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Micro(nano)plastics sources, fate, and effects: What we know after ten years of research
Journal of Hazardous Materials Advances2022
239 citations
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Score: 55
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Steve Allen
Tony R. Walker,
Tony R. Walker,
Steve Allen
Steve Allen
Steve Allen
Steve Allen
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Samaneh Karbalaei,
Samaneh Karbalaei,
Samaneh Karbalaei,
Samaneh Karbalaei,
Tony R. Walker,
Steve Allen
Tony R. Walker,
Steve Allen
Tony R. Walker,
Steve Allen
Samaneh Karbalaei,
Steve Allen
Samaneh Karbalaei,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Vittorio Maselli,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Deonie Allen,
Deonie Allen,
Samaneh Karbalaei,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Steve Allen
Deonie Allen,
Tony R. Walker,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Steve Allen
Deonie Allen,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Steve Allen
Steve Allen
Tony R. Walker,
Tony R. Walker,
Deonie Allen,
Deonie Allen,
Tony R. Walker,
Steve Allen
Samaneh Karbalaei,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Vittorio Maselli,
Tony R. Walker,
Tony R. Walker,
Samaneh Karbalaei,
Tony R. Walker,
Vittorio Maselli,
Vittorio Maselli,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Steve Allen
Steve Allen
Samaneh Karbalaei,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Deonie Allen,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Steve Allen
Samaneh Karbalaei,
Tony R. Walker,
Steve Allen
Deonie Allen,
Tony R. Walker,
Tony R. Walker,
Deonie Allen,
Steve Allen
Deonie Allen,
Vittorio Maselli,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Vittorio Maselli,
Tony R. Walker,
Tony R. Walker,
Steve Allen
Tony R. Walker,
Steve Allen
Deonie Allen,
Deonie Allen,
Vittorio Maselli,
Vittorio Maselli,
Tony R. Walker,
Tony R. Walker,
Steve Allen
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Vittorio Maselli,
Steve Allen
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Tony R. Walker,
Vittorio Maselli,
Tony R. Walker,
Deonie Allen,
Tony R. Walker,
Tony R. Walker,
Steve Allen
Samaneh Karbalaei,
Tony R. Walker,
Steve Allen
Steve Allen
Deonie Allen,
Tony R. Walker,
Steve Allen
Summary
Researchers summarized a decade of advances in micro- and nanoplastic (MnP) research, documenting how these particles have been found in every environment on Earth — including air, snow, soil, and human tissue — and in thousands of species, with confirmed harmful effects. The review highlights major breakthroughs in detection methods while noting that the full scope of health impacts, especially at the nano scale, is still being uncovered.
The last decade has been transformative for micro(nano)plastic (MnP) research with recent discoveries revealing the extent and magnitude of MnP pollution, even in the world's most remote places. Historically, while researchers recognized that most plastic pollution was derived from land-based sources, it was generally believed that microplastic particles (i.e., plastic fragments <5 mm) was only a marine pollution issue with effects largely impacting marine biota. However, over the last decade MnP research has progressed rapidly with recent discoveries of MnPs in freshwater, snow, ice, soil, terrestrial biota, air and even found in ocean spray. MnPs have now been found in every environmental compartment on earth, within tissues and gastrointestinal tracts of thousands of species, including humans, resulting in harmful effects. The last 10 years has also seen the development of new techniques for MnP analysis, and re-purposing of old technologies allowing us to determine the extent and magnitude of plastic pollution down to the nano size range (<1 µm). This short review summarizes what key milestones and major advances have been made in microplastic and nanoplastic research in the environment, including their sources, fate, and effects over the last decade.