Your search keyword '"Microplastics"' showing total 4,291 results

1. Response of soil biochemical properties and ecosystem function to microplastics pollution.

Author

Cheng, Yanan, Wang, Fei, Huang, Wenwen, and Liu, Yongzhuo

Abstract

Microplastics (MPs)-induced changes in soil nutrient cycling and microbial activity may pose a potential risk to soil ecosystem. Although some studies have explored these topics, there is still a large space for exploration and a relative lack of research on the mechanism by which soil health and its functions are affected by these changes. Thus, this study investigated the effects of polyethylene (PE) MPs with two particle sizes (13 μm and 130 μm) at five concentrations (0%, 1%, 3%, 6% and 10%, w/w) on soil biochemical properties and ecosystem function. The findings revealed that the exposure to 13 μm MPs significantly reduced soil respiration (Res) rate, β-glucosidase (Glu) and catalase (CAT) activity, which accompanied with enhanced urease activity and decreased soil pH, available phosphorus (AP), dissolved reactive phosphorus (DRP), dissolved organic carbon (DOC) and available potassium (AK) content in most cases. However, 130 μm MPs exerted negligible influence on the DOC and DRP content, Glu and CAT activity. High concentrations of 130 μm MPs significantly reduced soil pH, total dissolved nitrogen (TDN), AP and AK content, but significantly increased soil Res rate. Overall, soil ecosystem function was significantly reduced by the addition of MPs. The Res rate, soil AP and DRP content and Glu activity were the most important predictors of soil ecosystem function. We found that the risk posed by MPs to soil ecosystem function was dose-dependent and size-dependent. These findings underscore that MPs can alter soil functions related to soil nutrient cycling and provide further insights into MPs behavior in agroecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Hidden Health Crisis: Microplastics and Their Medical Consequences.

Author

Roman, Jakub, Gondko, Daniel, Dębiec, Patrycja, and Pietrzak, Nikodem

Subjects

MICROPLASTICS, POLLUTANTS, PLASTIC scrap, POISONS, SKIN absorption

Abstract

Introduction and Purpose: Microplastics, ubiquitous environmental contaminants, are increasingly recognized for their potential to impact human health. This review aims to consolidate existing knowledge on the pathways through which microplastics interact with biological systems and to elucidate their health implications. State of Knowledge: Microplastics are pervasive in various environments, from aquatic to terrestrial ecosystems, and they eventually enter the human body via ingestion, inhalation, or dermal absorption. Studies have suggested that microplastics carry toxic substances, such as heavy metals and organic pollutants, which are known endocrine disruptors and carcinogens. Additionally, the physical presence of microplastics has been linked to inflammation and other negative health outcomes. Research in this field is complex and interdisciplinary, involving toxicology, environmental science, and public health disciplines. Summary: The presence of microplastics in the human body is concerning, and there is a clear need for further research to understand the extent of health risks associated with chronic exposure. Public health strategies should include both reducing microplastic pollution and strengthening regulations on plastic waste. Meanwhile, medical professionals should consider the potential for microplastic exposure when diagnosing and treating chronic conditions. Future research should aim to clarify the mechanisms of toxicity and establish safe levels of exposure, with a multidisciplinary approach being essential for comprehensive understanding and effective intervention. [ABSTRACT FROM AUTHOR]

Published

2024

3. Concerning influences of micro/nano plastics on female reproductive health: focusing on cellular and molecular pathways from animal models to human studies.

Author

Balali, Hasti, Morabbi, Ali, and Karimian, Mohammad

Subjects

GENITALIA, OVARIAN follicle, EMERGING contaminants, POLLUTANTS, GRANULOSA cells, FETAL growth disorders

Abstract

The female reproductive system can face serious disorders and show reproductive abnormalities under the influence of environmental pollutants. Microplastics (MPs) and nanoplastics (NPs) as emerging pollutants, by affecting different components of this system, may make female fertility a serious challenge. Animal studies have demonstrated that exposure to these substances weakens the function of ovaries and causes a decrease in ovarian reserve capacity. Also, continuous exposure to micro/nano plastics (MNPs) leads to increased levels of reactive oxygen species, induction of oxidative stress, inflammatory responses, apoptosis of granulosa cells, and reduction of the number of ovarian follicles. Furthermore, by interfering with the hypothalamic-pituitary-ovarian axis, these particles disturb the normal levels of ovarian androgens and endocrine balance and delay the growth of gonads. Exposure to MNPs can accelerate carcinogenesis in the female reproductive system in humans and animal models. Animal studies have determined that these particles can accumulate in the placenta, causing metabolic changes, disrupting the development of the fetus, and endangering the health of future generations. In humans, the presence of micro/nanoplastics in placenta tissue, infant feces, and breast milk has been reported. These particles can directly affect the health of the mother and fetus, increasing the risk of premature birth and other pregnancy complications. This review aims to outline the hazardous effects of micro/nano plastics on female reproductive health and fetal growth and discuss the results of animal experiments and human research focusing on cellular and molecular pathways. [ABSTRACT FROM AUTHOR]

Published

2024

4. From the highway to receiving water bodies: identification and simultaneous quantification of small microplastics (< 100 µm) in highway stormwater runoff.

Author

Rosso, Beatrice, Vezzaro, Luca, Bravo, Barbara, Sambo, Francesca, Biondi, Stefano, Barbante, Carlo, Gambaro, Andrea, and Corami, Fabiana

Subjects

BODIES of water, HIGH density polyethylene, RUNOFF, ENVIRONMENTAL quality, MICROPLASTICS, PLASTIC marine debris

Abstract

Highway stormwater (HSW) runoff is among the environment's most important sources of microplastics. This study aimed to characterize via vibrational spectroscopy and quantify SMPs (small microplastics < 100 µm) in HSW runoff from a trafficked highway entering a facility equipped with a filtration system and in those flowing out to the receiving water body near agricultural activities. Samples of the inlet runoff (from the highway) and outlet runoff (the discharge into the environment) were collected in different periods to investigate potential seasonal and spatial differences. The sampling, methodology, and analysis were thoroughly carried out to quantify and simultaneously identify SMPs via Micro-FTIR to obtain a specific novel dataset to assess the environmental quality of highway pollution. A significant difference between inlet and outlet samples was reported; the highest abundance in inlet samples was 39813 ± 277 SMPs L.1 (SW10 IN; average length of 77 µm), while the highest one in outlet samples was 15173 ± 171 SMPs L−1 (SW10 OUT; SMPs' average length of 63 µm). Polyamide 6 (PA 6) and High-Density Polyethylene (HDPE) were predominant. Our results show that these HSW treatment plants, designed for managing regulated pollutants, can intercept SMPs, improving the quality of HSW runoff discharged into the environment. [ABSTRACT FROM AUTHOR]

Published

2024

5. From microplastics to pixels: testing the robustness of two machine learning approaches for automated, Nile red-based marine microplastic identification.

Author

Meyers, Nelle, De Witte, Bavo, Schmidt, Natascha, Herzke, Dorte, Fuda, Jean-Luc, Vanavermaete, David, Janssen, Colin R., and Everaert, Gert

Subjects

MARINE pollution monitoring, PLASTIC marine debris, MACHINE learning, TIME complexity, STAINS & staining (Microscopy), POLYETHYLENE terephthalate, BIODEGRADABLE plastics

Abstract

Despite the urgent need for accurate and robust observations of microplastics in the marine environment to assess current and future environmental risks, existing procedures remain labour-intensive, especially for smaller-sized microplastics. In addition to this, microplastic analysis faces challenges due to environmental weathering, impacting the reliability of research relying on pristine plastics. This study addresses these knowledge gaps by testing the robustness of two automated analysis techniques which combine machine learning algorithms with fluorescent colouration of Nile red (NR)-stained particles. Heterogeneously shaped uncoloured microplastics of various polymers—polyethylene (PE), polyethylene terephthalate (PET), polypropylene (PP), polystyrene (PS), and polyvinyl chloride (PVC)—ranging from 100 to 1000 µm in size and weathered under semi-controlled surface and deep-sea conditions, were stained with NR and imaged using fluorescence stereomicroscopy. This study assessed and compared the accuracy of decision tree (DT) and random forest (RF) models in detecting and identifying these weathered plastics. Additionally, their analysis time and model complexity were evaluated, as well as the lower size limit (2–4 µm) and the interoperability of the approach. Decision tree and RF models were comparably accurate in detecting and identifying pristine plastic polymers (both > 90%). For the detection of weathered microplastics, both yielded sufficiently high accuracies (> 77%), although only RF models were reliable for polymer identification (> 70%), except for PET particles. The RF models showed an accuracy > 90% for particle predictions based on 12–30 pixels, which translated to microplastics sized < 10 µm. Although the RF classifier did not produce consistent results across different labs, the inherent flexibility of the method allows for its swift adaptation and optimisation, ensuring the possibility to fine-tune the method to specific research goals through customised datasets, thereby strengthening its robustness. The developed method is particularly relevant due to its ability to accurately analyse microplastics weathered under various marine conditions, as well as ecotoxicologically relevant microplastic sizes, making it highly applicable to real-world environmental samples. [ABSTRACT FROM AUTHOR]

Published

2024

6. COVID-19 pandemic microplastics environmental impacts predicted by deep random forest (DRF) predictive model.

Author

Chen, Liping, Sabonchi, Arkan K. S., and Nanehkaran, Yaser A.

Subjects

COVID-19 pandemic, RANDOM forest algorithms, DECISION trees, SUPPORT vector machines, STATISTICAL errors

Abstract

Background: Microplastic pollution is a pressing issue with far-reaching environmental and public health consequences. This study delves into the intricacies of predicting microplastic pollution during the COVID-19 pandemic in Tehran, Iran. Methods: The research introduces a rigorous comparative analysis that evaluates the predictive prowess of the Deep Random Forest algorithm and established benchmarks, such as Random Forest, Decision Trees, Gradient Boosting, AdaBoost, and Support Vector Machine. The evaluation process encompasses a meticulous 70–30 training–testing split of the main data set. Performance is assessed by analysis metrics, including ROC and statistical errors. The primary data set encompasses distinct categories, including household wastes, hospital wastes, clinics wastes, and unknown-originated susceptible waste which is categorized in Infected items, PPEs, SUPs, Test kits, Medical packages, Unknown-originated pandemic mircoplastic waste. Deliberately, this data set was partitioned into training and testing subsets, ensuring the robustness and reliability of subsequent analyses. Approximately 70% of the main database was allocated to the training data set, with the remaining 30% constituting the testing data set. Results: The findings underscore the proposed algorithm's supremacy, boasting an impressive AUC = 0.941. This exceptional score reflects the model's precision in categorizing microplastics. These results have profound implications for environmental management and public health during pandemics. Conclusions: The study positions the proposed model as a potent tool for microplastic pollution prediction, encouraging further research to refine predictive models and tap into new data sources for a more comprehensive understanding of microplastic dynamics in urban settings. [ABSTRACT FROM AUTHOR]

Published

2024

7. Eco‐Friendly Solutions to Emerging Contaminants: Unveiling the Potential of Bioremediation in Tackling Microplastic Pollution in Water.

Author

Ihsanullah, Ihsanullah, Khan, Muhammad Tariq, Hossain, Md Faysal, Bilal, Muhammad, and Ali Shah, Izaz

Abstract

Microplastics (MPs) are a class of emerging contaminants that have gained significant attention in recent years. The presence of MPs in the aquatic environment is reported to have serious potential environmental and health impacts. Therefore, it is essential to develop efficient and sustainable strategies for the remediation of MPs from the aqueous environment. Traditional techniques for the remediation of MPs from an aqueous environment have limitations, including high costs and the production of secondary pollutants. In this scenario, bioremediation offers several advantages and has emerged as a cost‐effective, eco‐friendly, and efficient strategy for the removal of MPs from water. This article critically reviews the recent progress in the applications of bioremediation for the removal of different MPs from water. The effects of key factors such as the characteristics of MPs, environmental conditions, and types of microorganisms on the removal of MPs are elaborated in detail. The underlying mechanisms involved in the removal of MPs by microorganisms are also discussed comprehensively. Major technological challenges are identified, and recommendations for future research are provided. Despite several challenges, bioremediation is a promising approach that can revolutionize the MP removal process if the major challenges are addressed. [ABSTRACT FROM AUTHOR]

Published

2024

8. Microplastic pollution in coastal surface seawater of Southern Vietnam.

Author

Nhon, Nguyen Thi Thanh, Nguyen, Nguyen Thao, Hai, Ho Truong Nam, Minh, Tran Hoang, and Hien, To Thi

Abstract

Microplastics have recently emerged as a significant environmental concern due to their direct impacts on marine ecosystems. Vietnam, with its 3260-km coastline, faces an elevated risk of microplastic pollution due to various coastal anthropogenic activities. This study explored microplastic distribution in coastal surface seawater in the Southern Vietnam regions of Tien Giang, Can Gio, and Vung Tau. A total of 45 samples were collected in April, 2019, and the results showed that microplastics present at all sampling sites, with the abundance varying from 0.074 ± 0.109 pieces/m3 in Can Gio to 0.56 ± 0.35 pieces/m3 in Tien Giang. Estuarial sites showed higher abundances for all regions. Most microplastics were under 2.8 mm, fragmented, and primarily white or transparent. Polypropylene, polyethylene, and ethylene–vinyl acetate were the dominant polymers. This research indicates the urgency of further investigations to comprehensively understand the influence of wind patterns and other environmental factors on microplastic distribution. [ABSTRACT FROM AUTHOR]

Published

2024

9. Microplastic contamination in three environmental compartments of a coastal lagoon in the southern Gulf of Mexico.

Author

Sánchez-Campos, Mitzi, Ponce-Vélez, Guadalupe, Sanvicente-Añorve, Laura, and Alatorre-Mendieta, Miguel

Abstract

The Sontecomapan lagoon (Mexico) is a Ramsar site within the Los Tuxtlas Biosphere Reserve, facing the Gulf of Mexico. Although the site has a protected area status, it is vulnerable to microplastic contamination, whose long-term effects are uncertain. This study gives the first approach to the degree of contamination by microplastics in surface waters, zooplankton, and sediments in the lagoon. The samples in these three environmental compartments were collected in June 2018 and analyzed in the laboratory to extract and quantify the microplastics. The microplastics sampled were classified into fibers, fragments, and foams and identified as polyester, acrylic, and rayon, among others. In the surface waters, the mean concentration of microplastics was 7.5 ± 5.3 items/L, which is higher than the values registered in other protected coastal systems, perhaps because of differences in the methods used. Zooplankton, represented by copepods, luciferids, and chaetognaths, showed concentrations of 0.002 ± 0.005, 0.011 ± 0.011, and 0.019 ± 0.016 items/individual, respectively. These values were low compared to systems with high anthropic influence, and the differences between the three kinds of organisms were attributed to their feeding habits. In the sediments, the mean concentration was 8.5 ± 12.5 items/kg, lower than the values registered in sites of high human impact; the maximum value here found (43 items/kg) was recorded in the internal part of a lagoon arm of almost stagnant water. In general, the degree of contamination by microplastics in the lagoon was low; however, their presence indicates a potential risk to the biota. [ABSTRACT FROM AUTHOR]

Published

2024

10. Elimination of microplastic from soil by pyrolysis and potential hazard analysis: Effects of pyrolysis temperature and holding time.

Author

Qiu, Kaiying, Zhang, Lingling, Xie, Shibing, Zheng, Mengwei, Wang, Zhenyu, and Wang, Zefeng

Subjects

CARBON dioxide in water, POLYCYCLIC aromatic hydrocarbons, POLLUTION management, MICROPLASTICS, SOIL structure, PLASTIC marine debris

Abstract

Efficient and harmless treatment of microplastics in soil is the current focus of microplastic pollution management. In this study, the pyrolysis effect of soil microplastics at different temperatures and holding times was analyzed. The results showed that temperature and holding time significantly affected the morphology and compositional structure of soil. Pure microplastics and product adhesion after pyrolysis at low temperature (400°C) were not easy to remove. Interestingly, compared with pure polyethylene (PE), direct pyrolysis of microplastics in soil could obtain better results, and the content of organic matter and polycyclic aromatic hydrocarbons (PAH) could be significantly reduced. However, the pyrolysis performance was very unsatisfactory even if the action time was prolonged at 400°C. Prolonged high‐temperature treatment accelerated the fragmentation of the alkane main chain of PE, thus generating more PAH, and the temperature was not high enough (400°C) for further effective degradation of PAH into carbon dioxide and water. Therefore, higher temperature and longer holding time need to be selected to ensure the pyrolysis performance. This study revealed the role and mechanism of pyrolysis in soil microplastic mixed systems, aiming to provide a basis for the treatment of microplastics in terrestrial ecosystems. Core Ideas: Mixing soil and microplastics can achieve better thermal degradation effects.At 400°C pyrolysis, more polycyclic aromatic hydrocarbons were produced.Pyrolysis at 600°C reduced polycyclic aromatic hydrocarbons. [ABSTRACT FROM AUTHOR]

Published

2024

11. Molecular and Cellular Effects of Microplastics and Nanoplastics: Focus on Inflammation and Senescence.

Author

Mahmud, Faiza, Sarker, Drishty B., Jocelyn, Jonathan A., and Sang, Qing-Xiang Amy

Subjects

DNA repair, POLLUTANTS, CELLULAR aging, REACTIVE oxygen species, GERM cells

Abstract

Microplastics and nanoplastics (MNPs) are ubiquitous environmental contaminants. Their prevalence, persistence, and increasing industrial production have led to questions about their long-term impact on human and animal health. This narrative review describes the effects of MNPs on oxidative stress, inflammation, and aging. Exposure to MNPs leads to increased production of reactive oxygen species (ROS) across multiple experimental models, including cell lines, organoids, and animal systems. ROS can cause damage to cellular macromolecules such as DNA, proteins, and lipids. Direct interaction between MNPs and immune cells or an indirect result of oxidative stress-mediated cellular damage may lead to increased production of pro-inflammatory cytokines throughout different MNP-exposure conditions. This inflammatory response is a common feature in the pathogenesis of neurodegenerative, cardiovascular, and other age-related diseases. MNPs also act as cell senescence inducers by promoting mitochondrial dysfunction, impairing autophagy, and activating DNA damage responses, exacerbating cellular aging altogether. Increased senescence of reproductive cells and transfer of MNPs/induced damages from parents to offspring in animals further corroborates the transgenerational health risks of the tiny particles. This review aims to provoke a deeper investigation into the notorious effects these pervasive particles may have on human well-being and longevity. [ABSTRACT FROM AUTHOR]

Published

2024

12. Microplastics in Urban Soils From Different Land Use Activities of Cyberjaya (Malaysia): Exploring Occurrence, Relationships, Sources and Pollution Level.

Author

Praveena, Sarva Mangala, Zaidi, Nik Munirah Nik Mohd, Nafisyah, Ayu Lana, and Lingaraju, H. G.

Abstract

As human activities continue to increase, the production and utilisation of plastics have become pervasive, leading to a surplus of plastic waste in the environment. This has turned the terrestrial ecosystem, encompassing soil, into a significant receptacle for the growing accumulation and discharge of plastic waste. Thus, the objective of this study is to investigate the occurrence, relationships, sources and pollution levels of microplastics in urban soils from different land use activities in Cyberjaya, Malaysia. Surface soil samples were collected from land uses (i.e., vacant areas, residential areas, commercial areas, construction areas and roadways). These surface soil samples were analysed for microplastic occurrence using density separation, microscopy and spectroscopy methods. The microplastics particles were analysed for size, colour and shape. Selected microplastics particles were also analysed for its plastics polymers using Fourier‐Transform Infrared Spectroscopy. Microplastics occurrence ranged from 0.3 to 1.5 particle/kg, with the highest average occurrence in the construction area (0.69 particle/kg) and lowest in the vacant area (0.33 particle/kg). Microplastics particle size was shortest in commercial areas (586.08 μm) and longest in vacant areas (793.78 μm). There were no similarities between microplastics occurrence and particle size across these different land use activities, suggesting that the microplastics occurrence in urban soils depends on external disturbances during each land use activity. Significant correlation between microplastic particle size and temperature (r2 = 0.517) showed that each land use activity is influenced by external disturbances. The Igeo values showed that the microplastics pollution level in urban soils is classified as uncontaminated to moderately contaminated. Microplastic particles in urban soils were found in various shapes (i.e., fragments, films and fibres) and colours (i.e., transparent, grey, blue, red, green, purple, black, white and yellow) along with plastic polymer types (i.e., ABS, PET, PP, PE and PS) due to traffic volume, tyre wear, mismanaged plastic waste and degradation rate. This study highlights the need for pollution management and waste disposal to avoid urban environmental problems and adverse health effects. [ABSTRACT FROM AUTHOR]

Published

2024

13. Biobased Compostable Plastics End-of-Life: Environmental Assessment Including Carbon Footprint and Microplastic Impacts.

Author

Keyes, Anthony, Saffron, Christopher M., Manjure, Shilpa, and Narayan, Ramani

Subjects

GREENHOUSE gases, CARBON sequestration, ECOLOGICAL impact, PRODUCT life cycle assessment, MATHEMATICAL ability

Abstract

In this paper, we examine how traditional life-cycle assessment (LCA) for bio-based and compostable plastics overlooks issues surrounding carbon sequestration and microplastic persistence. To outline biased comparisons drawn from these omitted environmental impacts, we provide, as an example, a comparative LCA for compostable biobased vs. non-compostable fossil-based materials. In doing so we (1) demonstrate the proper way to capture carbon footprints to make fair comparisons and (2) identify the overlooked issues of microplastics and the need for non-persistent alternatives. By ensuring accurate biogenic carbon capture, key contributors to CO2 evolution are properly identified, allowing well-informed changes to formulations that can reduce the environmental impact of greenhouse gas emissions. In a complimentary manner, we summarize the growing research surrounding microplastic persistence and toxicity. We highlight the fundamental ability and the growing number of studies that show that industrial composting can completely mineralize certified compostable materials. This mineralization exists as a viable solution to combat microplastic persistence, currently an absent impact category in LCA. In summary, we propose a new paradigm in which the value proposition of biobased materials can be accurately captured while highlighting compostables as a solution for the increasing microplastic accumulation in the environment. [ABSTRACT FROM AUTHOR]

Published

2024

14. Microplastics in the Human Body: Exposure, Detection, and Risk of Carcinogenesis: A State-of-the-Art Review.

Author

Dzierżyński, Eliasz, Gawlik, Piotr J., Puźniak, Damian, Flieger, Wojciech, Jóźwik, Katarzyna, Teresiński, Grzegorz, Forma, Alicja, Wdowiak, Paulina, Baj, Jacek, and Flieger, Jolanta

Subjects

RISK assessment, EARLY detection of cancer, CELLULAR signal transduction, POLLUTION, ENVIRONMENTAL exposure, MICROPLASTICS, CARCINOGENESIS, INFLAMMATION

Abstract

Simple Summary: Environmental pollution caused by nano- and microplastics (MPs) is widespread and has become a global issue. There is a confirmed accumulation of MPs in animal and human tissues, raising concerns about potential health effects. The accumulation of NMPs in human tissues, as well as their genotoxicity, mutagenicity, and impact on cancer development, is a relatively new area of research that presents several challenges, mainly related to instrumental limitations and ensuring quality assurance and quality control (QA/QC) in studies of both exposure and subsequent fate in the body, such as translocation and possible accumulation. Background: Humans cannot avoid plastic exposure due to its ubiquitous presence in the natural environment. The waste generated is poorly biodegradable and exists in the form of MPs, which can enter the human body primarily through the digestive tract, respiratory tract, or damaged skin and accumulate in various tissues by crossing biological membrane barriers. There is an increasing amount of research on the health effects of MPs. Most literature reports focus on the impact of plastics on the respiratory, digestive, reproductive, hormonal, nervous, and immune systems, as well as the metabolic effects of MPs accumulation leading to epidemics of obesity, diabetes, hypertension, and non-alcoholic fatty liver disease. MPs, as xenobiotics, undergo ADMET processes in the body, i.e., absorption, distribution, metabolism, and excretion, which are not fully understood. Of particular concern are the carcinogenic chemicals added to plastics during manufacturing or adsorbed from the environment, such as chlorinated paraffins, phthalates, phenols, and bisphenols, which can be released when absorbed by the body. The continuous increase in NMP exposure has accelerated during the SARS-CoV-2 pandemic when there was a need to use single-use plastic products in daily life. Therefore, there is an urgent need to diagnose problems related to the health effects of MP exposure and detection. Methods: We collected eligible publications mainly from PubMed published between 2017 and 2024. Results: In this review, we summarize the current knowledge on potential sources and routes of exposure, translocation pathways, identification methods, and carcinogenic potential confirmed by in vitro and in vivo studies. Additionally, we discuss the limitations of studies such as contamination during sample preparation and instrumental limitations constraints affecting imaging quality and MPs detection sensitivity. Conclusions: The assessment of MP content in samples should be performed according to the appropriate procedure and analytical technique to ensure Quality and Control (QA/QC). It was confirmed that MPs can be absorbed and accumulated in distant tissues, leading to an inflammatory response and initiation of signaling pathways responsible for malignant transformation. [ABSTRACT FROM AUTHOR]

Published

2024

15. Environmental Contaminants in Fish Products: Food Safety Issues and Remediation Strategies.

Author

Visciano, Pierina

Subjects

PERSISTENT pollutants, ORGANIC water pollutants, POLLUTANTS, FISH as food, FOOD safety, PLASTIC marine debris, MARINE pollution

Abstract

The intentional or accidental presence of environmental contaminants, such as persistent organic pollutants, metals, and microplastics, can harm the aquatic ecosystem and their living organisms, as well as consumers of seafood. This study provides an overview of marine pollution caused by various chemicals and their toxicity to both the environment and humans. In addition to regulatory limits established for some contaminants, monitoring and management policies should mandate activities such as bioremediation and the use of carbon-based composite photocatalysts to reduce or eliminate these compounds. [ABSTRACT FROM AUTHOR]

Published

2024

16. The impact of large microplastics on the physical behavior of soils: implications to marine sediments.

Author

Routier, Emelyne, Guenther, Marie, and Terzariol, Marco

Subjects

MARINE sediment pollution, SOIL pollution, MARINE pollution, MARINE biology, HYDRAULIC conductivity

Abstract

Marine plastic pollution has become a major concern as it threatens marine life and human health. Most of the plastic that enters the ocean is either consumed by animals and/or trapped in sediments. However, there is little information on how sediment properties might be affected. In this article, we explore the impact of microplastic inclusions in marine settings by using PVC plastic chips and two soil samples as analogues. We conducted a comprehensive experimental study to investigate changes in compressibility, strength, stiffness, thermal and hydraulic conductivity, and particle migration by varying plastic content. Results show that as low as 1% of plastic content by volume can lead to irreversible consequences in sediment behavior while coarse particles display a heightened sensitivity than pure fines. As plastic content in sediment increases year-by-year, we anticipate significant repercussions in marine life, the future landscape of the seafloor and subsurface phenomena. [ABSTRACT FROM AUTHOR]

Published

2024

17. The Effect of Polyethylene Microplastics on Growth and Antioxydant Response of Oscillatoria Princeps and Chlorella Pyrenoidosa.

Author

Zhao, Mengxin, Ren, Zimu, Wei, Zhangdong, Shi, Haolin, Wang, Lin, and Liang, Yixin

Subjects

CHLORELLA pyrenoidosa, POISONS, ENVIRONMENTAL health, MICROPLASTICS, SUPEROXIDE dismutase, FRESHWATER algae

Abstract

This study investigated the impacts of polyethylene microplastics (PE-MPs) with varying particle sizes (13 μm and 6.5 μm) on the growth and antioxidant responses of two freshwater algae species, Oscillatoria princeps (O. princeps) and Chlorella pyrenoidosa (C. pyrenoidosa). The results revealed a significant reduction in chlorophyll a content in both algal species upon exposure to PE-MPs, indicating a disruption of photosynthesis. Furthermore, Superoxide Dismutase (SOD) activity decreased in O. princeps, while Catalase (CAT) activity increased in both species, indicating complex physiological responses to microplastic stress. Notably, phycotoxin levels in O. princeps decreased with PE-MP exposure, while those in C. pyrenoidosa increased, particularly with 6.5 μm PE-MPs. These findings underscore the potential toxic effects of PE-MPs on freshwater algal growth and metabolism, as well as their influence on toxin production. This study contributes valuable insights into the ecotoxicological impacts of microplastics in freshwater environments, highlighting the need for further research on their biological effects and environmental health implications. [ABSTRACT FROM AUTHOR]

Published

2024

18. Routes of human exposure to Micro- and Nanoplastics through the food chain: what do literature reviews say?

Author

Antonelli, Pietro, Pinarelli Fazion, Juliane, Marzoli, Filippo, Losasso, Carmen, and Belluco, Simone

Subjects

SCIENTIFIC literature, SCIENCE databases, FOOD chains, MICROPLASTICS, DATA extraction

Abstract

The scientific literature on microplastics in food has increased exponentially in the last years leading to a huge amount of published reviews on this topic. Following an approach inspired by the umbrella-review methodology, the present review aimed at systematically gathering information regarding the routes of exposure of microplastics through the food chain, starting from information collected by literature reviews. A literature-based search of published reviews was carried out in three scientific databases. Eligible reviews had to be written in English and had to deal with microplastics (MPs) or nanoplastics (NPs) in food or food chains. At the end of the screening process, 59 reviews were included of which four were systematic. Microplastics were found in a broad range of food originating from marine, freshwater and terrestrial environments. The size range of detected MPs/NPs varied greatly (0.02 – 16,400 μm). Among the analysed review, three food matrices (milk, beer and sugar) were considered for the cross-citation analysis. The choice was based on the fact that these matrices are unusually associated with MPs/NPs pollution and the high redundancy of information observed during data extraction. Results surprisingly showed that the number of published reviews was higher than the number of primary studies, suggesting the need for applying a systematic review methodology to comprehensively synthesize data on microplastics in food and to harmonize definitions. In addition, especially for European countries, future research on MPs/NPs distribution should be performed on food such as milk, wine and meat since they are poorly investigated in this area. [ABSTRACT FROM AUTHOR]

Published

2024

19. Microfiber pollution: Assessment, emission estimation, and time‐series‐based forecast of microfibers from domestic washing machine laundering and mitigation measures.

Author

Alex, Riya Kumbukattu, Muhammed, Thasnimol Mukalarkudy, Kannankai, Madhuraj Palat, Radhakrishnan, Amal, Borah, Abhinab, Reghuvaran, Abesh, and Devipriya, Suja Purushothaman

Subjects

BOX-Jenkins forecasting, WASHING machines, SYNTHETIC textiles, COTTON textiles, HAND washing

Abstract

Microfibers are thread‐like structures shorter than 5 mm and have natural, semisynthetic, or synthetic origins. These micropollutants are ubiquitous and are emerging in the environment, living organisms, and food sources. Textile laundering is a prominent source of microfibers, but limited research has been conducted on microfiber pollution from domestic washing machines in emerging economies such as India, where consumption and production rates are exorbitantly high. This study aimed to assess the abundance and size distribution of microfibers from the effluent of a semiautomatic domestic washing machine using three categories of "not‐new" textiles: cotton, blended, and synthetic under "with" and "without" detergent conditions. Although most Indians still rely on hand washing, this study focused on washing machines due to their increasing use in India driven by improving socioeconomic factors. This study also developed annual emission estimation and forecasting models for India to understand pollution trends. The results revealed that microfibers were highly abundant in washing machine effluent, with a mean abundance of cotton, blended, and synthetic in "with detergent" conditions of 6476.67, 3766.67, and 8645/L, respectively, whereas in "without detergent," it was lower. All identified microfibers were divided into five size classes. The study also found that powdered detergent increased the abundance and emission of tiny fibers. The overall annual emissions estimate was 1.23 × 1011 microfibers, with cotton, synthetic, and blended categories accounting for 2.11 × 1010, 1.40 × 1010, and 6.15 × 109 microfibers, respectively. Time‐series‐based future estimates (autoregressive integrated moving average [ARIMA] and error‐trend‐seasonality [ETS]) showed an alarming increase in microfiber emissions, with forecasted annual emission reaching 1.90 × 1011 by 2030. Synthetic and cotton textiles are the most significant contributors to microfiber pollution. This study emphasized the urgent need to address the issue of microfiber pollution caused by washing machine laundering in developing countries, such as India, where sociodemographic factors intensify the problem. Integr Environ Assess Manag 2024;20:2116–2127. © 2024 SETAC Key Points: This is the first study in India to estimate textile laundering emissions using time‐series models; the annual emission is 1.23 × 1011 microfibers, with synthetics and cotton contributing the most.The autoregressive integrated moving average (ARIMA) (0,1,0) and error‐trend‐seasonality (ETS) (A,A,N) forecast emissions of 1.90 × 1011 microfibers by 2030.The use of powdered detergent increased the abundance and emission of tiny fibers; all identified microfibers fell into five size classes ranging from 0 to 5 mm.This study highlights the need for novel policy solutions to mitigate microfiber pollution. [ABSTRACT FROM AUTHOR]

Published

2024

20. Abundance and distribution of microplastics in benthic sediments and Cladocera taxa in a subtropical Austral reservoir.

Author

Themba, Nombuso N., Dondofema, Farai, Cuthbert, Ross N., Munyai, Linton F., and Dalu, Tatenda

Subjects

WATER pollution, PEARSON correlation (Statistics), CLADOCERA, PLASTIC marine debris, MICROPLASTICS, AQUATIC organisms

Abstract

Pollution of the natural environment by microplastics has become a global issue in ecosystems as it poses a potential long‐term threat to biota. Microplastics can accrue in high abundances in sediments of aquatic ecosystems while also contaminating pelagic filter feeders, which could transfer pollutants up trophic webs. We assess the abundance and distribution of microplastics in benthic sediments and Cladocera taxa in a subtropical Austral reservoir using a combination of geospatial techniques, physicochemical analyses, diversity indices, and multivariate statistics between two seasons (i.e., hot–wet and cool–dry). We found particularly high densities of microplastics during the cool–dry season for both sediments (mean 224.1 vs. 189 particles kg–1 dry weight) and Cladocera taxa (0.3 particles per individual). Cladocera microplastic shapes were dominated by fibers with high densities of the transparent color scheme. Pearson correlation results indicated that sediment microplastic abundances were negatively correlated with chlorophyll–a concentration, temperature, and resistivity, whereas they were positively correlated with pH and salinity during the hot–wet season, with no variables significant in the cool–dry season. Cladocera microplastic abundances were positively correlated with conductivity and salinity during the cool–dry season, but no variables in the hot–wet season. These findings provide insights into the role of reservoirs as microplastic retention sites and the potential for uptake and transfer from lower trophic groups. These insights can be used to strengthen future monitoring and intervention strategies. Integr Environ Assess Manag 2024;20:2256–2270. © 2024 SETAC Key Points: Sediments and Cladocera taxa were dominated by fibers.The distribution of microplastic types varied across sites.The density of microplastics in Cladocera taxa was significantly high.Cladocera may transfer microplastics to other aquatic organisms. [ABSTRACT FROM AUTHOR]

Published

2024

21. Are we eating plastic? Science mapping of microplastic pollution in the aquatic food chain.

Author

Ahmad, Md Faizal, Fauzi, Muhammad Ashraf, Ahmad, Mohd Hanafiah, Wider, Walton, and Lee, Chia Kuang

Subjects

WATER pollution, BIBLIOMETRICS, FOOD chains, FOOD chemistry, MICROPLASTICS, PLASTIC marine debris

Abstract

This study evaluates the knowledge structure of microplastic pollution and its effects on the aquatic food chain. The presence of microplastics has seriously harmed the ecosystem. Through bibliometric analysis, 216 journal publications were retrieved from the Web of Science (WoS) from 2008 to 2023 (April), with no restriction in the time frame. Applying bibliographic coupling and co‐word analysis, the emerging, current, and future themes of microplastic pollution are presented. Three research streams are derived from bibliographic coupling, centralized on the source of microplastic pollution and its impact. At the same time, research streams from co‐word analysis are associated with overcoming the issue of microplastics in the ecosystem. This study's implications suggest three main principles to mitigate microplastic issues: (1) educating the public on the impact of microplastic pollution, (2) implementing holistic regulations and policies, and (3) developing treatment strategies through conventional, innovative, and hybrid approaches. Microplastic pollution is a global concern, requiring a holistic and comprehensive approach to overcome it. This review is the first to present a scientific mapping of the microplastics literature, which is a fundamental basis for future research on microplastic pollution and its impact on the ecosystem. Integr Environ Assess Manag 2024;20:1800–1811. © 2024 SETAC Key Points: This study explores the current knowledge structure with three themes identified: (1) sources of microplastic pollution, (2) microplastics in the ocean, and (3) impact of microplastics and nanoplastics on the ecosystem.The future research trends from the co‐word analysis presented three themes: (1) microplastic pollution in freshwater environments, (2) protecting our seas: combating microplastic contamination, and (3) unveiling the hidden impacts of microplastic pollution.This study suggests three main principles to mitigate microplastic issues: (1) educating the public on the impact of microplastic pollution; (2) implementing holistic regulations and policies; and (3) treatment strategies through conventional, innovative, and hybrid approaches.This review is the first to present a scientific mapping of the microplastics literature, which is fundamental to future research on microplastic pollution and its impact on the ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

22. Multi‐Biomarkers' Responses in Gills of Oreochromis niloticus Exposed to Glyphosate and Polyethylene Microplastic, Isolated and in Mixture.

Author

Soares, Marco Aurélio Miranda, Ferreira, Ericsson Rubens Rodrigues, Tavares, Driele, Moron, Sandro Estevan, Fernandes, Marisa Narciso, Mariano, Wagner dos Santos, and Paulino, Marcelo Gustavo

Subjects

POISONS, NILE tilapia, POLLUTANTS, GLYPHOSATE, MICROPLASTICS

Abstract

Microplastics (MPs) and glyphosate‐based herbicides (GBH) are among the most common contaminants in aquatic environments. In Brazilian rivers, both contaminants were found in elevated levels, leading to a high probability of their association, which can alter their individual effects and potentially intensify their toxicity. This study evaluated the isolated and combined effects of polyethylene microplastics (PE‐MPs) and GBH on Oreochromis niloticus using multi‐biomarkers of toxicity. The fish were subjected to a 96‐h exposure period, with concentrations set based either isolated, PE‐MPs group (5 mg L−1), GBH group (5 mg L−1), or in a group of associated contaminants (GAC), PE‐MP + GBH (5 mg L−1 + 5 mg L−1). Toxicity effects were evaluated using biochemical, cytogenetic, hematological, and histopathological biomarkers. We observed change in erythrocyte parameters leading to macrocytic normochromic anemia in GAC. Leukocyte parameters indicate a nonspecific immunosuppression caused by the exposure of associated contaminants, besides the attempts to repair damage caused by PE‐MPs. Histopathological markers indicate damage to tissues exposed to contaminants. Besides, there were morphophysiological adjustments on gills, with proliferation and hypertrophy of mitochondria‐rich cells on GBH and GAC, besides epithelium ruptures, which were mostly present in the exposed groups. Therefore, this study indicates that PE‐MPs and GBHs present toxic effects in O. niloticus with the used concentrations, intensified by the association of contaminants. Thus, multi‐biomarkers were useful key to verify toxicity, providing data to the investigation of high levels of contaminant's mixture toxicity present in aquatic environments. [ABSTRACT FROM AUTHOR]

Published

2024

23. A Comparative Study on the Interaction Between Protein and PET Micro/Nanoplastics: Structural and Surface Characteristics of Particles and Impacts on Lung Carcinoma Cells (A549) and Staphylococcus aureus.

Author

Baysal, Asli, Saygin, Hasan, and Soyocak, Ahu

Subjects

EMERGING contaminants, NUCLEAR magnetic resonance, SERUM albumin, POLYETHYLENE terephthalate, MITOCHONDRIAL membranes

Abstract

The interaction between particles and proteins is a key factor determining the toxicity responses of particles. Therefore, this study aimed to examine the interaction between the emerging pollutant polyethylene terephthalate micro/nanoplastics from water bottles with bovine serum albumin. The physicochemical characteristics of micro/nanoplastics were investigated using nuclear magnetic resonance, x‐ray diffraction, Fourier transform infrared, dynamic light scattering, and x‐ray energy dispersive spectroscopy after exposure to various concentrations and durations of protein. Furthermore, the impact of protein‐treated micro/nanoplastics on biological activities was examined using the mitochondrial activity and membrane integrity of A549 cells and the activity and biofilm production of Staphylococcus aureus. The structural characteristics of micro/nanoplastics revealed an interaction with protein. For instance, the assignment of protein‐related new proton signals (e.g., CH2, methylene protons of CH2O), changes in available protons s (e.g., CH and CH3), crystallinity, functional groups, elemental ratios, zeta potentials (−11.3 ± 1.3 to −12.4 ± 1.7 to 25.5 ± 2.3 mV), and particle size (395 ± 76 to 496 ± 60 to 866 ± 82 nm) of micro/nanoplastics were significantly observed after protein treatment. In addition, the loading (0.012–0.027 mM) and releasing (0.008–0.013 mM) of protein also showed similar responses with structural characteristics. Moreover, the cell‐based responses were changed regarding the structural and surface characteristics of micro/nanoplastics and the loading efficiencies of protein. For example, insignificant mitochondrial activity (2%–10%) and significant membrane integrity (12%–28%) of A549 cells increased compared with control, and reductions in bacterial activity (5%–40%) in many cases and biofilm production specifically at low dose of all treatment stages (13%–46% reduction) were observed. [ABSTRACT FROM AUTHOR]

Published

2024

24. Ontogenetic transfer of microplastics in natural populations of malaria mosquitoes in Western Siberia.

Author

Simakova, Anastasia V., Varenitsina, Anna A., Babkina, Irina B., Andreeva, Yulia V., and Frank, Yulia A.

Subjects

ANOPHELES, PARASITES, DIPTERA, MICROPLASTICS, MALARIA, MOSQUITOES

Abstract

The uptake, accumulation, and ontogenetic transfer of microplastics (MPs) in bloodsucking mosquitoes of the genus Anopheles, vectors of helminth and protozoa parasites in humans and animals, were studied under laboratory conditions. In the experiment, 2‐μm‐diameter fluorescent polystyrene spheres were counted in mosquitoes of all stages, from larvae to adults. Larvae from a natural population readily ingested MPs with food, accumulating on average 3.9 × 106 particles per larva within 3 days. The concentration of MPs decreased significantly in mosquitoes during their transition from stage to stage. The average number of detected MPs attained 110 particles per pupa and 3.0 particles per adult. MP uptake by mosquitoes did not affect their survival, whereas the rate of metamorphosis in MP‐consuming mosquitoes was slightly higher. Our data confirmed that MPs can be transferred from feeding larvae to non‐feeding pupae and adult flying Anopheles mosquitoes from natural populations in aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

25. The abundance and localization of environmental microplastics in gastrointestinal tract and muscle of Atlantic killifish (Fundulus heteroclitus): a pilot study.

Author

Pitt, Jordan A., Gallager, Scott M., Youngs, Sarah, Michel, Anna P. M., Hahn, Mark E., and Aluru, Neelakanteswar

Subjects

GASTROINTESTINAL system, MUMMICHOG, RAMAN spectroscopy, BIOACCUMULATION in fishes, INFRARED spectroscopy

Abstract

Microplastics (MPs) have been found in a diverse range of organisms across trophic levels. While a majority of the information on organismal exposure to plastics in the environment comes from gastrointestinal (GI) data, the prevalence of MP particles in other tissues is not well understood. Additionally, many studies have not been able to detect the smallest, most prevalent, MPs (1 µm – 5 mm) that are the most likely to distribute to tissues in the body. To address these knowledge gaps, MPs in the GI tract and muscle of Atlantic killifish (Fundulus heteroclitus) collected from two sites (Falmouth and Bourne) on Buzzards Bay, Cape Cod, MA were quantified down to 2 µm in size. Eight fish from Falmouth and 10 fish Bourne site were analyzed. Fourier-transform infrared spectroscopy and Raman spectroscopy were used to identify all particles. The mean concentrations of MPs in the GI tract and muscle from fish collected from Falmouth was 85.5 ± 70.2 and 11 ± 12.5 particles per gram wet weight, respectively. Fish collected from Bourne site had mean particle concentrations of 12.2 ± 18.1 and 1.69 ± 5.36 particles per gram wet weight. Of the 2,008 particles analyzed in various fish tissue samples, only 3.4% (69 particles) were identified as plastic; polymers included nylon, polyethylene, polypropylene, and polyurethane. MPs detected in the GI tract samples also tended to be more diverse in both size and polymer type than those found in the muscle. We found that MPs < 50 µm, which are often not analyzed in the literature, were the most common in both the GI tract and muscle samples. There was not a significant correlation between the MP content in the muscle compared to the GI tract, indicating that GI tract MP abundance cannot be used to predict non-GI tract tissue MP content; however, MP abundance in muscle correlated with fish total length, suggesting potential bioaccumulation of these small MPs. [ABSTRACT FROM AUTHOR]

Published

2024

26. Microplastics contamination in selected staple consumer food products.

Author

Espiritu, Emilyn Q., Pauco, Jiena Lynne R., Bareo, Renz S., Palaypayon, Gabrielle B., Capistrano, Hilary Anne M., Jabar, Stephanie R., Coronel, Annabel Soledad O., Rodolfo, Raymond S., and Enriquez, Erwin P.

Abstract

The use of plastics in the manufacturing of food products is of concern as microplastics (MPs, 1 µm to 5 mm) find their way into food which poses risks to human health. This study is the first to report detection of MPs in selected staple food products in the Philippines, specifically sea salt, white and brown sugar, fish sauce, and rice. Raman microspectroscopy was used to identify the MPs and pigment additives. The mean MP concentration was 471 MPs kg−1 with 71% identified as polyvinyl chloride (PVC) for salt, 20 MPs kg−1 with 67% polyethylene terephthalate (PET) for white sugar, 67 MPs kg−1 with 77% polypropylene (PP) for brown sugar, 3 MPs L−1 for fish sauce, and 5 MPs kg−1 with 100% PET for cooked rice. For sea salt, the highest MP contamination found was PVC that is likely from the processing of this product. This implies the need for careful use of PVC materials in their manufacture. For sugar, rice, and fish sauce, the likely contamination is from plastic packaging. The present findings provide estimation of human consumption of MPs from food items and insights on the use of plastic materials in the manufacturing processes. [ABSTRACT FROM AUTHOR]

Published

2024

27. Biofilms on microplastic surfaces and their effect on pollutant adsorption in the aquatic environment.

Author

Qin, Yan, Tu, Yangping, Chen, Congcong, Wang, Fang, Yang, Yanmei, and Hu, Ying

Abstract

The extensive use of plastics has led to the widespread presence of a new type of pollutant called "microplastics (MPs)" in aquatic environments. MPs have large specific surface areas and strong hydrophobicity. In particular, MPs provide a new ecological niche for microorganisms in aquatic environments, which attach to and subsequently form biofilms on microplastic (MP) surfaces. This paper reviews the factors affecting biofilm growth on MP surfaces and the effect of biofilms on the adsorption of other environmental pollutants onto MPs as well as difference analysis. Biofilm formation is influenced by many factors related to the environment, MPs (e.g., type, particle size, and additives), and properties of microorganisms; environmental factors play an especially important role. Crucially, biofilms change the density of MPs and hydrophobicity of the surface of MPs and can attach new functional groups, charged sites, and other additives to MP surfaces. Primarily owing to this, biofilms affect the adsorption of environmental pollutants such as heavy metals, POPs, and pathogenic microorganisms. Notably, such adsorption is affected by MP particle size and additives. In particular, biofilms have a considerable effect on the interactions between MPs and pollutants. Further, this article suggests directions for revealing the influence of biofilms on pollutant adsorption to MPs. This review provides a reference for studying the formation of biofilms on MPs surfaces in aquatic environments and the effect of biofilms on contaminant adsorption onto MPs. [ABSTRACT FROM AUTHOR]

Published

2024

28. Microplastic Abundance and Distribution in the Sediment of Cagayan de Oro River, Philippines.

Author

Gabriel, Aiza D. and Bacosa, Hernando P.

Subjects

EMERGING contaminants, INFRARED spectroscopy, POLLUTION, MICROPLASTICS, SEDIMENT sampling, PLASTIC marine debris

Abstract

Microplastics (MPs), or plastic particles smaller than 5 mm, are emerging contaminants that potentially affect aquatic species and humans. More research has been undertaken in the marine environment; however, rivers that serve as a sink and pathways for plastic entering the ocean have received less attention. The current study investigated the presence of MPs in the sediments of the Cagayan de Oro River, one of the top plastic-emitting rivers listed in the Philippines. Sediment samples were collected from the six sampling stations from upstream to downstream using a Van Veen grab sampler. Through stereomicroscope and Fourier-transform infrared spectroscopy (FTIR), MPs were analyzed and categorized according to color, shape, size, and polymer type. All the sampling stations were contaminated with MPs ranging from 4.4 ± 2.57 to 33.3 ± 4.44 items/kg. The highest density of MPs was found close to the river mouth that drains into Macajalar Bay which suggests that riverine contributions are substantial contributory to MPs contamination in the marine environments. Prevalent types of MPs are blue-colored (41%), fiber-shaped (41%), 0.5–1.0 mm (43%), and polyethylene (43%) particles. Microplastic accumulation is generally higher downstream than upstream. [ABSTRACT FROM AUTHOR]

Published

2024

29. Microplastic detectives: a citizen-science project reveals large variation in meso- and microplastic pollution along German coastlines.

Author

Walther, Bruno Andreas, Pasolini, Franco, Lupše, Špela Korez, and Bergmann, Melanie

Subjects

ATTENUATED total reflectance, PLASTIC scrap, INSPECTION & review, MICROPLASTICS, FOURIER transforms, PLASTIC marine debris

Abstract

Plastic production and plastic waste have increased to such an extent that it has become globally ubiquitous. Several studies already have investigated the mesoand microplastic pollution along the German Baltic and North Sea coasts, but were all limited to a few locations. To obtain representative bulk samples from sandy beaches along the entire German coast, we initiated a citizen-science project entitled "Microplastic Detectives." Here, we describe in detail 1) how we recruited, instructed, and engaged citizen scientists, 2) why we chose bulk sampling over reduced-volume sampling, and 3) the laboratory methods we used. The citizen scientists collected 1,139 samples from 71 locations along the German coast, totalling 2.2 tons of sand. After drying, sieving with a 1 mm sieve, and visual inspection of the retained fraction under a binocular microscope, all putative plastic particles =1 mm were analysed by attenuated total reflectance Fourier transform infrared (ATR-FTIR) spectroscopy. 177 out of 1,139 samples (15.5%) contained a total of 260 plastic particles, with a large right-skewed variation among locations. Most of the particles were fragments, foils, foams, fibres, and pellets (96.2% in total), and 89.6% of the particles were made of polyethylene, polypropylene, polyester, and polystyrene. The unweighted mean pollution densities were 4.12 particles m-2, 0.17 particles kg-1 and 0.27 particles L-1, and the weighted mean pollution densities were 3.77 particles m-2, 0.11 particles kg-1 and 0.18 particles L-1. These densities are lower than in other similar studies, but previous studies had important methodological differences. We discuss how these differences could have influenced the results and make recommendations for improving future studies. Two important recommendations are 1) to use random or stratified random sampling and 2) to run transects perpendicular (rather than parallel) to the waterline. Our study highlights that large-scale, scientifically rigorous monitoring of meso- and microplastic pollution is possible at the national level, and possibly even at much larger spatial and temporal scales. With the help of local authorities, such a monitoring program could be established. [ABSTRACT FROM AUTHOR]

Published

2024

30. Genotoxic and neurotoxic potential of intracellular nanoplastics: A review.

Author

Casella, Claudio and Ballaz, Santiago J.

Subjects

PLASTIC scrap, BIOLOGICAL membranes, ENDOPLASMIC reticulum, CELL cycle, ENVIRONMENTAL toxicology

Abstract

Plastic waste comprises polymers of different chemicals that disintegrate into nanoplastic particles (NPLs) of 1–100‐nm size, thereby littering the environment and posing a threat to wildlife and human health. Research on NPL contamination has up to now focused on the ecotoxicology effects of the pollution rather than the health risks. This review aimed to speculate about the possible properties of carcinogenic and neurotoxic NPL as pollutants. Given their low‐dimensional size and high surface size ratio, NPLs can easily penetrate biological membranes to cause functional and structural damage in cells. Once inside the cell, NPLs can interrupt the autophagy flux of cellular debris, alter proteostasis, provoke mitochondrial dysfunctions, and induce endoplasmic reticulum stress. Harmful metabolic and biological processes induced by NPLs include oxidative stress (OS), ROS generation, and pro‐inflammatory reactions. Depending on the cell cycle status, NPLs may direct DNA damage, tumorigenesis, and lately carcinogenesis in tissues with high self‐renewal capabilities like epithelia. In cells able to live the longest like neurons, NPLs could trigger neurodegeneration by promoting toxic proteinaceous aggregates, OS, and chronic inflammation. NPL genotoxicity and neurotoxicity are discussed based on the gathered evidence, when available, within the context of the intracellular uptake of these newcomer nanoparticles. In summary, this review explains how the risk evaluation of NPL pollution for human health may benefit from accurately monitoring NPL toxicokinetics and toxicodynamics at the intracellular resolution level. Plastic waste disintegrates into nanoplastic particles (NPLs), whose health hazards are unknown. This review deals with their carcinogenic and neurotoxic potential. Given their low‐dimensional size and high surface size ratio, NPLs can easily penetrate cells to provoke structural and functional damages through OS and pro‐inflammatory reactions, which may cause carcinogenesis and/or neurodegeneration. The NPL role in these diseases is discussed within the context of the intracellular uptake of these newcomer nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2024

31. Microplastics Beach Pollution: Composition, Quantification and Distribution on the Southern Coast of Brazil.

Author

Pelegrini, Kauê, Pereira, Talita Carneiro Brandão, Wertheimer, Cristina Coelho Silva, De Souza Teodoro, Lilian, De Souza Basso, Nara Regina, Ligabue, Rosane Angélica, and Bogo, Mauricio Reis

Subjects

PLASTIC marine debris, ENVIRONMENTAL remediation, STAINS & staining (Microscopy), MICROPLASTICS, FLUORESCENCE microscopy, PLASTIC products manufacturing, BIODEGRADABLE plastics

Abstract

Environmental contamination by plastics poses a significant threat to both fauna and flora, manifesting in lethal and sub-lethal effects. Plastics can enter coastal and marine environments through wind and rain, with microplastics (< 5 mm; MPs) arising from the degradation of larger plastics or being manufactured for commercial use. Despite Brazil's extensive coastline, data on microplastic contamination is scarce. This study aimed to assess microplastic pollution on a beach in Rio Grande do Sul, Brazil. Samples were collected from 30 points along the high tide line, with beach sand processed through density separation and filtration. Microplastics were quantified using Nile Red stain under fluorescence microscopy and chemically identified via the µRaman technique. Results showed an average concentration of 650 MPs/kg of sediment, with higher concentrations near the Mampituba River, indicating a greater transport of plastic contaminants by the river to the coastline. The smallest particles (50–100 µm) were most abundant, and the predominant types of plastics identified were polyethylene (PE), polypropylene (PP), and polyamide (PA). This study provides the first quantification of microplastic pollution in this region, indicating that the concentration and types of microplastics are consistent with findings elsewhere in Brazil and globally. These results highlight the widespread nature of microplastic pollution and underscore the need for coordinated environmental remediation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

32. Migration, Distribution and Influencing Factors of Microplastics at the Confluence of Pipe and Channel.

Author

Xiong, Junye, Li, Zhiwei, Wang, Xuefeng, Sun, Bin, and Wang, Feifei

Subjects

FLOW velocity, MICROPLASTICS, GRANULAR flow, ACCELERATION (Mechanics), MARKETING channels

Abstract

Sewage pipes are important conduits for microplastics into the natural environment, but previous studies have paid little attention to the hydraulic characteristics of the confluence of pipe and channel, and the distribution of microplastics at the confluence. This study compared the effects of varying flow rates and particle sizes (Including 500 μm, 700 μm, and 900 μm) on microplastic migration and distribution at the confluence of pipe and channel using experimental measurements. The results obtained using flotation method indicate that flow proportions and particle sizes influence the capacity of flow to transport microplastics. Larger microplastic accumulation occurs in scour holes and separation zones characterized by lower flow velocities, while deposition decreases in acceleration zones characterized by higher flow velocities. Increasing the flow rate of the branch pipe influences the volume of each zone at the pipe-channel confluence. The elongated shape of the scour hole and the acceleration zone facilitate the downstream migration of microplastics. Moreover, the hydrophilic nature of microplastics increases after aging, and it is more likely to migrate to downstream with the water flow, making the downstream microplastics account for more proportion. These results provide valuable insights into the migration and distribution of microplastics at the confluence of pipe and channel, with practical implications for microplastic treatment strategies at these confluences. [ABSTRACT FROM AUTHOR]

Published

2024

33. Research Progress of the Sources, Distribution Characteristics, and Potential Risks of Microplastics in the Global Marine Environment.

Author

Xiao, Jinnan, Yang, Xiuyuan, Zhang, Zhenming, Wang, Mingjun, Yang, Zhaowen, and Zhang, Xinrui

Subjects

EMERGING contaminants, SEWAGE, PLASTIC scrap, MARINE ecology, MICROPLASTICS, MARINE pollution

Abstract

Marine white pollution, i.e., plastic pollution, is currently a major challenge to the marine environment. Microplastics(MPs), as an emerging pollutant, are attracting widespread global attention. Due to the special properties of plastic, it is widely used, but the plastic waste generated during its use is difficult to recycle or utilize, so it gradually accumulates in the environment. Marine MPs mainly come from industrial discharge, domestic sewage discharge, and direct discharge during maritime transportation and operations. After MPs enter the marine environment, they will change the distribution status of MPs in the marine environment, thereby bringing varying degrees of impact to the marine environment and posing potential risks to the security of marine ecosystems. The article summarizes the sources, distribution characteristics, pollution status, and potential ecological risks of MPs in the marine environment, in order to provide scientific basis for solving and repairing marine microplastic pollution. [ABSTRACT FROM AUTHOR]

Published

2024

34. Unveiling the Microplastics: Sources, Distribution, Toxicological Impacts, Extraction Methods, Degradational Strategies, Paving the Path to a Sustainable Future.

Author

Dhaundiyal, Amit and Mittal, Aanchal

Subjects

MACHINE learning, SUSTAINABILITY, HOLOGRAPHY, MANUFACTURING processes, PHOTODEGRADATION

Abstract

The issue of microplastics (MPs) which are pervasive and ubiquitous pollutants, has given rise to a pressing need for a thorough understanding of them and the development of effective strategies to mitigate their impact. These tiny particles are derived from a wide array of human activities, including industrial processes, urban centers, and even our daily routines. To devise effective mitigation measures, it is essential to comprehend the sources and the complexity of their distribution across terrestrial, aquatic, and atmospheric domains, which adversely affect ecosystems worldwide. Extraction methods have been cultivated and established to remove MPs from the environment with higher efficiency. This paper elucidates the complexity of their dispersal and sheds light on the extraction methods along with their degradational strategies. It also discusses the use of machine learning models in MP identification, detection, and classification. The integration of machine learning, particularly with features extracted from holographic images and spectroscopic data offers a precise and efficient method for identifying MPs. The toxicological effects of MPs on organisms and ecosystems are also discussed, emphasizing the need for further research to mitigate their impact. The exploration of degradation strategies offers a promising solution to combat the pervasive presence of MPs. While several mechanisms contribute to MP degradation, microbial-driven processes have emerged as a dominant factor. This review delves deep into the realm of microbial degradation, highlighting its potential to transform the fate of these pollutants. The paper showcases the latest research and innovations, paving the way for an environmentally sustainable future. This comprehensive review emphasizes the urgency of addressing the MP predicament and presents a refined roadmap towards a sustainable future. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Effect of N Mineralization, Nitrification and Ammonification Rates in Soils Contaminated with Microplastics.

Author

Dindar, Efsun

Subjects

NITROGEN in soils, POLLUTANTS, SOIL dynamics, POLYETHYLENE terephthalate, SOIL pollution, PLASTIC marine debris

Abstract

Microplastics (MPs) have emerged as a pervasive environmental pollutant, posing significant threats to both aquatic and terrestrial ecosystems. Despite the growing concern, research on the impacts of MPs on soil ecosystems, particularly on crucial processes like nitrogen cycling, remains limited compared to aquatic environments. This study aimed to fill this knowledge gap by conducting a 60-day incubation experiment to investigate the effects of polypropylene (PP), polyethylene (PE), and polyethylene terephthalate (PET) microplastics on soil nitrogen transformation processes. The findings revealed that microplastic contamination influenced soil nitrogen dynamics, with PP having the most detrimental impact. Specifically, the ammonification rate was consistently lower than the nitrification potential, and although the nitrification potential was not negatively affected by the presence of MPs, the availability of soil nitrogen, particularly in the form of nitrate, was predominantly maintained. However, at the end of the incubation period, soils contaminated with PP showed a significant reduction in available nitrogen concentrations. Generally, it was found that PP had the most negative effect on soil nitrogen processes. These results underscore the varying effects of different types of microplastics on soil nitrogen processes, highlighting the critical need for further investigation into their long-term environmental impacts. [ABSTRACT FROM AUTHOR]

Published

2024

36. Hepatic and metabolic outcomes induced by sub-chronic exposure to polystyrene microplastics in mice.

Author

Lee, Sheng-Han, Lin, Ting-An, Yan, Yuan-Horng, Chien, Chu-Chun, and Cheng, Tsun-Jen

Subjects

ORAL drug administration, ALANINE aminotransferase, PATHOLOGICAL physiology, NON-alcoholic fatty liver disease, HEPATOTOXICOLOGY, ASPARTATE aminotransferase

Abstract

Microplastics (MPs) have attracted significant attention due to their global distribution in living environments. Although some studies have reported MP-induced hepatotoxicity in mouse models, a systematic approach to MP-mediated liver toxicity was still lacking. Therefore, we used a mouse model to study the sub-chronic effects of MP exposure on the liver. Female C57BL/6 mice, aged 6 weeks, received an oral administration of 0.3 mg of Nile Red-labeled polystyrene (PS) microplastics, with particle sizes of 0.5 µm (submicron) and 5 µm (micron), via gavage, while control mice received vehicle only. Each mouse was exposed to MPs twice a week for 12 weeks. After sacrifice, the levels of MP accumulation, oxidative stress, inflammation, and pathological changes were measured in the mouse liver, and blood samples were collected for serum biochemistry analysis. Our results demonstrated that 0.5 µm PS-MPs were accumulated in mouse livers post-MP exposure, but not in the 5 µm MP exposure group. Simultaneously, increased levels of glucose, triglyceride, alanine transaminase (ALT), aspartate transaminase (AST), superoxide dismutase, 4-hydroxy-2-nonenal-mercapturic acid (HNE-MA), interleukin-6, and lipid droplets were found in the 0.5 µm MP exposure group, while the fewer responses, including elevated liver weight index, glucose, high-density lipoprotein, AST, and decreased HNE-MA were observed in 5 µm MP exposure group. These results indicate that sub-chronic exposure to submicron MPs causes MP deposition in mouse livers, which further induces oxidative stress, increases inflammatory cytokines and perturbs glucose and lipid homeostasis, which might trigger more severe metabolic dysfunction or non-alcoholic steatohepatitis-like hepatotoxicity. [ABSTRACT FROM AUTHOR]

Published

2024

37. Topic modeling discovers trending topics in global research on the ecosystem impacts of microplastics.

Author

Gong, Kailin, Hu, Shuangqing, Zhang, Wei, Peng, Cheng, and Tan, Jiaqi

Subjects

NATURAL language processing, CYTOTOXINS, DEVELOPED countries, LANGUAGE research, MICROPLASTICS

Abstract

The ecological threats of microplastics (MPs) have sparked research worldwide. However, changes in the topics of MP research over time and space have not been evaluated quantitatively, making it difficult to identify the next frontiers. Here, we apply topic modeling to assess global spatiotemporal dynamics of MP research. We identified nine leading topics in current MP research. Over time, MP research topics have switched from aquatic to terrestrial ecosystems, from distribution to fate, from ingestion to toxicology, and from physiological toxicity to cytotoxicity and genotoxicity. In most of the nine leading topics, a disproportionate amount of independent and collaborative research activity was conducted in and between a few developed countries which is detrimental to understanding the environmental fates of MPs in a global context. This review recognizes the urgent need for more attention to emerging topics in MP research, particularly in regions that are heavily impacted but currently overlooked. [ABSTRACT FROM AUTHOR]

Published

2024

38. Biodegradable microplastics can cause more serious loss of soil organic carbon by priming effect than conventional microplastics in farmland shelterbelts.

Author

Jia, Kaitao, Nie, Siming, Tian, Mengfei, Sun, Wenxue, Gao, Yuan, Zhang, Yaru, Xie, Xiaofei, Xu, Ziqi, Zhao, Chunjian, and Li, Chunying

Subjects

SANDY loam soils, CARBON dioxide mitigation, PLASTICS, CARBON emissions, SOIL classification, POLYLACTIC acid

Abstract

Globally, the widespread utilization of plastic products has resulted in the accumulation of microplastics (MPs) in the soil. MPs have the potential to impact the loss of soil organic carbon (SOC). Nevertheless, the influence of different types of MPs on SOC loss remains uncertain.In this study, a 38 day incubation experiment with two kinds of conventional MPs (polyethylene, polypropylene) as well as two kinds of biodegradable MPs (polyhydroxyalkanoate [PHA], polylactic acid [PLA]) were added into three types of soil (loam, sandy loam, and sandy soil) in farmland shelterbelts, and the sources of CO2 emissions was distinguished by the difference in 13C isotope abundance between the biodegradable MPs (PHA and PLA) (−10.02‰ to −9.92‰) and the soil (−24.39‰ to −22.86‰) (>10‰).In conjunction with the structural characterization of MPs, as well as soil physicochemical properties and microbial characteristics, we observed that the conventional MPs did not degrade in short term incubation, but significantly enhance soil‐derived CO2 emissions by altering the dissolved N content (NH4+‐N and dissolved total N [DTN]) and reducing microbial biomass carbon content only in sandy loam soil (p < 0.05). Biodegradable MPs degraded significantly, and enhanced soil‐derived CO2 emissions by reducing soil DTN and NO3−‐N contents in loam, sandy loam and sandy soil (p < 0.05).Overall, the input of biodegradable MPs causes a more serious loss of SOC than conventional MPs as the soil sand content increased in short term incubation, which needs to be considered in predicting the global impact of increasing biodegradable MPs pollution. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

39. Oleo-extraction of microplastics using flotation plus sol-gel technique to confine small particles in silicon dioxide gel.

Author

Pacaphol, Kamonwan, Aht-Ong, Duangdao, Coughlan, Darcy, and Hoogewerff, Jurian

Subjects

PARTICULATE matter, POLYETHYLENE terephthalate, MICROPLASTICS, ETHYL silicate, SOL-gel processes, PLASTIC marine debris, POLYETHYLENE

Abstract

Extracting microplastics from natural sources is challenging, especially microplastics with sizes smaller than 100 μm. The flotation method is the most common microplastic extraction, but it struggles with fine particles due to the difficulty in collecting floating plastic particles from the liquid during the separation process. This study proposes a new floating media, tetraethyl orthosilicate (TEOS), that could separate microplastics using its hydrophobic-oleophilic properties. Most interestingly, TEOS transformed from a liquid state to a solid state (gel) by hydrolysis and condensation reactions, thus safely capturing the separated microplastic particles after flotation and mitigating particle loss from scooping since its gel acted as a particle holder. The average recovery rates obtained were in the range of 95–100% for polyethylene terephthalate, polyethylene, polypropylene, polyvinyl chloride, polystyrene, polytetrafluoroethylene, and aged tyre rubber. The recovery rates were slightly reduced for finer particles (sizes down to 40 μm) at 82–98%. TEOS-based extraction provided a higher recovery rate for non-polar plastics than for polar or hydrophilic plastics. The separated microplastics maintained their characteristics for polymer identification, as proven by spectroscopic and thermal analysis techniques. Therefore, TEOS-based extraction could be a new approach to microplastic extraction, especially for preventing fine particle loss. [ABSTRACT FROM AUTHOR]

Published

2024

40. Biological exposure to microplastics and nanoplastics and plastic additives: impairment of glycolipid metabolism and adverse effects on metabolic diseases.

Author

Zheng, Peng Chen, Li, Rong, Lai, Keng Po, and Zhang, Xiao Xi

Subjects

VASCULAR endothelial cells, METABOLIC disorders, LIPID metabolism, PLASTIC additives, INSULIN resistance

Abstract

Microplastics and nanoplastics (M-NPs) are widespread pollutants in the environment, posing growing risks to human health and garnering increasing concern from researchers. Due to their small particle size, ease of adsorption, and resistance to degradation, M-NPs can retain and migrate in the environment for long-term periods. Upon entering organisms, M-NPs have been reported to cause inflammation and oxidative stress and result in abnormalities in glycolipid metabolism. Furthermore, research suggests that exposure to M-NPs may act as a causative agent for metabolic and cardiovascular diseases such as diabetes, obesity, and atherosclerosis. This paper aims to review the consequences of exposure to M-NPs on animal and cellular glycolipid metabolism and discusses the disruption of gut microbial homeostasis and the subsequent emergence of insulin resistance. PPAR signaling pathway activation after exposure to M-NPs was found to lead to increased hepatic fat accumulation and impaired lipid metabolism. Additionally, the paper highlights how M-NPs exacerbate the progression of obesity and diabetes in patients, induce damage to vascular endothelial cells, trigger oxidative stress, and contribute to the development of atherosclerosis. Despite the growing concern, the toxicity and molecular mechanism of M-NPs on glycolipid metabolism remain understudied, and effective methods for removing plastic pollutants deposited in the body are yet to be established. These findings provide valuable insights for future research in this field. [ABSTRACT FROM AUTHOR]

Published

2024

41. Differences in distribution and characteristics of microplastics in sediments of the south-eastern part of the Gulf of Trieste.

Author

Jamšek, Jena, Prosen, Helena, and Bajt, Oliver

Subjects

PLASTIC marine debris, FOURIER transform infrared spectroscopy, MICROPLASTICS, INFRARED spectroscopy, OPTICAL microscopes, SEDIMENT sampling

Abstract

Introduction: The Gulf of Trieste is prone to the accumulation of various pollutants and microplastics due to its geomorphological and hydrological characteristics. However, the distribution and sources of microplastics in this semi-enclosed area are poorly studied. The aim of our study was to determine the distribution and chemical composition of MP particles in the sediments of the Gulf of Trieste. Methods: In this study, we collected 24 surface sediment samples using a Van Veen grab. Microplastics were extracted by density separation using NaCl. The size, shape, and color of the extracted microplastics were determined using an optical microscope, and the composition of the polymers was determined by Fourier transform infrared spectroscopy. Results and discussion: The highest concentrations of up to 125 microplastic particles per 100 g dry sediment were found in coastal areas. Concentrations in the open sea were much lower, with an average of 3 particles per 100 g of sediment. Most of the microplastic was fibrous, made of polypropylene, 100-300 µm in size, and blue. This is the first study showing that microplastics are present in the sediments of the south-eastern part of the Gulf of Trieste. The findings suggest that microplastics exhibit a tendency to be retained within the sediment, leading to their accumulation primarily in a narrow coastal area rather than dispersing offshore. Our results will contribute to a better knowledge of the distribution and possible sources of plastics and microplastics in the Gulf of Trieste and even beyond in similar semi-enclosed marine areas. [ABSTRACT FROM AUTHOR]

Published

2024

42. Differences in distribution and characteristics of microplastics in sediments of the south-eastern part of the Gulf of Trieste.

Author

Jamšek, Jena, Prosen, Helena, and Bajt, Oliver

Subjects

PLASTIC marine debris, FOURIER transform infrared spectroscopy, MICROPLASTICS, INFRARED spectroscopy, OPTICAL microscopes, SEDIMENT sampling

Abstract

Introduction: The Gulf of Trieste is prone to the accumulation of various pollutants and microplastics due to its geomorphological and hydrological characteristics. However, the distribution and sources of microplastics in this semi-enclosed area are poorly studied. The aim of our study was to determine the distribution and chemical composition of MP particles in the sediments of the Gulf of Trieste. Methods: In this study, we collected 24 surface sediment samples using a Van Veen grab. Microplastics were extracted by density separation using NaCl. The size, shape, and color of the extracted microplastics were determined using an optical microscope, and the composition of the polymers was determined by Fourier transform infrared spectroscopy. Results and discussion: The highest concentrations of up to 125 microplastic particles per 100 g dry sediment were found in coastal areas. Concentrations in the open sea were much lower, with an average of 3 particles per 100 g of sediment. Most of the microplastic was fibrous, made of polypropylene, 100– 300 µm in size, and blue. This is the first study showing that microplastics are present in the sediments of the south-eastern part of the Gulf of Trieste. The findings suggest that microplastics exhibit a tendency to be retained within the sediment, leading to their accumulation primarily in a narrow coastal area rather than dispersing offshore. Our results will contribute to a better knowledge of the distribution and possible sources of plastics and microplastics in the Gulf of Trieste and even beyond in similar semi-enclosed marine areas. [ABSTRACT FROM AUTHOR]

Published

2024

43. Determination of Biodegradation Potential of Aspergillus niger, Candida albicans, and Acremonium sclerotigenum on Polyethylene, Polyethylene Terephthalate, and Polystyrene Microplastics.

Author

Safdar, Ayesha, Ismail, Fatima, Iftikhar, Hafsa, Majid Khokhar, Abdul, Javed, Atika, Imran, Muhammad, Safdar, Bushra, and Muleta, Diriba

Subjects

POLYETHYLENE terephthalate, MICROPLASTICS, ASPERGILLUS niger, CANDIDA albicans, FOURIER transforms

Abstract

Plastics are used widely in almost every field of life, but their synthetic and persistent nature makes them harmful for the environment. The aim of this research was to evaluate the degradation abilities of Aspergillus niger, Candida albicans, and Acremonium sclerotigenum on microplastics (MPs). MP pieces of 4 ± 1 mm, including polyethylene, polyethylene terephthalate, and polystyrene, were incubated with fungal inoculums for 30 days. The degradation of treated MPs was determined by biofilm formation, weight loss, scanning electron microscopy (SEM), and Fourier transform analyses. The results indicated that the polyethylene MPs treated with Aspergillus niger exhibited the highest level of biofilm formation (optical density 1.595) and percentage weight loss (16%). In the case of polyethylene terephthalate and polystyrene MPs, Acremonium sclerotigenum and co‐culture showed weight loss of 6% and 10%, respectively. Candida albicans was observed to be the least effective in biodegradation analyses. SEM observation revealed the surface modifications as holes, pits, cracks, and increased roughness in treated MPs. Fourier transform infrared (FTIR) spectroscopy showed that the chemical structure of each polymer exhibited some variations. The study concluded that the fungal strains play an important role in the biodegradation of plastics and can be utilized to mitigate environmental pollution. [ABSTRACT FROM AUTHOR]

Published

2024

44. Assessing microplastic abundances in freshwater fishes in a subtropical African reservoir.

Author

Dalu, Tatenda, Themba, Samkelisiwe T., Dondofema, Farai, Wu, Naicheng, and Munyai, Linton F.

Subjects

EMERGING contaminants, WATER pollution, GILLNETTING, LARGEMOUTH bass, FISH weight

Abstract

Microplastics are emerging pollutants of global concern, and their presence in the aquatic environment poses a serious risk for aquatic biota. While many studies have been conducted on the presence of microplastics in marine habitats, little research has been done in freshwater African reservoirs on microplastic pollution and their impacts on fish within the subtropical regions. To bridge this gap, the current study investigated microplastic abundances and distribution in freshwater fish within Nandoni reservoir, South Africa, across two seasons (i.e., hot–wet, cool–dry). Fish were randomly sampled using seine and gill nets from seven sites within the reservoir. In the laboratory, fish were then sorted according to taxa before dissecting them to remove the gills and the gastrointestinal tract (GIT). The organs were digested using hot hydrochloric acid and hydrogen peroxide, and the microplastics were classified according to their colours and shapes. Among the 94 fishes (i.e., 8 species) examined, microplastics were detected in 86.6% of the eight species caught. Microplastics were dominant in the gills and GIT during the cool–dry and hot–wet seasons, respectively. High microplastic abundances were found in the gills of Micropterus salmoides and the GIT of Coptodon rendalli, where fibres and the transparent colour were the most dominant. The results further showed high microplastic abundances in benthopelagic feeders highlighting that habitat influences fish consumption of microplastics whether directly or indirectly. Significant differences were observed in the feeding zone and season for all microplastic types. Microplastic sources in the reservoirs could be due to anthropogenic activities such as illegal dumping, fishing, and agriculture. Thus, there is a need for further investigation into the relation of fish weight, fish sex and body in relation to microplastic pollution. The highlighted ecological factors should be taken into consideration for future research and management actions aimed at mitigating and protecting the negative impacts of microplastic pollution on environmental and human health. [ABSTRACT FROM AUTHOR]

Published

2024

45. Community composition and seasonal dynamics of microplastic biota in the Eastern Mediterranean Sea.

Author

Davidov, Keren, Marsay, Katherine S., Itzahri, Sheli, Rubin-Blum, Maxim, Sobral, Paula, Kranzler, Chana F., and Oren, Matan

Subjects

MARINE pollution, ECOLOGICAL niche, SEAWATER, MICROPLASTICS, DIATOMS

Abstract

Marine plastic pollution poses a growing environmental threat, with microplastics accumulating in the global oceans. This study profiles the seasonal dynamics and taxonomic composition of the plastisphere, the microplastic ecosystem, in the Eastern Mediterranean Sea. Using long-read 16 S and 18 S metabarcoding, we analyzed offshore microplastic and whole seawater samples across each season over a two-year period. The analysis revealed a higher richness of prokaryotic communities on microplastics compared to seawater, which was predominantly composed of Proteobacteria and Bacteroidota and exhibited notable seasonal variability. Benthic eukaryotes were enriched on microplastics compared to the surrounding seawater. Diatoms (Bacillariophyceae), in particular, showed significant enrichment within the microplastic eukaryotic community with primarily pennate diatoms of Amphora, Navicula, and Nitzschia genera, whereas the seawater included mostly centric diatoms. Seasonal fluctuations were less pronounced in the microplastic communities than in seawater, highlighting the relative stability of this new human-made ecosystem. These findings underscore the unique ecological niche of microplastic-associated communities in marine environments. [ABSTRACT FROM AUTHOR]

Published

2024

46. Microplastics and nanoplastics in cardiovascular disease--a narrative review with worrying links.

Author

Haixiang Zheng, Vidili, Gianpaolo, Casu, Gavino, Navarese, Eliano Pio, Sechi, Leonardo A., and Youren Chen

Subjects

POISONS, CARDIOVASCULAR system, PLASTICS, POLLUTION, MYOCARDIAL infarction

Abstract

With the widespread use of plastic products and the increase in waste, microplastics and nanoplastics (MNPs) have become an important issue in global environmental pollution. In recent years, an increasing number of studies have shown that MNPs may have negative impacts on human health. This review aimed to explore the association between MNPs and cardiovascular disease and provide an outlook for future research. Research has shown that there may be a link between MNPs exposure and cardiovascular disease. Laboratory studies have shown that animals exposed to MNPs often exhibit abnormalities in the cardiovascular system, such as increased blood pressure, vascular inflammation, and myocardial damage. Epidemiological surveys have also revealed that people exposed to MNPs are more likely to suffer from cardiovascular diseases, such as hypertension and myocardial infarction. Although the specific impact mechanism is not fully understood, there are several possible pathways of action, including the effects of toxic substances on MNPs and interference with the endocrine system. In summary, MNPs exposure may have a negative impact on cardiovascular health, but further research is needed to confirm its specific mechanism and extent of impact to guide relevant public health and environmental policies. [ABSTRACT FROM AUTHOR]

Published

2024

47. Influence of soil microplastic contamination on maize (Zea mays) development and microbial dynamics.

Author

Igiebor, Francis Aibuedefe and Uwuigiaren, Nosa Jude

Subjects

HEAVY metal content of plants, SUSTAINABLE agriculture, COPPER, SOIL pollution, NUTRIENT cycles

Abstract

Background: Microplastics are contaminants in soil ecosystems that alter biophysical processes, affect plant growth, ecosystems and humans in the long run. This study was conducted to investigate the influence of soil microplastic contamination on the growth, development, and microbial dynamics of maize (Zea mays).Composite soil samples were collected from the farm from 0 to 10 cm depth. Physicochemical properties were assessed before maize seed sowing. Three soil weight categories were treated with 30 g, 20 g and 10 g microplastics. Soil physicochemical properties and heavy metal content in maize plants were analyzed. Morphological parameters, microbial counts, and microorganism identification were conducted. FTIR analysis was carried out in selected plant parts. Results: The study revealed a pH range of 5.00–6.70, electrical conductivity of 70–158 µS/cm, organic carbon and organic matter, total nitrogen, average phosphorus content, clay and silt content. The concentrations of heavy metals in plant parts were within WHO standard limits of 425.5 and 500 mg/kg for iron and manganese, but above the limits of 40, 60, and 350 mg/kg for copper, zinc and magnesium. The plant had various leaf sizes and heights, with chlorosis and necrotic activity ranging from 0.33 to 2.67, and a range of 1.33 to 6.33, respectively. Soil samples showed a total bacterial count (TBC) of 2.00 × 103 cfu/g to 7.60 × 104 cfu/g and a total fungal count (TFC) of 4.00 × 103 cfu/g to 2.20 × 104 cfu/g. Pseudomonas aeruginosa, Bacillus subtilis, Escherichia coli, Staphylococcus epidermidis, Proteus mirabilis and Bacillus cereus had percentage occurrences of 44.31, 21.17, 9.12, and 3.26%, respectively. Penicillium notatum was the most prevalent, while Fusarium spp. was the least prevalent. The FTIR analysis of maize seeds from soil samples A, B, and C revealed various organic compounds, with opium powder and streptomycin sulphate being the most abundant. The study revealed that pot B had the highest microplastic concentration at 1 WAS, while pot C had the lowest at 0.10 mg/kg, indicating a differential soil microplastic accumulation. Conclusion: Microplastics impact soil health, plant growth, and nutrient cycling, necessitating sustainable agriculture. Long-term research is needed to understand ecological and physiological impacts and explore remediation techniques. [ABSTRACT FROM AUTHOR]

Published

2024

48. Photochemical Aerobic Upcycling of Polystyrene Plastics.

Author

Skolia, Elpida, Mountanea, Olga G., and Kokotos, Christoforos G.

Subjects

PLASTIC scrap, SUSTAINABLE chemistry, BENZOIC acid, MICROPLASTICS, POLYSTYRENE, PLASTIC marine debris

Abstract

Although the introduction of plastics has improved humanity's everyday life, the fast accumulation of plastic waste, including microplastics and nanoplastics, have created numerous problems with recent studies highlighting their involvement in various aspects of our lives. Upcycling of plastics, the conversion of plastic waste to high‐added value chemicals, is a way to combat plastic waste that is receiving increased attention. Herein, we describe a novel aerobic photochemical process for the upcycling of real‐life polystyrene‐based plastics into benzoic acid. A new process employing a thioxanthone‐derivative, in combination with N‐bromosuccinimide, under ambient air and 390 nm irradiation is capable of upcycling real‐life polystyrene‐derived products in benzoic acid in yields varying from 24–54 %. [ABSTRACT FROM AUTHOR]

Published

2024

49. Impacts of micro and nanoplastics on human health.

Author

Jayavel, Sridhar, Govindaraju, Boopalakrishnan, Michael, Johni Rexliene, and Viswanathan, Balaji

Subjects

WASTE management, MICROPLASTICS, SALT, RESPIRATORY organs, FARM produce, PLASTIC marine debris

Abstract

Background: Plastics are the most flexible products developed with a wide range of applications. They have been incorporated into almost every aspect of daily life due to their strength and low weight. However, widespread use and inadequate waste management have resulted in the accumulation of tiny plastic particles throughout the environment. Main text: Microplastics are found in oceans, rivers, sediments, sewers, soil, and agricultural products, even in table salts. Human beings are affected by microplastics through food ingestion and inhalation. Incorporated microplastics may accrue within the body and affect gastrointestinal, immune, endocrine, brain, and respiratory systems. It also interferes with the functions of major organs and causes chromosomal abnormalities. Conclusion: Addressing the issue of micro and nanoplastics requires interdisciplinary research, sustainable solutions, and improved waste management systems. The main focus of this review is to cover the harmful effects and impact of microplastics on human health and stress the need for combating strategies. [ABSTRACT FROM AUTHOR]

Published

2024

50. Microplastics: an often-overlooked issue in the transition from chronic inflammation to cancer.

Author

Cheng, Yicong, Yang, Yang, Bai, Ling, and Cui, Jiuwei

Subjects

CARCINOGENESIS, TUMOR microenvironment, MICROPLASTICS, INFLAMMATION, CANCER invasiveness

Abstract

The presence of microplastics within the human body has raised significant concerns about their potential health implications. Numerous studies have supported the hypothesis that the accumulation of microplastics can trigger inflammatory responses, disrupt the microbiome, and provoke immune reactions due to their physicochemical properties. Chronic inflammation, characterized by tissue damage, angiogenesis, and fibrosis, plays a crucial role in cancer development. It influences cancer progression by altering the tumor microenvironment and impairing immune surveillance, thus promoting tumorigenesis and metastasis. This review explores the fundamental properties and bioaccumulation of microplastics, as well as their potential role in the transition from chronic inflammation to carcinogenesis. Additionally, it provides a comprehensive overview of the associated alterations in signaling pathways, microbiota disturbances, and immune responses. Despite this, the current understanding of the toxicity and biological impacts of microplastics remains limited. To mitigate their harmful effects on human health, there is an urgent need to improve the detection and removal methods for microplastics, necessitating further research and elucidation. [ABSTRACT FROM AUTHOR]

Published

2024