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Perilous plastic

2021-11-21 13:50  瀏覽數:1329  來源:小键人3467959    

Microplastics in household dust could promote antibiotic resistance
Polyester and nylon seem to be common sources
Plastics are man-made materials that are unnatural to this world,
but that does not stop the natural world from interacting with them.
Indeed, dozens of studies show that when plastics get into the sea many
ocean-dwelling microorganisms aggressively colonise them.
This might help break plastics down, but these oceanic colonies are
also hotbeds of antibiotic-resistant genes.
Now, it seems, something similar might be going on in the dark recesses of your home.
Lei Wang suspected as much, and along with his colleagues at
Nankai University in Tianjin, China, set out to gather the necessary evidence.
Their search began at an apartment building in Tianjin.
The plastics Dr Wang was concerned about are the tiny bits that break away from
synthetic fibres, like polyester and nylon, commonly found in clothing
and other textiles. The microplastics then accumulate around the home as dust.
He reasoned that if these particles were being colonised by bacteria then they
too might be harbouring antibiotic-resistant genes.
The researchers chose ten homes in the apartment block,
each with just one male tenant. Each apartment had hard flooring,
rather than any carpets, and a similar general layout.
A team used sterilised brooms to sweep the bedrooms and to collect
dust samples as they went. These samples were then brought back to the lab
and analysed for microplastics, bacteria and antibiotic-resistant genes.
As they report in Environmental Science and Technology,
21 types of microplastics were found, the most common from polyester and nylon.
Using dna extracted from microbes, they identified 1,385 genera of bacteria
along with 18 genes associated with antibiotic resistance.
The analysis also revealed that the apartments with dust that were rich in
microplastics had bacterial communities that were different from those apartments
with dust that did not contain as many microplastics. Crucially,
the work also showed that the relative abundance of antibiotic-resistant genes
was higher in the presence of microplastics than it was when these were less common.
Precisely why microbes dwelling with plastics are more likely to carry
antibiotic-resistant genes is not clear. It is possible that plastics themselves
are driving bacteria to develop this trait. The researchers suggest, however,
that it is more likely that specific groups of bacteria are capable of eking out
a living on plastics, and these bacteria also happen to be of a type
that more readily develop antibiotic resistance.
To support this argument, Dr Wang points out that Proteobacteria is both
highly antibiotic-resistant and also commonly found encrusting oceanic plastics.
Members of this same phylum were the most common type found among the
polyester and nylon fibres swept up in the apartments, too. This suggests that,
just as plastics are changing the nature of bacterial communities out at sea,
they are also changing them within homes. How much of a threat this will
ultimately be to human health is not known, but it cannot be doing people much good.



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