Farmed Salmon More Toxic Than Wild Salmon, Study Finds
Date:
January 9, 2004
Source:
Indiana University
Summary:
A study of more than two
metric tons of North American, South American and European salmon has
shown that PCBs and other environmental toxins are present at higher
levels in farm-raised salmon than in their wild counterparts.
LOOMINGTON,
Ind. -- A study of more than two metric tons of North American, South
American and European salmon has shown that PCBs and other environmental
toxins are present at higher levels in farm-raised salmon than in their
wild counterparts. Researchers at Indiana University and five other
research centers say increased toxin levels in farm-raised salmon may
pose health risks to people who eat the economically important fish.
Their study, which appears in this week's (Jan. 9) Science, is the most
comprehensive analysis to date of salmon toxin concentrations.
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"We think it's important for people who eat salmon to know that
farmed salmon have higher levels of toxins than wild salmon from the
open ocean," said IU School of Public and Environmental Affairs
Distinguished Professor Ronald Hites, who led the study.
The researchers applied U.S. Environmental Protection Agency fish
consumption advisory methods to determine consumption recommendations.
Farmed salmon purchased for the study from supermarkets in Frankfurt,
Edinburgh, Paris, London, Oslo, Boston, San Francisco, and Toronto
triggered consumption recommendations of one-half to one meal of salmon
per month. (A meal is defined as 8 oz. of uncooked meat.) Farmed salmon
from supermarkets in Los Angeles, Washington, D.C., Seattle, Chicago,
New York and Vancouver triggered a recommendation of no more than two
salmon meals per month. Farmed salmon from Denver and New Orleans
supermarkets both triggered a consumption recommendation of two meals of
salmon per month. With very few exceptions, farmed salmon samples
tested significantly exceeded the containment levels of wild salmon,
which could be consumed at levels as high as eight meals per month.
The production of farmed salmon has increased 40-fold over the last
two decades, thanks in large part to the world's salmon farms. Over half
the salmon sold globally are raised in Northern Europe, Chile and North
America.
While the health benefits of eating salmon have been established by
numerous studies, concerns about the fish's tendency to accumulate
toxins have gone largely unaddressed. As fish eaters themselves, salmon
occupy fairly high positions in their food chains. As a general rule,
carnivorous animals tend to have higher concentrations of toxins in
their bodies than herbivores.
To test this ecological principle, Hites and his colleagues measured
organochlorine toxin levels in about 700 farmed and wild salmon.
Farm-raised Atlantic salmon were purchased from retailers in London
(U.K.), Frankfurt (Germany), Edinburgh (Scotland), Oslo (Norway), Paris
(France), Toronto, Vancouver, Boston, Chicago, Denver, Los Angeles, New
Orleans, New York, San Francisco, Seattle and Washington, D.C., and from
wholesalers in North America, Chile and Europe.
For comparison, the researchers collected samples of five wild
Pacific salmon species -- Chinook, Coho, chum, pink and sockeye -- from
three different regions in North America. The researchers did not study
farmed Pacific salmon or wild Atlantic salmon because fish from the two
groups are difficult to obtain.
The researchers analyzed the concentrations of 14 organochlorine
toxins in salmon from each collection site, using gas chromatographic
high-resolution spectrometry. The toxins they studied were
polychlorinated biphenyls (PCBs), dioxins, toxaphene, dieldrin,
hexachlorobenzene (HCB), lindane, heptachlor epoxide, cis-nonachlor,
trans-nonachlor, gamma-chlordane, alpha-chlordane, Mirex, endrin and
total DDT. Many of these toxins, including PCBs, dioxins and toxaphene,
are each "reasonably anticipated to be a human carcinogen," according to
a recent report by the U.S. Department of Health and Human Services.
When samples from all over the world were grouped, the researchers
found farm-raised Atlantic salmon had significantly higher levels of 13
toxins when compared with wild Pacific salmon. Breaking it down by
region, the researchers found levels of all 14 toxins were significantly
elevated in both European and North American farm-raised salmon when
compared with wild Pacific salmon. Levels of only 6 toxins were
significantly elevated in South American farm-raised salmon. Levels of
two toxins (HCB and lindane) were actually significantly lower in
farm-raised South American salmon than in wild salmon species.
Only PCBs, dioxins, dieldrin and toxaphene were used to calculate
consumption safety guidelines, because the researchers deemed these four
toxins to most strongly impact human health.
The researchers also found toxin levels in European farm-raised
salmon were significantly higher than in North American or South
American farm-raised salmon. Levels of PCBs, dioxins, toxaphene and
dieldrin were highest in farmed salmon from Scotland and the Faroe
Islands (Denmark) and lowest in farmed salmon from Chile and Washington
state, though Hites pointed out that even these comparatively
uncontaminated South American salmon had high levels of other toxins.
Hites and his colleagues also measured toxin levels in "salmon chow,"
a mixture of ground-up fish and oil fed to farm-raised salmon. They
found a strong correlation between the toxicities of chow and salmon,
suggesting toxins are passed into the salmon from their feed.
Jeffrey Foran (University of Michigan), David Carpenter (University
at Albany), M. Coreen Hamilton (AXYS Analytical Services Ltd.), Barbara
Knuth and Steven Schwager (Cornell University), and Amy Matthews Amos
(Turnstone Consulting, in West Virginia) also contributed to the study.
It was funded by a grant to the University at Albany from the Pew
Charitable Trusts' Environmental Division.
Story Source:
The above story is based on materials provided by Indiana University. Note: Materials may be edited for content and length.
The above story is based on materials provided by Indiana University. Note: Materials may be edited for content and length.
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