June 5, 2013, Science News,— Surprisingly large
amounts of discarded trash end up in the ocean. Plastic bags, aluminum cans,
and fishing debris not only clutter our beaches, but accumulate in open-ocean
areas such as the "Great Pacific Garbage Patch." Now, a paper by
researchers at the Monterey Bay Aquarium Research Institute (MBARI) shows that
trash is also accumulating in the deep sea, particularly in Monterey Canyon
Kyra Schlining, lead author on this study, said,
"We were inspired by a fisheries study off Southern California that looked
at seafloor trash down to 365 meters. We were able to continue this search in
deeper water -- down to 4,000 meters. Our study also covered a longer time
period, and included more in-situ observations of deep-sea debris than any
previous study I'm aware of."
To complete this extensive study, Schlining and her
coauthors combed through 18,000 hours of underwater video collected by MBARI's
remotely operated vehicles (ROVs). Over the past 22 years, technicians in
MBARI's video lab recorded virtually every object and animal that appeared in
these videos. These annotations are compiled in MBARI's Video Annotation and
Reference System (VARS).
For this study, video technicians searched the VARS
database to find every video clip that showed debris on the seafloor. They then
compiled data on all the different types of debris they saw, as well as when
and where this debris was observed.
In total, the researchers counted over 1,500
observations of deep-sea debris, at dive sites from Vancouver Island to the
Gulf of California, and as far west as the Hawaiian Islands. In the recent
paper, the researchers focused on seafloor debris in and around Monterey Bay
The largest proportion of the debris -- about one
third of the total -- consisted of objects made of plastic. Of these objects,
more than half were plastic bags. Plastic bags are potentially dangerous to
marine life because they can smother attached organisms or choke animals that
consume them.
Metal objects were the second most common type of
debris seen in this study. About two thirds of these objects were aluminum,
steel, or tin cans. Other common debris included rope, fishing equipment, glass
bottles, paper, and cloth items.
The researchers found that trash was not randomly
distributed on the seafloor. Instead, it collected on steep, rocky slopes, such
as the edges of Monterey
Canyon
The researchers also discovered that debris was
more common in the deeper parts of the canyon, below 2,000 meters (6,500 feet).
Schlining commented, "I was surprised that we saw so much trash in deeper
water. We don't usually think of our daily activities as affecting life two
miles deep in the ocean." Schlining added, "I'm sure that there's a
lot more debris in the canyon that we're not seeing. A lot of it gets buried by
underwater landslides and sediment movement. Some of it may also be carried
into deeper water, farther down the canyon."
In the same areas where they saw trash on the
seafloor, the researchers also saw kelp, wood, and natural debris that
originated on land. This led them to conclude that much of the trash in Monterey Canyon
Although the MBARI study also showed a smaller
proportion of lost fishing gear than did some previous studies, fishing gear
accounted for the most obvious negative impacts on marine life. The researchers
observed several cases of animals trapped in old fishing gear.
Other effects on marine life were more subtle. For
example, debris in muddy-bottom areas was often used as shelter by seafloor
animals, or as a hard surface on which animals anchored themselves. Although
such associations seem to benefit the individual animals involved, they also
reflect the fact that marine debris is creating changes in the existing natural
biological communities.
To make matters worse, the impacts of deep-sea
trash may last for years. Near-freezing water, lack of sunlight, and low oxygen
concentrations discourage the growth of bacteria and other organisms that can
break down debris. Under these conditions, a plastic bag or soda can might
persist for decades.
MBARI researchers hope to do additional research to
understand the long-term biological impacts of trash in the deep sea. Working
with the Monterey Bay National Marine Sanctuary, they are currently finishing
up a detailed study of the effects of a particularly large piece of marine
debris -- a shipping container that fell off a ship in 2004.
During research expeditions, researchers
occasionally retrieve trash from the deep sea. However, removing such debris on
a large scale is prohibitively expensive, and can sometimes do more damage than
simply leaving it in place.
Schlining noted, "The most frustrating thing
for me is that most of the material we saw -- glass, metal, paper, plastic --
could be recycled." She and her coauthors hope that their findings will
inspire coastal residents and ocean users to recycle their trash instead of
allowing it to end up in the ocean. In the conclusion of their article, they
wrote, "Ultimately, preventing the introduction of litter into the marine
environment through increased public awareness remains the most efficient and
cost-effective solution to this dilemma."
Story Source:
The above story is reprinted
from materials provided by Monterey Bay Aquarium Research
Institute.
Journal Reference:
Kyra Schlining, Susan
von Thun, Linda Kuhnz, Brian Schlining, Lonny Lundsten, Nancy Jacobsen Stout,
Lori Chaney, Judith Connor. Debris in the deep: Using a 22-year video
annotation database to survey marine litter in 
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