Ten ‘stealth microplastics’ to avoid if you want to save the oceans
MotionWorksFilmStudio / shutterstock
Dr Sharon George and Dr Deirdre McKay write for The Conversation UK
Theresa May’s new environment plan sets ambitious goals for plastic waste reduction. But there’s lots of room for slippage. One goal is to eradicate all “avoidable” plastic waste, though it’s not clear how “avoidable” will be defined. A few concrete measures are now in place, such as the 5p plastic bag charge being extended to cover all businesses in England. And, in order to tackle the spread of tiny plastic particles, the government recently announced a ban on microbeads in personal care products.
But such measures, even if adopted worldwide, wouldn’t actually wipe out these “microplastics” in the environment.
The problem is that all plastic ends up tiny. And it persists, no matter what its size. In the ocean, even the largest and most resilient bits of plastic are broken up and degraded by the waves and sunlight until eventually these chunks measure less than five millimetres across – about the size of an ant – and they are classed as “secondary microplastics”. This type of plastic, that started out as drinks bottles, fishing gear, disposable cutlery and so on, is much more abundant than “primary microplastics” that started out small, such as the microbeads found in toothpaste.
Microbeads are among the most familiar sources of tiny plastic pollution, but this means there are other less obvious sources of microplastics in everyday use. We call them “stealth microplastics”, and they include:
1. Tyres
KeongDaGreat / shutterstock
Tyres are made from rubber and around 60% plastic (styrene butadiene). The friction, pressure and heat of driving wears tyres down so much they produce an estimated average of 63,000 tonnes per year of plastic dust in the UK alone. If blown into the atmosphere, that dust can contribute to the poor air quality identified by the World Health Organisation (WHO) as a cause of premature deaths.
If it is washed into drains, rivers and oceans, it is likely to be eaten by filter feeders such as mussels, entering the human food chain. The industry could move back to natural latex, derived from rubber trees, but this too would have environmental costs: expanding rubber plantations are already “catastrophic” for endangered species in Southeast Asia.
2. Synthetic clothing
Outdoor gear, leggings, fleeces and jumpers made from acrylic and polyester, polyamide, spandex and nylon shed up to 700,000 microfibres with each wash. Once in water, microfibres are difficult to filter out and studies have shown that these fibres are now being found in tap water in many countries.
In the US, 94% of samples tested contained fibres. Airborne, from friction or dryer lint, they settle as dust that can be inhaled and it is thought that toxins from the fibres can be absorbed through the lungs. In the environment they are eaten by fish and other animals, often in preference to food. The solution? Fitting all washing machines with filters and choosing natural fibres.
3. Tennis balls
Daniele Gulla / shutterstock
Their fuzzy outer layer is made from PET (polyethylene terephthalate), the same material that’s used to make plastic milk bottles. Just like tyres, this plastic gets worn away with use, becoming dust.
4. Laundry and dishwasher pods/tablets
All kinds of detergents and disinfectants with scrubbing agents have microplastics such as polyethylene (PE) or polypropylene (PP). These are the same beads banned in cosmetics. It would be better to use a natural material such as ground coconut shell.
5. Cigarette butts
Filters are made from cellulose acetate, a non-biodegradeable plastic. They can shed microfibers and, once used, give off high levels of toxins, including nicotine. Cigarette butts are a serious pollutant in the oceans and are the most commonly recovered item in beach cleanups.
6. Glitter
Janine Aramillo / flickr, CC BY-SA
Beloved of kindergarten craft teachers, most glitter is made from PET or polyvinyl chloride film (PVC) and is very hard to dispose of. You could instead get biodegradable cellulose film glitter, made from eucalyptus trees.
7. Wet wipes
Baby wipes, hand wipes, make-up removing wipes, all of these products are typically made from polyester, polyethylene, and polypropylene – or a mixture of those plastics and natural fibres. Not only do they block sewers and cause “fatbergs”, the plastic doesn’t break down. They are also a source of plastic fibres. A traditional all-cotton flannel is the eco-friendly choice.
8. Tea bags
kay roxby / shutterstock
Not entirely biodegradable, many teabags actually contain a polypropylene “skeleton”. That skeleton then breaks into tiny pieces when the paper breaks down in the compost or soil. Ask the manufacturer if your brew is plastic-free or switch to loose-leaf tea.
9. Paint
Plastic dust from the thermoplastic paints used for road markings, ships and houses is found across the surface of the oceans. But not all paints contain plastics. Look for paints that use linseed oil or latex as binders.
10. Takeaway cups
Paper takeaway cups are lined with a layer of polyethylene. Like teabags, the paper element breaks down, but the plastic breaks up into tiny pieces if the cup is littered or composted. Mixed materials need to be handled by a specialist recycling facility. Or you could bring a refillable mug.
If we want to have a real impact, we need to address all plastic waste: that which we see and a lot that we can’t. There are some plastics we cannot live without, but others we could easily reject, replace or at least reduce.
This article was originally published on The Conversation. Read the original article.
Most read
- Astronomer from Keele helps take the first close-up picture of a dying star outside our galaxy
- Keele University signs official partnership with Cheshire College South & West
- Keele partners with regional universities to tackle maternity inequalities across the West Midlands
- Keele Business School MBA ranks in Top 40 for sustainability in prestigious global ranking
- Keele trains next generation of radiographers using virtual reality in regional first
Contact us
Andy Cain,
Media Relations Manager
+44 1782 733857
Abby Swift,
Senior Communications Officer
+44 1782 734925
Adam Blakeman,
Press Officer
+44 7775 033274
Ashleigh Williams,
Senior Internal Communications Officer
Strategic Communications and Brand news@keele.ac.uk.