By the end of this year, we may have international, legally binding rules on how to reduce plastic pollution, and not a moment too soon. This could be a game-changer in combatting global plastic pollution. The fifth, and potentially final, session is coming up in the Republic of Korea in November. We’re taking a look at why it matters, what’s next, how it’s key for soil plastics to be considered for the treaty to meet the Sustainable Development Goals.
Why the UN Plastics treaty matters
It’s no longer news that plastic pollution, from litter to nanoparticles, contaminates every corner of our planet, from the polar ice caps to deep ocean trenches. Nano-plastics are deposited from the atmosphere, contaminating soil and water globally. In small quantities, we eat, drink and breathe them, and they are found inside human tissues from the brain to the placenta. The impacts of this on people, animals, and the environments on which we depend are becoming clearer.
Much like CFCs in the atmosphere, plastic pollution has no borders. Atmospheric CFCs are now in decline, thanks to international agreement on the Montreal Protocol. Global problems need global solutions, and the plastics treaty is an historic opportunity to address this worsening crisis. What’s more, currently, low- and middle-income countries carry a disproportionate burden of plastic waste, as the responsibility for recycling is often shipped offshore by wealthier countries, to those that don’t necessarily have the infrastructure to deal with it.
10 years ago, the public conversation on microplastics was focussed almost entirely on microbeads in exfoliant scrubs, toothpastes and makeup. There was a collective sense of despair at the absurdity that plastics were being intentionally being added to products that were then rinsed down drains and into waterways.
The media has been a lot quieter on the microbead front recently, and attention has turned to microplastics in the broader sense, such as fibres from clothes washing, and fragments from the erosion of plastic products. Despite the rising awareness of microplastics, microbeads were never banned, nor were other microplastics intentionally added to products which are released into the environment, such as polymer coated seeds and slow release fertilisers.
This, however, is changing with new EU legislation passed this week restricting intentionally added microplastics. Member states voted in favour of the Commission’s proposed bill to better control the use of microplastics, to lower their risk to the environment. The legislation, previously hit by delays, will target the 42,000 tonnes of microplastics intentionally put into products which ultimately end up in the environment annually. So, what does this mean for agriculture?
Read more: EU restricts intentional microplastic production. What does it mean for agriculture?
International Women's Day (08/03) provides a great opportunity for us to celebrate the many women involved in MINAGRIS, each of whom are contributing to investigating the impacts of micro- and nano-plastics on agricultural soil health. Above are just a few of the women involved in the project!
Photo credit: Canva
There is an increasing body of evidence demonstrating that plastics are now ubiquitous across the biosphere, with micro-plastics now detectable in even the remotest of environments. Micro-plastics are present in deep oceans, polar ice-caps, and agricultural soils across the world, whilst nano-plastics have even been found in the tissues and fruits of food-crops. Micro-plastics (plastic pieces under 5 millimetres (mm) in size), and nano-plastics (plastic particles under 1 micrometre (μm)) are pervasive globally. These micro- and nano-plastics are the result of the breakdown and shedding of plastic objects including machinery, vehicles and synthetic fabrics, or intentionally created and added to products such as paints, cosmetics and toothpastes.
Microplastics are inside us.
Research has found that micro-plastics, including nano-plastics, are routinely inhaled in dust in homes, workplaces and the wider environment, and ingested in our food and drink. Plastics have been found in shellfish, crop plant and animal tissues, and are known to migrate up the food chain. Micro-plastics have now been found in the urine, blood, placentas, and deep in the lung tissue of living people. Studies in mice have demonstrated that exposure to micro-plastics can cause them to accumulate in living tissues.
These new and potentially alarming findings lead to urgent questions around what, if any, the impacts on human health might be.
Available on IoS, Android, and in your desktop browser, the recently launched SoilPlastic App allows you to record your sightings of plastic in soils. With these records, you will help scientists to gain a better understanding of the impacts of plastic residues on soil health. This is a key area of research because we rely on our soils for producing 95% of our food. Access our quick-start guide here.