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Biodegradability additives cannot alleviate ocean plastic pollution

The Sustainable Packaging Coalition recently took a stance against the use of biodegradability additives in petroleum-based plastics. This blog is one in a series of articles about various biodegradability topics and concepts.
Plastic pollution in the ocean is a growing global crisis. It goes by many names; plastic smog, ocean litter, marine debris, and marine pollution are all terms to describe the estimate that eight million tons of plastic find a way into the oceans every year, according to Science magazine. That’s as if one garbage truck dumped its contents into the ocean every minute.
Once plastic is in the ocean, the waves churn it, the sun shines on it, and other variables like temperature and oxygen levels cause the plastic to break into pieces. Those pieces get fragmented further, and those get fragmented, and so on; eventually there’s millions, billions, trillions(!) of tiny plastic pieces (called ‘microplastic’).
Microplastic is ingested by hundreds of species of ocean animals, including zooplankton, salmon, seabirds and fish. They ingest it by accident or mistake it for food. Before the plastic even becomes small enough to get inside ocean animals, it can entangle and kill or hurt them. This has serious potential to cause significant harm.

Photo: Chesapeake Bay Program. Microplastics from the Patapsco River are pictured at the laboratory of Dr. Lance Yonkos in the Department of Environmental Science & Technology at the University of Maryland in College Park, Md., on Feb. 6, 2015 (Same author as above). Creative Commons.

Given these facts, it’s rational to ask, “can we fix this problem by adding something to make plastic biodegradable?” You’d think that this would be a brilliant human solution, to make it all magically dissolve in the seawater! Something called ‘biodegradability additives’ would seem to precisely do that job, but unfortunately, it’s not quite that straightforward.
Biodegradability additives enable or encourage biodegradation of petroleum-based plastic. They are sometimes marketed as a solution to litter, particularly in the developing world. One class of additives (often called “landfill biodegradable additives”)  function by encouraging the few types of microbes that naturally biodegrade petroleum-based plastics. The other class of additives (“oxo-degradable” or “oxo-biodegradable”) function, ironically, by expediting the plastic’s ability to fragment into smaller pieces.
Unfortunately, biodegradability additives cannot improve the ocean pollution problem for several reasons. First, plastic products and packaging that contain these additives tend to be marketed as “biodegradable,” but that tells us nothing about the environmental conditions necessary for biodegradation, the time frame necessary for biodegradation, or the impacts that may occur before biodegradation is complete. To make matters worse, the word “biodegradable” on packaging may encourage littering of that material. Further, the additives are designed to work slowly, at best, and still present a significant risk to ocean animals in the interim years before the biodegradation process is complete.

‘Biodegradable’ means something much more limited than what most people would think, and people are more likely to litter items marked as biodegradable.

One problem with biodegradability additives is that the term biodegradable doesn’t often live up to its ideal. The concept of biodegradability suggests that nutrients will harmoniously be given back to the earth at the end of the material’s life and as the UN points out, there are certainly commercial interests at play in marketing this idea. However, just because something’s called biodegradable, it doesn’t mean it will break down in a reasonable amount of time especially if it’s in a place it’s not designed to be, such as the ocean.

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Photo: Kobaken++, 2013. Creative Commons.

Biodegradability is a highly relative concept. Most packaging that is designated as “biodegradable” has passed one of several ASTM tests for biodegradability, each of which features unique test conditions designed to mimic parameters at specific environments  such as a bioreactor landfill (ASTM D7475) or an anaerobic digester (ASTM D5511)not to be confused with compostability standards, which are different and more stringent.
These are very different environments, in terms of heat, oxygen and other factors, than a place like Lake Michigan or the Gulf of Mexico. In other words, a material that has passed one ASTM test should not be assumed to be biodegradable in every environmentespecially a marine environment. There’s only one standard for biodegradability in the marine environment (which is currently being revised), but petroleum-based plastics with biodegradability additives have been unable to meet that standard. Considering all these variables, the term “biodegradable” as applied to petroleum-based plastics actually means something much more narrow and limited than what most people would probably ever imagine.
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Not only do petroleum-based plastics with biodegradability additives fail to meet marine biodegradability standards, but it also makes people more likely to litter something if it’s labeled biodegradable, as Keep America Beautiful discovered in a study in 2009. The UN points out that this behavior allows for the potential for ocean pollution to become worse.

Biodegradability additives do not mitigate harm to ocean animals; they are still subject to serious risk in the time before petroleum-based plastic starts  to biodegrade.

Here’s something else to consider: plastics with biodegradability additives are not designed to even commence the biodegradation process for years, sometimes as many as five. Even if these plastics were theoretically able to meet the standard of marine biodegradation (which specifies that at least 30 percent of the material’s carbon content must turn into carbon dioxide within 6 months), the plastic would still present a threat in that interim time to ocean animals through ingestion, entanglement, or potential toxic exposure.
Hundreds of species of ocean animals have been known to become entangled by plastic, such as in fishing nets in the photo below.  If biodegradability additives are added to petroleum-based plastic fishing nets as the solution to that problem, it causes people to feel a distorted sense of comfort that could encourage more litter. Besides, if it takes years for the biodegradation process to start anyway, that doesn’t help a seal caught in one of those nets today.

Photo: NOAA Marine Debris Program, 2012. Creative Commons.

Ocean animals are also found with plastic in their stomachs, causing starvation. If the average lifespan of a salmon is 3 to 8 years, and it could take more than 5 years for a petroleum-based plastic with these additives to biodegrade, that won’t help the salmon who are accidentally eating it and experiencing harm to their bodies during their lifetimes.
Beyond these serious concerns, a limited number of scientific studies have explored whether ocean animals could be subject to potential toxic exposure when plastic gets inside of them. Studies demonstrate that microplastic is a carrier for toxic pollutants in ambient seawater. In one study, twelve seabirds were examined; all twelve had microplastic in their stomachs. When they looked closer, they found PBDEs (flame retardants applied to plastics and textiles) on the surface of the microplastic. Further science is required to explore if and how those toxins carried by plastic have the potential to migrate into the animals’ body tissues.
If future scientific studies confirm that migration of toxins into animal tissue does occur, then the impacts up the food chain could be immense. Bioaccumulation of toxins via microplastic is a theory that is only recently being studied. If real, it could not only have dangerous repercussions for ecologically significant species, but also for the seafood industry and human health.
Reducing the number of years that it takes for a plastic to biodegrade creates a false sense of security and could aggregate the plastic pollution problem facing our world’s waters. For this reason, biodegradability additives for petroleum-based plastic are an ineffective band-aid to the ocean pollution problem.
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Photo: Paul Lim, 2013. Creative Commons.

Instead, what we need are solutions that prevent plastic from becoming litter in the first place. We need solutions that reconceptualize how materials should flow through our society, and how technology and infrastructure can evolve to address these issues. We should develop systems that encourage packaging design to be intimately intertwined with the sourcing of recycled materials and how waste management systems operate. For example, it’s better to design packaging that is easier and more valuable to recycle, so that we can keep materials in perpetual use rather than throwing them away. Related to that idea is the need to encourage our culture to perceive waste as a resource instead of a problem.
The Sustainable Packaging Coalition (SPC) released a position paper outlining the environmental harm that results from these additives.
The SPC seeks to continue the collective work of industry and NGOs to achieve the beneficial end-­of-­life solutions necessary for the sustainable use of plasticsit’s just that biodegradability additives is not one of them.

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Experts weigh in on Marine Debris at SUSTPACK 2015

Anne Bedarf shares what the experts had to say about marine debris,  a complex issue of importance to many at SUSTPACK 2015.
Dr. Kara Lavender Law of the Sea Education Association kicked off the session with the review of the current science of marine debris. She debunked the idea that marine debris is like a floating landfill; rather, while sometimes individual objects can be seen in the open ocean, most of the debris takes the form of microplastics or ends up on beaches, shorelines, and the seafloor. There may even be significant portions within marine animals and seabirds, but this has yet to be quantified. There are a variety of sources, including waste and litter that flow from land, natural disasters, microplastics in wastewater, and maritime activities, including lost cargo.
Ted Siegler of DSM Environmental Services made the point that marine debris is not just an ocean problem, but an “all waterways” problem that can be seen in lakes and rivers. Expanding recycling to the point where all trash bins are paired with recycling bins, particularly in public spaces like parks and beaches, is one part of the solution. Collaboration to implement financing systems for locally-based waste collection systems is another important solution.
Dr. Linda Zettler at Brown University introduced the fascinating concept of the “Plastisphere,” the colony of microorganisms that can live on marine debris. The debris is surprisingly easy for populations to develop, acting as “an oasis in the desert” and can serve to transport invasive species and displace native species such as the endemic populations of the Sargasso sea.
Well-known expert on biodegradation, Dr. Ramani Narayan of Michigan State University, made the important points that:

  • Biobased does not equal biodegradable or compostable.
  • Marine biodegradability is setting up the wrong pathway for industry and for all of us; it is not a disposal environment.
  • There is value if a product inadvertently enters the marine environment that it breaks down, if it isn’t toxic and is usable as “food.” However, the material can still persist for a long period of time and is not a solution — but reduces risk.

For more information.
The final speaker, Nicholas Mallos from The  Ocean Conservancy made the important point that marine litter is not just plastic. A concerted global approach needed, and their project, the Trash Free Seas Alliance, aims to do just that and apply solutions to developing countries where no infrastructure exists. For more information:
The final question to be answered is: What about the consumer’s role? The point was made that at least in the U.S., we need to have recycling bins everywhere to send the message that materials have value and that recycling is important. Also, teaching children ocean literacy and the value of marine ecology will instill important values that will help solve this conundrum.
 

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SOUP: Images of Marine Debris

I recently came across Mandy Barker’s photography exhibit, SOUP, a series of photographs of plastic debris salvaged from beaches around the world. It’s a stunning look at the problem of marine debris. Take a look at the beautiful images that will hopefully inspire some greater action to tackle this enormous problem.

All images: Mandy Barker Photography, SOUP