The American Chemistry Council and 57 other plastics associations around the world recently reported on the progress they've made on the Global Declaration of the Plastics Associations for Solutions on Marine Litter. The Declaration was originally announced in March 2011 at the 5th International Marine Debris Conference.
The progress report lists more than 140 education, research, policy, best-practices, recycling/recovery, and pellet containment projects to prevent marine litter, and their current status. The projects include efforts in education, global research, eco-efficient waste management, and litter prevention. By far the majority consists of education, so many of these are still ongoing. Several policy and research projects have been completed, such as an Australian study on the environmental impact of various degradable plastics, and a Canadian study on agricultural plastics recovery.
Although it might not be immediately obvious what agricultural plastics research has to do with plastic pollution in the oceans, as much as 80 percent of marine litter comes from land-based sources. About 70 percent of overall litter ends up on the ocean floor, and about 30 percent remains in suspension or floats.
The report also provides details on the Global Declaration itself, and the six commitments made under it by the plastics associations. The six commitments are areas of engagement that target sustainable solutions. They are focused on public-private partnerships to prevent marine litter, research, public policy, sharing best-practices, plastics recycling/recovery, and plastic pellet containment. After coming up with this list, declaration signatories identified specific actions to fulfill the declaration, and agreed to track and report their progress on those actions.
According to the report, the declaration was "a public commitment by a global industry to work with partners to tackle a global problem: plastics in the marine environment." It provides case studies of specific projects, and ideas about using the results of those projects to prevent marine litter in other regions of the world. The report can be accessed from a link in the press release on this page.
We've reported on The Clean Oceans Project (TCOP), which has as its primary goal the cleaning up of plastic from the Pacific Gyre, also known as the Great Pacific Garbage Patch. The non-profit organization aims to locate, remove, and recycle plastic marine debris, in part by helping to develop new technologies. For example, TCOP is working with Japan-based plastic-to-fuel system maker Blest and E-N-ergy, a Blest distributor, to develop a shipboard plastic-to-fuel conversion system that can transform plastic trash into diesel fuel. By fueling TCOP's collection vessels, the system could eliminate the need for those vessels to return to shore for disposing of the waste, and also keep that trash out of landfills.
According to the progress report, many plastics manufacturers and processors have been working to reduce plastic marine litter for a few decades. It's heartening to know that the producers of plastics, as well as some of their consumers, are trying to help mitigate the damage these materials have caused in the world's oceans.
Ann, I can't thank you enough for reporting on this. It is a subject very close to my heart and I have been working locally with friends here (particularly one clean-ocean, anti-plastic waste advocate friend) to try to clean up the beaches and the ocean. This is a good start but there is still a LONG WAY to go...and as single-use plastic is still being used and tossed away...and there is already so much plastic waste out there...it seems almost like an insurmountable problem. But efforts like this and design efforts to replace plastic with more organic materials are on the right track. I look forward to seeing more real progress from these efforts. And sometimes just educating people helps, because I really don't think people even know the impact plastic has had on the marine world. But they are learning.
Its very encouraging to see such social work has been started but it should remain that way for a longer period. Here in my country too you get certain voluntarily acts but they only last for couple of days.
Elizabeth, does this stagnation zone lie on shipping lanes? If it does, then a very small tax incentive to maritime companies would be incentive for them to collect some of the trash as they pass through. If the trash-to-fuel technology is modular enough, then maritime companies could use this to fuel auxiliary generators and cut operating costs.
Thanks, Elizabeth. I thought it was important to report that the often-maligned plastics industry is in fact trying to do something about the problem. One of the first things to do when approaching a huge complex problem is measure and classify--those are the two things done at the birth of a field of study, for example. Anyway, this is initial research, but it goes beyond that to specific action.
a.saji, I'm sorry to hear that in your country efforts to improve the environment are so evanescent. The desire to solve the plastics pollution problem is pretty strong in Europe and the US, as well as the other countries involved in this study. Let's hope that yours gets involved, as well.
Anyone who is interested in the problem of plastic waste in the ocean should read Moby Duck, by Donovan Hohn. It's a great read, and covers many different aspects of the problem in an entertaining way.
Many of the new adhesives we're featuring in this slideshow are for use in automotive and other transportation applications. The rest of these new products are for a wide variety of applications including aviation, aerospace, electrical motors, electronics, industrial, and semiconductors.
A Columbia University team working on molecular-scale nano-robots with moving parts has run into wear-and-tear issues. They've become the first team to observe in detail and quantify this process, and are devising coping strategies by observing how living cells prevent aging.
Many of the new materials on display at MD&M West were developed to be strong, tough replacements for metal parts in different kinds of medical equipment: IV poles, connectors for medical devices, medical device trays, and torque-applying instruments for orthopedic surgery. Others are made for close contact with patients.
New sensor technology integrates sensors, traces, and electronics into a smart fabric for wearables that measures more dimensions -- force, location, size, twist, bend, stretch, and motion -- and displays data in 3D maps.
As we saw on the show floor this week at the Pacific Design & Manufacturing and co-located events in Anaheim, Calif., 3D printing is contributing to distributed manufacturing and being reinvented by engineers for their own needs. Meanwhile, new fasteners are appearing for wearable consumer and medical devices and Baxter Robot has another software upgrade.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.