Another recent report suggests that the plastic content of the Atlantic has declined. Whatever the case this problem has two solutions.
The first is that all critical plastics must be made swiftly biodegradable or denser than water. That way over time less and less will find its way into the sea.
The second is simply to wait twenty years or so. Plastic slowly degrades in the sun and does turn into powder as the long complex bonds break apart under ultra violet radiation.
Do all this over the next decade or so by regulatory mandate and the problem will slowly disappear.
It would be nice to do something about what is out there but that seems to be a stretch. Like the gulf oil spill, what is on the surface can be fooled with. The trouble is that most is not on the surface at all but a little deeper in the water column were it may not b so easily tackled.
We really do have to allow Mother Nature to mop it up.
SEA researchers find widespread floating plastic debris in the western North Atlantic Ocean
August 19, 2010
Distribution of plastic marine debris collected in 6136 surface plankton net tows from 1986-2008 in the western North Atlantic Ocean and Caribbean Sea . Symbols indicate the location of net tows; color indicates the measured plastic concentration in pieces per square kilometer. Black stars indicate tows with measured concentration greater than 200,000 pieces per square kilometer. Symbols are layered from low to high concentration. Figure courtesy of the Journal Science
Despite growing awareness of the problem of plastic pollution in the world's oceans, little solid scientific information existed to illustrate the nature and scope of the issue. This week, a team of researchers from Sea Education Association (SEA), Woods Hole Oceanographic Institution (WHOI), and the University of Hawaii (UH) published a study of plastic marine debris based on data collected over 22 years by undergraduate students in the latest issue of the journal Science.
A previously undefined expanse of the western North Atlantic has been found to contain high concentrations of plastic debris, comparable to those observed in the region of the Pacific commonly referred to as the "Great Pacific Garbage Patch".
More than 64,000 individual plastic pieces were collected at 6100 locations that were sampled yearly over the course of the study. A surface plankton net was used to collect plastic debris as well as biological organisms at each station. The highest concentrations of plastic were observed in a region centered at 32°N (roughly the latitude of Atlanta , GA ) and extending from 22-38°N latitude. Numerical model simulations by Nikolai Maximenko (UH) explain why surface currents cause the plastic to accumulate in this region.
Said SEA scientist Kara Lavender Law, the Science paper's lead author, "Not only does this important data set provide the first rigorous scientific estimate of the extent and amount of floating plastic at an ocean-basin scale, but the data also confirm that basic ocean physics explains why the plastic accumulates in this region so far from shore."
One surprising finding is that the concentration of floating plastic debris has not increased during the 22-year period of the study, despite the fact that the plastic disposal has increased substantially. The whereabouts of the "missing plastic" is unknown.
Says SEA Dean Paul Joyce, "The analysis presented in this Science article provides a robust scientific description of the extent of plastic pollution to date, which can be used to make better management and policy decisions, and to inform popular perceptions of this issue."
A companion study published this week in Marine Pollution Bulletin details the characteristics of the plastic debris collected in these tows. Most of the plastic is millimeters in size and consists of polyethylene or polypropylene, materials that float in seawater. There is evidence that biological growth may alter the physical characteristics of the plastic over time, perhaps causing it to sink.
"I think some of the big questions are colonization: who actually lives on these pieces of plastic?" said Chris Reddy of WHOI, who was co-author on both papers. "To what extent are ocean currents moving the small life on these plastic particles around the ocean?"
Data continue to be collected onboard SEA's sailing research vessels in both the Atlantic and Pacific Oceans by undergraduate students in the SEA Semester program. A dedicated research cruise, Plastics at SEA: North Atlantic Expedition, recently investigated the eastern boundary of the Atlantic accumulation zone.
"The several thousand SEA Semester undergraduate students who helped collect and count plastic debris over the decades have been essential contributors to this work," said SEA president John Bullard. "They have gained a much fuller understanding of the oceans and the role humans play both in the present and its future."
The work was funded by the National Science Foundation.
Provided by Sea Education Association
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