Your search keyword '"mesoplastics"' showing total 43 results

1. Little change in plastic loads in South Atlantic seabirds since the 1980s.

Author

Perold, Vonica, Ronconi, Robert A., Moloney, Coleen L., Dilley, Ben J., Connan, Maëlle, and Ryan, Peter G.

Published

2024

2. Above- and below-ground field study on the impacts of conventional and alternative mesoplastics on Hordeum vulgare growth and soil invertebrate communities.

Author

Wright, Amy C.M., Boots, Bas, Ings, Thomas C., and Green, Dannielle S.

Subjects

*SUSTAINABILITY, *INVERTEBRATE communities, *SOIL animals, *ECOLOGICAL impact, *AGRICULTURAL pollution, *BIODEGRADABLE plastics

Abstract

Plastic plays an important role in agriculture, but its use has become a concerning source of pollution. While new (bio)degradable, alternative plastics are being developed and used as mulching films, their ecological impacts, in particular under field conditions, are not well understood. Furthermore, there is a notable lack of knowledge on how plastic pollution affects soil invertebrate communities. Most existing studies primarily focus on microplastics, often neglecting the impacts of mesoplastics. This study therefore compared the separate effects of two conventional (polyethylene and polypropylene) and two alternative (polyethylene containing biodegradable additives and compostable polylactic acid) mesoplastic films on plant performance (biomass, seed yield) and soil mesofaunal assemblages in a field experiment. The mesoplastics were applied at 0.1% (w/w), prior to soil being planted with Hordeum vulgare (spring barley), which was grown to maturity, for 11 weeks. Generally, there were no measurable differences between the conventional and alternative plastic treatments, however, barley exposed to mesoplastics showed reduced biomass, seed yield, and chlorophyll content, along with increased oxidative stress. Soil fauna, particularly Collembola, had lower richness and abundance when exposed to both plastic types, but assemblage structure and composition remained unchanged after 11 weeks. This study is pivotal in highlighting that both conventional and alternative plastics can similarly affect plant health and soil ecosystems. The evidence provided is essential for refining future risk assessments of agricultural plastic pollution and underscores the urgent need for more sustainable practices and materials in agriculture. [Display omitted] • Barley exposed to mesoplastics showed reduced biomass and seed yield. • Mesoplastics decreased barley chlorophyll content and increased oxidative stress. • Mesoplastics decreased soil fauna richness and abundance, especially Collembola. • Conventional and alternative plastics similarly affected plant health and soil fauna. [ABSTRACT FROM AUTHOR]

Published

2024

3. Abundance and mass of plastic litter on sandy shore: Contribution of stormy events.

Author

Fetisov, Sergei, Esiukova, Elena, Lobchuk, Olga, and Chubarenko, Irina

Subjects

MARINE debris, RECREATION, SHORELINES, PLASTICS, SEAGRASSES

Abstract

The accumulation of marine litter on beaches has a detrimental impact on the environment, human health, and recreational activities. A total of 116 monitoring surveys were conducted along the shore of the Kaliningrad region between 2019 and 2023. Sampling of anthropogenic and plastic litter (>0.5 cm) was carried out under various meteorological conditions on eight sandy beaches. The greatest abundance and mass of plastic marine litter (mean ± SE: 13.75 ± 8.61 items/m2 and 19.97 ± 5.92 gDW/m2, correspondingly) were observed in the aftermath of storms within beach-cast accumulation stains at the shoreline, where it was intermixed with organic debris. This is two orders of magnitude greater than the plastic litter contamination obtained using the OSPAR methodology at the same beach during fine weather (0.11 ± 0.01 items/m2, 0.33 ± 0.02 gDW/m2). The results suggest that the most effective strategy for beach cleaning is to implement it in the post-storm period. [Display omitted] • Maximum plastic contamination on the beach is found in organic beach-cast patches. • A modified frame method is applied to evaluate plastic amount in seagrass patches. • Plastic mass after storm is about 100 times higher than under normal conditions. • Beach cleaning after storm is effective in removing plastic from marine environment. [ABSTRACT FROM AUTHOR]

Published

2024

4. Plastic transport in rivers: Bridging the gap between surface and water column.

Author

Oswald, Stephanie B., Ragas, Ad M.J., Schoor, Margriet M., and Collas, Frank P.L.

Abstract

• Variability in river profiles may affect the fate of plastic items in different layers in the water column. • Hard plastics were more frequently found at the river surface, while soft plastics were more frequently detected near the bottom of the river. • Estimates of plastic concentrations solely based on surface transport could result in an under- or overestimation of riverine plastic transport. • A homogeneous vertical distribution of plastics may be characterized by high-peak discharge events. Rivers act as an important transportation pathway for land-based plastic litter to the ocean. Recently, rivers have also been identified as potential sinks and reservoirs for plastics. Knowledge of plastic transport over different depth profiles in rivers remains limited. In this study, we evaluated the vertical distribution of macro- and mesoplastics, using a larvae net and a trawl net in the river Rhine and its two major branches, i.e. Waal and IJssel. Subsequently, to estimate the relationship between the surface transport of plastic items, i.e., floating items, compared to the transport in deeper layers in the water column, including suspended and bed-transported plastic, an extrapolation factor was derived per day for the middle and bottom nets divided by those found in the surface net. The observed macro- and mesoplastic OSPAR categories collected in different layers in the water column were rather consistent between different sampling techniques. Fragments of soft mesoplastic falling under the category "Plastic film plastics 0–2.5 cm (soft)" were recorded most frequently in the investigated rivers with our monitoring techniques. During larvae net monitoring, hard plastics were more frequently found at the river surface than at the middle or bottom of the river for both macroplastic and mesoplastics, while soft plastics were more frequently detected near the bottom. For larvae net monitoring, the extrapolation factor, reflecting the concentration ratio of macroplastic items transport at different depths, i.e., from the surface downwards to the middle and the bottom ranged between 0.38 to 2.2 and 0.36 to 5.7, respectively. The extrapolation factor of mesoplastic transport from the surface downwards to the middle and the bottom ranged between 0.70 to 1.84 and 0.69 to 2.57. During trawl net monitoring, the extrapolation factor, reflecting the concentration ratio, for macroplastic ranged between 0.82 and 1.30, and for mesoplastic between 0.52 and 1.40. Overall, the findings of this study show that estimates of plastic concentrations solely based on surface transport could result in an under- or overestimation of riverine plastic transport. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2025

5. Factors that influence the migration of sorbed pesticides in polyethylene and biodegradable mesoplastics.

Author

Córdoba, Paulina, Berenstein, Giselle, and Montserrat, Javier M.

Abstract

Trifluralin, Chlorpyrifos, and Procymidone migration performance from polyethylene (PE) and biodegradable (Mater-Bi: M-B) mulching films was examined. Desorption of pesticides from PE and M-B was studied using soil-plastic microcosms, considering temperature, soil humidity, and mulching film type as experimental variables. Trifluralin and Chlorpyrifos desorption was higher for PE than for M-B under all experimental conditions. In both cases, as the temperature increased from 25 °C to 40 °C, pesticide migration also increased, whereas as the soil humidity raised from 30% to 60%, pesticide desorption decreased. In the case of Procymidone, migration from PE and M-B at 25 °C was similar under both soil moisture conditions. Migration percentages were similar for both mulch films at 40 °C and 30% soil humidity. However, at higher soil moisture (60%), migration from M-B was greater than from PE. A linear relationship was observed between the percentage of migration and the vapor pressure of the pesticides. In all cases, migration increased with higher vapor pressure, indicating a possible migration mechanism in the vapor phase. Pesticide migration increased at high temperatures (40 °C). The effect of soil humidity in reducing pesticide migration was more significant at lower levels (30%). In addition, the mesoplastic sorption of pesticides in soil columns was studied using PE and M-B films. While the recoveries for Trifluralin, Chlorpyrifos, and Procymidone in the PE films were 0.05% ± 0.01%, 0.13% ± 0.03%, and non-detectable, the recoveries for M-B were: 0.49% ± 0.07%, 0.31% ± 0.09%, and 0.17% ± 0.10%, respectively, indicating that M-B was a better adsorbent than PE in all cases. This behavior should be considered in combination with the lower migration percentages observed for this type of mulching film in the microcosm experiments. These results could indicate a potential carrier effect of pesticide on biomesoplastic in the environment. [Display omitted] Trifluralin and Chlorpyrifos migration was higher from PE than Mater-Bi. In the case of Procymidone migration from both surfaces was similar. Soil humidity reduced Trifluralin and Chlorpyrifos migration from Mater-Bi. For each plastic surface migration correlates with pesticide vapor pressure. In soil, Mater-Bi is a better adsorbent than PE for the pesticides under test. [ABSTRACT FROM AUTHOR]

Published

2025

6. Geometric relationship between the projected surface area and mass of a plastic particle.

Author

Kataoka, Tomoya, Iga, Yota, Baihaqi, Rifqi Ahmad, Hadiyanto, Hadiyanto, and Nihei, Yasuo

Abstract

• A total of 4390 meso /microplastic (MMP) particles were collected at 35 sites in 17 rivers. • The masses of all the MMP particles were directly measured by an ultramicrobalance. • The MMP mass was linearly regressed on its projected surface area on a log scale. • The mass concentrations were accurately estimated by linear regression models. • The regression models were quite reasonable for idealized geometric relationships. The quantification of the mass of meso /microplastic (MMP) particles is crucial for assessing the global inventory of ocean plastics and assessing environmental and human health risks. Herein, linear regression models between mass and projected surface area on a log scale were established by directly measuring the masses of 4390 MMP particles collected at 35 sites in 17 Japanese rivers with an ultramicrobalance. The linear regression models estimated mass concentrations more accurately than any previous method based on geometric volume assuming several three-dimensional shapes. Additionally, linear regression models were quite reasonable for determining the geometric relationships of idealized cuboid particles. The slope of the linear regression models was dependent on the three-dimensional shapes of the particles, and their intercept was determined according to their third dimension. Moreover, the third dimension led to uncertainty in the mass estimation of particles; thus, the accuracies of the previous methods were relatively poor. Nevertheless, two limitations for mass measurement by linear regression models were identified, which determined the size range of the MMP particles on the projected surface area (ranging from 10−4 mm2 to 102 mm2) that is applicable for mass estimation of the particles collected from riverine and marine environments. Our results could be used to accurately estimate the mass concentrations in aquatic environments and provide insights into the geometric relationships between the mass and size of MMP particles. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

7. Ecological risk assessment of microplastics and mesoplastics in six common fishes from the Bay of Bengal Coast.

Author

Sultana, Salma, Anisuzzaman, Md., Hossain, Md. Kamal, Rana, Md. Sohel, Paray, Bilal Ahamad, Arai, Takaomi, Yu, Jimmy, and Hossain, M. Belal

Subjects

ECOLOGICAL risk assessment, MICROPLASTICS, MARINE fishes, DIETARY patterns, PLASTICS, COASTS

Abstract

Plastic particles have emerged as a growing threat to both ecosystems and human well-being, as they are being ingested and accumulate at different trophic levels. However, microplastic and mesoplastic contamination and its risk to coastal and marine water fish have not been well studied, particularly in the northern Bay of Bengal. In this study, the presence of small-scale plastic particles (micro- and meso-sized) in the gastrointestinal tract (GIT) and muscles of six edible fish species from the northern Bay of Bengal Coast were identified and analyzed. The overall range of microplastics was 1.74 ± 0.23–3.79 ± 2.03items/g in muscle and 0.54 ± 0.22–5.96 ± 3.16 items/g in the GIT, with 16.38 ± 8.08–31.88 ± 12.09 items/individual. No mesoplastics were found in muscle tissue, but they were present in the GIT at concentrations ranging from 0.33 ± 0.27 to 0.03 ± 0.02 items/g and from 0.51 ± 0.05to 1.38 ± 1.01 items/individual. Lepturacanthus savala accumulated the most microplastics in muscle, and Harpadon nehereus had the least. In addition, the highest levels of mesoplastics were detected in the GIT of Polynemus paradiseus and the lowest was detected in the GIT of Lutjenus sanguineus. Omnivorous fish showed higher plastic concentrations than carnivorous fish, which was linked to dietary habits, feeding strategies and digestive processes. Plastic material predominantly accumulated in the GIT rather than in the muscle. The majority of ingested plastic particles were fibres (95.18 %), were violet in color (34 %), and were < 0.5 mm in size (87 %). The dominant microplastic polymers included 38 % PE, 15 % PP, 33 % PU, and 14 % CES. In contrast, the prevalent mesoplastic polymers comprised 45 % PE, 19 % PP, 13 % PS, 16 % PA, and 7 % PET. Subsequently, a hazard analysis using the polymer hazard index (PHI) revealed that plastic contamination was of distinct hazard categories for different polymer types, ranging from grade I (<1) to grade IV (100−1000). The assessment of the contamination factor (1 < CF < 3) and pollution load index (PLI > 1) indicated moderate contamination of fish by the ingestion of plastic debris. This study provides the foremost evidence for the presence of mesoplastics and microplastics in coastal and marine fish in the study region, paving the way for future investigations and policy implementation. • Plastic particles in six marine and coastal fishes were determined from the Bay of Bengal. • Identified particles revealed variations by species, dietary habits and organ specificity. • Majority were fibres that are violet in color and small in size (<0.5 mm). • Polymer types were diverse with PE, PU and PP being dominant. • Distinct hazard categories ranging from minor to dangerous levels were identified. [ABSTRACT FROM AUTHOR]

Published

2024

8. Indigo-dyed cellulose fibers and synthetic polymers in surface-feeding seabird chick regurgitates from the Gulf of Alaska.

Author

Tremolada, Paolo, Saliu, Francesco, Winkler, Anna, Carniti, Cecilia P., Castelli, Melisa, Lasagni, Marina, Andò, Sergio, Leandri-Breton, Don-Jean, Gatt, Marie Claire, Obiol, Joan Ferrer, Parolini, Marco, Nakajima, Chinatsu, Whelan, Shannon, Shoji, Akiko, Hatch, Scott A., Elliott, Kyle H., Cecere, Jacopo G., and Rubolini, Diego

Subjects

SYNTHETIC fibers, CELLULOSE fibers, CHICKS, FOOD contamination, CONTINENTAL shelf, POLYMERS

Abstract

We provide evidence of anthropogenic materials ingestion in seabirds from a remote oceanic area, using regurgitates obtained from black-legged kittiwake (Rissa tridactyla) chicks from Middleton Island (Gulf of Alaska, USA). By means of GPS tracking of breeding adults, we identified foraging grounds where anthropogenic materials were most likely ingested. They were mainly located within the continental shelf of the Gulf of Alaska and near the Alaskan coastline. Anthropogenic cellulose fibers showed a high prevalence (85 % occurrence), whereas synthetic polymers (in the micro- and mesoplastics dimensional range) were less frequent (20 %). Most fibers (60 %) were blue and we confirmed the presence of indigo-dyed cellulosic fibers, characteristic of denim fabrics. In terms of mass, contamination levels were 0.077 μg g−1 wet weight and 0.009 μg g−1 wet weight for anthropogenic microfibers and synthetic polymers, respectively. These results represent the only recent report of contamination by anthropogenic fibers in seabirds from the Gulf of Alaska. [Display omitted] • We screened kittiwake's chick regurgitates from Alaska for anthropogenic fibers. • Cellulosic fibers occurred in 85 % of regurgitates, while synthetic polymers in 20 %. • μ-RAMAN spectroscopy confirmed that some cellulosic microfibers were indigo-dyed. • Regurgitates are an effective tool for monitoring contamination of Arctic food webs. [ABSTRACT FROM AUTHOR]

Published

2024

9. Passive biomonitoring of airborne microplastics using lichens: A comparison between urban, natural and protected environments.

Author

Taurozzi, Davide, Gallitelli, Luca, Cesarini, Giulia, Romano, Susanna, Orsini, Monica, and Scalici, Massimiliano

Subjects

*PLASTIC marine debris, *BIOINDICATORS, *MICROPLASTICS, *LICHENS, *BIOLOGICAL monitoring, *URBAN ecology, *ATMOSPHERIC deposition

Abstract

[Display omitted] • First lichen passive biomonitoring of plastic pollution in remote areas. • 253 microplastics trapped by 90 lichen samples in natural, protected, urban areas. • Increasing (double) accumulation of MPs from the natural site to the urban site. • First mesoplastics found on lichens from airborne pollution. • Shortest fibers at the natural site, longer fibers at the urban site. Currently, natural and urban ecosystems are affected by different types of atmospheric deposition, which can compromise the balance of the environment. Plastic pollution represents one of the major threats for biota, including lichens. Epiphytic lichens have value as bioindicators of environmental pollution, climate change, and anthropic impacts. In this study, we aim to investigate the lichen bioaccumulation of airborne microplastics along an anthropogenic pollution gradient. We sampled lichens from the Genera Cladonia and Xanthoria to highlight the effectiveness of lichens as tools for passive biomonitoring of microplastics. We chose three sites, a "natural site" in Altipiani di Arcinazzo, a "protected site" in Castelporziano Presidential estate and an "urban site" in the centre of Rome. Overall, we sampled 90 lichens, observed for external plastic entrapment, melt in oxygen peroxide and analysed for plastic entrapment. To validate the method, we calculated recovery rates of microplastics in lichen. Particularly, 253 MPs particles were detected across the 90 lichen samples: 97 % were fibers, and 3 % were fragments. A gradient in the number of microplastic fibers across the sites emerged, with increasing accumulation of microplastics from the natural site (n = 58) to the urban site (n = 116), with a direct relationship between the length and abundance of airborne microplastic fibers. Moreover, we detected the first evidences of airborne mesoplastics entrapped by lichens. On average, the natural site experienced the shortest fibre length and the centre of Rome the longest. No differences in microplastics accumulation emerged from the two genera. Our results indicated that lichens can effectively be used for passive biomonitoring of microplastic deposition. In this scenario, the role of lichens in entrapping microplastics and protecting pristine areas must be investigated. Furthermore, considering the impact that airborne microplastics can have on human health and the effectiveness of lichens as airborne microplastic bioindicators, their use is encouraged. [ABSTRACT FROM AUTHOR]

Published

2024

10. Chemical analysis of marine microdebris pollution in macroalgae from the coastal areas of Argentina.

Author

Forero-López, A.D., Poza, A.M., Colombo, C.V., Morales-Pontet, N.G., Rimondino, G.N., Toniolo, M.A., Malanca, F.E., and Botté, S.E.

Published

2024

11. Comparative toxicity of beach mesoplastics from South Spain: An in vitro approach.

Author

Hosseinzadeh, Mahboubeh, Wang, Tiantian, Morales-Caselles, Carmen, Callejas, Sandra, Eljarrat, Ethel, and Porte, Cinta

Subjects

*POISONS, *PLASTIC marine debris, *MARINE biology, *HAZARDOUS substances, *LIVER cells, *BEACHES, *PHTHALATE esters

Abstract

Plastics, particularly mesoplastics, dominate beach debris and act as carriers of hazardous chemicals, either initially present in plastics or absorbed from the surrounding environment. In this study, mesoplastics were collected from five beaches in the southern region of Spain to investigate their potential impact on marine life. In vitro assays employing fish liver cells (PLHC-1) were conducted to evaluate the toxicity of methanolic extracts derived from intact mesoplastics and after simulated photodegradation. LC-MS analysis of the methanolic extracts revealed the presence of organophosphate esters, phthalates, and phthalate alternatives. The extracts from photodegraded plastics generally showed higher cytotoxicity, ability to generate reactive oxygen species (ROS), and genotoxicity (micronuclei formation) than those from intact mesoplastics. All the extracts induced EROD activity in PLHC-1 cells, indicating the presence of significant amounts of CYP1A inducers in beach mesoplastics. Thus, mesoplastics contain chemicals able to induce cytotoxicity and genotoxicity in PLHC-1 cells, and further photodegradation of mesoplastics facilitates the release of additional chemicals, increasing the overall toxicity. This work also highlights the usefulness of cell-based assays to better define the risks of plastic pollution. [Display omitted] • Plastic extracts triggered toxic effects in fish liver PLHC-1 cells. • Increased toxicity detected after photodegradation of beach mesoplastics. • Organophosphate esters and phthalates detected in beach plastics. • Weak correlation observed between plastic additives analyzed and toxicity. [ABSTRACT FROM AUTHOR]

Published

2024

12. Do beachrocks affect microplastic deposition on the strandline of sandy beaches?

Author

Pinheiro, Lara M., Monteiro, Raqueline C.P., Ivar do Sul, Juliana A., and Costa, Monica F.

Subjects

BEACHES, MANN Whitney U Test, PROTECTED areas, SEDIMENT sampling

Abstract

Abstract The strandline is one of the first deposition habitats of microplastics before they are integrated to the beach as a standing stock or finally removed. Beaches, entirely or partially protected by beachrocks, have different sediment dynamics and therefore may present variation in microplastic deposition. The aim of this work was to test if protected and unprotected (i.e., exposed to waves) areas of a sandy beach present different microplastic accumulation on the strandline – a habitat greatly influenced by both water and sediment dynamics. Microplastic (MP) amounts were significantly higher at the protected area (M protected = 642.6 ± 514.8 MP m−2, M exposed = 130.6 ± 126.8 MP m−2, Mann-Whitney U test, U = 14.5, p = 0.0009), showing that beachrocks influence microplastic accumulation on the beach face. Therefore, hard structures parallel to the beach may also affect microplastics deposition on beach sediments, being important to consider these structures on microplastic surveys. Graphical abstract Unlabelled Image Highlights • Microplastic contamination is easily detected on strandlines of urban beaches. • Beaches with distinct wave exposure will have different MP deposition and dynamics. • Sieve sediment samples in two or more fractions do not interfere in the recovered MP amounts. • Beachrocks provide sheltered habitats on sandy beaches where MPs deposit in greater amounts. • MP sampling on beaches must consider structures that alter circulation/deposition in their experimental designs. [ABSTRACT FROM AUTHOR]

Published

2019

13. Microplastic and mesoplastic pollution in farmland soils in suburbs of Shanghai, China.

Author

Liu, Mengting, Lu, Shibo, Song, Yang, Lei, Lili, Hu, Jiani, Lv, Weiwei, Zhou, Wenzong, Cao, Chengjin, Shi, Huahong, Yang, Xiaofeng, and He, Defu

Subjects

PLASTIC marine debris, WATER pollution, SOIL pollution, SUBURBS, ECOLOGY

Abstract

Microplastics are emerging pollutants which have been extensively detected in water environments. However, little is known about microplastic pollution in soil environments. In this study, we investigated microplastics and mesoplastics in farmland soils from twenty vegetable fields around the suburbs of Shanghai. In each site, three duplicate soil samples were collected from shallow (0–3 cm) and deep soils (3–6 cm), respectively. Microplastics (sizes of 20 μm - 5 mm) and mesoplastics (5 mm - 2 cm) were detected using methods of density extraction, 30% H 2 O 2 digestion and micro-fourier transform infrared spectroscopy. The abundance of microplastics was 78.00 ± 12.91 and 62.50 ± 12.97 items kg −1 in shallow and deep soils, respectively. While, mesoplastics were found with abundance of 6.75 ± 1.51 and 3.25 ± 1.04 items kg −1 in shallow and deep soils. Among these micro(meso)plastics, 48.79% and 59.81% were in size of <1 mm in shallow and deep soils. The main morphotypes of microplastics included fiber, fragment and film, mostly in color of black or transparent. Moreover, we found that topsoil contained higher concentrations and larger sizes of micro(meso)plastics than deep soil. In addition, the vast majority of micro(meso)plastics were polypropylene (50.51%) and polyethylene (43.43%). This study reveals occurrence and characteristics of microplastic pollution in typical farmland soils. It provides important data for subsequent research on microplatics in the terrestrial ecosystem. [ABSTRACT FROM AUTHOR]

Published

2018

14. Plastic pellets, meso- and microplastics on the coastline of Northern Crete: Distribution and organic pollution.

Author

Karkanorachaki, Katerina, Kiparissis, Sotiris, Kalogerakis, Georgina Calypso, Yiantzi, Evangelia, Psillakis, Elefteria, and Kalogerakis, Nicolas

Subjects

MARINE pollution, PLASTIC marine debris, POLYCYCLIC aromatic hydrocarbons, GAS chromatography, COASTAL ecology

Abstract

Plastic pollution in the marine environment is one of the foremost environmental problems of our time, as it affects wildlife and human health both directly and indirectly through the effects of contaminants carried by microplastics. This study investigates the temporal and spatial distribution of plastic pellets and fragments in sandy beaches along the coastline of Northern Crete, during 2013. Their densities varied throughout the year in each beach, with highest densities during the summer and towards the upper parts of the beaches. The concentrations of 16 polycyclic aromatic hydrocarbons (PAHs) sorbed on microplastics sampled from nine sandy beaches of Northern Crete was quantified using Gas chromatography – Ion Trap Mass Spectrometry (GC-ITMS). PAHs concentrations ranged from non-detectable levels to 1592 ng/g and fluctuated between sampling periods. Based on the observed patterns of meso- and microplastics distribution, practical guidelines are proposed to minimize the entrance of microplastics into the seawater wherefrom they are exceptionally difficult to collect, if mitigation actions are to be applied. [ABSTRACT FROM AUTHOR]

Published

2018

15. Holes on surfaces of the weathered plastic fragments from coastal beaches.

Author

Zheng, Yifan, Hamed, Mohamed, De-la-Torre, Gabriel Enrique, Frias, João, Jong, Mui-Choo, Kolandhasamy, Prabhu, Chavanich, Suchana, Su, Lei, Deng, Hua, Zhao, Wenjun, and Shi, Huahong

Subjects

BEACHES, PLASTICS, DEFORMATION of surfaces, SURFACE phenomenon, SURFACE morphology

Abstract

The surface morphology of weathered plastics undergoes a variety of changes. In this study, 3950 plastic fragments from 26 beaches around the world, were assessed to identify holes. Holes were identified on 123 fragments on 20 beaches, with the highest frequency (10.3 %) being identified at Qesm AL Gomrok Beach in Egypt. The distribution of holes could be divided into even, single-sided, and random types. The external and internal holes were similar in size (37 ± 15 μm) of even type fragments. The external holes were larger than the internal holes in single-sided (516 ± 259 μm and 383 ± 161 μm) and random (588 ± 262 μm and 454 ± 210 μm) fragment types. The external hole sizes were positively correlated with the internal hole sizes for each type. This study reports a novel deformation phenomenon on the surface of weathered plastics and highlights their potential effects on plastics. [Display omitted] • Holes were found on the surface of plastics from beaches around the globe. • The holes on plastics have distinct edges and spherical cavity. • Distribution of holes could be classified into even, single-sided, and random types. • The surface holes originated from the material structure and environmental stresses. • The occurrences of holes on plastic surfaces could change the fate of plastics. [ABSTRACT FROM AUTHOR]

Published

2023

16. Identifying opportunities for harmonized microplastics and mesoplastics monitoring for Caribbean Small Island Developing States using a spatiotemporal assessment of beaches in South Eleuthera, The Bahamas.

Author

Ambrose, Kristal K. and Walker, Tony R.

Subjects

BEACHES, MICROPLASTICS

Abstract

Increasing quantities of microplastics and mesoplastics in the marine environment underscore the need for marine microplastics to be included in the global Plastics Treaty to end plastic pollution. Caribbean Small Island Developing States (SIDS) lack harmonized microplastics monitoring protocols, leaving them data deficient at the science-policy interface required for treaty negotiations. This baseline study assessed spatial and seasonal abundance and distribution of microplastic (1–5 mm) and mesoplastic (5–25 mm) on 16 beaches with three coastal exposures (Atlantic Ocean, Exuma Sound, Bahama Bank) in South Eleuthera, The Bahamas and its implications for Caribbean SIDS. Microplastics were the dominant debris type sampled (74 %) across all beaches, with significant spatial (p = 0.0005) and seasonal (p = 0.0363) differences in abundance and distribution across study sites. This baseline study identifies opportunities required for developing harmonized microplastics and mesoplastics monitoring by Caribbean SIDS to collect data to help support global plastics treaty negotiations. • Microplastics and mesoplastics monitored in South Eleuthera, The Bahamas. • Spatiotemporal differences in abundance were observed between coastal exposures. • Plastic pellets more abundant on Atlantic Ocean beaches. • Harmonized microplastics monitoring needed by all Caribbean countries. • Microplastic monitoring data can help support local and global policies. [ABSTRACT FROM AUTHOR]

Published

2023

17. Trophic niche influences ingestion of micro- and mesoplastics in pelagic and demersal fish from the Western Mediterranean Sea.

Author

Giani, Dario, Andolina, Cristina, Baini, Matteo, Panti, Cristina, Sciandra, Mariangela, Vizzini, Salvatrice, and Fossi, Maria Cristina

Subjects

PELAGIC fishes, STABLE isotope analysis, INGESTION, FISH anatomy, FOOD chains

Abstract

Plastic pollution has been extensively documented in the marine food web, but targeted studies focusing on the relationship between microplastic ingestion and fish trophic niches are still limited. In this study we investigated the frequency of occurrence and the abundance of micro- and mesoplastics (MMPs) in eight fish species with different feeding habits from the western Mediterranean Sea. Stable isotope analysis (δ13C and δ15N) was used to describe the trophic niche and its metrics for each species. A total of 139 plastic items were found in 98 out of the 396 fish analysed (25%). The bogue revealed the highest occurrence with 37% of individuals with MMPs in their gastrointestinal tract, followed by the European sardine (35%). We highlighted how some of the assessed trophic niche metrics seem to influence MMPs occurrence. Fish species with a wider isotopic niche and higher trophic diversity were more probable to ingest plastic particles in pelagic, benthopelagic and demersal habitats. Additionally, fish trophic habits, habitat and body condition influenced the abundance of ingested MMPs. A higher number of MMPs per individual was found in zooplanktivorous than in benthivore and piscivorous species. Similarly, our results show a higher plastic particles ingestion per individual in benthopelagic and pelagic species than in demersal species, which also resulted in lower body condition. Altogether, these results suggest that feeding habits and trophic niche descriptors can play a significant role in the ingestion of plastic particles in fish species. [Display omitted] • 25% of the 396 analysed fish ingested plastic particles. • Fish with wider isotopic niche and trophic diversity showed higher MMP occurrence. • Fish trophic habit, habitat and body condition were related to ingested MMP abundance. • Zooplanktivores and benthopelagic fish showed the highest abundances of MMPs. • Negative relationship between MMP abundance and the trophic level was highlighted. [ABSTRACT FROM AUTHOR]

Published

2023

18. Fate of microplastics and mesoplastics carried by surface currents and wind waves: A numerical model approach in the Sea of Japan.

Author

Iwasaki, Shinsuke, Isobe, Atsuhiko, Kako, Shin'ichiro, Uchida, Keiichi, and Tokai, Tadashi

Subjects

PLASTIC marine debris, STOKES shift, TSUSHIMA Current, PARTICLE tracks (Nuclear physics), MARINE ecology

Abstract

A numerical model was established to reproduce the oceanic transport processes of microplastics and mesoplastics in the Sea of Japan. A particle tracking model, where surface ocean currents were given by a combination of a reanalysis ocean current product and Stokes drift computed separately by a wave model, simulated particle movement. The model results corresponded with the field survey. Modeled results indicated the micro- and mesoplastics are moved northeastward by the Tsushima Current. Subsequently, Stokes drift selectively moves mesoplastics during winter toward the Japanese coast, resulting in increased contributions of mesoplastics south of 39°N. Additionally, Stokes drift also transports micro- and mesoplastics out to the sea area south of the subpolar front where the northeastward Tsushima Current carries them into the open ocean via the Tsugaru and Soya straits. Average transit time of modeled particles in the Sea of Japan is drastically reduced when including Stokes drift in the model. [ABSTRACT FROM AUTHOR]

Published

2017

19. Microplastics and mesoplastics in fish from coastal and fresh waters of China.

Author

Jabeen, Khalida, Su, Lei, Li, Jiana, Yang, Dongqi, Tong, Chunfu, Mu, Jingli, and Shi, Huahong

Subjects

FRESH water, WATER pollution, MARINE fishes, CELLOPHANE, BOMBAY duck (Fish)

Abstract

Plastic pollution is a growing global concern. In the present study, we investigated plastic pollution in 21 species of sea fish and 6 species of freshwater fish from China. All of the species were found to ingest micro- or mesoplastics. The average abundance of microplastics varied from 1.1 to 7.2 items by individual and 0.2–17.2 items by gram. The average abundance of mesoplastics varied from 0.2 to 3.0 items by individual and 0.1–3.9 items by gram. Microplastics were abundant in 26 species, accounting for 55.9–92.3% of the total number of plastics items in each species. Thamnaconus septentrionalis contained the highest abundance of microplastics (7.2 items/individual). The average abundance of plastics in sea benthopelagic fishes was significantly higher than in freshwater benthopelagic fishes by items/individual. The plastics were dominanted by fiber in shape, transparent in color and cellophane in composition. The proportion of plastics in the stomach to the intestines showed great variation in different species, ranging from 0.5 to 1.9 by items/individual. The stomach of Harpodon nehereus and intestines of Pampus cinereus contained the highest number of plastics, (3.3) and (2.7), respectively, by items/individual. Our results suggested that plastic pollution was widespread in the investigated fish species and showed higher abundance in comparison with worldwide studies. The ingestion of plastics in fish was closely related to the habitat and gastrointestinal tract structure. We highly recommend that the entire gastrointestinal tract and digestion process be used in future investigations of plastic pollution in fish. [ABSTRACT FROM AUTHOR]

Published

2017

20. Plastic litter in sediments from the Croatian marine protected area of the natural park of Telaščica bay (Adriatic Sea).

Author

Blašković, Andrea, Fastelli, Paolo, Čižmek, Hrvoje, Guerranti, Cristiana, and Renzi, Monia

Subjects

MARINE debris, SEDIMENTS, MARINE parks & reserves, ACQUISITION of data

Abstract

This paper reports baseline levels of litter (macro, meso and microplastics) in sediments collected from different areas of the Croatian MPA of the Natural Park of Telaščica bay (Adriatic Sea, GSA n. 17). The distribution of total abundance according to size, for all analysed locations evidences that microplastics are the dominant fraction concerning item's numbers. In all analysed samples no macroplastics were found, while microplastics are 88.71% and mesoplastics are 11.29% of the total. [ABSTRACT FROM AUTHOR]

Published

2017

21. Microplastics in the Southern Ocean.

Author

Isobe, Atsuhiko, Uchiyama-Matsumoto, Kaori, Uchida, Keiichi, and Tokai, Tadashi

Subjects

PLASTIC marine debris, VERTICAL mixing (Earth sciences), OCEANOGRAPHY, WIND speed

Abstract

A field survey to collect microplastics with sizes < 5 mm was conducted in the Southern Ocean in 2016. We performed five net-tows and collected 44 pieces of plastic. Total particle counts of the entire water column, which is free of vertical mixing, were computed using the surface concentration (particle count per unit seawater volume) of microplastics, wind speed, and significant wave height during the observation period. Total particle counts at two stations near Antarctica were estimated to be in the order of 100,000 pieces km − 2 . [ABSTRACT FROM AUTHOR]

Published

2017

22. First assessment of debris pollution in the gastrointestinal content of juvenile Magellanic penguins (Spheniscus magellanicus) stranded on the west south Atlantic coasts.

Author

Recabarren-Villalón, Tatiana, Ronda, Ana C., La Sala, Luciano, Sanhueza, Cristina, Díaz, Lucrecia, Rodríguez Pirani, Lucas S., Picone, A. Lorena, Romano, Rosana M., Petracci, Pablo, and Arias, Andrés H.

Subjects

GASTROINTESTINAL contents, MARINE debris, PLASTIC marine debris, PENGUINS, POLLUTION, RAMAN spectroscopy, INFRARED spectroscopy, COASTS

Abstract

This paper provides the first evidence of debris pollution, including plastic, in juvenile Magellanic penguins (Spheniscus magellanicus) found stranded on the Atlantic coast of southern Buenos Aires Province, Argentina. Macro-, meso- and microparticles of anthropogenic origin were observed in 100 % of the studied birds, with debris abundance ranging between 33 and 200 items/bird. Microparticles represented 91 % of the total debris and 97 % of them were fibers. Black particles were the most abundant (30 %), followed by transparent (26 %), blue (14 %), yellow (10.3 %), and red (10 %). Infrared and Raman spectroscopy identified 62.7 % of the total particles as plastics, with polypropylene (27.8 %) and polyester (21.6 %) being the most abundant polymers. Semi-synthetic cellulosic fibers, metallic particles, and pigments were also found. The presence of metallic microparticles was suggested for the first time in penguins. Stranded juvenile Magellanic penguins are proposed as promising bioindicators of plastic pollution in the South Atlantic. [Display omitted] • Magellanic Penguins are vulnerable to marine debris. • Urban wastewater and fishing gear may be impacting the penguins foraging areas. • Polypropylene and polyester were the most ingested polymers. • Magellanic penguins are a promising tool to monitor temporal trends of marine debris. [ABSTRACT FROM AUTHOR]

Published

2023

23. Plastic litter in sediments from a marine area likely to become protected (Aeolian Archipelago's islands, Tyrrhenian sea).

Author

Fastelli, Paolo, Blašković, Andrea, Bernardi, Giulia, Romeo, Teresa, Čižmek, Hrvoje, Andaloro, Franco, Russo, Giovanni F., Guerranti, Cristiana, and Renzi, Monia

Subjects

PLASTIC marine debris, MARINE sediments, MARINE parks & reserves, HARBORS

Abstract

This research aims to define for the first time levels and patterns of different litter groups (macro, meso and microplastics) in sediments from a marine area designed for the institution of a new marine protected area (Aeolian Archipelago, Italy). Microplastics resulted the principal group and found in all samples analyzed, with shape and colours variable between different sampling sites. MPs levels measured in this study are similar to values recorded in harbour sites and lower than reported in Adriatic Sea, while macroplastics levels are notably lower than in harbor sites. Sediment grain-size and island extent resulted not significant in determining levels and distribution of plastic debris among islands. In the future, following the establishment of the MPA in the study area, these basic data will be useful to check for potential protective effects on the levels and distribution of plastic debris. [ABSTRACT FROM AUTHOR]

Published

2016

24. What can we learn from studying plastic debris in the Sea Scheldt estuary?

Author

Velimirovic, Milica, Teunkens, Bert, Ghorbanfekr, Hossein, Buelens, Bart, Hermans, Tom, Van Damme, Stefan, Tirez, Kristof, and Vanhaecke, Frank

Published

2022

25. East Asian seas: A hot spot of pelagic microplastics.

Author

Isobe, Atsuhiko, Uchida, Keiichi, Tokai, Tadashi, and Iwasaki, Shinsuke

Subjects

GEOLOGIC hot spots, PLASTIC marine debris, NEUSTON, OCEAN currents

Abstract

To investigate concentrations of pelagic micro- (< 5 mm in size) and mesoplastics (> 5 mm) in the East Asian seas around Japan, field surveys using two vessels were conducted concurrently in summer 2014. The total particle count (pieces km − 2 ) was computed based on observed concentrations (pieces m − 3 ) of small plastic fragments (both micro- and mesoplastics) collected using neuston nets. The total particle count of microplastics within the study area was 1,720,000 pieces km − 2 , 16 times greater than in the North Pacific and 27 times greater than in the world oceans. The proportion of mesoplastics increased upstream of the northeastward ocean currents, such that the small plastic fragments collected in the present surveys were considered to have originated in the Yellow Sea and East China Sea southwest of the study area. [ABSTRACT FROM AUTHOR]

Published

2015

26. Seasonal and spatial distribution of microplastics in sediments by FTIR imaging throughout a continuum lake - lagoon- beach from the Tunisian coast.

Author

Jaouani, Rihab, Mouneyrac, Catherine, Châtel, Amélie, Amiard, Frédéric, Dellali, Mohamed, Beyrem, Hamouda, Michelet, Alexandre, and Lagarde, Fabienne

Published

2022

27. Stranded pellets in Fildes Peninsula (King George Island, Antarctica): New evidence of Southern Ocean connectivity.

Author

Lozoya, J.P., Rodríguez, M., Azcune, G., Lacerot, G., Pérez-Parada, A., Lenzi, J., Rossi, F., and de Mello, F. Teixeira

Published

2022

28. Relationships among the abundances of plastic debris in different size classes on beaches in South Korea.

Author

Lee, Jongmyoung, Hong, Sunwook, Song, Young Kyung, Hong, Sang Hee, Jang, Yong Chang, Jang, Mi, Heo, Nak Won, Han, Gi Myung, Lee, Mi Jeong, Kang, Daeseok, and Shim, Won Joon

Subjects

PLASTIC scrap, BEACHES, PLASTICS as art material, BUOYS, OYSTER culture

Abstract

Highlights: [•] Correlations among micro-(1–5mm), meso-(5–25mm), and macro-(>25mm) plastic debris on beaches were tested. [•] The abundance of microplastics was strongly correlated with the abundance of mesoplastics, but not macroplastics. [•] Most of the microplastics were fragments of Styrofoam buoys from adjacent oyster culture facilities. [•] Mesoplastic surveys could be used to identify microplastic hot spots. [Copyright &y& Elsevier]

Published

2013

29. Occurrence and distribution of micro(meso)plastic-sorbed heavy metals and metalloids in sediments, Gulf of Guinea coast (SE Atlantic).

Author

Fred-Ahmadu, Omowunmi H., Ayejuyo, Olusegun O., Tenebe, Imokhai T., and Benson, Nsikak U.

Published

2022

30. The spatial and temporal changes of beach litter on Istanbul (Turkey) beaches as measured by the clean-coast index.

Author

Akarsu, Ceyhun, Sönmez, Vildan Zülal, Altay, Melek Cumbul, Pehlivan, Tayfun, and Sivri, Nüket

Subjects

MARINE debris, BEACHES, RESTORATION ecology, PLASTICS, HYGIENE, POLLUTANTS, TIME management

Abstract

Possible access routes of macro and mesoplastics, acting as the main sources of pollution in the coastal ecosystem, are examined as a case study on four beaches along the Istanbul coast. A total number of 3787 items belonging to 12 categories of debris types were collected as follows: macroplastics 47.8%; mesoplastics 9.2%; and others 43.0% such as paper pieces, glass pieces and metal beverage cans. Clean-coast and carbonyl indexes were also used to identify the level of cleanliness of the sampling sites. The clean-coast index revealed that all of the sample sites were categorized as extremely dirty. Moreover, carbonyl index results indicate that 35.7% of the samples were at a high oxidation level indicating that some of the particles relatively spend more time on beaches. The litter concentration and surface oxidation results were addressing issues that should be taken into consideration to improve litter management strategies of the beaches. [Display omitted] • Macro/mesoplastics are dominant pollutants in Istanbul coastal ecosystems. • The complex problem of pollutant by plastics needs coordinated solution and ecological restoration. • Clean-coast and carbonyl indexes were used for the first time for İstanbul coastal area. • Control of plastic materials may be possible with consistent recycling policies. [ABSTRACT FROM AUTHOR]

Published

2022

31. Missing relationship between meso- and microplastics in adjacent soils and sediments.

Author

Xu, Li, Han, Lihua, Li, Jing, Zhang, Hao, Jones, Kevin, and Xu, Elvis Genbo

Subjects

*MICROPLASTICS, *SEDIMENTS, *POLLUTANTS, *SOILS, *COMPOSITION of sediments

Abstract

Meso- and microplastics (MMPs) have attracted attention as globally dispersed environmental pollutants. However, little is known about the transfers of MMPs between aquatic and terrestrial systems. A large watershed-estuarine area of Bohai Sea was used as a case study, and soils and sediments were sampled adjacent to each other at a wide range of sites. MMPs were detected in all sediments (6.7–320 MMPs/kg) and soils (40–980 MMPs/kg), with the average abundance in soils double that in sediments on a dry mass basis. MMPs < 1 mm were most abundant and the dominant shape was film in both sediments and soils. Over twenty polymer types were detected and their compositions in sediments and soils were different. MMP abundance in sediments was lower in the upper catchment than the lower catchment, while the abundance of soil MMPs was the opposite. Despite the proximity of the sampling locations, no clear relationship was identified between the soil and sediment MMPs, suggesting low transfer between the two compartments and high heterogeneity of the sources. The missing associations between aquatic and terrestrial MMPs should be systematically examined in future studies, which is crucial for understanding the environmental fate and impacts of MMPs. [Display omitted] • Relationships between aquatic and terrestrial meso-microplastics (MMPs) are studied. • Average abundance of MMPs in soils doubles that in sediments on a dry mass basis. • Film MMPs <1 mm are the most abundant in both sediments and soils. • Sediment and soil MMPs show different distribution, polymer types, and colors. • No association is found between adjacent sediment and soil MMPs. [ABSTRACT FROM AUTHOR]

Published

2022

32. Riparian vegetation as a trap for plastic litter.

Author

Cesarini, Giulia and Scalici, Massimiliano

Subjects

RIPARIAN areas, PLASTICS, FOOD containers, AQUATIC habitats, PLASTICS plants, RIPARIAN plants

Abstract

Plastic pollution represents the most widespread threaten throughout the world and, amongst aquatic habitats, freshwaters and in particular riparian zones seems to be highly disturbed. Since the plastic storage and accumulation on the riparian vegetation have not yet been deeply investigated, here, we focussed on the riparian zone's function in trapping plastic litter. To do so, we assessed the occurrence and density of plastics in different vegetated (arboreal, shrubby, herbaceous, reed, bush) and unvegetated types in 8 central Italian rivers, running in different land use contexts. Our results showed that plastic pieces, bags, bottles and food containers were the most abundant specific categories on the vegetated types, demonstrating the riparian vegetation role in trapping plastic litter. Specifically, the highest plastic density was found on the shrubby type suggesting that a tree shape retains plastics more easily than all other vegetated and unvegetated types. Shape and size classification of plastics are not significantly different between vegetated and unvegetated types. These findings allow to collect important information on how the riparian vegetation can be exploited in management activities for removing plastic litters from both freshwater and sea, being the former considered the main plastic source for the latter. This study highlights a further ecosystem service as mechanical filter provided by the riparian zone, even if further studies ought to be performed to understand the role of vegetation as plastic trap and the possible detrimental effects of plastics on the plant health status. [Display omitted] • Plastics represent the most frequent litter recorded within riparian zones. • Riparian vegetation act as a suitable trap for plastic riverine litter. • Unrecognizable plastic pieces are thoroughly widespread on riparian vegetation. • Arboreal and shrubby types retain the largest plastic amount due to their tree shape. [ABSTRACT FROM AUTHOR]

Published

2022

33. The seasonal cycle of micro and meso-plastics in surface waters in a coastal environment (Ría de Vigo, NW Spain).

Author

Carretero, Olga, Gago, Jesús, Filgueiras, Ana Virginia, and Viñas, Lucía

Published

2022

34. Arenas Blancas (El Hierro island), a new hotspot of plastic debris in the Canary Islands (Spain).

Author

Hernández-Sánchez, Cintia, González-Sálamo, Javier, Díaz-Peña, Francisco J., Fraile-Nuez, Eugenio, and Hernández-Borges, Javier

Subjects

PLASTIC scrap, ATTENUATED total reflectance, FOURIER transform infrared spectroscopy, GEOLOGIC hot spots, ISLANDS, OCEAN currents, BEACHES

Abstract

The present work has studied the incidence and type of micro (1–5 mm), meso (5–25 mm) and macroplastics (>25 mm) that have reached Arenas Blancas beach, located in the north coast of El Hierro island, in the Canary Islands (Spain), from October 2019 to May 2020 (13 sampling dates with 3 sampling points each). Taking into consideration the three studied plastic debris fractions (macro, meso and microplastics), a total of 9206 items were found, which had a total weight of 1169.7 g and a concentration of 891.3 ± 91.5 items/m2 (118.3 ± 17.8 g/m2 and 2.3 ± 0.4 g/L). Regarding their colour, most of them were transparent/white/clear, especially in the microplastic fraction in which they accounted for a 68% of the total. Attenuated Total Reflectance Fourier Transform Infrared spectroscopy of meso and microplastic fractions indicated that most of the particles were either polypropylene and polyethylene followed by polystyrene in a much lower amount. In general, the total amount of plastic debris that arrives to the beach by the persistent oceanic current pattern linked to the easternmost branch of the North Atlantic Subtropical Gyre is comparable to those of the most contaminated beaches of the Canary Islands archipelago, suggesting that a new hotspot of plastic debris arrival has been found. • Micro, meso and macroplastic fractions were studied between October 2019 and May 2020. • 9206 items were found which had a total weight of 1169.7 g and a concentration of 891.3 ± 91.5 items/m2. • Most of them were transparent/white/clear, especially microplastics (68% of the total). • PP and PE were for the most abundant plastic composition. • Results suggest that a new hotspot of plastic debris arrival has been found. [ABSTRACT FROM AUTHOR]

Published

2021

35. Characterization of plastic debris from surface waters of the eastern Arabian Sea–Indian Ocean.

Author

Naidu, S.A., Mawii, L., Ranga Rao, V., Anitha, G., Mishra, P., Narayanaswamy, Bhavani E., Anil Kumar, V., Ramana Murthy, M.V., and GVM, Gupta

Subjects

PLASTIC scrap, PLASTIC marine debris, MARINE debris, INFRARED spectroscopy, PLASTIC analysis (Engineering), OCEAN, MICROPLASTICS, PLASTICS

Abstract

The quantity of floating plastic debris (FPD) is continuously being increased in the oceans. To assess their size, structure, and composition along the eastern Arabian Sea (EAS), FPD samples were collected by using a surface plankton net. The microplastic size fraction (0.5–5 mm) was the most prevalent accounting for >50% of the total, followed by mesoplastics (5–25 mm; ~40%) and macroplastics (>25 mm; ~10%). The collected FPDs were categorized into five different types and eight colours. Attenuated Total Reflectance-Fourier Transform Infrared Spectrometry (ATR-FTIR) analysis of the plastics revealed that polypropylene, polyethylene, and nylon were the most dominant polymers, and these comprised mostly of fibre/fishing line. The abundance of FPD in the EAS (0.013 ± 0.012 no.s/m3) was found to be very low compared to elsewhere. The prevalent microplastics presence in the oceans might have occurred mainly by the degradation of larger items. It increases bioavailability, and hence, is a risk to marine ecosystems. [Display omitted] • Basic data regarding the characterization of plastic debris along the EAS. • The microplastic size fraction (0.5-5mm) was the most prevalent accounting for >50% of the total, followed by mesoplastic and macroplastic. • The prevalent microplastic presence in the oceans might have occurred mainly via the degradation of larger items. • Polypropylene, polyethylene and nylon were the most dominant polymers. • Plastics comprised mostly of fibre/fishing line. • The plastic debris in the EAS (0.013 ± 0.012 no.s/m3) was found to be very low comparied to elsewhere. [ABSTRACT FROM AUTHOR]

Published

2021

36. Distribution of plastic debris pollution and it is implications on mangrove vegetation.

Author

Suyadi and Manullang, Corry Yanti

Subjects

PLASTIC scrap, MANGROVE forests, MARINE debris, MANGROVE plants, CLEANUP of marine debris, POLLUTION, WASTE management

Abstract

Plastic pollution in mangroves located in small islands was not well documented. This study found that mangrove ecosystem in small island was polluted by plastic debris (mainly film: 63% and fiber: 31%). Density of plastic debris in mangrove area was ranging from 10 ± 4 items m−2 to 230 ± 75 items m−2, mean density was 92 ± 28 items m−2. Landward was the most polluted zone mangrove (mean density: 155 ± 58 items m−2) or about 61% of plastic debris was distributed in this zone. This is corresponds to the sources of plastic waste was from land such as households and markets. Mean density of plastic debris was significantly correlated with mangrove health (r2 = 0.59, p = 0.00). This indicated that plastic debris negatively affected mangrove ecosystem directly and indirectly. Effective land-based plastic waste management and actions such as regular beach cleanup are essential to reduce plastic pollution and to ensure mangrove conservation. • Plastic pollution in mangrove ecosystem located in small island • Landward is the most polluted mangrove zone. • Sources of plastic pollution in mangrove ecosystem • Size (mesoplastic, macroplastic) and types (film, fiber) of plastics debris in mangroves • Implications of plastic pollution on mangrove health [ABSTRACT FROM AUTHOR]

Published

2020

37. Limited long-distance transport of plastic pollution by the Orange-Vaal River system, South Africa.

Author

Weideman, Eleanor A., Perold, Vonica, and Ryan, Peter G.

Abstract

Much of the plastic waste entering the sea is thought to be transported from land by rivers, yet little is known about the distances over which rivers transport plastic. To address this knowledge gap, we collected surface water samples from the Orange-Vaal River at the end of the wet and dry seasons. The Vaal River drains South Africa's main urban-industrial centre, whereas the upper Orange River is sparsely populated. Below their confluence, the river flows through increasingly arid regions with very low human populations before entering the Atlantic Ocean. We collected bulk water samples from 33 bridges to test for microplastic and microfibre (0.025–1 mm) pollution and conducted observations for macrodebris (>50 mm). Where possible, we sampled for plastic fragments (>1 mm) using a neuston net. Microfibres and microplastics were found at every site (1.7 ± 5.1 L−1, >99% fibres) and accounted for 99% of the number of items recorded. Microfibres and microplastics were particularly abundant in the lower reaches during the period of low flow prior to the wet season flush. Macrodebris and larger microplastics were orders of magnitude less abundant (observations: 0.0002 ± 0.0007 items·m−2; neuston net: 0.34 ± 0.93 items·m−2). However, at sites where larger items were found, they comprised most of the mass of plastic. Larger plastics were found mostly at sites in the upper reaches of the Vaal River. Our results suggest that, while the Orange-Vaal River system may be a source of microfibres to the Atlantic Ocean, larger plastic items typically only travel short distances. The Orange-Vaal River system therefore does not appear to be a major source of plastics into the Atlantic Ocean, at least under regular flow conditions. Unlabelled Image • Microfibres found at all sites and in 90% of replicates • Macroplastics and larger microplastics retained close to point sources • Mostly microfibres found at the Orange River mouth • Estimated annual export of 1.7 (1.1–3.1) t of microfibres to the Atlantic Ocean [ABSTRACT FROM AUTHOR]

Published

2020

38. Mesoplastics and large microplastics along a use gradient on the Uruguay Atlantic coast: Types, sources, fates, and chemical loads.

Author

Rodríguez, Carolina, Fossatti, Mónica, Carrizo, Daniel, Sánchez-García, Laura, Teixeira de Mello, Franco, Weinstein, Federico, and Lozoya, Juan Pablo

Abstract

Plastic pollution is a global problem with great local and regional variability. Plastic litter reaches beaches directly and indirectly through different pathways, due to both terrestrial and marine pressures. In this study, we assess and characterize meso and microplastic pollution on four Uruguayan oceanic beaches along a gradient of tourist use within a complex regional coastal marine system. In Punta del Diablo we found a total mean density of 106 items m−2 of different debris (pellets, fragments, and foams) with different polymeric compositions, and diverse persistent bioaccumulative and toxic chemicals (PAHs, PCBs, OCs, heavy metals). However, the trend of plastic debris densities along this gradient was not what was expected. Fabeiro , one of the sites furthest from the urban center, had the highest total mean density of plastics (292 items m−2) suggesting that marine influences (winds, currents, and beach orientation) have a preponderant role in the distribution of micro and mesoplastics. Meanwhile, the density in the urban site (Pueblo) was highest during summer (March, 201 items m−2), 200 times higher than the density observed in winter (July, 1 item m−2). Although this difference could be associated to the peak season (southern summer), the analysis of types of plastics (171 pellets m−2 vs. 8 cigarette butts m−2) suggested a predominance of marine inputs. Seasonal changes in the configuration of the beaches due to natural geomorphological dynamics imply alternating states (Source or Sink of debris) that also affect the final density of plastics in the system. The relative importance of both sources is highly variable throughout the year and understanding them may directly improve beach management and stranded coastal plastic litter cleaning. Unlabelled Image • Trend of plastic debris densities along the use gradient were not as expected. • Marine coastal currents are particularly important in the distribution of MPs. • Beach alternate states (Source/Sink) affect the balance of plastics in the beach system. • Could coastal dynamics be a key element for ecosystem-based adaptation (EbA) strategies for stranded plastic litter? [ABSTRACT FROM AUTHOR]

Published

2020

39. Baseline survey of micro and mesoplastics in the gastro-intestinal tract of commercial fish from Southeast coast of the Bay of Bengal.

Author

Karuppasamy, P.K., Ravi, Aditya, Vasudevan, Logeshwaran, Elangovan, Mahesh Prabu, Dyana Mary, P., Vincent, Salom G.T., and Palanisami, Thava

Subjects

PLASTIC marine debris, FISHERIES, REEF fishes, GASTROINTESTINAL system, INFRARED radiation, POTASSIUM hydroxide, CORAL reefs & islands

Abstract

Plastics pollution is ubiquitous. Microplastics (<5 mm in diameter) and mesoplastics (5–20 mm in diameter) are emerging as the most common plastic particulates found in the marine environment. In this study, the occurrence of microplastics and mesoplastics in the gastrointestinal tract (GI) of some commercially important fish collected from Chennai and Nagapattinam of Tamil Nadu, Southeast coast of Bay of Bengal was assessed. A new and improved alkaline digestion method, using alcoholic potassium hydroxide (KOH) was carried out to destroy the organic matter. Following this method, twenty plastic particulates were isolated from the GI tract of 17 individual fish. Fourier Transform Infrared Radiation analysis (FTIR) showed that polymers found in GI tracts were of Polyethylene, Polyamide and Polyester types. Given the dry fish is India's biggest market and popular delicacy, the presence of microplastics in the fish gut is a potential serious human health concern, as they are directly consumed. • New mode of alkaline digestion, using alcoholic KOH, carried for digestion of organic materials of fishes • Identified the presence of micro- and meso-plastics from GI tracts of pelagic, demersal and reef fishes • Polyethylene, polyamide and polyester characterization using FTIR [ABSTRACT FROM AUTHOR]

Published

2020

40. Seasonal variation of micro- and meso-plastics in the seawater of Jiaozhou Bay, the Yellow Sea.

Author

Liu, Tao, Zhao, Yongfang, Zhu, Mingliang, Liang, Junhua, Zheng, Shan, and Sun, Xiaoxia

Subjects

PLASTIC foams, SEAWATER, BAYS, WATER, SEAS, PLASTICS

Abstract

The seasonal change in the concentrations and characteristics of micro- and meso-plastics in the surface seawater of Jiaozhou Bay were studied. The concentrations of micro- and meso-plastics were 0.063, 0.174, 0.094, and 0.050 pieces/m3 in February, May, August and November, respectively, with an annual average concentration of 0.095 pieces/m3. The size of the micro- and meso-plastics ranged from 346 to 155,200 μm, with an average of 5093 ± 43 μm. The overall percentages of fibers, fragments and plastic foams were 29%, 55% and 16%, respectively. The dominant chemical composition was polypropylene (PP), accounting for 51.04% of polymers, followed by polyethylene (PE), accounting for 26.04% of polymers. Strong rainfall resulted in an increase in the plastic concentration in May, and winds and eddies affected the spatial distribution of plastics in Jiaozhou Bay. • The first report on seasonal variation in plastics in seawater in Jiaozhou Bay • The concentration of plastics in the surface water of Jiaozhou Bay is low • The seasonal variation in plastic characteristics in Jiaozhou Bay is significant. • Rainfall, wind and eddies are the main factors affecting plastics in Jiaozhou Bay. [ABSTRACT FROM AUTHOR]

Published

2020

41. Monitoring of meso and microplastic debris in Playa Grande beach (Tenerife, Canary Islands, Spain) during a moon cycle.

Author

González-Hernández, María, Hernández-Sánchez, Cintia, González-Sálamo, Javier, López-Darias, Jessica, and Hernández-Borges, Javier

Subjects

PLASTIC marine debris, PLASTIC scrap, CANARIES, ISLANDS, LUNAR phases

Abstract

The occurrence and composition of meso (5–25 mm) and microplastics (1–5 mm) in Playa Grande beach (Tenerife, Canary Islands, Spain) was monitored during a complete moon cycle on the different moon phases between 17th June and 16thJuly 2019. A total of 10 points were sampled each day finding an average content of mesoplastics of 18 g/m2 (0.36 g/L) and of microplastics of 13 g/m2 (1277 items/m2 or 1.6 g/L). Polypropylene and polyethylene accounted for 19% and 76% of the total, respectively. Tar was also found in the 1–5 mm fraction (2% of the total). Among the particles found, 83% were fragments, 11% pellets, 4% fibres and 2% films. The obtained results revealed that microplastic presence could not be related in this case with the tides but with the orientation and strength/speed of the wind. Unlabelled Image • Meso and microplastics were monitored during a moon cycle. • Average content of mesoplastics of 18 g/m2 and of microplastics of 13 g/m2 were found. • Polyethylene and polypropylene were the most abundant microplastics. • Fragments and pellets were the predominating microplastic types. • Plastic debris could not be related with the tides but with wind orientation and strength. [ABSTRACT FROM AUTHOR]

Published

2020

42. Spatial distribution of meso and microplastics in the sediments of river Ganga at eastern India.

Author

Sarkar, Dhruba Jyoti, Das Sarkar, Soma, Das, Basanta Kumar, Manna, Ranjan Kumar, Behera, Bijay Kumar, and Samanta, Srikanta

Abstract

Small plastic debris is one of the most significant emerging pollutants, due to their extreme durability and synthetic nature, possessing a tremendous threat to the aquatic environment. In the present study, sediments of river Ganga at a lower stretch were analyzed for distribution of meso and microplastics at seven different locations viz. Buxar, Patna, Bhagalpur, Nabadwip, Barrackpore, Godakhali and Fraserganj. All the sediments were found to contain mesoplastics (>5 mm) and microplastics (<5 mm) particles with varying degree of the mass fraction (11.48 to 63.79 ng/g sediments), numerical abundance (99.27–409.86 items/kg) and morphotypes. Analysis of the mesoplastics with FT-IR revealed polyethylene terepthalate (39%) as the major contributing plastic debris in the sediments followed by polyethylene (30%). Statistical analysis revealed a strong correlation between microplastics abundance and the pollution traits, BOD and available phosphate, of water and sediment, respectively. This study exhibits the spatial distribution of meso and microplastics in the highly populated locations along the river Ganga emphasizing the attention to be given to this emerging pollutant in the inland river system underlining their role as a transporter of plastic fragments finally to the ocean. Unlabelled Image • Meso and microplastics distribution in Ganga River sediments was estimated. • Polyethylene terephthalate and polyethylene were found to be dominant plastic debris. • Film and fiber plastic debris were dominant types in the sediments of Ganga River. • A strong correlation exists between microplastics abundance and pollution traits. [ABSTRACT FROM AUTHOR]

Published

2019

43. Leaching of endocrine disrupting chemicals from marine microplastics and mesoplastics under common life stress conditions.

Author

Chen, Qiqing, Allgeier, Annika, Yin, Daqiang, and Hollert, Henner

Subjects

*ENDOCRINE disruptors, *PLASTIC marine debris, *LEACHING, *BISPHENOL A, *PLASTIC products manufacturing, *PSYCHOLOGICAL stress

Abstract

Microplastics (MPs) and mesoplastics are able to sorb harmful substances and often contain additives, e.g., endocrine disrupting chemicals (EDCs), that can cause adverse effects to organisms. The present study aims to determine EDC concentrations and their endocrine activities in leachates of field-collected marine MPs and mesoplastics under stress conditions that are known to occur during the plastic life cycle. Estrogens were the dominant EDCs on plastic particles and were either concentrated from the surrounding water or originated from plastic manufacturing. Bisphenol A had the highest detection frequency (75%) with an average concentration of 475 ± 882 μg/kg, followed by bisphenol S, octylphenol and nonylphenol. Moreover, smaller marine MPs leached greater quantities of EDCs because the sorption from surrounding seawater is more efficient for smaller particles. It was found that normal life stresses such as microwaving (MW) and autoclaving (AC) can decrease EDC concentrations, but solar irradiation (solar) can increase EDC concentrations in leachates. Even though organisms with higher metabolic ability exhibited greater estrogenic effects, the comprehensive toxicity of plastic leachates after common life treatments was still limited (below the EC 10 value) if 0.1% is taken as the EDC uptake from plastic. In future studies, the accurate contribution of plastic bound EDCs needs to be further explored, and the monitoring of MPs and mesoplastics in the human diet remains important because the concentrations of these plastics may change in the future. Unlabelled Image • Estrogens are dominant EDCs on marine micro- and mesoplastics. • Smaller microplastics released more EDCs and had higher detection frequencies. • Microwaving and autoclaving decreased but solar irradiation increased EDCs. • Micro-/mesoplastic-containing seafood cooking led to negligible estrogenic effects. [ABSTRACT FROM AUTHOR]

Published

2019