Adsorption of Different Pollutants by Using Microplastic with Different Influencing Factors and Mechanisms in Wastewater: A Review

Zhao, Meng; Huang, Lei; Arulmani, S.; Jia, Yan; Wu, Lirong; Wu, Tao; Zhang, Hongguo; Xiao, Tangfu

doi:10.3390/nano12132256

Cited by 38 publications

(9 citation statements)

References 134 publications

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“…This research is also significant regarding microplastic absorption into the food chain and, by extension, its impact on human health. By contrast, microplastics are used consciously for pollutant adsorption in sewage treatment, and adsorption technology combined with microplastics is improved increasingly in other environmental treatment applications (Zhao et al 2022 ). Adsorbent materials with a recyclability property for the removal of organic pollutants also exist (Singh and Vaish 2019 ).…”

Section: Background and Motivationmentioning

confidence: 99%

An alternative numerical approach for an improved ecological model of interconnected lakes with a fixed pollutant

2023

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There is currently an undeniable demand for solutions to environmental issues, especially water pollution. Water is essential for life and lakes constitute a big portion of water sources. In this study, we introduce a modified numerical approach to a dynamic ecological model focused on a lake pollution problem. The model includes three connected lakes with certain parameters and unknown functions such as pollution quantities and lake volumes. First, a preliminary mathematical analysis of the variables of each lake is presented taking into account the system components and parameters. Then, we present our numerical approach considering a series expansion to approximate the problem with the help of the truncated Taylor series. We describe a convergent technique, and finally, demonstrate the numerical simulations of the approach for the different unknowns with appropriate parameters. According to the results, the application of our alternative approach to the lake pollution problem is successful in terms of producing highly accurate information outputs about pollutant quantities a better approximation than the previously studied numerical approaches for the unknown functions of time. Furthermore, it is applicable to other similar ecological and environmental dynamic systems, and to related fields.

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Section: Background and Motivationmentioning

confidence: 99%

An alternative numerical approach for an improved ecological model of interconnected lakes with a fixed pollutant

2023

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“…Microfiber released from textile wastewater is considerably higher than from municipal sewage treatment plants, heavily contributing to microfiber pollution. The microfiber concentration was up to 54,100 microfibers/L in textile printing and dyeing wastewater sampled in three typical textile mills in Keqiao textile industrial park in southeast China (Zhou et al 2020 ). Correspondingly, the effluents from the centralized wastewater treatment plants (WWTPs) of the same park reached as high as 537 microfibers/L, which means that 430 billion microfibers were discharged daily by WWTPs (Zhou et al 2020 ).…”

Section: Potential Sources Of Microfiber Pollutionmentioning

confidence: 99%

“…The microfiber concentration was up to 54,100 microfibers/L in textile printing and dyeing wastewater sampled in three typical textile mills in Keqiao textile industrial park in southeast China (Zhou et al 2020 ). Correspondingly, the effluents from the centralized wastewater treatment plants (WWTPs) of the same park reached as high as 537 microfibers/L, which means that 430 billion microfibers were discharged daily by WWTPs (Zhou et al 2020 ). Microfiber released from textile wastewater is considerably higher than municipal sewage treatment plants, significantly contributing to microfiber pollution (Liu et al 2021 ).…”

Section: Potential Sources Of Microfiber Pollutionmentioning

confidence: 99%

“…Additionally, more than 100,000 chemical additives, such as natural and synthetic dyes, softening, ultraviolet protective, and antimicrobial and antiviral agents, have been widely used during fiber, yarn, and fabric manufacturing or finishing processes to endow some special functional properties to textiles, for example, dope additives, including but not limited to plasticizers, dyes, pigments, fire retardants, and UV absorbers, which might be ecotoxic. Considering that microfibers in the marine environment are the reservoirs for antibiotic, metal-resistance genes (Akhbarizadeh et al 2020a ) and microbial communities (Mishra et al 2022 ; Yang et al 2019 ), the toxic substances adhering on or released from microfibers may threaten the survival, feeding, and fecundity of marine organisms, and represent a great risk for marine biodiversity (Guzzetti et al 2018 ; Vroom et al 2017 ).…”

Section: Microfibers In the Oceanmentioning

confidence: 99%

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Microfiber Pollution in the Earth System

Liu

et al. 2022

Reviews Env.Contamination (formerly:Residue Reviews)

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Microfibers, as emerging contaminants, pose a growing threat to the global environment. Microfiber pollution has been one of the hot research topics in environmental science. However, there is no consensus on microfiber definition from ecological and environmental perspectives. The underestimated sources, the distribution in the ocean and the atmosphere, the transport pathway, the potential human exposure, and mitigation strategies of microfibers from a global perspective have not been systemically discussed. So, we aim to discuss and analyze these concerns in this review. Firstly, the definition of microfiber pollutants from the ecological and environmental perspectives is proposed. Secondly, the largest source and some emerging sources of microfibers on the Earth have been explored. Thirdly, the distribution and transmission path of microfibers in the ocean and the atmosphere are discussed. Fourthly, the exposure path of microfibers to the human body is analyzed. Lastly, some applicable measures to control microfiber pollution are proposed from global environmental sustainable development perspectives.

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“…Once released into the environment plastics pose severe risks: beside physical damage, plastic additives, such as phthalates or bisphenol A, can act as endocrine inhibitors and potentially alter hormone signalling affecting metabolism and reproduction [3]. Moreover, the hydrophobic surface of plastics is suspected to provide protective conditions for invasive and harmful microbes, growing in the "plastisphere" [4] and absorbs varieties of harmful agents, such as pesticides, heavy metals and antibiotics [5]. Size and properties of nanoparticles allow adsorption, transfer and accumulation in and within organisms and even cells, hence posing risks for the entire food web, including humans [2].…”

Section: Introductionmentioning

confidence: 99%

The removal capacities of three filamentous fungi to remediate floating microplastic particles

Mutschlechner,

Metnitzer,

Wagner

et al. 2023

Preprint

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Plastic pollution is known to exert significant negative impacts on the entire food web which, in turn, affects humans. Microorganisms are capable of breaking down released polymers, however full degradation of polymers in situ is long-lasting, estimated to take place within hundreds to thousands of years. On the contrary, passive removal, e.g. through surface adhesion on living biota, can remediate polluters within hours to days rather than years. In this study, the potential of three filamentous fungi namely Aspergillus niger, Aspergillus terreus and Penicillium rubens was investigated to remediate polyamide particles of 5 µm size from a liquid environment. Thermogravimetric analysis revealed removal capacities of 59 to 67% within 24 to 72 hours. Microscopic examinations allowed to visualize that the particles were tightly attached to fungal hyphae, consequently overgrown by succeeding layers of mycelium to restrain particles within the fungal pellet. These findings reveal great potential for future mycelia-based applications such as regenerative and sustainable “biofilters” to clear flowing water.

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Adsorption of Different Pollutants by Using Microplastic with Different Influencing Factors and Mechanisms in Wastewater: A Review

Cited by 38 publications

References 134 publications

An alternative numerical approach for an improved ecological model of interconnected lakes with a fixed pollutant

An alternative numerical approach for an improved ecological model of interconnected lakes with a fixed pollutant

Microfiber Pollution in the Earth System

The removal capacities of three filamentous fungi to remediate floating microplastic particles

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