Perspectives and challenges of micro/nanoplastics‐induced toxicity with special reference to phytotoxicity

Maity, Suman Kalyan; Pramanick, Kousik

doi:10.1111/gcb.15074

Cited by 111 publications

(48 citation statements)

References 83 publications

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“…Owing to the long-term persistence of plastics in the environment, their accumulation is one of the most widespread and long-lasting anthropogenic changes to the Earth's surface. Once in the environment, large plastic debris gradually degrades into smaller pieces through weathering and other disintegration processes [2][3][4][5], which can further increase their dispersion and incorporation into the soil [6][7][8]. Microplastics are generally defined as plastic particles with diameters less than 5 mm [9].…”

Section: Introductionmentioning

confidence: 99%

Microplastics negatively affect soil fauna but stimulate microbial activity: insights from a field-based microplastic addition experiment

et al. 2020

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Microplastics are recognized as an emerging contaminant worldwide. Although microplastics have been shown to strongly affect organisms in aquatic environments, less is known about whether and how microplastics can affect different taxa within a soil community, and it is unclear whether these effects can cascade through soil food webs. By conducting a microplastic manipulation experiment, i.e. adding low-density polyethylene fragments in the field, we found that microplastic addition significantly affected the composition and abundance of microarthropod and nematode communities. Contrary to soil fauna, we found only small effects of microplastics on the biomass and structure of soil microbial communities. Nevertheless, structural equation modelling revealed that the effects of microplastics strongly cascade through the soil food webs, leading to the modification of microbial functioning with further potential consequences on soil carbon and nutrient cycling. Our results highlight that taking into account the effects of microplastics at different trophic levels is important to elucidate the mechanisms underlying the ecological impacts of microplastic pollution on soil functioning.

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Section: Introductionmentioning

confidence: 99%

Microplastics negatively affect soil fauna but stimulate microbial activity: insights from a field-based microplastic addition experiment

et al. 2020

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“…MPs and NPs change soil properties and bacterial communities. Rhizobia can potentially change with changes in the soil matrix [166]. The ingestion of MPs by soil organisms could influence bacterial diversity; e.g., Zhu et al reported that in the collembolan gut, MPs potentially enhanced bacterial diversity, possibly due to a move in feeding after MP exposure [102].…”

Section: Interaction With Soil Microbesmentioning

confidence: 99%

Uptake and Accumulation of Nano/Microplastics in Plants: A Critical Review

et al. 2021

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The ubiquitous presence of microplastics (MPs) and nanoplastics (NPs) in the environment is an undeniable and serious concern due to their higher persistence and extensive use in agricultural production. This review highlights the sources and fate of MPs and NPs in soil and their uptake, translocation, and physiological effects in the plant system. We provide the current snapshot of the latest reported studies with the majority of literature spanning the last five years. We draw attention to the potential risk of MPs and NPs in modern agriculture and their effects on plant growth and development. We also highlight their uptake and transport pathways in roots and leaves via different exposure methods in plants. Conclusively, agricultural practices, climate changes (wet weather and heavy rainfall), and soil organisms play a major role in transporting MPs and NPs in soil. NPs are more prone to enter plant cell walls as compared to MPs. Furthermore, transpiration pull is the dominant factor in the plant uptake and translocation of plastic particles. MPs have negligible negative effects on plant physiological and biochemical indicators. Overall, there is a dire need to establish long-term studies for a better understanding of their fate and associated risks mechanisms in realistic environment scenarios for safe agricultural functions.

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“…Following the NPs diffusion in the environment, all animal species can be involved in a direct way by ingestion and through the bio-magnification [19]. The plant kingdom is also included within the study because it is closely related to soil pollution [111,112] therefore sampling biological matrices to understand dose-effects of NPs is fundamental for wildlife safeguard.…”

Section: Biologicalmentioning

confidence: 99%

“…They can also interact with membrane proteins and transport of ions. The main ways through which NPs and plant can interact are: cell wall and cuticle by passive transport; proteins on the membrane by diffusion facilitated; endocytosis; plasmodesmata by intercellular translocation; stomata [111]. Laboratory test exposure of plants to NPs has basically the same procedure as animals.…”

Section: Biologicalmentioning

confidence: 99%

Searching Nanoplastics: From Sampling to Sample Processing

2021

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Nanoplastics (NPs) are considered emerging pollutants, namely unregulated contaminants whose toxic effect on humans and the environment has been demonstrated or suspected. They are the result of the physical fragmentation of the plastics that over time reach smaller dimensions (<100 nm). The issues related to the characterization and quantification of NPs in the environmental matrices are mainly related to the infinitesimal size, to the fact that they are found in bulk, and to the different physico-chemical forms in which the same polymer can evolve over time by degradation. To deal with the study of a new class of pollutants it is necessary to assess the entire analytical method, carefully considering every single step (sampling, cleanup, qualitative, and quantitative analysis) starting from the validation method in the laboratory. This paper reviews the analytical method steps, focusing on the first ones, which the current literature often underestimates: laboratory tests, sampling, and sample processing; in fact, most errors and the quality of the analyses often depend on them. In addition, all newly introduced sample processing methods were examined.

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Perspectives and challenges of micro/nanoplastics‐induced toxicity with special reference to phytotoxicity

Cited by 111 publications

References 83 publications

Microplastics negatively affect soil fauna but stimulate microbial activity: insights from a field-based microplastic addition experiment

Microplastics negatively affect soil fauna but stimulate microbial activity: insights from a field-based microplastic addition experiment

Uptake and Accumulation of Nano/Microplastics in Plants: A Critical Review

Searching Nanoplastics: From Sampling to Sample Processing

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