Skip to main contentSkip to navigationSkip to navigation
water gif
‘Our ingenuity in developing plastics has led to a bewildering variety of possible culprits to test — more than any scientist can ever hope to explore.’ Photograph: Grist/Amelia Bates/Alberto Zanoni/EyeEm/Getty Images
‘Our ingenuity in developing plastics has led to a bewildering variety of possible culprits to test — more than any scientist can ever hope to explore.’ Photograph: Grist/Amelia Bates/Alberto Zanoni/EyeEm/Getty Images

Island of garbage: the all-female voyage to battle Earth's plastic crisis

This article is more than 5 years old

Plastic is everywhere, and it’s not going anywhere – potentially posing serious risks to our health. A crew of scientists and activists is conducting a hands-on investigation

When I arrive at the marina in Victoria on a late-July morning, the sky and water are complementary shades of azure. On the deck of the 72ft shiny-bright Sea Dragon, moored here in the island capital of British Columbia for just one day, are four young women, part of the crew of the research voyage “eXXpedition”. They’re hauling buckets of black sludge up to the deck from the ocean floor.

The team will meticulously pack the wet sand from the harbor floor into little glass jars. These jars will be added to a library of sand, water and air samples that they’ve collected over the past six weeks from across the north Pacific. They’ll ship some of those samples off to Plymouth, England, to be analyzed by eXXpedition’s marine scientist Imogen Napper. The idea is that by cataloging this library, she and the team will begin to get a better sense of what kind of plastic is out there in the ocean.

grist embed

There is a whole lot of it. The Sea Dragon, with an all-woman crew of 14, launched from Hawaii in mid-June, traversing a part of the north Pacific gyre known as the “Great Pacific Garbage Patch”, a swirling mass of trash the size of two Texases. The name conjures the image of great islands of refuse gently bumping up against each other, like a Waterworld made of old tires and sandwich bags. But, as the eXXpedition founder, Emily Penn, tells me, it’s really more of a plastic soup, trillions of little bits and particles seasoning a million square miles of ocean.

Meg Tapp (left), Laura Leiva, and Imogen Napper collect samples from the floor of the marina in Victoria, British Columbia. Photograph: Eve Andrews/Grist

“When we sailed into the southern edge of the Gyre, we started to see a piece of plastic over the side of the boat every 10 seconds – a cigarette lighter, a bottle,” she said. “Then when you wake up the next morning, and it’s still going, and wake up seven days later, and it’s still going, and you’re 800 miles from the nearest human being – it’s that relentlessness that’s just so overwhelming.”

The eXXpedition is trying to make sense of that relentlessness. The women, a mix of scientists, sailors, writers and activists, collected those samples of plastic from the air, water and ocean floor to be analyzed not just in Napper’s lab but in others across the world. The point is that this problem is far larger than the north Pacific – plastic is found throughout all the oceans, in fish, in turtles, in shellfish, everywhere.

The samples that eXXpedition collected will help us understand how plastic might pick up other pollutants, like pesticides and industrial waste, and transfer them to humans through the food chain.

One major mystery: what all these bits of plastic might be doing to us. For every tidbit of understanding we gain about the health consequences of chemicals released by plastics, there remains a gyre-sized quantity of unknowns. But a growing body of evidence suggests some chemicals commonly found in many plastics are associated with everything from cancer to underdeveloped genitalia to obesity.

You’ve probably already heard about compounds like bisphenol A, which seeps into food and drinks from plastic bottles and canned-food liners – and has been tentatively linked to breast and prostate cancer. There are many others. Some are merely suspected to be bad for human health; others are known to be dangerous.

They are scattered all around us – and even within us.

In particular, some of the substances that stick to plastics, seep out of them, or are released when they decay are endocrine-disrupting chemicals (EDCs), meaning that they interfere with the normal function of hormones in the human body. Some may contribute to cancer. They may also cross from a pregnant woman’s body into her fetus, potentially changing the way a baby develops.

It’s that last possible consequence of plastic junk that made Penn decide to found eXXpedition as an all-women’s endeavor. Men get these chemicals inside them as well, but “for women,” she said, “it felt like it was a greater significance because we’re passing them on to the next generation”.

The scientific exploration of the hormonal effects of compounds in plastics dates back to July 1991, when the physician and biologist Ana Soto attended a conference on the potential effects of chemical exposure on human sexual development. Her lab had made an important discovery: the suppliers of a plastic tube used in the lab had changed the tube’s formula to make it stronger. The researchers noticed that the nutrient mixture they stored in these new tubes was causing cells in their test cultures to proliferate when they hadn’t before. Soto and Sonnenschein figured out the cells were responding to a compound leaching from the new tubes, nonylphenol, as if it were estrogen.

This was the first compound in plastic ever identified as an “endocrine disruptor”, a term Soto and 20 other researchers introduced at the conference to refer to synthetic chemicals that interfere with hormone signals.

Your endocrine system includes glands like your thyroid, pancreas and sex organs, which release hormones that attach to receptors on the cells of your brain and organs, instructing your body how to behave or how to turn food into energy. In particular, these hormones coordinate growth and development. If you interfere with the activity of a hormone just a little bit, you can make big changes in how the body develops.

Exposure to sex hormones in the wrong quantity and at the wrong time may increase the likelihood that a person could one day develop cancer. Once Soto and her colleagues discovered what nonylphenol was doing, they suspected that it and other compounds that acted like sex hormones could also increase a person’s risk of cancer.

Soto’s research on endocrine disruptors has helped produce a body of evidence that prenatal exposure to EDCs is tied to a higher incidence of various disorders. Animal experiments link prenatal EDC exposure to a higher incidence of altered behavior and cancer.

Emily Penn, far left, talks with the eXXpedition crew members Elise Chappell, Becca Finlayson, Meg Tapp, and Sarah Michler. Photograph: Eve Andrews/Grist

Rolf Halden, of Arizona State University’s Biodesign Institute, says scientists studying plastic pollution are generally confident of the mechanisms by which EDCs are toxic to the human body: they imitate hormones and mess up the signals in our bodies.

In terms of everyday exposures to EDCs from plastics, however, the evidence isn’t always as clear. Ruthann Rudel, a toxicologist with the Silent Spring Institute who researches the impact of environmental chemicals on breast cancer, recently oversaw a review of studies of environmental factors that cause breast cancer, including endocrine disruptors in plastics. None of the studies were able to overcome two major obstacles – the lack of a control group, since everyone is already exposed, and the decades it can take for health problems to become clear.

“There wasn’t a human study that we thought was informative about plastics-related chemicals and breast cancer, although evidence from laboratory studies continues to raise concerns,” she said.

The official position of the Endocrine Society, the largest international medical organization devoted to endocrinology, is that there is a “possibility that low-level environmental exposure may still have significant and/or long-term biological impact”.

Just that possibility is concerning considering that the list of endocrine-disrupting chemicals now includes some phthalates – a component in many plastics, like Saran wrap, that makes them soft and pliable – which have been banned from products for small children in the European Union and are now starting to be phased out of products there and in the US. An estimated 1,000 others, many derived from plastics, are suspected to also interfere with normal hormonal function.

The problem is that our ingenuity in developing plastics has led to a bewildering variety of possible culprits to test – more than any scientist can ever hope to explore. “If we have to do all the research that we have done to determine endocrine-disrupting characteristics of BPA and nonylphenol and some phthalates, we will exterminate the rats and mice produced for research,” Soto said.

It’s a bigger job than researchers, studying one compound at a time, can hope to finish. That’s why Emily Penn believes that her work – sailing the world to build knowledge about plastics in the ocean, and get people to care about the problem – can make a difference. They cannot answer all those questions, but she and her crew can at least begin to raise the alarm about how much of this stuff is out there, what’s in and on it, and what impact it might have.

Left: a sample of the plastic pieces collected throughout the eXXpedition voyage. Right: mud from the Victoria marina floor, which will be shipped to the UK for analysis to determine what plastic materials and pollutants are in it. Photograph: Eve Andrews/Grist

In the cramped common room below deck on the Sea Dragon, a table is scattered with Petri dishes containing pebbles of plastic in cobalt, lime, cream, and rose. They range between ice cream-sprinkle-sized and pea-sized and have all come out of samples of water or sludge. Laura Leiva, a Honduran doctoral student, shows me how they look under the microscope, with fibers sprinkled throughout each piece.

The sailboat’s seemingly endless nooks and crannies are packed with hundreds of these samples. There are little tubes of plastics that were pulled out of the water with a trawl. There are larger jars of ocean air samples – yes, there’s plastic in the air, too – which are going to be analyzed by Stephanie Wright, a researcher at King’s College London. She’ll examine whether fibers like the ones I saw under the microscope, when airborne, pose a risk for human lungs and airways.

She’ll also begin to theorize how airborne plastic fibers in marine environments end up there. A hypothesis with some traction is those fibers come off our clothes when we wash them, entering the ocean through sewage systems. That’s what Sarah Dudas, a British Columbia-based biologist, tells me her team has gleaned from its research. “Out of all the plastic particles we found,” she said, “most of them are textile-based” – tiny filaments from fabrics such as nylon and polyester.

Dudas began studying plastic in seafood in 2015. When shellfish farmers expressed concern that their aquaculture equipment might be shedding microplastics and contaminating their oysters and clams, she worked with the University of Victoria, Fisheries and Oceans Canada, and the British Columbia Shellfish Growers Association to find out. What would that do to the shellfish? they wondered. You and I might wonder: what would it do to the people who ate the shellfish?

Firm answers on that are yet to come. But researchers found that all shellfish they sampled, whether they grew near a wild or farmed beach, had similar amounts of microplastics in them. The explanation for that, Dudas says, is likely just that microplastics are ubiquitous.

In one sample, the eXXpedition team counted more than 500 pieces of microplastic, which extrapolates to half a million pieces of plastic in a square kilometer of open sea. That’s not including all the far tinier nanoplastic shards that will show up on further inspection under a microscope.

Laura Leiva prepares a sample from the Pacific Ocean for examination under her microscope. Photograph: Eve Andrews/Grist

Plastics were developed to be indestructible. But it turns out they gradually disintegrate over time.

In 2009, Katsuhiko Saido, then a researcher at Nihon University in Japan, found that plastics are actually far less stable than believed; they decompose into pieces and particles. Saido’s research showed that as they break down into tinier and tinier pieces, plastics release endocrine-disrupting compounds such as BPA. Due to this process, he says, plastic debris in the ocean will give rise to new sources of global contamination that will persist long into the future.

The tininess of plastic pollution can make it more dangerous. These minute particles may persist for millennia, and they can also cross human tissue and embed themselves into organs, theoretically delivering a toxic payload at close range.

If you slurped down an oyster that had caught a plastic microbead, it would probably pass through your system and continue on its merry way. But a five-micrometer fiber in that oyster – perhaps shed from a jacket – is small enough to slip through the throat tissue and lodge in your body.

And now, you may have acquired a very, very, very tiny pollutant-soaked sponge. In addition to potentially releasing endocrine-disrupting chemicals itself, plastic is lipophilic – meaning it attracts other oil-based chemicals and can act as a magnet for organic pollutants around it, like DDT, flame retardants and waterproofing materials that have washed into the water.

According to Arizona State’s Halden, plastics can concentrate those contaminants up to 100,000-fold, and then, at least in theory, carry that super-concentrated contaminant into the next creature that consumes it – a bit of plankton, a shrimp, a fish, and, continuing on down the food chain, maybe eventually a human.

One test of that theory is being conducted by the crew of the Sea Dragon. During my visit, about half a dozen women gather around a bolted-down table below deck to snip clippings of each other’s hair. These samples will be analyzed for mercury, a persistent ocean pollutant that the team hypothesizes can be carried by plastic.

Because all of this is still mostly hypothetical, the eXXpedition team is sending the samples they’ve collected from the ocean water and air for the past six weeks to laboratories all around the world to test whether toxic compounds are in fact adhering to the plastic.

Laura Leiva cuts a piece of Meg Tapp’s hair, which she’ll analyze for mercury. Photograph: Eve Andrews/Grist

Plastic is an element of our world now, and it’s “reaching a tipping point where nature cannot digest it”, Saido said.

So it’s not realistic to rid the entire ocean of plastics. And we will not stop producing these products altogether.

But it is realistic and urgent, in the opinion of every scientist I spoke to for this article, to stop pursuing product innovation above all else, because new variations of synthetic materials are approved for market release every day without much analysis of their environmental or health impact. There are already ways to prevent the plastic problem from continuing to get worse, such as implementing stronger regulations to study a material’s impact before it’s sold, rather than after it’s ubiquitous. Shrinking the waste stream is also necessary.

After all, the problem will not just drift away. The eXXpedition visited the Broken Group Islands, a smattering of remote, barely inhabited scraps of rock and greenery off the western coast of Canada’s Vancouver Island. The only way to set foot on the islands is to row, swim or sail up to them. In the mythology of the local Tseshaht tribe, part of the Nuu-chah-nulth First Nation, this is where the first man and woman were put on Earth.

Leiva, the Honduran student, tells me that on the shores of these islands, the team found plastics in big, recognizable chunks. The bits that retained recognizable labels showed Japanese characters, indicating that they’d floated all the way across the Pacific.

Even in Eden, there is plastic.

This story was edited from the original version at Grist

Most viewed

Most viewed