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Microplastics : a global threat on a microscale
Języki publikacji
Abstrakty
Microplastics, like nanoplastics, despite theirsmallsize, pose a seriousthreat on a globalscale due to their accumulation in increasing quantitiesin the environment. Due to the urgent need to take action, this topic has been growing in popularity in recent years and is increasingly being taken up by scientists. This article briefly presentsthe sources of microplastics, the potential threatsto plants, animals and humans posed by microplastics, as well as the directions and goals of currentscientific research undertaken by Polish scientists as part of projects financed by the National Science Centre.
Wydawca
Czasopismo
Rocznik
Tom
Strony
259--271
Opis fizyczny
Bibliogr. 34 poz., wykr.
Twórcy
autor
- Zakład Dydaktyki i Popularyzacji Nauki, Wydział Chemii, Uniwersytet Gdański
autor
- Zakład Dydaktyki i Popularyzacji Nauki, Wydział Chemii, Uniwersytet Gdański
autor
- Zakład Dydaktyki i Popularyzacji Nauki, Wydział Chemii, Uniwersytet Gdański
Bibliografia
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- [3] P.G.C. N.T. Pilapitiya, A.S. Ratnayake, The world of plastic waste: A review. Cleaner Materials, 2024, 11, 100220.
- [4] R. C. Thompson, Y. Olsen, R. P. Mitchell, A. Davis, S. J. Rowland, A. W. G. John, D. McGonigle, A. E. Russell, Lost at sea: Where is all the plastic?. Science, 2004, 304, 838.
- [5] Y. He, X. Deng, L. Jiang, L. Hao, Y. Shi, M. Lyu, L. Zhang, S. Wang, Current advances, challenges and strategies for enhancing the biodegradation of plastic waste. Science of The Total Environment, 2024, 906, 167850.
- [6] L.W. Wang, W.M. Wu, N.S. Bolan, D.C.W. Tsang, Y. Li, M.H. Qin, D.Y. Hou, Environmental fate, toxicity and risk management strategies of nanoplastics in the environment: current status and future perspectives. J. Hazard. Mater., 2021, 401, 123415.
- [7] N.A. Welden, The environmental impacts of plastic pollution. Plastic Waste Recycl., 2020, 8, 195.
- [8] A.A. Horton, Plastic pollution: When do we know enough?. Journal of Hazardous Materials, 2022, 422, 12688.
- [9] Y. Xiang, L. Jiang, Y. Zhou, Z. Luo, D. Zhi, J. Yang, S.S. Lam, Microplastics and environmental pollutants: Key interaction and toxicology in aquatic and soil environments. Journal of Hazardous Materials, 2022, 422, 126843.
- [10] R.C. Thompson, W. Courtene-Jones, J. Boucher, S. Pahl, K. Raubenheimer, A.A. Koelmans, Twenty years of microplastic pollution research—what have we learned?. Science, 2024, 386, 6720.
- [11] N.T. Pilapitiya, A.S. Ratnayake, The world of plastic waste: A review. Cleaner Materials, 2024, 11, 100220.
- [12] T. Hofmann, S. Ghoshal, N. Tufenkji, J. F. Adamowski, S. Bayen, Q. Chen, P. Demokritou, M. Flury, T. Hüffer, N. P. Ivleva, R. Ji, R. L. Leask, M. Maric, D. M. Mitrano, M. Sander, S. Pahl, M. C. Rillig, T. R. Walker, J. C. White, K. J. Wilkinson, Plastics can be used more sustainably in agriculture. Commun. Earth Environ, 2023, 4, 332.
- [13] D. Armada, M. Llompart, M. Celeiro, P. Garcia-Castro, N. Ratola, T. Dagnac, J. de Boer, Global evaluation of the chemical hazard of recycled tire crumb rubber employed on worldwide synthetic turf football pitches. Sci. Total Environ.. 2022, 812, 152542.
- [14] M. Bergmann, F. Collard, J. Fabres, Plastic pollution in the Arctic. Nat Rev Earth Environ, 2022, 3, 323.
- [15] I. E. Napper, B. F. R. Davies, H. Clifford, S. Elvin, H. J. Koldewey, P. A. Mayewski, K. R. Miner, M. Potocki, A. C. Elmore, A. P. Gajurel, R. C. Thompson, Reaching new heights in plastic pollution—Preliminary findings of microplastics on Mount Everest. One Earth, 2020, 3, 621.
- [16] M. Tariq, B. Iqbal, I. Khan, Microplastic contamination in the agricultural soil-mitigation strategies, heavy metals contamination, and impact on human health: a review. Plant Cell Rep, 2024, 43, 65.
- [17] B. Iqbal, T. Zhao, W. Yin, X. Zhao, Q Xie, KY Khan, D. Du, Impacts of soil microplastics on crops: a review. Appl Soil Ecol, 2023, 181, 104680.
- [18] W. Yang, P. Cheng, C.A. Adams, S. Zhang, Y. Sun, H. Yu, F. Wang, Effects of microplastics on plant growth and arbuscular mycorrhizal fungal communities in a soil spiked with ZnO nanoparticles. Soil Biol Biochem, 2021, 155, 108179.
- [19] Y. Xiang, L. Jiang, Y. Zhou, Z. Luo, D. Zhi, J. Yang, S.S. Lam, Microplastics and environmental pollutants: key interaction and toxicology in aquatic and soil environments. J Hazard Mater, 2022, 422, 126843.
- [20] E. Holden, K. Linnerud, D. Banister, The imperatives of sustainable development. Sustain Dev, 2017, 25, 213.
- [21] H. Yu, P. Fan, J. Hou, Q. Dang, D. Cui, B. Xi, W. Tan, Inhibitory effect of microplastics on soil extracellular enzymatic activities by changing soil properties and direct adsorption: an investigation at the aggregate-fraction level. Environ Pollut, 2020, 267, 115544.
- [22] M. MacLeod, H.P.H. Arp, M.B. Tekman, A. Jahnke, The global threat from plastic pollution. Science, 2021, 373, 61.
- [23] J. Wu, W. Liu, A. Zeb, J. Lian, Y. Sun, H Sun, Polystyrene microplastic interaction with Oryza sativa: toxicity and metabolic mechanism. Environ Sci Nano, 2021, 8, 3699.
- [24] Y. Dong, M. Gao, W. Qiu, Z. Song, Uptake of microplastics by carrots in presence of As (III): combined toxic effects. J Hazard Mater, 2021, 411, 125055.
- [25] R. Zhu, Z. Zhang, N. Zhang, H. Zhong, F. Zhou, X. Zhang, C. Liu, Y. Huang, Y. Yuan, Y. Wang, C. Li, H. Shi, M.C. Rillig, F. Dang, H. Ren, Y. Zhang, & B. Xing, A global estimate of multiecosystem photosynthesis losses under microplastic pollution. Proc. Natl. Acad. Sci. U.S.A., 2025, 122,11. [26] H. Zhuang, X. Liu, H. Ma, R. Li, B. Liu, Z. Lin, Z. Li, Growth and physiological–biochemical characteristics of cucumber (Cucumis sativus L.) in the presence of different microplastics. Arab J Geosci, 2023, 16, 194.
- [27] W. Huang, B. Song, J. Liang, Q. Niu, G. Zeng, M. Shen, Y. Zhang, Microplastics and associated contaminants in the aquatic environment: a review on their ecotoxicological effects, trophic transfer, and potential impacts to human health. J Hazard Mater, 2021, 405, 124187.
- [28] G.E. Torre, Microplastics: an emerging threat to food security and human health. J Food Sci Tech, 2020, 57, 1601.
- [29] K. Liu, X. Wang, Z. Song, N. Wei, H. Ye, X. Cong, L. Zhao, Y. Li, L. Qu, L. Zhu, F. Zhang, C. Zong, C. Jiang, D. Li, Global inventory of atmospheric fibrous microplastics input into the ocean: An implication from the indoor origin. Journal of Hazardous Materials, 2020, 400, 123223.
- [30] S. Ohlwein, R. Kappeler, J.M. Kutlar, N. Künzli, B. Hoffmann, Health effects of ultrafine particles: a systematic literature review update of epidemiological evidence. Int J Pub Health, 2019, 64, 547.
- [31] J.C. Prata, Airborne microplastics: consequences to human health?. Environ Pollut, 2018, 234, 115.
- [32] M. Schneider, F. Stracke, S. Hansen, U.F. Schaefer, Nanoparticles and their interactions with the dermal barrier. Dermatoendocrinol, 2009, 1, 197.
- [33] A.J. Nihart, M.A. Garcia, E. El Hayek, Bioaccumulation of microplastics in decedent human brains. Nat Med, 2025, 31, 1114.
- [34] Projekty finansowane przez NCN | Narodowe Centrum Nauki, przeglądano 14.04.2025
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2025).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-282020c1-f646-4836-b414-6f8f83e8f360
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