Weed
killer for breakfast.
Editor's note: The
below piece is excerpted from Carey Gillam’s new book Whitewash: The Story of a Weed
Killer, Cancer, and the Corruption of Science, published by Island
Press.
For many people, a
toasted bagel topped with honey might sound like a healthy breakfast choice.
Others might prefer a bowl of oatmeal or cornflakes or a hot plate of scrambled eggs.
Few would likely welcome a dose of weed killer that has been linked to cancer in their morning meal.
Others might prefer a bowl of oatmeal or cornflakes or a hot plate of scrambled eggs.
Few would likely welcome a dose of weed killer that has been linked to cancer in their morning meal.
Yet that is exactly
what private laboratory tests in the United States started showing with
alarming frequency in 2014: residues of the world’s most widely used herbicide
were making their way into American meals.
Testing since then, by
both private and public researchers, has shown glyphosate residues not only in
bagels, honey, and oatmeal but also in a wide array of products that commonly
line grocery store shelves, including flour, eggs, cookies, cereal and cereal
bars, soy sauce, beer, and infant formula.
Indeed, glyphosate
residues are so pervasive that they’ve been found in human urine. Livestock are
also consuming these residues in grains used to make their feed, including
corn, soy, alfalfa and wheat.
Glyphosate residues
have been detected in bread samples in the United Kingdom for years, as well as
in shipments of wheat leaving the United States for overseas markets.
“Americans are consuming glyphosate in common foods on a daily basis,” the Alliance for Natural Health said in its April 2016 report, which revealed glyphosate residues detected in eggs and coffee creamer, bagels and oatmeal.
“Americans are consuming glyphosate in common foods on a daily basis,” the Alliance for Natural Health said in its April 2016 report, which revealed glyphosate residues detected in eggs and coffee creamer, bagels and oatmeal.
In North Dakota, an agronomist at the state university, Joel Ransom, became so curious about glyphosate residue that in 2014 he ran his own tests on flour samples from the region. North Dakota grows much of America’s hard red spring wheat, a type that is considered the aristocrat of wheat and carries the highest protein content of all classes of American wheat.
It is used to make
some of the world’s finest yeast breads, hard rolls, and bagels. But growing
the wheat and bringing a healthy crop to harvest is not always easy in a state
known for cold and damp conditions.
To make harvesting the crop easier, many North Dakota farmers spray their wheat crops directly with glyphosate to help dry the plants a week or so before they roll out their combines.
The practice is also common in Saskatchewan, across the border in Canada. So when Ransom ran his tests on flour samples from the area, including flour from Canada, he expected to find some samples with glyphosate. He certainly did not expect all of them to have glyphosate residues. But they did.
To make harvesting the crop easier, many North Dakota farmers spray their wheat crops directly with glyphosate to help dry the plants a week or so before they roll out their combines.
The practice is also common in Saskatchewan, across the border in Canada. So when Ransom ran his tests on flour samples from the area, including flour from Canada, he expected to find some samples with glyphosate. He certainly did not expect all of them to have glyphosate residues. But they did.
Since at least the
1960s, world food and health experts have sought to gauge how much of a
pesticide can be ingested on a daily basis—an “acceptable daily intake”
(ADI)—over a lifetime without any noteworthy health risk.
The United States
allows among the highest levels of glyphosate residues, which critics say
underscores the level of influence Monsanto has with regulators. The EPA even
has gone so far as to say that safety margins called for by law to protect
children from pesticide exposures could be reduced when it comes to glyphosate.
The Food Quality
Protection Act calls for the EPA to use an extra tenfold (10X) safety factor
when assessing exposure risk and establishing allowable levels for pesticide
residues in food, unless the EPA determines the extra margin is not necessary
to protect infants and young children because the substance in question is so
safe.
That’s exactly what the regulatory agency decided with glyphosate, saying it had adequate data to show that the extra margin of safety for glyphosate could be eliminated.
That’s exactly what the regulatory agency decided with glyphosate, saying it had adequate data to show that the extra margin of safety for glyphosate could be eliminated.
Even with the EPA’s
generous allowances for glyphosate residues, many of the various individuals
and organizations doing their own testing have found levels that exceed the
tolerances, though many tests do show residues falling within the allowed
thresholds.
Still, critics say
even residues that the EPA says are at safe levels may in fact be harmful to
human health when consumed meal after meal, day after day. They believe that
the EPA’s analysis is outdated and not sufficient to protect people from the
pervasiveness of many pesticides, such as glyphosate, that are often combined
in food.
The private and
nonprofit attempts to test foods for glyphosate residues were well under way
when the World Health Organization’s cancer experts made their March 2015
decision to classify glyphosate as a probable human carcinogen.
But testing efforts doubled after that, in large part because WHO’s decision didn’t stand alone; rather, it added to warnings that many scientists had been making for years.
But testing efforts doubled after that, in large part because WHO’s decision didn’t stand alone; rather, it added to warnings that many scientists had been making for years.
It’s not just
glyphosate residues that people worry about, of course. Fears about a range of
chemical residues in food have been growing in recent years. Pesticide residues
can be found in everything from mushrooms to potatoes and grapes to green
beans.
One sample of
strawberries examined by the USDA in an annual testing program found residues
of twenty pesticides in the berries. In fact, roughly 85 percent of more than
10,000 food samples tested by the USDA in 2015 carried pesticide residues.
Most of those foods
were fruits and vegetables, both fresh and processed—foods consumers generally
consider healthy. Residue levels higher than what the government allows have
been found in spinach, strawberries, grapes, green beans, tomatoes, cucumbers,
and watermelon.
Even residues of
chemicals long banned in the United States were found as recently as 2015,
including residues of DDT or its metabolites found in spinach and potatoes.
U.S. regulators have also reported finding illegally high levels of the
neonicotinoid insecticide thiamethoxam in rice.
The USDA asserts that
all these pesticide residues are nothing for people to worry about. The agency
states that “residues found in agricultural products sampled are at levels that
do not pose risk to consumers’ health and are safe.”
But many scientists say there is little to no data to back up that claim. The animal studies the regulators rely on to set the allowable pesticide levels are typically conducted by, or on behalf of, the pesticide companies and look only at the effects of one pesticide at a time.
But many scientists say there is little to no data to back up that claim. The animal studies the regulators rely on to set the allowable pesticide levels are typically conducted by, or on behalf of, the pesticide companies and look only at the effects of one pesticide at a time.
Regulators do not have
sufficient research regarding how consuming residues of multiple types of
pesticides affects us over the long term, and government assurances of safety
are simply false, say the skeptical scientists.
“We don’t know if you
eat an apple that has multiple residues every day what will be the consequences
twenty years down the road,” said Chensheng Lu, associate professor of
environmental exposure biology at the Harvard T.H. Chan School of Public
Health. “They want to assure everybody that this is safe, but the science is
quite inadequate. This is a big issue.”
For questions or
feedback about this piece, contact Brian Bienkowski at bbienkowski@ehn.org.
