Transcriptomic analysis reveals interactive effects of polyvinyl chloride microplastics and cadmium on Mytilus galloprovincialis: Insights into non-coding RNA responses and environmental implications
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Toxicogenomics
Plastic pollution includes microplastics. The environmental ubiquity of microplastics (< 5 mm) is evident and the leak of microplastics into the environment is projected to increase globally. Microplastics in the environment possess high heterogeneity in polymer composition, particle size, shapes, and surface chemistry, which sometimes result in contradictory toxicological findings. However, much less attention is paid to the color of microplastics, particularly black plastics that are the least recycled and account for a significant proportion of total plastic waste and environmental microplastics. In the present perspective article, based on 50 field-based research articles on microplastics published from 2014 to 2022 and our own research experience, we raised specific environmental concerns about black microplastics and emphasized the challenges posed by black microplastics in multiple aspects. Future prospects were also discussed for better mitigating black microplastics in the context of plastic pollution.
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Microplastics had been previously excluded from the data on global plastic pollution. Reports of findings from recent years have placed microplastics higher up the priority list. Microplastics have made their way into groundwater, soil, and the oceans. They have also been found to be present in the air samples. Thanks to studies from several research groups we can now identify the main sources of microplastics and their pathway to the world's ocean. While previous reports suggest that plastics released from synthetic textiles containing polyester were the leading source of microplastics, even more, recent studies that focused on microplastics released from paints and coating suggest that paints contribute more to the microplastics in the environment than even textiles. Parameters that affect the rate of microplastic release include washing methods, construction styles in case of release from painted buildings and structures, age of products like tires, climate, and weather conditions. These parameters vary across different regions and so does the impact of microplastic pollution and how it is addressed. Therefore, in this chapter, we will explore the issue of microplastics with a focus on the African region. It discusses microplastics in general as a global issue and a closer look at factors within the African continent that may influence the generation of microplastics from different sources in the region. In the process, the environmental and health implications of microplastics are explored as well as other issues.
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Abstract Marine microplastic pollution has become one of the global problems due to the adverse effects of microplastics on marine organisms. This study investigated the uptake of (Polystyrene, PS) microplastics by marine rotifers ( Brachionus plicatilis ) under different microplastic concentration, exposure time and type of containers. The results showed that the ingestion of microplastics by rotifers was positively correlated with microplastic concentration. The intake reached maximum (65±5 particles/individuals, 5 mg/L; 28±11 particles/individuals, 3 mg/L) at 24 h, and then decreased over time. Moreover, the intake of microplastics in the plastic well plates was much lower than that in the glass vial. This study demonstrated that the intake of microplastics by rotifers varied with microplastics concentration and exposure time. More importantly, microplastics-related experiments using plastic containers could influence the uptake results. This work provides useful information on the interaction of microplastics with marine organisms.
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Microplastics are environmental pollutants that prevail in the oceans, remote islands, and polar regions.Exposure to microplastics presents a major emerging threat to the ecosystems due to their potential adverse effects.Herein, we reviewed the literature to provide an up-to-date synopsis of the current understanding of the sources, compositions, and adverse effects of microplastics in humans and the environment.Most studies on microplastics have focused on developing standardized methods for monitoring the occurrence, distribution, and movement of microplastics in the environment, as well as developing microplastic substitutes; however, although humans are exposed to microplastics via various routes, research on the adverse effects of microplastics in humans remains limited.Little is known about the impact of microplastics on human health and the toxic effects that may vary depending on the type, size, shape, and concentration of microplastics.Therefore, more research is needed to understand the cellular and molecular mechanisms of microplastic toxicity and related pathologies.
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Since the production of in the early 1900s to present, there have been ongoing reports on the problems of plastic and microplastic waste contaminated in the environment. Moreover, within the last 10-15 years, the number of reports on microplastics contamination and impact on living organisms have increased in almost every country around the world. This article is a review, report and analysis of the literature on microplastics and with the objectives focusing on 1) Origins and routs of microplastics contamination 2) Potential impact of microplastics on organisms 3) Microplastics in organisms, foods and beverages 4) The situation of micro-plastics in Thailand 5) The process of dealing with microplastics in the environment
Keywords: plastics, microplastics, microbead
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