A couple of weekends ago a group of us celebrated summer’s end on the banks of the Shenandoah River in Virginia at the Watermelon Park Music Festival. It was a car-camping affair with family clans arranged in loose camps under the clear blue day sky and starry nights. The three thousand or so people gathered for near non-stop merrymaking involving music, food and fun in the river. In that there was success!
On Saturday morning I led a river clean up along the accessible banks within the festival grounds. The idea was to see what we could find in 45 minutes and talk about the durability of materials, the flow of litter into oceans, and rate of decomposition of common items. Of course, the rates of decomposition are not precise, but serve as a good reminder of how durability of a material is called upon to serve many one-time-use purposes in our convenience-based consumptive economy. It was a chance to also discuss how uncontrolled disposal can create macro pollution in one place that can contribute to micro pollution in distant places, such as the accumulation of plastic fragments in the oceans.
On a cool, foggy Saturday morning, the clean up volunteers met at the beautiful Shenandoah River and set off on their quest for river trash. Among the group were a few little people who were the most excited by the treasure hunt. The wee ones were thrilled to have their own giant latex gloves. We joked that the little ones were the detail crew finding smaller bits while the adults moved rapidly to comb the riverfront. The adults, too, were diligent. After 45 minutes, the total recyclable booty included two plastic grocery bags full of cans, can tops, and plastic and glass beverage bottles. The recyclable items were predictable since this riverfront park is routinely used for family camping and as a tubing destination. The trash part of the litter filled four grocery bags.
The trash included two diapers, fishing line, plastic beverage holders, a ‘styrofoam’ cup (properly called expanded polystyrene or EPS), garment fabric, a sock, two golf balls, lots of cigarette butts, a sturdy dog frisbee, a child’s sand scoop, assorted pieces of metal, ceramic tile shards, two left-foot flip flops, a baseball cap, and a bunch of junk fragments of containers, packaging, and fabric. The recyclables and the trash were pretty beat up by the water action over shallow rocky river bed. The result of such degradation is fragmentation of litter (macro pollution) into ever smaller bits (micro pollution) that become unrecoverable permanent pollution. The type of pollution that floats out to sea, and can be confused by wildlife for food, or can cause general environmental damage through accumulation. The material refuse represents significant technical and financial investments employed for one-time uses.
Since the river condition offers variable current strengths and a relatively rocky riverbed, many types of materials deteriorate faster than if the same litter were to be found in a ditch beside a highway. The graphic below estimates the lifespan of many of the items listed above in marine conditions and serves as a guide for this discussion.
Graphic by NOAA
The durability of most of the materials used in common items we collected is startling, and highlights the need for material stewardship policies that apply to the whole society and positively affect the behaviors of both product producers and citizens. It also identifies the critical role of the citizen in making sure litter is avoided and collected when found. Sustainable material management depends on you and me to do our part to use materials wisely through considered consumption habits; by understanding that materials have inherent toxicity (if not directly to us than indirectly through the food chain and the environment); by practicing material recycling and composting at home and work places; and picking up trash instead of ignoring it and walking by. Together there is a chance to reverse the trends of growing material consumption and improving material stewardship.
Learn more: An article on the demographics of litter flows. | Information on marine debris | Plastic marine debris | U.S. EPA’s annual report on solid waste in the United States.
Tag: stewardship
Shifting from a mindset of waste management to sustainable materials management will require many industry actors to re-calibrate their definition of success from quick, one-time victories to extended time frames. Considerable differences exist across the vast United States with regards to handling of solid waste, policy incentives, infrastructure, access to services, and fees and penalties. This is a complex system with many gaps and will require collaborative and cooperative efforts to develop consistent services across a diverse population. Nobody is obliged to own the whole system but everyone along the path is obliged to participate fully for the system to work well.
While talking about material sustainability in the context of packaging, the conversation ultimately rest where the perceived focus sits – at the end of its useful life. In the discussions at SPC Advance in Minneapolis, Minnesota, we devoted significant effort on composting of food waste and food service packaging, on recycling infrastructure and access to collection and sorting services, on energy recovery, on labeling for recovery, and honest and meaningful marketing claims. All these conversations are ongoing themes within the packaging community and significant progress is anticipated in the coming years in the form of design for recovery, material innovations, impact measurements and data sharing, and collaborative efforts to raise awareness.
Conspicuously absent in this rich dialogue is the critical and desperate need to enhance the recovery infrastructure – access to compost facilities for organics (including some forms of packaging), balancing the portfolio of end of life treatments to include energy recovery, anaerobic digestion and pyrolysis for instance. This heady topic inevitably comes to a dead stop when ownership and responsibility enters the discussion. Almost instantly the conversations come to a crawl and the critical pieces of funding, policy advocacy, and ownership of traditional externalities associated with the management of the annual packaging waste generated are omitted.
There is a critical need at this juncture to expand the concept of design in a grand way to include mechanisms that answer the ongoing challenge of inconsistent, and at times, outdated material management solutions. It is illogical to innovate at the material and package/product side, and expect that rapid rate of development to be matched at the material collection and reclamation side because the two ends operate independently and under very different market and policy drivers. Designing a well-rounded material recovery technology portfolio hinges on a critical need for funding and policy instruments that support innovations in material manufacturing and end of life collection. Such efforts must put the focus on material development and material stewardship with an eye for the big picture and long term viability through improved material management options.
Industry with its e-NGO and government agency partners have to come together and develop a working plan to support sustainable materials management. Those who benefit directly must rise to the occasion and secure the seed funding to cover a reasonable fraction of the costs of leveling the recovery playing field. One such example is represented by the Closed Loop Fund, a collaborative approach to make funds available via loans for the development of recovery services.
This is a laudable kick-start program and likely much more will be needed to accommodate deficiencies among population centers across the United States. A material consumption system where recovery is entirely externalized to municipalities is inherently unsustainable. With packaging inextricably tied to efficient and effective recovery, maintenance of this status quo system limits the overall progress for material sustainability in all material categories across all population centers across the country. And, product and package sustainability claims remain tenuous at best since the system is far from being sustainable.
Learn more about material recycling at How2Recycle.info | U.S. EPA’s Solid Waste Site |