Omega-3 levels may
drop
University of
Toronto
 |
| Harvard University |
A new University of Toronto study
suggests that a warmer world will decrease the availability of a nutrient that
is key to development and brain health.
The study, published in the journal Ambio, investigates worldwide production of docosahexaenoic acid (DHA), a naturally occurring essential omega-3 fatty acid. The group of molecules is needed for higher-level brain functioning and cognition, memory, eyesight, particularly at crucial stages in fetal brain development.
The study, published in the journal Ambio, investigates worldwide production of docosahexaenoic acid (DHA), a naturally occurring essential omega-3 fatty acid. The group of molecules is needed for higher-level brain functioning and cognition, memory, eyesight, particularly at crucial stages in fetal brain development.
Most humans get their DHA from
eating fish, which in turn get it from the algae that they eat. But Tim Rodgers, a PhD candidate in the
department of chemical engineering and applied chemistry, says that as ocean
temperatures rise, the need for algae to produce DHA decreases.
“To counteract the effect of higher temperatures, which can make their cell membranes too fluid, algae typically produce fewer polyunsaturated fats (such as DHA) in a process known as homeoviscous adaptation,” says Rodgers who is a first co-author of the study along with Stefanie Colombo of Dalhousie University.
“Algae is the bedrock of aquatic
food chains, so this decrease in DHA production works its way right up to the
fish we eat, which make up a significant source of the long chain omega-3 fatty
acids in the global diet.”
Rodgers, who is also a graduate
student in U of T’s Diamond Environmental Research Group under
supervisor Professor Miriam
Diamond, used a form of computer modelling known as Monte Carlo
uncertainty analysis to predict the amount of DHA that will be available under
various scenarios of climate change developed by the United Nations
Intergovernmental Panel on Climate Change.
Under the worst case scenario –
known as RCP 8.5, which assumes that greenhouse gas emissions continue to rise
at current rates indefinitely – the team found that, over the next 80 years,
the amount of DHA available in the food chain would decrease by 10 percentage
points to 58 per cent.
The team also estimated the results
on the diets of humans around the world. If the loss of DHA were spread out
evenly, the team suggests that up to 96 per cent of humans would not be able to
obtain enough DHA to maintain a healthy diet.
But that scenario may understate the
impacts on vulnerable populations, the researchers say, because wealthy
countries such as Canada, which doesn’t produce enough DHA domestically and
relies upon trade to supplement this need, would likely push to the front of
the line.
“As global DHA levels decrease, it’s
not difficult to envision a situation where rich countries use their economic
advantages to increase their access to naturally occurring sources and with
more expensive supplements,” says Rodgers.
This means that the impacts of a
shortage would likely be felt by the most vulnerable populations in poorer
countries, as well as by more vulnerable people, such as infants and developing
fetuses.
“Even at the low end of the model,
meaning the less extreme scenarios, the impact of declining DHA will still be
significant,” says Rodgers. “Based on the current trajectory of the climate,
even the most optimistic projections have us heading towards a pretty alarming
loss in human potential.”
The study, a collaboration among U
of T researchers from chemical engineering in the Faculty of Applied Science
& Engineering, Earth sciences in the Faculty of Arts & Science and
nutritional sciences in the Faculty of Medicine, as well as researchers from
Ryerson University and Dalhousie University, is the first comprehensive look at
DHA declines due to global warming specifically.
The research received support from
the Natural Sciences and Engineering Research Council of Canada.
