growth rates and weak genetic differentiation of resident biota, accumulation of persistent organic pollutants and heavy metals, and fast rates of warming and global ocean acidification. Here, we discuss potential sources of and exposure to micro- and nano-plastic in polar marine ecosystems and potential mixture effects of micro- and nano-plastic coupled with chemical and climate related stressors. We address the anthropogenic contaminants likely to be 'high risk' for interactions in Arctic and Antarctic waters for reasons such as accumulation under sea-ice, a known sink for plastic particulates. Consequently, we address the potential for localised plastic-chemical interactions and possible seasonal fluctuations in interactions associated with freeze-thaw events. The risks for keystone polar species are also considered, incorporating the behavioural and physiological traits of biota and addressing potential 'hotspot' areas. Finally, we discuss a possible direction for future research.

Published

2020

38. Are we underestimating microplastic abundance in the marine environment? A comparison of microplastic capture with nets of different mesh-size

Author

Rachael Z. Miller, Rachel L. Coppock, Alice Wilson-McNeal, Tamara S. Galloway, Penelope K. Lindeque, Stephanie L. Wright, Matthew Cole, Ceri Lewis, and Andrew J. R. Watts

Subjects

Pollution, Ocean, Microplastics, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Marine life, 010501 environmental sciences, Plastic, Toxicology, 01 natural sciences, Abundance (ecology), Sampling, Atlantic Ocean, 0105 earth and related environmental sciences, media_common, Pollutant, Sampling (statistics), General Medicine, Debris, Net, Oceanography, Environmental science, Plastics, Environmental Sciences, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Microplastic debris is ubiquitous and yet sampling, classifying and enumerating this prolific pollutant in marine waters has proven challenging. Typically, waterborne microplastic sampling is undertaken using nets with a 333 μm mesh, which cannot account for smaller debris. In this study, we provide an estimate of the extent to which microplastic concentrations are underestimated with traditional sampling. Our efforts focus on coastal waters, where microplastics are predicted to have the greatest influence on marine life, on both sides of the North Atlantic Ocean. Microplastic debris was collected via surface trawls using 100, 333 and 500 μm nets. Our findings show that sampling using nets with a 100 μm mesh resulted in the collection of 2.5-fold and 10-fold greater microplastic concentrations compared with using 333 and 500 μm meshes respectively (P

Published

2020

39. Insights into the development of hepatocellular fibrillar inclusions in European flounder (Platichthys flesus) from UK estuaries

Author

Kelly S. Bateman, John P. Bignell, Grant D. Stentiford, Mark Etherton, Stephen W. Feist, Tamara S. Galloway, Marion Sebire, Ioanna Katsiadaki, Jon Barber, Tim P. Bean, and Alexander P. Scott

Subjects

Male, Environmental Engineering, Carcinoma, Hepatocellular, Unknown aetiology, Health, Toxicology and Mutagenesis, Endocrine disruption, 0208 environmental biotechnology, Physiology, 02 engineering and technology, Flounder, 010501 environmental sciences, Fish Liver, 01 natural sciences, chemistry.chemical_compound, Fish liver, Pathology, Organic contaminents, Environmental Chemistry, Animals, EUROPEAN FLOUNDER, 0105 earth and related environmental sciences, biology, Estradiol, Xenoestrogens, Estuary, Liver Neoplasms, Public Health, Environmental and Occupational Health, Fishes, Estrogens, General Medicine, General Chemistry, Oxygenase activity, Biomarker, biology.organism_classification, Pollution, Platichthys, United Kingdom, 020801 environmental engineering, Xenoestrogen, chemistry, Liver, Biomarker (medicine), %22">Fish , Female, Environmental Pollution, Estuaries, Water Pollutants, Chemical

Abstract

Hepatocellular fibrillar inclusions (HFI) are an unusual pathology of unknown aetiology affecting European flounder (Platichthys flesus), particularly from estuaries historically impacted by pollution. This study demonstrated that the HFI prevalence range was 6–77% at several UK estuaries, with Spearman rank correlation analysis showing a correlation between HFI prevalence and sediment concentrations of ∑PBDEs and ∑HBCDs. The data showed that males exhibit higher HFI prevalence than females, with severity being more pronounced in estuaries exhibiting higher prevalence. HFI were not age associated indicating a subacute condition. Electron microscopy confirmed that HFI were modified proliferating rough endoplasmic reticulum (RER), whilst immunohistochemistry provided evidence of VTG production in HFI of male P. flesus. Despite positive labelling of aberrant VTG production, we could not provide additional evidence of xenoestrogen exposure. Gene transcripts (VTG/CHR) and plasma VTG concentrations (>1 μg ml−1), were only considered elevated in four male fish showing no correlation with HFI severity. Further analysis revealed that reproductively mature female P. flesus i.e. >3-year-old, did not exhibit HFI, whereas males of all ages were affected. This, combined with previous reports that estradiol (E2) can impair mixed function oxygenase activity, supports a hypothesis that harmful chemical metabolites (following phase 1 metabolism of their parent compounds) are potentially responsible for HFIs observed in male and ≤ 3-year-old female fish. Consequently, HFI and xenoestrogenic induced VTG production could be independent of each other resulting from different concurrent toxicopathic mechanisms, although laboratory exposures will likely be the only way to determine the true aetiology of HFI.

Published

2019

40. A global review of marine turtle entanglement in anthropogenic debris: a baseline for further action

Author

Penelope K. Lindeque, Zara L. R. Botterell, Tamara S. Galloway, Annette C. Broderick, Ana Nuno, Emily M. Duncan, and Brendan J. Godley

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Ethics committee, Library science, 010501 environmental sciences, 01 natural sciences, law.invention, lcsh:QK1-989, law, lcsh:Botany, lcsh:Zoology, lcsh:QL1-991, Turtle (robot), Baseline (configuration management), 0105 earth and related environmental sciences, Nature and Landscape Conservation

Abstract

Entanglement in anthropogenic debris poses a threat to marine wildlife. Although this is recognised as a cause of marine turtle mortality, there remain quantitative knowledge gaps on entanglement rates and population implications. We provide a global summary of this issue in this taxon using a mixed methods approach, including a literature review and expert opinions from conservation scientists and practitioners worldwide. The literature review yielded 23 reports of marine turtle entanglement in anthropogenic debris, which included records for 6 species, in all ocean basins. Our experts reported the occurrence of marine turtles found entangled across all species, life stages and ocean basins, with suggestions of particular vulnerability in pelagic juvenile life stages. Numbers of stranded turtles encountered by our 106 respondents were in the thousands per year, with 5.5% of turtles encountered entangled; 90.6% of these dead. Of our experts questioned, 84% consider that this issue could be causing population level effects in some areas. Lost or discarded fishing materials, known as ëghost gearí, contributed to the majority of reported entanglements with debris from land-based sources in the distinct minority. Surveyed experts rated entanglement a greater threat to marine turtles than oil pollution, climate change and direct exploitation but less of a threat than plastic ingestion and fisheries bycatch. The challenges, research needs and priority actions facing marine turtle entanglement are discussed as pathways to begin to resolve and further understand the issue. Collaboration among stakeholder groups such as strandings networks, the fisheries sector and the scientific community will facilitate the development of mitigating actions.

Published

2017

41. Plastic contamination of a Galapagos Island (Ecuador) and the relative risks to native marine species

Author

Adam Porter, Tamara S. Galloway, Juan Pablo Muñoz-Pérez, Ceri Lewis, Daniela Alarcón-Ruales, Brendan J. Godley, Jessica Vagg, David Santillo, and Jen Jones

Subjects

Risk, Microplastics, Environmental Engineering, 010504 meteorology & atmospheric sciences, Ecology, Species distribution, Biodiversity, Marine invertebrates, 010501 environmental sciences, 01 natural sciences, Pollution, Marine debris, Environmental Chemistry, Environmental science, Conservation status, IUCN Red List, Marine ecosystem, Ecuador, Plastics, Waste Management and Disposal, Ecosystem, Water Pollutants, Chemical, Environmental Monitoring, 0105 earth and related environmental sciences

Abstract

Ecuador's Galapagos Islands and their unique biodiversity are a global conservation priority. We explored the presence, composition and environmental drivers of plastic contamination across the marine ecosystem at an island scale, investigated uptake in marine invertebrates and designed a systematic priority scoring analysis to identify the most vulnerable vertebrate species. Beach contamination varied by site (macroplastic 0-0.66 items·m-2, microplastics 0-448.8 particles·m-2 or 0-74.6 particles·kg-1), with high plastic accumulation on east-facing beaches that are influenced by the Humboldt Current. Local littering and waste management leakages accounted for just 2% of macroplastic. Microplastics (including anthropogenic cellulosics) were ubiquitous but in low concentrations in benthic sediments (6.7-86.7 particles·kg-1) and surface seawater (0.04-0.89 particles·m-3), with elevated concentrations in the harbour suggesting some local input. Microplastics were present in all seven marine invertebrate species examined, found in 52% of individuals (n = 123) confirming uptake of microplastics in the Galapagos marine food web. Priority scoring analysis combining species distribution information, IUCN Red List conservation status and literature evidence of harm from entanglement and ingestion of plastics in similar species identified 27 marine vertebrates in need of urgent, targeted monitoring and mitigation including pinnipeds, seabirds, turtles and sharks.

Published

2021

42. Through the sands of time: Beach litter trends from nine cleaned north cornish beaches

Author

Ceri Lewis, Tamara S. Galloway, Andrew J. R. Watts, Jolyon Sharpe, Adam Porter, and Neil Hembrow

Subjects

010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, 010501 environmental sciences, Toxicology, 01 natural sciences, Bathing Beaches, Time, Environmental monitoring, Marine debris, Water Pollutants, Weather, 0105 earth and related environmental sciences, Waste Products, Ecology, Water pollutants, Water Pollution, Effective management, General Medicine, Silicon Dioxide, Pollution, language.human_language, Fishery, Geography, England, Cornish, Long term data, language, Litter, Plastics, Environmental Monitoring

Abstract

Marine litter and its accumulation on beaches is an issue of major current concern due to its significant environmental and economic impacts. Yet our understanding of spatio-temporal trends in beach litter and the drivers of these trends are currently limited by the availability of robust long term data sets. Here we present a unique data set collected systematically once a month, every month over a six year period for nine beaches along the North Coast of Cornwall, U.K. to investigate the key drivers of beach litter in the Bude, Padstow and Porthcothan areas. Overall, an average of 0.02 litter items m-2 per month were collected during the six year study, with Bude beaches (Summerleaze, Crooklets and Widemouth) the most impacted (0.03 ± 0.004 litter items m-2 per month). The amount of litter collected each month decreased by 18% and 71% respectively for Padstow (Polzeath, Trevone and Harlyn) and Bude areas over the 6 years, possibly related to the regular cleaning, however litter increased by 120% despite this monthly cleaning effort on the Padstow area beaches. Importantly, at all nine beaches the litter was dominated by small, fragmented plastic pieces and rope fibres, which account for 32% and 17% of all litter items collected, respectively. The weathered nature of these plastics indicates they have been in the marine environment for an extended period of time. So, whilst classifying the original source of these plastics is not possible, it can be concluded they are not the result of recent public littering. This data highlights both the extent of the marine litter problem and that current efforts to reduce littering by beach users will only tackle a fraction of this litter. Such information is vital for developing effective management strategies for beach and marine litter at both regional and global levels.

Published

2017

43. Impacts of ocean acidification on sperm develop with exposure time for a polychaete with long lived sperm

Author

Mauricio A. Urbina, Sulayman Mourabit, Tamara S. Galloway, Ceri Lewis, Anna L. Campbell, and Rob Ellis

Subjects

Male, 0106 biological sciences, Climate Change, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Animals, Seawater, reproductive and urinary physiology, Fertilisation, Polychaete, biology, urogenital system, Ecology, 010604 marine biology & hydrobiology, Polychaeta, Motile sperm, Ocean acidification, General Medicine, Marine invertebrates, Carbon Dioxide, Hydrogen-Ion Concentration, biology.organism_classification, Spermatozoa, Pollution, Sperm, Arenicola, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The majority of marine invertebrate species release eggs and sperm into seawater for external fertilisation. Seawater conditions are currently changing at an unprecedented rate as a consequence of ocean acidification (OA). Sperm are thought to be particularly vulnerable to these changes and may be exposed to external environmental conditions for variable periods of time between spawning and fertilisation. Here, we undertook a mechanistic investigation of sperm swimming performance in the coastal polychaete Arenicola marina during an extended exposure to OA conditions (pH NBS 7.77, 1000 μatm p CO 2 ). We found that key fitness-related aspects of sperm functioning declined faster under OA conditions i.e. impacts became apparent with exposure time. Sperm swimming speed (VCL), the number of motile sperm and sperm path linearity all dropped significantly after 4 h under OA conditions whilst remaining constant under ambient conditions at this time point. Our results highlight the importance of sperm exposure duration in ocean acidification experiments and may help towards explaining species specific differences in response.

Published

2017

44. The fate of cerium oxide nanoparticles in sediments and their routes of uptake in a freshwater worm

Author

Richard K, Cross, Charles R, Tyler, and Tamara S, Galloway

Subjects

Geologic Sediments, Animals, Metal Nanoparticles, Fresh Water, Cerium, Oligochaeta, Particle Size, Water Pollutants, Chemical

Abstract

The relative importance of ingestion and transdermal uptake of nanomaterials is poorly understood, particularly in sediment dwelling organisms, where diet has the potential to contribute significantly to particle accumulation. In aquatic sediments, nanoparticles may partition to bind with the solid fraction of sediment, be freely mobile in the pore water or, for certain metal/metal oxides, undergo dissolution, each of which could influence the route of nanoparticle uptake. Here, we used the freshwater worm

Published

2019

45. Effects of nylon microplastic on feeding, lipid accumulation and moulting in a coldwater copepod

Author

Matthew Cole, Rachel L. Coppock, Penelope K. Lindeque, Andy M. Booth, Dag Altin, Lisbet Sørensen, David W. Pond, Tamara S. Galloway, and Sarah Reed

Subjects

Muda, Microplastics, Calanus finmarchicus, Molting, 010501 environmental sciences, 01 natural sciences, Zooplankton, Article, Copepoda, Animals, Environmental Chemistry, 14. Life underwater, 0105 earth and related environmental sciences, biology, Chemistry, fungi, General Chemistry, biology.organism_classification, Lipids, Bioavailability, Nylons, 13. Climate action, Environmental chemistry, Toxicity, Plastics, Moulting, Water Pollutants, Chemical, Copepod, Environmental Monitoring

Abstract

Microplastic debris is a pervasive environmental contaminant that has the potential to impact the health of biota, although its modes of action remain somewhat unclear. The current study tested the hypothesis that exposure to fibrous and particulate microplastics would alter feeding, impacting on lipid accumulation, and normal development (e.g., growth, moulting) in an ecologically important coldwater copepod Calanus finmarchicus. Preadult copepods were incubated in seawater containing a mixed assemblage of cultured microalgae (control), with the addition of ∼50 microplastics mL–1 of nylon microplastic granules (10–30 μm) or fibers (10 × 30 μm), which are similar in shape and size to the microalgal prey. The additive chemical profiles showed the presence of stabilizers, lubricants, monomer residues, and byproducts. Prey selectivity was significantly altered in copepods exposed to nylon fibers (ANOVA, P < 0.01) resulting in a nonsignificant 40% decrease in algal ingestion rates (ANOVA, P = 0.07), and copepods exposed to nylon granules showed nonsignificant lipid accumulation (ANOVA, P = 0.62). Both microplastics triggered premature moulting in juvenile copepods (Bernoulli GLM, P < 0.01). Our results emphasize that the shape and chemical profile of a microplastic can influence its bioavailability and toxicity, drawing attention to the importance of using environmentally relevant microplastics and chemically profiling plastics used in toxicity testing. Funding was provided by the Natural Environment Research Council (NE/L007010, NE/L002582/1, NE/P006280/1, and NE/L002434/1), the JPI Oceans project “PLASTOX” (direct and indirect ecotoxicological impacts of microplastics on marine organisms; Research Council of Norway, grant no. 257479), and the RCN project “MICROFIBRE” (grant no. 268404). Our thanks to Iurgi Salaberria for assistance in planning the studies and providing access to facilities at NTNU.

Published

2019

46. Miniaturised marine tests as indicators of aromatic hydrocarbon toxicity: Potential applicability to oil spill assessment

Author

Katherine A. Colvin, Tamara S. Galloway, Thomas F. Parkerton, Ceri Lewis, and Aaron D. Redman

Subjects

0106 biological sciences, Rotifera, Brine shrimp, 010501 environmental sciences, Aquatic Science, Oceanography, Hydrocarbons, Aromatic, 01 natural sciences, chemistry.chemical_compound, Toxicity Tests, Animals, Petroleum Pollution, Polycyclic Aromatic Hydrocarbons, Oil pollution, 0105 earth and related environmental sciences, chemistry.chemical_classification, biology, 010604 marine biology & hydrobiology, Brachionus, Phenanthrene, biology.organism_classification, Pollution, Petroleum, Hydrocarbon, chemistry, Environmental chemistry, Toxicity, Oil spill, Environmental science, Aromatic hydrocarbon, Water Pollutants, Chemical

Abstract

Assessing oil spill toxicity in real time is challenging due to dynamic field exposures and lack of simple, rapid, and sensitive tests. We investigated the relative sensitivity of two commercially available marine toxicity tests to aromatic hydrocarbons using the target lipid model (TLM). State of the art passive dosing in sealed vials was used to assess the sensitivity of brine shrimp (Artemia franciscana) and rotifer (Brachionus plicatilis). Organisms were exposed to toluene, 1-methylnaphthalene and phenanthrene for 24 h. Toxicity results were analysed using the TLM to estimate the critical target lipid body burden and support comparison to empirical data for 79 other aquatic organisms. Our findings demonstrate the applicability of passive dosing to test small volumes and indicate that the two rapid cyst-based assays are insensitive in detecting hydrocarbon exposures compared to other aquatic species. Our results highlight the limitations of applying these tests for oil pollution monitoring and decision-making.

Published

2021

47. Virgin microplastics cause toxicity and modulate the impacts of phenanthrene on biomarker responses in African catfish ( Clarias gariepinus )

Author

Hazilawati Hamzah, Ali Karami, Tamara S. Galloway, and Nicholas Romano

Subjects

Gills, Clarias gariepinus, Gill, medicine.medical_specialty, Globulin, Phthalic Acids, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Metals, Heavy, Internal medicine, medicine, Animals, Catfishes, 0105 earth and related environmental sciences, General Environmental Science, 021110 strategic, defence & security studies, biology, Glycogen, Cholesterol, Albumin, Phenanthrenes, biology.organism_classification, Polychlorinated Biphenyls, Endocrinology, Liver, chemistry, Polyethylene, Toxicity, biology.protein, Biomarkers, Water Pollutants, Chemical, Catfish

Abstract

Despite the ubiquity of microplastics (MPs) in aquatic environments and their proven ability to carry a wide variety of chemicals, very little is known about the impacts of virgin or contaminant-loaded MPs on organisms. The primary aim of this study was to investigate the impacts of virgin or phenanthrene (Phe)-loaded low-density polyethylene (LDPE) fragments on a suite of biomarker responses in juvenile African catfish (Clarias gariepinus). Virgin LDPE (50 or 500µg/L) were preloaded with one of two nominal Phe concentrations (10 or 100µg/L) and were exposed to the fish for 96h. Our findings showed one or both Phe treatments significantly increased the degree of tissue change (DTC) in the liver while decreased the transcription levels of forkhead box L2 (foxl2) and tryptophan hydroxylase2 (tph2) in the brain of C. gariepinus. Exposure to either levels of virgin MPs increased the DTC in the liver and plasma albumin: globulin ratio while decreased the transcription levels of tph2. Moreover, MPs modulated (interacted with) the impact of Phe on the DTC in the gill, plasma concentrations of cholesterol, high-density lipoprotein (HDL), total protein (TP), albumin, and globulin, and the transcription levels of fushi tarazu-factor 1 (ftz-f1), gonadotropin-releasing hormone (GnRH), 11 β-hydroxysteroid dehydrogenase type 2 (11β-hsd2), and liver glycogen stores. Results of this study highlight the ability of virgin LDPE fragments to cause toxicity and to modulate the adverse impacts of Phe in C. gariepinus. Due to the wide distribution of MPs and other classes of contaminants in aquatic environments, further studies are urgently needed to elucidate the toxicity of virgin or contaminant-loaded MPs on organisms.

Published

2016

48. Marine microplastic debris: a targeted plan for understanding and quantifying interactions with marine life

Author

Timothy M. Lenton, Penelope K. Lindeque, Matthew Cole, James R. Clark, Tamara S. Galloway, Ceri Lewis, Elaine S. Fileman, and Jeremy Blackford

Subjects

Pollutant, Microplastics, 010504 meteorology & atmospheric sciences, Ecology, fungi, Marine life, 010501 environmental sciences, Aquatic biota, 01 natural sciences, Debris, Environmental science, Ecosystem, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

Microscopic plastic (microplastic) debris is a marine pollutant that threatens aquatic biota and ecosystems. Microplastics have been detected throughout the world's oceans; however, the relative importance of different processes that control the spatial distribution and long-term fate of microplastics in the marine environment remains largely unknown. Results from laboratory and field studies indicate that interactions between microplastic debris and marine organisms may play an important role in redistributing plastic in the oceans. We provide an overview of the various mechanisms through which marine life and microplastics can interact. By considering coupled physical–biological processes, we also identify regions where these interactions are most likely to occur, and outline a new research agenda that aims to determine their prevalence in the marine environment. We hypothesize that biological interactions are key to understanding the movement, impact, and fate of microplastics in the oceans.

Published

2016

49. Effect of Microplastic on the Gills of the Shore Crab Carcinus maenas

Author

Andrew J. R. Watts, Julian Moger, Tamara S. Galloway, Rhys M. Goodhead, Mauricio A. Urbina, and Ceri Lewis

Subjects

Gills, Gill, Salinity, Microplastics, animal structures, 010504 meteorology & atmospheric sciences, Osmotic shock, Brachyura, Sodium, chemistry.chemical_element, 010501 environmental sciences, Biology, 01 natural sciences, Toxicology, Hemolymph, Animals, Environmental Chemistry, Ecotoxicology, Respiratory function, 14. Life underwater, Carcinus maenas, 0105 earth and related environmental sciences, General Chemistry, biology.organism_classification, chemistry, 13. Climate action, Environmental chemistry, Osmoregulation, Plastics

Abstract

Microscopic plastic debris (microplastics

Published

2016

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

Author

Penelope K. Lindeque, Cameron Hird, Matthew Cole, Giulia Consolandi, Tamara S. Galloway, Claudia Drago, and Corin Liddle

Subjects

Gills, 0106 biological sciences, Gill, Microplastics, 010501 environmental sciences, Aquatic Science, Oceanography, medicine.disease_cause, 01 natural sciences, Andrology, Hemolymph, medicine, Animals, Ecotoxicology, Shellfish, 0105 earth and related environmental sciences, Mytilus, biology, Chemistry, 010604 marine biology & hydrobiology, biology.organism_classification, Pollution, Toxicity, Plastics, Water Pollutants, Chemical, Oxidative stress

Abstract

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, 10 × 30 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

Published

2020