Are real or artificial Christmas trees better for the environment?

Many American households are beginning to prepare for one of the biggest holidays of the year: Christmas. And for those who celebrate, that often means figuring out what to do about a tree — the time-honored centerpiece of the season’s festivities.What type of tree or, in some cases, trees you choose largely comes down to personal preference. For many people, a real tree represents tradition — a chance to re-create memories of finding “The One” and hauling it home from the forest or a neighborhood tree lot — with a fresh scent that helps create a holiday atmosphere. On the other hand, artificial trees offer convenience, since they can be reused year after year and typically come with built-in lights or decorations.But with more consumers becoming increasingly concerned about their purchases’ environmental impact, you might be wondering which type of Christmas tree is more planet-friendly. Here’s what you need to know when it comes to whether real or artificial trees are better for the environment.The argument for real treesWhile you might worry that chopping down tens of millions of trees each year amounts to an environmental nightmare, a real Christmas tree can be more sustainable than an artificial one, says Bill Ulfelder, executive director of the Nature Conservancy in New York.“There should be no remorse, no guilt, like, ‘Oh my goodness, it’s a cut tree.’ It’s absolutely the contrary,” says Ulfelder, who has a master’s degree in forestry. “Trees are a renewable resource. When they’re being cut, they’re being harvested in ways that they’re being replanted, so it’s a great renewable resource that provides lots of environmental, conservation and nature benefits.”For one, living trees absorb carbon dioxide — a main contributor to global warming — from the air and release oxygen. It can take at least seven years to grow a Christmas tree to its typical height of between six and seven feet, according to the National Christmas Tree Association (NCTA), a trade group that in part represents growers and sellers of real trees. While estimates can vary significantly, one study suggests that growing Christmas trees may sequester nearly a ton of carbon dioxide per acre, according to the Sightline Institute. What happens to that carbon depends on how these trees are treated once they’re cut and discarded.As many as one in six U.S. tree species is threatened with extinctionAs these trees grow, not only do they provide clean air, but they can also serve as wildlife habitats, help improve water quality and slow erosion, and preserve green spaces. Christmas trees are often grown on hillsides that wouldn’t be suitable for farming other types of crops and for every tree harvested, one to three seedlings are planted the following spring, according to NCTA.What’s more, real trees can be repurposed in ways that continue to benefit the environment even after they’re no longer living. Cities such as New York and D.C. have municipal programs that collect dead Christmas trees and turn them into mulch. The trees can also be used to prevent dune erosion or sunken in ponds and lakes to create natural habitats for freshwater wildlife, Ulfelder says.“There’s life for [real] Christmas trees after Christmas,” he says.Gene editing could revive a nearly lost tree. Not everyone is on board.But Ulfelder and other experts recognize that there is an environmental cost to farming and distributing real trees. Growing trees requires water and, in many cases, fertilizers and pesticides. On top of that, harvesting trees and shipping them from farms to stores or lots can produce emissions.Still, real trees may be the preferred choice over artificial ones when it comes to overall sustainability, which also takes into account economic and social impacts, says Bert Cregg, a professor of horticulture and forestry at Michigan State University. “That’s where I think the real trees are head and shoulders above” artificial trees, Cregg says.There are nearly 15,000 Christmas tree farms in the United States, the vast majority of which are family-owned operations, and the industry provides full or part-time employment to more than 100,000 people, according to NCTA.“Like any other agriculture, are you going to support local farmers or are you going to support a large manufacturer someplace else?” Cregg says.Sign up for the latest news about climate change, energy and the environment, delivered every ThursdayGoing artificialMost of the artificial trees sold in the U.S. are manufactured in China, according to NCTA, citing data from the U.S. Department of Commerce. The trees are typically loaded onto fossil-fuel-burning ocean freighters bound for the U.S., where they are distributed to retailers nationwide. But experts say the emissions associated with transporting artificial trees are less significant than what is produced when making them.Artificial trees are often made of plastic, a petroleum-based material, and steel. Many trees use polyvinyl chloride, or PVC, which has been linked to health and environmental risks. Trees can also be made of polyethylene, another type of plastic, says Mac Harman, founder and CEO of Balsam Hill, a leading retailer of artificial Christmas trees and holiday decor in the United States.Although not much about artificial trees initially sounds Earth-friendly, in certain cases they can be the more environmentally conscious choice, according to the American Christmas Tree Association (ACTA), a nonprofit industry group that represents artificial tree manufacturers.One 2018 study analyzed real and artificial Christmas trees across different environmental metrics, including global warming potential, primary energy demand and water usage, among others, and found that artificial trees may have less environmental impact if they are reused for at least five years compared to buying a new real tree each year.“The impact of both types of trees varies based on how far consumers travel to get their tree, how they dispose of their tree (for live trees, landfill, incinerate, or compost), and how long consumers use their trees,” according to a summary of the study from ACTA, which released the assessment conducted by WAP Sustainability Consulting.But another in-depth study released in 2009 concluded that artificial trees would only become better than natural ones if they were used for 20 years.According to Harman, a Nielsen survey paid for by ACTA found that nearly 50 percent of artificial tree owners reported planning to use their trees for 10 or more seasons.He adds that artificial trees also are often given away or donated, which can extend their life span. The downside, though, is that once these trees are no longer of use to anyone “they do end up mostly in landfills at this point,” he says.More plastic eventually winding up in landfills should worry consumers, Ulfelder says.“If you keep artificial trees truly long enough, the carbon footprint may be smaller, but then you’ve still got plastic and then there’s plastic going into the landfill,” he says. “So that’s just one way of looking at the comparison, and I think we just need to look at the whole of the nature benefits of the natural trees.”What you should doIf you’re interested in a real tree, Ulfelder recommends trying to buy local whenever possible. Driving a long distance in a gas-guzzling car to get to a farm or seller can be a significant source of emissions. Buying your tree from a farm or lot in your area can also help support the local economy. The top Christmas tree producing states include Oregon, North Carolina, Michigan, Pennsylvania, Wisconsin and Washington, according to NCTA.Looking for an organically grown Christmas tree is an additional step you can take to help the environment, Ulfelder says.The U.S. Forest Service also sells permits to people who want to go out into the wild and cut down their own tree. “For every tree that is found, cut and carried home as a holiday fixture, you’re also contributing to the overall forest health,” according to a government website selling the permits.Buying a living tree, or one that can be replanted outdoors, is another option. “The big trick is getting the tree to live afterward,” Cregg says.If you have a living tree, it’s critical not to keep it inside your home for too long, especially if you’re in northern parts of the country, or it may begin to lose its ability to withstand cold temperatures, he says. He suggests leaving the tree up for two weeks at most before moving it to an unheated garage or patio until springtime. “Then, you can plant it just like your normal spring planting routine.”It’s also important to take care of real trees, Cregg says. The trees need a lot of water and he recommends checking your tree stand daily to make sure your tree isn’t drying out.And how you dispose of your real tree matters. “If people put the tree in a bonfire, all that carbon is back in the atmosphere,” Cregg says.If you’re planning to mulch your tree, make sure to remove any decorations, Ulfelder says. Leftover ornaments, lights or pieces of tinsel can create a headache for mulchers.For those who prefer artificial trees, try to keep them in use and out of landfills for as long as possible.And although real and artificial trees can have varying impacts, experts say it’s important to consider this holiday decision in the context of other personal choices that can contribute to climate change.“At the end of the day, assuming that an artificial tree is used for at least five years, neither tree has a significant impact on the environment when compared to other activities of daily living like driving a car,” Harman says.

The world can’t recycle its way out of the plastics crisis

There are an estimated 50 trillion to 75 trillion plastic particles in the world’s oceans and another 8 million to 10 million tons are added every year, with catastrophic impacts on marine wildlife and ecosystems. Damage to these ecosystems from plastic pollution causes an estimated $500 billion to $2.5 trillion a year in economic losses. But the costs don’t stop at the shoreline. Deloitte estimates that in North America alone plastic pollution in rivers and streams costs up to $600 million per year.Nor do impacts end at the waters’ edge. Plastics contaminate commercially harvested fish and shellfish, fishmeal fed to animals, agricultural soils and food crops, tap and bottled water, and the air we breathe. An unfortunate but inevitable consequence of this pervasive pollution is that plastics are also showing up in human bodies: in our waste, lungs, blood, even in the placenta of pregnant people. An unknown but potentially enormous array of toxic chemicals can enter the human body via these plastics.But the volume of toxins leaching from plastic products and particles is dwarfed by the pollutants being released into communities where plastics and petrochemicals are made, and where plastic’s oil and gas feedstocks are pumped from the ground. The risks from this pervasive pollution are particularly acute for the communities that live on the fence lines of these facilities and the front lines of the ongoing buildout of plastic and petrochemical infrastructure.That buildout poses risks not only for the environment and human health, but for the global climate. Because 99 percent of what goes into plastic is fossil fuels, plastics are essentially fossil fuels in another form. As demand for oil and gas in energy and transport declines, fossil fuel producers are looking to plastics as a way to continue profiting from fossil fuels. The International Energy Agency projects that by 2050, more than half of all oil and gas will be used to make plastics and petrochemicals. This has enormous climate impacts. On our present trajectory, plastic production, use, and disposal could emit 56 gigatons of CO2 by 2050 — equivalent to 13 percent of the earth’s entire remaining carbon budget that keeps warming below the critical 1.5 degree Celsius threshold. These impacts would be compounded if plastic pollution disrupts natural carbon sinks in the ocean and soils. Accordingly, the plastics treaty is being hailed as the “most important climate deal” since the Paris Agreement.The scale, scope, and diversity of these impacts explain why negotiators for the new plastics treaty are mandated to address not just plastic waste but the entire lifecycle of plastics, including the production that drives plastic pollution in all its forms, and why that mandate requires binding — not just voluntary — commitments. Put simply, the world cannot recycle its way out of the plastics crisis.Last month, Greenpeace documented that less than 5 percent of all plastics used and discarded in the United States each year are actually recycled. It found that for all but a small subset of plastic products, the real recycling rates are even lower. The Greenpeace investigation proves yet again that for most products and for most communities, plastic recycling is simply a myth.But widespread belief in that myth is not an accident. The plastics industry has long been aware that plastic recycling does not work at any meaningful scale, yet continues to promote it as a solution to the plastic crisis.If this story sounds familiar, it should.Massachusetts was among the first states to launch an investigation into the oil industry’s role in the accelerating climate crisis. That investigation led the state to sue ExxonMobil for misleading the public and investors about the climate risks inherent in its fossil fuel products. In April, California launched a similar investigation into the role of plastic producers in the plastic crisis, beginning with a subpoena to Exxon, also a leading plastic producer. A parallel investigation by Massachusetts could examine the impacts of industry greenwashing on the state, even as legislators advance efforts to address the plastic crisis at state and local levels.But just as confronting climate change demands coordinated national and global action, so too does confronting the plastic crisis. Senators Elizabeth Warren and Ed Markey have cosponsored the Break Free from Plastic Pollution Act, which would represent a vital first step in a national response to plastics pollution.Having failed to learn the lessons from 30 years of failed climate negotiations, the United States is actively promoting the Paris Agreement as a model for the plastic negotiations. Rather than seek ambitious action to confront plastic production, US negotiators are calling for voluntary commitments, a major focus on recycling, and an approach that puts plastic producers at the negotiating table with the countries and communities plagued by plastic pollution. It is also spearheading a coalition of countries seeking to lower ambition for the plastics treaty. This approach has failed in the fight against fossil fuel-driven climate change. And people around the world are living with the accelerating consequences.Markey sits on three Senate committees that will oversee US engagement in these negotiations, including the Senate Foreign Relations Committee. As a major coastal state whose people and economy will be affected by the success or failure of the plastic treaty, Massachusetts has a big stake in getting it right. The people of Massachusetts have proven that they are ready to confront corporate deception and demand strong action to confront the climate crisis and the rising impacts of climate change, and have shown they are prepared to act on the root causes of the plastic crisis as well. They should expect nothing less from the government that represents them before the international community.Negotiators should abandon the misplaced trust in the fossil fuel and plastics industry to help solve the problems its products create and its profits demand. The world missed that opportunity at the climate talks. It shouldn’t miss it again on plastics.Carroll Muffett is president of the Center for International Environmental Law.

How to be a sustainable parent

Reusable nappies and zero-plastic baby food: is sustainable parenting doable?I am preparing to embark on a challenge to parent more sustainably, and, as I stand in my kitchen to get a feel for where I might be able to make some changes, I can’t help but feel I’ve bitten off more than I can chew. Plastic baby bottles are lined up like skittles in my cupboards; drawers are a technicolour spectacle of lurid plastic baby food pouches and individually wrapped biscuits. Tupperware and zip-lock plastic bags threaten to consume me, and there are plastic bowls, weaning pots, and baby spoons everywhere.
“Is having a baby in 2021 pure environmental vandalism?” reads one headline I come across in my research. Looking at my kitchen, I can see why.
Since my daughter was born almost two years ago, I have sleep-walked into making what I can only describe as baffling consumer choices that stamp on any eco credentials I previously claimed. Between the sleep deprivation and the onslaught of new experiences and mixed emotions, I have accumulated so much stuff – and much of it made from single-use or non-recyclable materials. Apparently I’m not alone. Sustainability “goes out the window” after having a baby, according to a One Poll survey commissioned by Baby Dove, and more than a quarter of new parents said it was “impossible” to be more eco-friendly with a newborn.
As an experiment, I want to see if I can make some greener swaps in a bid to understand what the barriers are to parenting more sustainably, and what else the industry needs to do to clean up its act. I found there were plenty of areas where I could make small changes, from shopping more sustainably to choosing different products. But I was also struck by how limited I was as a consumer to make any meaningful impact, and how unscientific many of the claims around “sustainable” or “biodegradable” products are.
Jen Gale, author of The Sustainable(ish) Guide to Green Parenting, elaborates on this when I ask her why it is so hard for new parents to make green choices. “Parents are marketed at quite hard by those brands with the most money, which might not necessarily be the most ethical and sustainable companies,” she says. I think back to the antenatal pack I was handed by a midwife at my 20-week appointment, full of big brand products in plastic packaging. Then there is the lack of time, energy and headspace to research greener alternatives, she says. “Shopping sustainably might not be at the forefront of your mind – especially when you’re just trying to get through the day, you grab whatever you can and whatever is the most convenient.”New parents often don’t have the time or energy to research greener alternatives (Credit: Tim Clayton / Getty Images)Increasingly, global consciousness is turning to the problem of plastic pollution, with the annual flow of plastic into the ocean alone estimated to nearly triple by 2040 to 29 million tonnes per year. But despite widespread initiatives to curb the use of plastic straws, single use plastic bags, and plastic bottles, unsustainable materials and methods seem to be ubiquitous in the products we buy for our children – from bottles, which shed millions of particles of microplastics, to disposable wipes and nappies that never biodegrade. 
The toy industry is the most plastic intensive industry in the world, according to the United Nations Environment Programme – with millions sent to landfill each year having barely been used. Even formula use has an enormous environmental impact, which is rarely examined. Most formulas are made from powdered cows’ milk, needing an astonishing 4,700 litres (1034 gallons) of water to produce just 1kg (35oz) of powder. In fact, 1kg of infant formula releases between 11 and 14 kg (388 and 494oz) of greenhouse gases by the time it is fed to babies and young children.
As part of my desire to clean up some of my parenting choices, I want to look at my baby’s nappy consumption. We throw away about three billion nappies each year in the UK, representing an estimated 2% to 3% of all household waste – one of the biggest contributors to plastic waste globally. Globally, more than 300,000 nappies are disposed of every minute. In the US, the scale of the problem is magnified, and the industry that feeds it is valued at $71bn (£61bn). Most nappies are made from two non-biodegradable materials – a polyethylene waterproof back layer and a polypropylene inner layer – meaning that when they ultimately end up in landfill, they will likely remain there for 500 years or more.
Reusable nappies are often touted as the sustainable fix – so I ask a friend who has used washable nappies for her children if she can lend me some to try. I’m slightly dreading starting the experiment – I have visions of nappies hanging to dry from every high surface in our small flat. I’m bracing myself for the upfront financial shock – a starter bundle can cost upwards of £100 ($115) or more, which can make the idea of using reusables daunting, or entirely inaccessible for some people. I’m also wondering how much my energy bill will rise this winter if I’m increasing my use of both the washing machine and its dryer setting. But I’m hopeful that this might be easier than I’m imagining, and could become a permanent green swap that will help me lower my carbon footprint.
“There are lots of ways of lowering the cost of making greener choices,” says Gale, though the options can vary hugely depending on where you live. Various social media sites and second-hand marketplaces offer second-hand reusable nappies, and in the UK, so-called nappy libraries let parents borrow nappies and try different brands. I take a bundle from my friend, and buy a pack of biodegradable bamboo nappy liners for £2.50 ($2.87). I also buy a dry pail – essentially a plastic bucket with a tight lid to store the soiled nappies before washing – for £15 ($17.19).
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I’m glad I go down the second-hand route, because not only is it more sustainable but it’s also more affordable. And I’m grateful for this cost saving when my careful plan falters at the first hurdle. My daughter seems to hate the feel of the reusable nappies on her skin, which can feel wetter than the moisture-wicking disposable alternatives she is used to. They are also much bulkier than single-use nappies, and the extra material causes her clothes to pull in the crotch, giving her a cowboy kid gait. At this stage of toddlerhood, getting her to switch from the disposable nappies she has been wearing since birth, to an altogether bulkier, and wetter feeling fabric is possibly too big an ask, and I can’t help but feel we have missed the boat.
But what does the science say – would it have been a greener choice? One Environment Agency study in 2008 found that reusable nappies can have a 40% lower global warming impact than disposable nappies. But crucially, the positive impact of switching to reusable nappies depends on how eco-conscious the consumer is. Many people looking to reduce their environmental impact wash at low temperatures, but reusable nappies must be washed at 60C (140F) in order to kill bacteria, and machines should not be overfilled, according to the Nappy Alliance, a coalition of reusable nappy providers. A study by the Life Cycle Initiative, a project launched in partnership with the UN Environment Programme, found that washing reusables over 60C (140F), using a tumble dryer, or partially filling the machine can actually negate their positive environmental impact entirely, and could make it preferable to use single-use nappies from a climate change stand point.
The study highlights the importance of looking at the entire life cycle of any product in order to weigh up how eco-friendly it is. “The highest impacts of reusable nappies occur not in manufacturing but in the use phase, while for single-use nappies, the design of the nappy (the weight and its materials) along with its management at end-of-life are the important life cycle stages,” write authors Philippa Notten, Alexandra Gower and Yvonne Lewis.From bottles, which shed millions of microplastics, to disposable wipes and nappies, unsustainable materials are ubiquitous in the products we buy for our children (Credit: Alamy)So what about biodegradable options? A stroll around my local Boots points to a small but growing raft of eco nappy brands made from recycled materials and sustainably-grown renewables, such as bamboo and organic cotton. Could buying disposable nappies made from more eco-conscious materials be a simple way for parents to make a difference?
Charlotte Lloyd, an environmental biogeochemist from the University of Bristol, is sceptical. When it comes to reducing your individual environmental impact, these nappies “are completely ineffective”, says Lloyd. None of the eco nappies on the market are currently 100% biodegradable (nor do they claim to be). Even those with high percentages of biodegradable materials need the right conditions for the materials to biodegrade, often involving industrial hot composting facilities that are nowhere near widespread enough to be a mass market solution. The vast majority of “eco” nappies end up in landfill, just like regular nappies. Landfill conditions are specifically designed to prevent decomposition due to the harmful gases and liquids that can leach out into the earth during the biodegradation process.
“I applaud the companies for making them, they are trying to make a better product,” says Lloyd. “But the rest of the system needs to catch up.” Despite focusing much of her research interests on the impact of plastic degradation on the environment, Lloyd has used disposable nappies with her two children. “I’m slightly ashamed of it but I just couldn’t deal with the washing, using reusables, and I’m sure that’s the same for a whole raft of parents and that’s why they go to the biodegradable alternatives, which are more expensive, and no more beneficial.”SUSTAINABILITY ON A SHOESTRINGWe currently live in an unsustainable world. While the biggest gains in the fight to curb climate change will come from the decisions made by governments and industries, we can all play our part. In Sustainability on a Shoestring, BBC Future explores how each of us can contribute as individuals to reducing carbon emissions by living more sustainably, without breaking the bank.So what needs to be done? There is currently only one nappy recycling company in operation in the UK: Nappicycle, based in Wales. The company runs a recycling facility which specifically treats nappy and absorbent hygiene products and aims to recover 100% of the cellulose and plastics to be used elsewhere.
This year, the company was involved in laying the “first nappy road” – a trial in which a stretch of the road between Aberystwyth and Cardigan in Ceredigion has been replaced with asphalt reinforced with recycled nappy fibres.
It’s clear that more initiatives like Nappicycle are paramount to tackling the UK’s nappy waste problem. In order to reduce the environmental impact of nappies in the UK, we need to urgently improve our existing waste management systems, says Lloyd. “You’re never going to get a situation where everyone is going to wash nappies – it’s never going to happen.”I want to see where else I can make greener choices for my daughter. Back in my kitchen, I have a stock of plastic packets of rice, pouches of porridge and toddler snacks, which I would like to try and swap for greener alternatives. In the UK, the baby food sector is booming, growing by 30% between 2009 and 2014 – when it was estimated as an £181m ($207m) industry per annum. China is currently the biggest market for baby food as of 2019, with India coming in second place, and the United States ranked in sixth place. And it’s not hard to understand why the industry has such global popularity.
The industry responds to a desperate need for convenience for time-poor, working parents. But despite the sector’s growing popularity, little is known about the sustainability of the industry. In the lentil and vegetable bake I dig out for dinner, for example, organic broccoli, parsnip and green lentils are listed as the main ingredients. In the UK, the organic label means at least 95% of the product’s agricultural ingredients are organic, and have strict regulations about the use of pesticides. But apart from that, I know nothing about the environmental impact of these prepared foods – from where they were grown, to how they were cooked (Read more: Why some climate claims are unprovable).Washing reusable nappies at 60C and putting them in the tumble dryer can negate their positive environmental impact (Credit: Ulf Swane / Getty Images)So far, my attention has been focused on the proliferation of plastic packaging involved in the baby food industry. But Ximina Schmidt, a life cycle sustainability expert at Brunel University in London, with a special interest in sustainable food systems, urges me to consider “all the different contributing elements” involved in making a food product in a bid to reduce my environmental impact. Baby food meals with more meat and cream have a higher environmental impact regardless of packaging, according to one study, which Schmidt co-authored. From the farming processes, ingredients and packaging materials, to the energy needed to manufacture that food and cook it, the more stages of the production process we are able to avoid, the “greener” a product will be, Schmidt says.
With Schmidt’s advice in mind, I decide to try baking some biscuits for my daughter at home, rather than buying them from the supermarket. I choose a simple recipe calling for apples, flour and butter, which I substitute with vegan butter. The ingredients cost me roughly £3 ($3.44). I am planning on baking 24 biscuits, and buying a similar quantity would have set me back £4.50 ($5.16). So far, the cost seems to be favourable (if I don’t count my labour). But we’re not out of the woods yet. Schmidt tells me to be mindful of the cooking method – am I going to put the oven on for a single tray of biscuits? If so, my energy expenditure would almost certainly negate any positive impact of baking the biscuits myself, both environmentally and financially.
According to the Energy Saving Trust, to heat small amounts of food, the humble microwave is the most energy efficient option. But to offset my use of the more expensive oven, I make sure to bake my biscuits while the dinner is also cooking, and they come out looking edible, with no objections from my daughter. The next hurdle is storing them. How can I prolong their shelf life to avoid waste? I store 12 in an airtight tupperware, and put 12 in the freezer, wrapped in foil – the freezer’s own environmental impact somewhat offset by it already being in use for other food.How can you be a more sustainable parent?
Buy second-hand toys, clothes and books
Buy local and cook at home
Wash at 30C (except nappies and soiled clothes)
Give unused toys a new lease of life – donate to a baby bank 
Swap beef and dairy for sustainable proteins, such as lentils
Sign up to Whirli, a toy swap subscription
Overall, this seems like an easy swap, although requires some advance planning which could be difficult for time poor working parents. But is this a greener solution?
There are definite positives for transparency – I have a better understanding of the product life cycle of these biscuits than bought ones. But factoring in my energy consumption, it is hard to say definitively whether baking them at home is significantly greener. Part of the barrier to reaching a conclusion is the lack of visibility afforded to the average consumer. There is very little information available about factory cooking methods or product sourcing, so it is almost impossible to analyse a product’s carbon footprint with the information provided on the packet.
It’s also important to highlight how gendered the responsibility for making greener choices at home can be. Most women perform far more cognitive and emotional labour than men. As a time poor, working mother, the mental labour required to rethink tried and tested products in favour of greener alternatives is not insignificant, and should be factored into the barriers facing parents wanting to parent more sustainably.
So what have I learned from my experiment? In a fog of sleep deprivation and learning how to operate as a family of three, it has been frighteningly easy to get into bad habits as a new parent. The main takeaway from both of my swaps is the need to evaluate my consumer choices through a life cycle lens, rather than simply eschewing certain materials. For me, the experiment has encouraged me to revisit the basics – the adage “reduce, reuse, recycle” should remain the mantra to live by.
Gale reassures me that green living need not be complicated: one of the most sustainable things parents can do is buy second-hand. “There’s a pressure as a new parent to buy all these wonderful, shiny new things – and especially with your first you want that,” she says. “You want everything to be pristine and new because they’re so precious and vulnerable.” Ultimately, I’m reminded that this is my daughter’s world, and the choices I make on her behalf will impact her future in a much more significant way than they do mine.

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Emaciated whale starves to death with 330 lbs of fishing gear in stomach

An emaciated sperm whale that washed up in Canada had 330 pounds of fishing gear in its stomach when it died, scientists have found.The sperm whale was alive when it washed ashore on Cape Breton Island on November 9. Teams from the Marine Animal Response Society (MARS), the Canadian Wildlife Health Cooperative-Atlantic Veterinary College and the Nova Scotia Department of Natural Resources and Renewables arrived on the scene to find the whale extremely underweight. It died during the night, MARS said in a statement posted to Facebook.A necropsy of the animal has now found that there were 330 pounds of fishing gear in its stomach, which led to it slowly starving to death.Sperm whales can be found worldwide. They are a vulnerable species and face a number of threats, including fishing gear entanglement or injury and noise pollution.
A picture shows the sperm whale that washed ashore in Canada with fishing gear in its stomach.
Marine Animal Response Society
Marine mammals strand ashore for a number of reasons. More often than not they are found severely unwell or injured, meaning they do not have the strength to swim away from the shore.Tonya Wimmer, Executive Director of MARS told Newsweek: “Ingestion of debris in the oceans—including fishing gear and plastics—is a serious issue for marine life around the world. The deaths of sperm whales and many other species have been investigated and attributed to ingestion of debris. In the Canadian Maritime Provinces, we have previously had animals with plastics and other debris found in their stomach, but never anything to this degree before.”Sperm whales usually weigh around 90,000 pounds but is not clear how much the sperm whale in Canada weighed when it washed up. The species’ stomach is about 4 feet long and 3 foot wide.Teams do not yet know whether the fishing gear came from Canada or another country. It is also not clear where or when the gear was ingested.
“Fishing gear is known to be a threat to many species, both from ingestion and also when the animal is entangled in gear externally. For some critically endangered [species], entanglements in fishing gear pose a serious issue for their recovery. That said, entanglement in fishing gear is not the only threat to species in the oceans, Wimmer said.These include ingestion of marine debris, strikes by vessels, pollution and the impact from noise in the oceans.Nonetheless, fishing gear poses a huge threat to marine species, whether it be from ingestion or injury. It can sometimes entangle around whales bodies, meaning they are unable to eat or swim effectively. An estimated 300,000 whales, dolphins and porpoises die every year globally after being injured by fishing gear, a 2021 study the University of St Andrews, Fife reported.
A picture shows fishing gear debris found in the stomach of a sperm whale that beached on Cape Breton Island in Canada.
Marine Animal Response Society
A critically endangered North Atlantic Right Whale named Snow Cone became well-known after being entangled in huge amounts of fishing line. Scientists last spotted her in September and determined her death was all but certain.”There are two key things which can be done. [We can] clean up the debris that is currently in our environment, both in the ocean and on land,” Wimmer said. “There are many ‘ghost gear’ and shoreline clean up programs around the world which have been aiming to tackle this issue because it is a major conservation concern for marine life, as well as humans given we eat animals in the ocean.””Going forward, [we can] ensure debris does not end up in the oceans. This involves the overall reduction in use of plastics…proper disposal and recycling of any materials being used, including fishing gear, and the collection of lost gear when fishers note it has been lost at sea,” she said. “And these measures are things that everyone should be doing, including those who don’t live near the coasts as debris in the oceans can get there in many ways via air and water.”MARS recently worked to remove several great white sharks that were found washed up off the coast of Nova Scotia. While strandings for marine mammals are common, it is rare for sharks.

Plastics tsunami: Can a landmark treaty stop waste from choking the oceans?

On a warm windy day in early April, Jace Tunnell steps out of his car at Morgan’s Point, a spit of land that juts out into the Houston Ship Channel in Texas. Tunnell, a marine biologist and reserve director at the University of Texas Marine Science Institute, sets his watch and gets to work, walking along the high-tide line and picking up every plastic pellet he can see.The tiny pellets, known as nurdles, are the starting point in the creation of vast amounts of plastic products, and those, in turn, are part of a web of plastics that encircles the globe. Tunnell steps and bends, filling his palm, as he has done on beaches across the country. Each pellet is a data point about plastics. It’s joined by others collected as university students dip nets into the waters of the North Atlantic, satellite instruments measure light reflecting off plastic debris afloat on the ocean, and scientists drop GPS-tagged bottles into India’s Ganges River.Together, all these researchers are helping to illuminate a complex and growing plastics-pollution problem that is transforming life across the planet. Of the 9.2 billion tonnes of non-recycled plastics produced between 1950 and 2017, more than half was made in this millennium and less than one-third is still in use1 (see ‘The plastic wave’). Of the waste, nearly 80% has been buried in landfill or found its way into the environment, and a scant 8% recycled1. By 2060, plastic waste could triple from 2019 levels, and carbon emissions from the full life cycle of plastics are expected to more than double, according to a report this year2 from the Organisation for Economic Co-operation and Development (OECD) in Paris. By mid-century, nearly half of the growth in demand for oil could be driven by plastics. Around the world, people and countries are saying: enough.

Sources: Ref. 1

In March, after nearly 30 years of researchers warning that plastics were a growing global problem, 175 nations voted in Nairobi to create a legally binding international plastics treaty. Negotiations start in earnest in Uruguay on 28 November.United Nations secretary-general António Guterres has proclaimed it “the most important deal since the Paris Agreement”. The Nairobi resolution calls for full-life-cycle assessments, from fossil-fuel well heads — where 99% of the raw materials for plastics originate — to final disposal. The resolution also requires action plans at national, regional and international levels that work towards preventing, reducing and eliminating plastic pollution.Yet the only way to ensure that a treaty — expected to be completed by the end of 2024 — is effective is to know where plastics come from, where they go and who’s responsible, every step of the way.“If we don’t have a baseline,” says Kara Lavender Law, an oceanographer at the Sea Education Association (SEA) in Falmouth, Massachusetts — an organization that has been monitoring ocean plastic since 1986 — “then we’ve got no measuring stick for progress.”Research surgeResearch on plastics pollution has exploded in the past decade, part of a growing body of studies revealing the biological, ecological and human-health consequences of synthetic polymer products that were nearly non-existent a century ago. There has been a slew of reports just in the past few years addressing different aspects of the pollution problem, including ones from the US National Academies of Sciences, Engineering, and Medicine (NASEM)3 and the UN Environment Programme (UNEP)4. These reports echo the language of the Nairobi resolution in calling for a better understanding of the life cycle of plastics. “The idea is to capture the full scope of impacts from plastic,” says David Azoulay, director of environmental health and managing attorney at the Center for International Environmental Law (CIEL) in Geneva, Switzerland, which has produced multiple reports on plastics.The NASEM report, released earlier this year, argues that the United States should establish a strategy by the end of 2022 for reducing plastic waste in the ocean, focusing on six stages of the problem, from production and product design to waste management. It also identifies knowledge gaps at each step and recommends moving to a circular economy — in which materials such as plastics are reused rather than thrown away. “How could we define avoidable, unnecessary and problematic plastics to start pushing them towards elimination?” asks Margaret Spring, chief conservation and science officer at Monterey Bay Aquarium in California and chair of the committee behind the report.
Landmark treaty on plastic pollution must put scientific evidence front and centre
That will demand unprecedented collaborations between scientists, citizens, policymakers and chief executives, because government and corporate data about the production and movement of plastics are riddled with gaps. Given that, researchers will play an especially important part in helping to collect the baseline data necessary to make the goals of a global plastics treaty meaningful and measurable.“You can’t manage the thing you can’t measure,” said Law.Nurdle huntTen minutes into his plastics hunt, Tunnell stops collecting and counts his bounty: 98 nurdles, cupped against the wind in the palm of his hand. “Houston has 55 production facilities,” Tunnell says. “We know almost all are losing pellets.”Today’s haul is an average one for these Gulf of Mexico beaches, although there was a 10-minute survey that yielded 328,000 pellets, after a container of nurdles spilled into the Mississippi River earlier this year. In Sri Lanka last year, a cargo ship carrying an estimated 75 billion nurdles sank offshore, coating beaches with thick layers of the plastic pellets, according to local reports and UNEP.Tunnell will enter the data into the citizen-science app he created, called Nurdle Patrol. So far, more than 6,000 volunteers in 19 countries have pulled 1.8 million nurdles out of the environment and made note in the app. Nurdle Patrol data have aided in succesful lawsuits against companies in Texas and South Carolina over releases of plastic pellets into the environment.Along with Nurdle Patrol, many other efforts are working to get a grip on the extent of plastic pollution. The UNEP report recognized 15 major monitoring programmes that focus on marine litter, and many of these crowdsource citizen-science data for researchers.There is the US National Oceanic and Atmospheric Administration’s Marine Debris Monitoring and Assessment Project, which partners with organizations to monitor shorelines in nine countries and uses the Marine Debris Tracker app. Another, Ocean Conservancy’s International Coastal Cleanup, started as a local campaign in Texas in 1986 and has grown to include 152 countries and 9 million volunteers, who can now enter data through the Clean Swell app for researchers to use. But even with all of these efforts, there is still no baseline for data. Researchers say that these citizen-science endeavours are positive steps but are limited in capturing the full scope of how much plastic is out there.“If you look at the data from citizen science,” says Alexander Turra, an oceanographer at the University of São Paulo in Brazil, “they are all concentrated in the north, not in the south.” They also tend to be located in easy-to-reach places.Even where data are available, arriving at a baseline remains a challenge on two fronts: standardizing methodologies for collecting data and agreeing on a place to share them. Recognizing the challenges of a single global (or even national) database, the NASEM report calls for tracking and monitoring systems that are scientific, adaptable and complementary.

Members of the Sri Lankan military clean up thick layers of plastic nurdles that washed up on beaches after a container ship sank offshore in May 2021.Credit: Ishara S. Kodikara/AFP via Getty

To deal with the disparities, the UN and other organizations have created guidelines for data collection, which has “contributed significantly to promote method harmonization”, says Daoji Li, director of the Plastic Marine Debris Research Center at East China Normal University in Shanghai, and a reviewer of the UN guidelines.Li’s university established a centre to train scientists from across Asia in sampling techniques and measurements, he says, in the hope of bringing congruity to data across the region, including data from countries now receiving the bulk of the world’s plastic waste. Despite the big data gaps and lack of consistent methodologies, some researchers say there’s enough information to start identifying plastic pollution hotspots. “That is often a common trope, that we don’t have standard methods, so the data’s no good,” says marine ecologist Chelsea Rochman at the University of Toronto in Canada, who was one of the first to push for a global plastics agreement.“Even if the emissions inventory isn’t perfect, if you’re using a harmonized protocol, you should at least be able to detect a difference,” she says of the plastics data. And with that ability, it’s possible to identify upward and downward trends and who the leaders and laggers are, crucial for enforcing a global treaty.Lack of transparencyReaching upstream in the plastics production line presents a different challenge for researchers. The lack of transparent data on production was one of the key knowledge gaps identified in the NASEM report, which focused on the US role in global ocean plastic waste. The attention on the United States is warranted; it generates more plastic waste than any other nation and even beats the entire European Union (see ‘Tops in trash’).

Source: Ref. 3

Despite the proprietary nature of company data, some researchers have tried to assess what enters the waste stream. Jenna Jambeck, an environmental engineer at the University of Georgia in Athens, published a landmark study in 2015, estimating that 8 million tonnes of plastic enter the world’s oceans every year5. But she recognizes the study’s limitations, partly because of this lack of transparency. Both she and Spring lament the inability, for example, to pin down data on polyethylene terephthalate (PET), the ubiquitous plastic used for soft-drink bottles and other common items.Researchers worry that public discussions focus on recycling and ways to deal with the plastic once it has reached the consumer — ideas promoted by industry — rather than who is creating all the plastic and where it’s going. Hence the emphasis in the NASEM report and global talks on circular-economy design strategies that address that first stage in the plastic life cycle, production.“We care so much about this material in the environment — that’s when we’re getting outraged,” Jambeck says. “But we don’t care about it before that point. If you want to prevent it from getting in the environment, we have to care so much more about it upstream, and track that data.”Once plastic enters the waste stream, researchers rely heavily on the UN Comtrade database, which tracks publicly available plastic-waste data, to monitor where it goes and measure it over time and space. Yet Comtrade data neglect to track the ultimate environmental fate of plastics, and the data are only as strong as the official government trade and customs information from which they are derived.

A bulldozer moves plastic and other rubbish in 2021 at a waste facility in San Francisco, California.Credit: Justin Sullivan/Getty

“There are a lot of invisible plastics,” says Azoulay, with many gaps and inconsistencies in the data. Australia, for example, banned the export of plastic waste but still allows the export of compacted waste bound for cement kilns in Asia, which is classified as refuse-derived fuel. “That doesn’t show up as plastic in Comtrade data,” Azoulay says. Nor does plastic packaging, which accounts for 42% of non-fibre plastic resin.In 2018, a seismic shift jolted the plastics industry: China implemented its National Sword programme, banning the import of most plastic waste. The country had taken in 45% of the world’s plastic waste since 1992. Then it shut its doors. Overnight, it reorganized the global movement of plastics, shifting final destinations for waste to Malaysia, Vietnam, Thailand, Indonesia and India. Unexpected events such as the COVID-19 pandemic and the Ukraine war further complicated plastic production and movement. And as new countries get inundated with plastic waste that they don’t have the facilities to handle, they often implement bans, but enforcement remains questionable.Given this void, organized crime increasingly controls the trade in illegal plastic waste, according to the global police agency INTERPOL, making data even more difficult to capture. Plastics are misdeclared, concealed or shipped by circuitous routes to evade detection, amassing a carbon footprint that goes far beyond that from the plastics’ original utility, which is already hefty.In an attempt to stem the tide, in 2019, the Basel Convention on the Control of Transboundary Movements of Hazardous Waste and their Disposal approved an amendment that categorizes plastics as hazardous waste, subject to tracking and reporting. A weakness of the convention is that the United States, with its enormous amounts of plastic waste, is not a signatory. Inside the country’s borders, the US Environmental Protection Agency classifies plastic as municipal solid waste, not a hazardous substance, so minimal tracking is required. But there is pressure to reclassify plastics as toxic, following the lead of the Basel Convention and countries such as Canada, which made the change last year. Likewise, plastic construction waste is left out of the accounting.With all these missing pieces, sometimes it’s on-the-ground activists who fill data gaps. Like the one who discovered that what should have been a shipment of paper arriving in a port in East Java, Indonesia, was permeated with plastics. This was just one of many examples cited at a press event in June, when the non-profit Basel Action Network (BAN), a plastics and toxic materials watchdog group based in Seattle, Washington, presented a dismal first-year report card on the Basel amendment. BAN founder and executive director Jim Puckett reported that countries were refusing to implement or enforce the new rules. The violations, he said, “threaten the integrity of the agreement”.The mislabelled shipment to Indonesia was just a hint of the plastic deluge hitting the country; the amount of plastic waste Indonesia imports more than doubled in 2021 compared with 2020. Southeast Asia is just one of many regions being inundated with plastic waste, and this is exacerbating global inequalities in pollution. It extends to all stages of the plastics life cycle, from oil-and-gas extraction to the siting of plastic production facilities to the management of waste. “There is a plastics tsunami already happening on the ground” in Africa, says Leslie Adogame, executive director of Sustainable Research and Action for Environmental Development Nigeria, a think tank in Lagos.
How to globalize the circular economy
Countries taking in plastic waste are often not where the plastic was produced or used. And many countries at the tail end of the plastics life cycle lack the capacity to train customs inspectors or build state-of-the-art recycling facilities. This “makes Africa a dumping ground”, Adogame says, and similar stories are emerging from southeast Asia and Latin America, in what has been described as ‘waste colonialism’. All of this exacerbates the unknowns about where plastics are ending up.These limitations are playing out in the data collection as well. Turra says that Brazil’s ocean-monitoring resources are a tiny fraction of what the United States devotes. But, rather than trying to measure everything, he advocates training people who are already in the field to gather simplified data. Is a beach very clean, very dirty or somewhere in between? That level of detail is enough, he says.Tracking dataOthers agree that, given the mounting plastic pollution crisis and the continuing struggle to fill data gaps, it is essential to focus attention on a few key areas. “It’s an absolute necessity to prioritize,” Spring says. “To do that, you’ve got to identify the biggest source hotspots.”At the same time, developments in technology are opening up avenues for collecting data. One method that shows promise is putting GPS trackers in plastic-waste shipping containers, says Puckett. “That really follows the waste all the way,” he says. “That’s the future.” Such tracking can help to monitor plastic-waste violations, and improve researchers’ knowledge of how plastics move globally.
The urine revolution: how recycling pee could help to save the world
An international team led by women, and partially funded by the National Geographic Society, fitted satellite tag devices into 500-millilitre PET bottles and dropped them into the Ganges River. The project is studying 40 sites along the river, ranging from rural to urban, both before and after the monsoon rains. Sampling revealed that three-quarters of the waste flushed downstream by the rains was plastic6. The team and other researchers dropped tagged bottles in the Ganges delta, and watched one travel more than 2,800 kilometres over the course of 3 months, swirling along the Indian coastline7. In the open ocean, GPS devices are helping to track the estimated 50 million kilograms of plastic fishing gear that is abandoned, lost or dumped annually, and also often left out of plastic-pollution accounting.Tracking data are also coming from sensors on satellites, aircraft, drones and ships. Researchers are using the European Union’s Copernicus Sentinel-2 pair of satellites, for example, to identify slicks of marine litter that accumulate on the ocean’s surface. Satellite imagery and machine learning are still in the early stages of being calibrated by human observation on ocean expeditions.Researchers hope that the momentum building around the global plastics treaty will help to unify the disparate bits of information into a coherent image that guides policy in a meaningful way. They also hope that policies will be adaptable so that they improve with better plastics knowledge.“We know what a lot of this stuff is, and governments need to prioritize it and industry needs to be willing to adapt,” says Rochman. “Watching where climate change is, and all of the data that’s coming out, and the actual disasters we’re seeing around the world that are the consequences of us not moving fast enough,” she says, “I don’t want us to do that with plastic.”

Big companies’ pledges to reduce plastic pollution aren’t working, shows study

Credit: Westend61 / Getty Images

Corporate pledges to lower plastic pollution are not translating into lower plastic pollution, according to a new study published in One Earth.

According to the research, done by a US-based team of researchers, voluntary commitments made by the world’s biggest companies emphasise plastic recycling, over lowering plastic production.

While recycling is considered an important part of a circular economy, the Ellen MacArthur foundation estimates that 80% of a product’s environmental impacts are determined when it’s being designed.

As of 2015, only around 9% of the world’s plastic was recycled. Most (79%) went to landfill, while 12% was incinerated, venting greenhouse gases into the atmosphere.

The researchers, who are based at Duke University, US, examined the commitments made by 974 of the world’s biggest companies, including the top 300 of the Fortune 500; companies with over $10 billion in revenue participating in voluntary environmental programs; and companies thought to have a large impact on plastic pollution.

They found that 72% of these companies had made some form of commitment to reduce plastic pollution.

But, analysing each pledge qualitatively, the researchers found large gaps in companies’ plans.

For instance, under 10% of companies that weren’t in voluntary environmental programs (most companies in the study) targeted virgin plastics, made from fossil fuels.

Of the 36 companies in the study that had signed on to these programs, which provide environmental standards for companies to meet, just over 30% targeted virgin plastics.

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Most companies focussed on increasing the recycled content of their plastics, rather than emphasising re-use of items.

Read more: Experts use model to offer radical solution to plastic waste: don’t reduce – just stop

The researchers also noted a focus on “lightweighting”: making the same products out of smaller and lighter amounts of plastic.

“The Coca-Cola Company, for example, is selling their product in lighter and smaller plastic bottles and improving upon recycling rates by investing in larger recycling facilities,” write the authors in their paper.

“This lightweighting of plastic is considered an insufficient response because companies may reinvest these savings into markets that involve new plastic products and/or increase the total mass of plastic produced,” they add.

“It is logical for businesses to start reducing plastic where it is easiest. For example, increasing the recycled content of plastic and particularly reducing plastic in their products and packaging are obvious first steps to take,” says Associate Professor Bodo Lang, a lecturer in social and sustainable marketing at the University of Auckland, New Zealand, who was not involved in the study.

But, says Lang, it’s more difficult or expensive to implement more powerful ideas to reduce plastic.

“Truly game-changing ideas, such as transitioning from a linear economy to a circular economy, have much potential but are far more complex, costly and time intensive. Purchasing items and discarding them when they are no longer needed is our dominant consumption paradigm at present.

“Having a circular approach, which requires different business models, often enabled by legislation, is far less common despite its potential to significantly reduce plastic waste.”

At the moment, roughly 11 million tonnes of plastic flows into the ocean each year, and this number is expected to almost double by 2040. A UN report suggested earlier this year that stopping this trend could save governments US$70 billion.

How big is the Great Pacific Garbage Patch?

A relatively uncharted island entirely made of trash, the Great Pacific Garbage Patch is an enigma. Still, reducing its size is an even bigger mystery.

The Ocean Cleanup is an organization using high-tech tools to remove trillions of pieces of plastic pollution and other trash that make up the Great Pacific Garbage Patch — but what happens to this waste once it gets collected from the ocean?

How big is the Great Pacific Garbage Patch?

The Great Pacific Garbage Patch (GPGP) is a floating vortex of debris in the North Pacific Ocean. It spans 1.6 million square kilometers (or over 600,000 square miles) from California to Japan with Hawaii in the middle.

The trash found in the GPGP varies in type and size, but the majority of it is made of plastic. 

Microplastics — tiny pieces of plastic — make up only 8% of the GPGP’s total mass, but they have an outsized effect. Of the estimated 1.8 trillion pieces of plastic floating in the GPGP, 94% are microplastics. 

Plastic pollution in the ocean threatens marine life in several ways — poisoning and starving fish, bleaching coral, and harming reefs.

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Oceanic plastic is one of the most troubling pollution issues we face today, not only because it disrupts ocean ecosystems but also because it’s very challenging to collect and get rid of. 

Unlike other materials, plastics don’t decompose — they continuously break down into microplastics but never truly disappear. The sometimes microscopic-sized microplastics swirling within our striated, vast, and deep oceans make collecting oceanic plastic pollution nearly impossible.

What is The Ocean Cleanup?

The Ocean Cleanup is a nonprofit that uses various technologies to collect trash from our oceans and intercept it in rivers before it enters our oceans. 

The Ocean Cleanup’s System 002, also known as “Jenny,” is a focal point for supporters and critics. Jenny uses two fuel-powered ships to tow a U-shaped catchment system across the ocean’s surface. Once Jenny fills up with debris, it brings the garbage to a larger boat where it’s unloaded and carried ashore.

What happens to all the trash in the GPGP?

The Ocean Cleanup claims that it recycles a majority of the plastic it collects. The organization says it uses some of the plastic to create “durable and valuable” products.

The remaining unrecyclable, unusable plastic debris gets incinerated to generate electricity, as Dezeen reported. This process of turning waste into energy is known as thermal recycling.

Yet some experts are unsure of The Ocean Cleanup’s approach to reducing oceanic plastic pollution. Journalist Cristina Gabetti told Dezen that The Ocean Cleanup’s claim about recycled plastic sounded “very optimistic.” This remark could be rooted in the fact that very little plastic — only about 5% in the U.S. — actually gets recycled. 

Another area of concern is turning plastic waste into energy. It’s been shown that thermally recycling plastic releases toxins and pollutants into our air, soil, and water, ultimately threatening human health.

How do we tackle plastic pollution?

Though The Ocean Cleanup has faced its fair share of criticism, it’s removing debris in the ocean that harms marine life.

“I think they’re coming from a good place of wanting to help the ocean, but by far the best way to help the ocean is to prevent plastic from getting in the ocean in the first place,” Miriam Goldstein, director of ocean policy at the Center for American Progress, told Reuters last year.

Ocean scientists agree that in order to have a lasting positive impact on marine life, oceans, and the planet, we need to scale back our use of plastic. Besides creating less plastic waste, another way we can keep it out of the ocean is to collect it before it enters our oceans. This is what projects like The Ocean Cleanup’s river interceptors and Baltimore’s infamous Mr. Trash Wheel are actively working to do.

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Study finds widespread occurrence of microplastic in Monterey Bay

A pair of common murres rescued from local beaches rest at Native Animal Rescue in Live Oak. (Shmuel Thaler — Santa Cruz Sentinel)

SANTA CRUZ — In a study published in early November, UC Santa Cruz researchers examined how much microplastic is present in the Monterey Bay and some of its inhabitants, and found that the tiny pieces of plastic pollution are not only prevalent in the water, but also in the fish and seabirds they studied.
“There’s been very little work understanding how much microplastic seabirds are ingesting because it’s not easy to do,” said Myra Finkelstein, adjunct professor at UCSC’s microbiology and environmental toxicology department. “When a bird eats a bottle cap and dies, you can see the bottle cap when you study the bird, but these are small microparticles.”
Although Finkelstein served as the study’s senior author, the microplastic research was spurred by former UCSC grad student and current fellow at the State Water Resources Control Board, Sami Michishita. The study’s goal was to find the prevalence, composition and estrogenic activity of microplastic in the Monterey Bay. Microplastic is plastic debris smaller than 5 millimeters in length, which is about the thickness of a pencil eraser.
Anchovies surround a sea lion spotted from Monterey Bay Whale Watch’s Sea Wolf II boat. Jodi Frediani Photography 
In order to understand the bigger picture around these tiny particles, Michishita and her collaborators took water samples from the Moss Landing Marine Laboratory and in Santa Cruz at the Long Marine Laboratory, and focused on two species often found in the bay, northern anchovies and the seabird known as the common murres.
“Common murres are a resident species in the Monterey Bay and are around all the time,” said Finkelstein. “We thought they would be a good representative species for what’s happening in the bay, and anchovies are a big part of their diet.”
As Finklestein mentioned, measuring the amount of microplastic in the anchovies and birds is not an easy task. In order to measure the prevalence in the fish and bird carcasses donated to the study, researchers used chemicals to literally digest the digestive tracts of the two species. They then filtered out and analyzed the found particles with a method called Raman spectroscopy to identify whether they were plastic or another material such as cotton. The microparticles were also separated into categories of fiber, fragment, foam, film or bead. About 80% of the microparticles were fibers.
RELATED: Whales off California coast eat 10 million pieces of tiny plastic pollution a day, new Stanford study estimates
The researchers found that about 60% of anchovies and 100% of common murres studied had man-made microparticles present in their digestive system with about 60% of those particles identified as plastic with Raman spectroscopy. They also found about 2 particles per 1,000 liters from the seawater samples.
Among the particles found in the common murres, about 25% displayed estrogenic activity, which means the microplastic particles could leach chemicals and disrupt the hormonal systems of birds and humans.
“Many studies have shown that seabirds and other marine animals eat a lot of plastic, but what is it doing to them?” said Finkelstein. “A lot of compounds that are part of the plastic matrix are xenoestrogenic, which means they mimic estrogen, so they can combine to your estrogen receptors and cause things to happen that can have downstream effects for hormone, immune and reproductive function.”
Having studied the macroplastic pollution at the Midway Atoll and elsewhere, Finkelstein said she was not surprised to find the widespread occurrence of microplastic in the Monterey Bay, but was shocked to discover that every single seabird in the study had microparticles in their digestive tracts.
That was more than I would have thought, especially because studies that have looked at larger pieces of plastic, found low plastic ingestion rates in the murres, but I think that’s because we weren’t looking small enough,” said Finkelstein. “As our methods to detect smaller pieces of plastic become better, we are going to start finding them everywhere we look.”
Because of the ubiquity of plastic pollution globally and in the Monterey Bay, Finkelstein stressed the need for society to make sweeping changes in order to combat plastic pollution. She suggested that concerned individuals can think about filtering wastewater from their washing machines and supporting policies and companies that aim to curb plastic use.
“It’s important for us as a society to think about how we can move away from plastic and find alternatives because it’s just going to get worse,” said Finkelstein. “We have to prioritize innovation to move away from a plastic world.”

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'DNA' in plastic pollution can be used to hold manufacturers responsible for its clean-up

Thousands of marine mammals, reptiles, fish and birds die every year, usually from starvation, after mistaking plastic waste for food. Key points:Technology now exists to embed plastic with code that can be traced back to its manufacturerResearchers are advocating for the development of cheap, accessible devices to read the code, and hold manufacturers responsible for their pollutionThe technology, combined with a strong legal framework, could force manufacturers to redesign products and phase out single-use materialsThe United Nations has described plastic pollution as a global crisis, with microplastics discovered from the deepest oceans, to near the top of Mt Everest.So what if there was a way to trace plastic back to its manufacturer, and even to hold them responsible for its clean-up?There’s now an emerging area of technology that makes it possible to embed a traceable code, which researchers have likened to plastic “DNA”, into plastic polymer. In a recent paper published in Polymer Chemistry, researchers have rallied the polymer-chemistry community to work towards embeddable codes for plastic, that can be read on small handheld devices in the field, and ideally even on mobile phones. “Currently, to read out a code by itself requires multi-million-dollar equipment and specialist, physical chemists,” said Christopher Barner-Kowollik, a co-author on the paper and macromolecular photochemistry researcher at the Queensland University of Technology (QUT).”What we are proposing is, we need either a small handheld device or even a mobile phone [to read the code].”And that could have some powerful implications.Firstly, say a whale washes up on a beach with a gutful of plastic. Or another turtle is found with a straw lodged in its nostril.

This plastic packaging alternative can compost in a year

Every year, people in the United Kingdom throw away around 96 billion pieces of plastic packaging—an average household tosses 66 pieces every week. Almost half of this packaging waste ends up being incinerated, while a quarter is buried in landfills, according to a May 2022 survey by Everyday Plastic and Greenpeace. The scale of the waste is hard to fathom.“The plastics crisis can be daunting,” says Insiya Jafferjee, the CEO and cofounder of packaging company Shellworks. Speaking at WIRED Impact in London this November, Jafferjee said that even small, seemingly simple pieces of plastic—such as scoops included in baby formula packaging—result in hundreds of millions of pieces of plastic waste every year. Shellworks was created to start making a dent in the amount of plastic packaging that gets thrown away. To do so, Jafferjee and cofounder Amir Afshar developed an entirely compostable material that can be used to package goods.Dubbed Vivomer, the company’s material is created from microbes found in the soil and marine environments and can be shaped into solid jars or containers, as well as more flexible droppers that release liquids. “The catch, or the benefit of this, is that if you throw this jar away, the very same microbes in the soil and the marine environment will see it, recognize it as its food essentially, and break it down,” Jafferjee says.ContentThis content can also be viewed on the site it originates from.The packaging doesn’t need any special environment to degrade: It can be composted at home or in industrial recycling. If a Vivomer product is thrown away with regular trash, Jafferjee says, it will still degrade, and it doesn’t produce any microplastics in the process. Depending on the size of the packaging, it can take anywhere between a year and five years to degrade.Jafferjee told WIRED Impact that since Shellworks was founded in 2019, it has faced multiple challenges. While creating its proof of concept, the team worked in a shed and had to use machinery it was able to get for free. Then, on the eve of its first major delivery, an electrical fire decimated the firm’s stock. It has since learned to outsource manufacturing and started producing products en masse.The company’s most significant order to date, Jafferjee says, was recreating the packaging for beauty brand Haeckels’ skincare products. In total, it produced more than 300,000 Vivomer items for 100,000 products, designed to hold everything from face creams and serums to oils and exfoliating powders. “We’re trying to scale,” Jafferjee says. To tackle the plastics crisis, scale is needed.