Connecting the dots
Among the items being transported are plastics, the ubiquitous consumer material that is found in many products and packaging. The problem is that plastic takes an exceptionally long time to break down in the natural environment.
Some plastic trash ends up in harbors, estuaries and on
land. But much of it continues to be circulated throughout the ocean and can
settle onto the seafloor.
At the root of global climate change and the worldwide plastics pollution problem are two related carbon-based fuels — oil and natural gas. Not only are the two among the key drivers of climate change, they are instrumental in the manufacturing of plastics.
As storms intensify and become more frequent,
the movement of trash from land to our oceans, and vice versa, is only going to
get worse.
Now URI colleagues Davies, associate professor of biological
sciences, and Suckling, assistant professor of sustainable aquaculture, are
part of an international team of researchers including those from the
Zoological Society London and Bangor University in Wales examining an often
overlooked phenomenon, the compounding effect of climate change and plastics.
The team identified three significant ways in which the climate crisis and plastics pollution are connected, with the first being how plastic contributes to global greenhouse gases from production through disposal. The second demonstrates how extreme weather, like hurricanes and floods, will disperse and worsen pollution. The third is the effect that climate change and plastics pollution can have on marine species and ecosystems that are vulnerable to both.
The study was led by Helen Ford, a Ph.D. student at Bangor
University, who worked with Davies and Suckling when they were at Bangor. The
team published its results in a September article in the journal, Science of the Total Environment. Professor Heather
Koldewey, senior technical specialist at the Zoological Society London, was the
lead author.
“Climate change is undoubtedly one of the most critical global threats of our time,” Koldewey said in a press announcement issued by the zoological society.
“Plastic pollution is also having a global impact; from
the top of Mount Everest to the deepest parts of the ocean. Both are having a
detrimental effect on ocean biodiversity; with climate change heating ocean
temperatures and bleaching coral reefs, to plastic damaging habitats and
injuring or killing marine species. It’s not a case of which issue is most
important, it’s recognizing that the two crises are interconnected and require
joint solutions.”
Davies said Ford organized the international team that
conducted the study. “The premise of the paper addresses the fact that so many
people view plastics pollution and climate change as separate things when they
are not,” Davies said. “They arise from the same principal material, oil.
“Climate change and plastic pollution have many
similarities, including how we need to address them. We need international
collaborations to address this problem, which essentially stems from the
over-consumption of finite resources.”
A key issue, according to Suckling, is the transport of
plastics and microplastics over vast distances. She said that the Japan
earthquake and resulting tsunami of 2011 transported materials all the way to
Hawaii. The same thing happens with storms, she said.
Suckling had witnessed Storm Emma when she was in North
Wales, which ripped apart one of the marinas during 2018.
“The whole area was flooded with floating white polystyrene
particles. The storm had split apart the walkway floating platforms in this
marina and spilled out the polystyrene contents, posing a pollution risk,”
Suckling said. “This was at a site where an invasive species was being
controlled, but plastics which spread from the site could increase the risk of
transporting this invasive species.”
Suckling said scientists are researching the ability of
plastics to transport invasive species hundreds of miles.
“Since Hurricanes Henri and Ida, we have been looking at
storm-induced transport of plastics,” Davies said. “We sent our students out to
collect samples from Narragansett Bay before and after the storms so we could
start seeing what the impact would be. We are working on that data now. We want
to see what the impact of these storms is on plastics in our oceans.
“The great thing about Narragansett Bay is it is so well
studied. We are building on 60 years of research at URI or even longer,” Davies
said.
Davies also said the state’s expertise in this area,
including its universities and administrative agencies, make Rhode Island an
ideal place to do the work.
“We have a wide range of disciplines, a relatively small
number of stakeholders and a wide range of habitats,” he said.
Since coming to URI, Suckling has published two papers on
the impact of microplastics on marine life, particularly sea urchins. One of them,
which addresses how sea urchins with different diet habits respond to eating
microplastics, was published in the September 2020 online edition of Science of the Total Environment.
“It’s still a relatively new area of science, where we still
have much to understand. My work has shown that when we look at sea urchin
species with slightly different feeding habits, we observe species-specific
responses to ingesting microplastics,” Suckling said.
This highlights that feeding habits could act as a potential
indicator for sensitivity to microplastic ingestion, which could be important
for impact assessments of plastic pollution and management strategies, according
to Suckling.
In the meantime, Davies is leading a Rhode Island Sea Grant
project working with Suckling that is examining the links between climate
change and plastics.
“What no one has really done until now is quick-start the
conversation about plastics and climate change in a concerted way,” Suckling
said. “We expect over the next several years, a lot more research will be done
in the area.”
Suckling said if marine ecosystems or organisms are already
at the brink of what they can handle because of climate change, throwing
additional problems at them could push them past their threshold of what they
can cope with.
