Problems and Solutions
By Richard Matthews in Global
Warming Is Real
 |
| Rescuing a baby dolphin ensnared in a plastic bag |
One of the unexpected corollaries of the search for Malaysia
Airlines flight 370 in the Indian Ocean has been the increase in public
awareness about the tons of garbage that litter our ocean.
In the first few
weeks after the March 8 disappearance of the passenger jet, searchers scoured
huge swaths of the Ocean, and found nothing but garbage.
They now claim to be zeroing
in on pings that may be emanating from the missing airliners black boxes. In
the process of looking for debris, we received almost daily reports of possible
debris from satellite images and boats in the water. These finds turned out to
be nothing more than floating piles of trash.
The five ocean gyres
University of New South Whales Researcher Erik Van Sebillehas suggested there may be a sixth
garbage patch forming in the Arctic Circle in the Barents Sea.
Plastic debris
These garbage gyres are made up of everything from appliances to
cargo containers, but they are composed mostly of plastic including around 3.5
million tons of beverage bottles and grocery bags. Plastic constitutes 90 percent of all trash
floating in the world’s oceans. The United Nations Environment
Program (UNEP) estimated that in 2006, every square mile of ocean hosted 46,000 pieces of floating
plastic.
Van Sebille said each of these gyres, “contains so much plastic
that if you were to drag a net through these areas you would pull up more plastic
than biomass.”
Plastic waste in the oceans poses a serious environmental
problem. UV rays from the sun and salt from the sea water cause the plastic to
break down, which releases chemicals into the water that then enter the food
system according to the Scripps Institute at
the University of California San Diego.
Plastic poses some unique problems for ocean ecosystems. Some
plastics decompose within a year of entering the water, leaching to potentially
toxic chemicals such as bisphenol A, PCBs, and derivatives of polystyrene.
Unlike organic debris, plastic does not biodegrade. The plastic
in these debris fields will last for hundreds of years. Over time, plastic in
the oceans disintegrates into ever smaller pieces while remaining a polymer.
This process continues down to the molecular level and concentrates in the
upper water column. Plastic pollution in the form of small particles (diameter
less than 5 mm) is called “microplastics.”
Wildlife impacts and the food chain
According to UNEP, at least 267 species worldwide are impacted
by plastic debris in the oceans. As the plastic disintegrates, it ultimately
becomes small enough to be ingested by a wide range of life forms. Plastics are
deadly to a number of species including marine birds and sea turtles.
Various
investigations including research by Charles Moore found that in some places
the overall concentration of plastics was seven times greater than the concentration of
zooplankton. Plastics enter the food chain when ingested by aquatic
organisms and the impacts go all the way up the chain to humans.
Researchers have discovered that floating debris can also absorb
organic pollutants from seawater, including PCBs, DDT, and PAHs. When consumed,
plastic has both toxic effects and disruptive impacts on the endocrine system.
Source of debris
It is crudely estimated that 80 percent of the garbage comes
from land-based sources and 20 percent is from ships. According to a 2011 EPA
report titled, Marine Debris in the North Pacific:
“The primary source of marine debris is the improper waste
disposal or management of trash and manufacturing products, including plastics
(e.g., littering, illegal dumping) … Debris is generated on land at marinas,
ports, rivers, harbors, docks, and storm drains. Debris is generated at sea
from fishing vessels, stationary platforms and cargo ships.”
Much of the land-based sources of ocean waste originates from
the great rivers from around the world.
Size of debris fields
According to some media reports, ocean
borne garbage is up to “twice the size of the continental United States”.
Although these estimates are hardly precise, they range from 700,000 square
kilometres (270,000 sq mi) to more than 15,000,000 square kilometres (5,800,000
sq mi).
Investigations, raising awareness and cleanup efforts
There are a wide range of innovative efforts to raise awareness
about ocean garbage and cleanup these debris fields. In 2008, a sailing voyage
called the “Junk Raft” sought to raise awareness with a three month voyage
across the Pacific. Also in 2008, Richard Sundance Owen formed the Environmental Cleanup Coalition(ECC) a collaborative
effort to address the issue of North Pacific pollution. They work on developing
methods to safely remove plastic and persistent organic pollutants from the
oceans.
In 2009, Project Kaisei launched
a cleanup study that included two vessels that set out to research and assess
the feasibility of commercial scale collection and recycling of ocean borne
garbage.
Another 2009 investigation titled the SEAPLEX expedition,
involved a 19 day ocean journey by a group of researchers from the Scripps
Institution of Oceanography. They spent 19 days studying the distribution of
plastic in the gyre which resulted in the most rigorous study to date.
In 2012, Dutch Aerospace Engineering student Boyan Slat unveiled
a concept for removing large amounts of marine debris. He subsequently formed
an organization called The Ocean Cleanup. This approach is not only cost effective, it is
potentially profitable. His idea involves an anchored network of booms that
world work like a giant funnel.
Propelled by the ocean’s surface currents,
debris would drift into specially designed arms and collection platforms where
it would be separated from plankton and recycled. Slat’s calculations suggest
that using his methods, 7.25 million tons of
plastic can be removed from garbage gyres in as little as five years.
South Korean designer Sung Jin Cho has conceived of another
innovative approach to removing plastic waste from water. His
concept is known as the Seawer Skyscraper. This massive yet
portable, self-supported solar-hydro power station, generates electricity
using seawater while removing plastic waste.
The Seawer filters ocean
water and removes plastics and other particles which are recycled in
an onboard plant. The purified seawater is stored in a large
sedimentation tank at the bottom of the structure before it is released back
into the ocean.
Despite these creative approaches to removing debris from the
world’s oceans, they will not be able to reach the majority of plastic
which have accumulated on the ocean floor.
Of the more than 200 billion pounds of plastic the world
produces each year, about 10 percent ends up in the ocean. Much of which
(approximately 70 percent) sinks to the bottom and harms life on
the ocean floor.
In the North Sea alone, Dutch scientists have counted around 110
pieces of litter for every square kilometre of the seabed. This amounts to
a staggering 600,000 tonnes in the North Sea alone. This
garbage can smother the sea bottom and kill the marine life.
While efforts to clean up the plastics are laudable, they are
not a definitive solution. Plastics break down into smaller polymers and
suspend underneath the surface of the ocean such that they are hard
to see and difficult to clean up.
Plastic waste comes from almost every country in the
world which makes ocean garbage an international problem requiring
international solutions. While we can dispose of our waste
more responsibly, the problem extends far beyond waste management. With
Around 100 million tonnes of plastic products being produced each year, we need
to find solutions at the source.
We need to find alternatives
to conventional plastics that are biodegradable and do not contain
harmful chemicals.
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Richard Matthews is a consultant, eco-entrepreneur, green investor and author of numerous articles on sustainable positioning, eco-economics and enviro-politics. He is the owner of The Green Market Oracle, a leading sustainable business site and one of the Web’s most comprehensive resources on the business of the environment. Find The Green Market on Facebook and follow The Green Market’s twitter feed.
Featured image credit: Clearwaters Photo, courtesy flickr
