Microfiber releasing into urban rivers from face masks during COVID-19

Face masks play a crucial protective role in preventing the spread of coronavirus disease during the COVID-19 pandemic, but the improper disposal of used face masks also causes an emerging environmental problem, such as microplastic contamination. Here, the aim was to evaluate the improper disposal of used face masks and, subsequently, the potential contribution to microplastic contamination in urban rivers. First, we investigated the occurrence of discarded face masks in Qing River through continuously one-month collection on-site, and the disposable masks with a density of (8.28 +/- 4.21) x 10-5 items/m2 with varying degrees of wear and tear were found. Next, the microfibers shedding from two popular types of new disposable masks were tested. The results showed that 50.33 +/- 18.50 items/mask of microfibers, ranging from 301 mu m to 467 mu m in size, were released from the disposal face mask after immersion in ultrapure water for 24-h. It was significantly higher than the KN95 respirator of 31.33 +/- 0.57 items/mask, ranging from 273 mu m to 441 mu m. Besides C and O elements only found in new face masks, some potentially toxic elements were also detected on the surface of discarded face masks, indicating that various environmental contaminations are easy to adsorb on the surface of discarded face masks. The results implied that these discarded face masks in an aquatic environment are emerging sources of microfibers and could act as transport vectors for contaminants, which would aggravate the present microplastic contamination. In conclusion, these findings were expected to raise public awareness of the proper disposal of used face masks to prevent microplastic contamination and the spread of COVID-19 in the environment.

Automated summary

Improper disposal of face masks contributes to microplastic contamination. Discarded face masks can release microfibers into aquatic environments, potentially becoming new sources of microplastic pollution. These masks also contain potentially toxic elements. These findings highlight the importance of proper disposal to prevent both microplastic pollution and the spread of COVID-19.