This past summer, I spent a morning hunting for shrimp and prawns on a remote beach in Scotland. It was the kind of ritual interaction with nature that modern people have long prized: wading through tidal pools at the edge of a rough ocean, I felt I was stepping beyond the margins of the human world, into some purer, wilder element. And yet, as I sat sifting and cleaning the tiny crustaceans I’d gathered, I struggled to suppress a disturbing thought. It is very likely those organisms contained microscopic pieces of plastic.
Over the last two decades, it has become increasingly clear that plastic is everywhere. While the material is largely resistant to decomposition, it does degrade and shed small fragments, known as microplastics, which vary in size from millimetres down to microns and nanometres. These are now part of the fabric of our physical world. They have found their way into fresh Antarctic snow, and are accumulating in the deepest regions of the ocean. They are present up and down marine food-chains, and in agricultural soil. In Florida, plastic accounts for more than 1% of the body weight of some hatchling sea turtles.
The alleged microplastic discoveries extend deep into our own bodies as well, in a morbid list of nouns: lungs, heart, liver, intestines, blood, semen, penises, testes, placenta, breast milk. Most recently, their presence has been reported in the olfactory bulb of the brain. And the build-up of plastic is only going to grow. We produce more than 400 million metric tonnes of it every year, and that is predicted to increase by 70% by 2040. Plastics are now used in an enormous range of products — in clothes and carpets, paint and pipes, buildings and roads, tea bags and cigarette filters. Very little is recycled: less than 5% in the United States, which is by some margin the biggest consumer of plastic on a per-person basis. In any case, it would be more accurate to say down-cycled, since most discarded plastic can only be reconstituted in lower-grade forms. According to a widely cited estimate, the equivalent of a truckload of plastic waste enters the ocean every minute.
If some of this will end up in our bodily tissues, the question, naturally, is how harmful it is. The answer is that we aren’t sure. Various pathologies caused by plastic ingestion have been observed in wild animals, such as the scarring of sea birds’ digestive tracts. Plastic shreds can also act as vectors for toxic, hormone-disrupting chemicals such as Phthalates and Bisphenol A, which are used in the fabrication process. Lab studies have linked microplastics to a range of nasty-sounding effects, but the extent to which these are occurring inside the body is still unclear. Microplastics may help to explain falling sperm counts, neurodegenerative diseases and rising cancer rates in young people — but then again, they may not.
For the time being, then, microplastics are as much a cultural phenomenon as a medical one. With so much uncertainty surrounding their effects, they tell us more about the anxieties that lurk in our minds than the health of our bodies. In fact, they tell us something important about our relationship with the modern world itself.
Plastic has a claim to be one of the great human achievements of the past century. In 1941, two British chemists anticipated the coming age of “Plastic Man”, who would live in a world where “man, like a magician, makes what he wants for almost every need”. In the following decades, as scientists learned to arrange hydrogen and carbon atoms in long chains of molecules, known as polymers, they gradually made this vision a reality. For the first time, human beings could make materials with properties of their choosing, whether firm or malleable, wearable or tearable, waterproof, heatproof or indeed bulletproof.
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SubscribeA good piece highlighting the conundrum of reality. Always an upside and a downside. Such is life.
The level of the ability of science to find micro things is beyond the ability of humans to process in a positive fashion.
There is a natural precedent for modern plastics.
About 450 million years ago plant evolution created lignin. A strong and entirely rot-proof organic polymer, no organism on earth could degrade lignin and consume it. Armoured by lignin against fungi, lignin-making plants spread across the planet. They lived and died but only partly decayed, their lignin “skeletons” accumulated in vast quantities on the ground. This ended 250 million years ago when fungi evolution created the biodegradation mechanism to consume lignin.
Between 450 and 250 million years ago is when most of the earth’s coal, oil and methane was formed. These fossil fuels are the remnants of plants that died then but did not fully decay. The exact role played by the inability of nature to degrade lignin is still debated, but we can be certain a proportion of our fossil fuels at least in part exist because there was no fungi to consume the accumulation of dead plants during this period.
It is somewhat ironic that non-biodegradeable polymers from more than 250 million years ago are today giving rise to new non-biodegradeable polymers (plastics). And like lignin, the more plastics that accumulate in the environment, the more likely evolution will create fungi able to consume them. If we think plastic waste is a problem, imagine a future where plastic rots as easily as wood…
Interesting, never heard that before. And I worked on coal research.
The idea of microplastics as something to measure dates to the early 2000s. It was measured for interest sake. But having being measured, it needed perennially worried people, and people chasing grant money, to decide it could be a concern. There was no epidemiology that it causes problems. In that way it’s a bit like anti-mobile-phone-signal mania. It is measurable, but we have yet to identify a harm. And oddly enough, the more that plastic in the environment is studied, the more scientists find processes and microbes that are able to break down plastic.
There is never any epidemiology to show problems until those problems start. Same with smoking, same with being fat.
The idea that Science will come up with something is like the NetZero fiasco: we can’t store wind power but science will come up with something. Then disaster when it doesn’t. I would argue that micro plastics could be more important for future generations than any global temperatures.