GE
Foods Under the Microscope
By Sharon Palmer, RD
Today’s Dietitian
Vol. 7 No. 5 P. 36
While some fear genetically engineered foods,
others are convinced that agricultural biotechnology can produce
safe, beneficial crops.
Genetic engineering (GE) is a hot topic these days.
It’s hard not to take notice of the barrage of negative publicity
flooding the media on GE foods. Television news footage displays
angry farmers dumping GE-contaminated produce into bins marked “biohazard.”
The December 28, 2004, cable television program Doomsday Tech on
the History Channel depicted an imaginary world in 2021 with 3 billion
people suffering from severe wheat allergies all due to genetic
engineering, which then spins off into the destruction of the world’s
wheat supplies and global food shortages.
The Science Behind GE Foods
Perhaps the biggest source of fuel for the GE food debate is the
difficulty understanding the hefty slice of science behind the label.
“The public has a difficult time understanding the science
of biotechnology. Only 29% of people understand what DNA is,”
says Teresa Gruber, PhD, executive vice president of the Council
for Agricultural Science and Technology. The truth is that genetic
modification (GM) is not a shiny, new solution in a high-tech world.
It has been going on since the beginning of time, when cavemen started
saving seeds and began tending their crops.
Genetic modification is a broad term that includes
traditional methods of breeding plants, which farmers have relied
upon for generations.
Genetic engineering is more specifically defined
as a biotechnological process in which traits or characteristics
of an organism are changed by transferring individual genes from
one species to another or by modifying genes within species. GE
foods are also referred to as biotech, bioengineered, and transgenic.1
GE Popularity Polls
The public’s opinion on GE foods is split down the middle.
In a Pew Initiative on Food and Biotechnology survey released in
November 2004, 30% of Americans said GM foods are basically safe,
while 27% say they are basically unsafe. The level of awareness
about GM foods remains low, with only 32% of consumers reporting
that they heard a great deal or some about GM foods in 2004. Of
40% of Americans who reported hearing about regulations of GM foods,
40% said there is too little. Eighty-five percent said the FDA should
approve the safety of GM foods before they come to market.
A survey by EuroBarometer published in March 2003
found that most Europeans do not support GM foods or crops.2 The
Union of Concerned Scientists released a report in December 2004
on the dangers posed to the human food supply from GE crops that
contain pharmaceutical drugs and industrial chemicals.3 Even Pope
John Paul II hinted about his reservations about the production
of GM foods last October.4
At the same time, government and industry stand
staunchly behind GE foods. President George W. Bush proclaimed on
Biotechnology Week from the White House on May 16, 2001, “Genetic
engineering will enable farmers to modify crops so that they will
grow on land that was previously considered infertile. In addition,
it will enable farmers to grow produce with enhanced nutritional
value.”
The American Dietetic Association’s “Biotechnology
and the Future of Food,” written in 1995 and reaffirmed in
1998, specifies that biotechnology techniques have the potential
to be useful in enhancing the quality, nutritional value, and variety
of food available for human consumption and in increasing the efficiency
of food production, food processing, food distribution, and waste
management.
“GE foods is a challenging area; it’s
not a black-and-white issue,” says Angie Tagtow, MS, RD, LD,
regional nutritional consultant for Iowa Department of Public Health
and incoming chair for the Hunger and Environmental Nutrition (HEN)
Dietetic Practice Group (DPG). “In the past two years, we
have seen more dietitians interested in GE foods. The media has
a lot to do with that. The dietitians see the press and realize
that they don’t know about it.”
Sacred Cows
“People are not enthusiastic about biotechnology because food
is special. We eat to sustain ourselves with nutrients, but food
is more than that. There are historical and cultural issues. Food
is a religious and cultural icon. Through history people have been
defined by what they can or can’t eat,” says Carol Tucker
Foreman, director of the Consumer Federation of America’s
Food Policy Institute.
Of more public concern is the development of GE
animals. Thus far, no GE animals have been approved for human consumption,
although plenty of research is being devoted to this biotechnology.
Fast-growing transgenic salmon are being considered for commercial
release at this moment.5
GE Foods as Far as the Eye Can
See
Many Americans may not understand that 70% to 75% of all processed
foods available in U.S. grocery stores may contain ingredients from
GE plants. The majority of foods contain GE products from corn and
soybeans, which are widely used as ingredients in foods. Add canola
and cotton to this list and you account for almost 100% of the GE
ingredients in the American food supply. More than 50 GE foods have
been determined to be as safe as their conventional counterparts.
According to the USDA, 81% of the total soybean crop, 40% of the
total corn crop, and 73% of the total cotton crop is GE.6,7
In most cases, we aren’t actually eating the
genes in GE foods. Much of the GE foods we consume are found in
small amounts as food ingredients. By the time a GE corn plant has
been processed for corn oil or high-fructose corn syrup, virtually
none of the genes or proteins produced by the genes remain in the
food.
Biotechnology Benefits
It’s hard to ignore that biotechnology can yield some measurable
benefits in agronomic characteristics of plants, such as tolerance
to broad-spectrum herbicides, resistance to pests, reduction in
chemical pesticide use, increase in potential yields, healthier
foods, longer shelf life, and growth of crops in inhospitable areas.
One GE success story can be found in the tale of the Hawaiian papaya
that was facing decimation due to the papaya ring spot virus (PRSV).
Researchers turned to GE to develop a PRSV-resistant papaya and
voila—the tropical fruit was saved.7
Are GE Foods Safe?
Plenty of scientists are concerned about the safety of GE foods.
There is always the risk that a GE food could produce an allerginicity,
toxicity, or unintended effect. “There clearly needs to be
more research of the unintended effects of genetic engineering,”
says Doug Gurian-Sherman, PhD, senior scientist for the Center for
Food Safety, who notes that there are dozens of well-documented
cases of unintentional effects that have been identified during
the testing of GE plants. Scientists from Norway and Denmark recently
reported that only 10 studies have been published on GE foods and
that much more scientific investigation is necessary before GM material
is proven safe in the long run.8
The FDA maintains that they possess no information
that the use of biotechnology creates a class of food that is different
in quality, safety, or any other attribute from food developed using
conventional breeding techniques.
The National Academies’ National Research
Council and Institute of Medicine recommended in a report last July
that federal agencies should assess the safety of genetically altered
foods before their commercial release on a case-by-case basis when
warranted, with focus on composition rather than the method used
to create them. This report concluded that no adverse health effects
from GE have been documented in the human population, but the technique
is new and concerns about safety remain.9
“Agricultural biotechnology has the potential
to produce safe, beneficial products. Current crops produced in
the U.S. are safe to eat and have benefits to the extent that they
have risks that are manageable. As with any technology, we need
to have a strong regulatory system to protect consumers, the public,
and the environment,” says Gregory Jaffe, director of the
Biotechnology Project, Center for Science in the Public Interest
(CSPI).
Regulating Biotechnology
“In the current FDA biotechnology food safety policy, the
FDA focuses on the food, not the process. They look at the final
product, not how it was made. There is a voluntary consultation
process in which the companies can send data for the FDA to review.
The problem is that it is voluntary,” says Jaffe. There have
been numerous examples of companies not complying with regulations.
For example, Prodigene, a small biotech company, contaminated soybeans
intended for the food supply with an experimental corn that was
engineered to produce pharmaceuticals.10 “Do the agencies
have the will and resources to oversee and punish the bad actors?”
asks Jaffe. The CSPI proposes an approval process at the FDA level
that promotes a mandatory, transparent process completed before
marketing with specific data requirements. Jaffe reports that the
USDA is reevaluating the whole regulatory system in the next year.
U.S. Senator Richard Durbin introduced the Genetically
Engineered Foods Act (S.2546), which would assign the FDA to regulate
safety for consumers of biotech crops and animals. There is also
an outcry for food labeling of GE food products. “People are
concerned that there are no labels on products. You will never persuade
the public that if you don’t label it, you’re not trying
to hide,” says Foreman. A CSPI 2001 survey indicates that
62% to 70% of respondent’s desire labeling of GE food. But
according to a 1999 Economic Research Service study, there would
be a 12% premium over the farm price for corn and soybeans to segregate
GE and non-GE varieties.11
How Green Is Biotechnology?
Many safety concerns for GE foods go beyond the realm of human food
consumption. Some scientists say the environment will pay the largest
price for biotechnology. The Ecological Society of America is concerned
that while GE organisms may have a positive role to play in sustainable
agriculture, the release of GE organisms into the environment could
have negative ecological impact, such as creating new or more vigorous
pests, exacerbating the effects of existing pests through hybridization,
harm to nontarget species (such as birds and wildlife), disruption
of biotic communities, and irreparable loss or change in genetic
diversity.12 In Mexico, it was discovered that GM corn had been
planted by peasants, thus threatening the cultural heritage of maize
that dates back 10,000 years.13 Another ecological argument is that
newly acquired genes might be transferred via pollination to wild
relatives, possibly endowing them with a “fitness” gene
that could turn them into “superweeds.” And recent data
shows that overall GM crops have led to an increase in pesticide
use.14
Life on the Farm
Farmers worry about more than safety. Contamination of non-GE crops
by GE plants is reason for concern. What’s happening to Hawaiian
papaya these days? Nearly 20,000 non-GE papaya seeds across the
Big Island, 80% of which came from organic farms and backyard gardens
or wild trees, showed a contamination level of 50%.15 This comes
at a time when a study was published showing that GE grass found
its way into conventionally grown grass approximately 12 miles away
in Oregon’s Willamette Valley.16 Organic farmers promise their
customers that their products are GE-free and customers in Japan
and Europe demand their crops are grown conventionally. It’s
not surprising that Trinity County, Calif., recently became the
second county in the nation to ban the growth of GE crops and animals.17
As companies patent GE seeds, they continue to gain
control over the world’s food supply. Newspaper headlines
have reported that in faraway places such as Kenya, farmers complain
about the high costs of company-produced seeds and the fear that
indigenous varieties will be destroyed due to contamination.18
Traditional breeding methods have been coming up
with some positive results lately, such as non-GE hybrid sunflower
oil free of trans fats.19 After three years of field trials and
$6 million, GM sweet potatoes modified to resist a virus intended
for African farms were no less vulnerable than ordinary varieties.
In Uganda, conventional breeding developed a high-yielding resistant
variety of sweet potatoes more quickly and cheaply.20 Three hundred
Catholic nuns in 11 Manila convents worked with international researchers
led by a Philipino scientist in experiments that produced a conventionally
bred rice variety high in iron and zinc.21 “There are instances
that conventional breeding may be a better fit,” adds Jaffe.
The Future for Biotechnology
If you look into GE’s crystal ball, you may see a world of
high-tech “pharms,” which use plants as mini factories
for pharmaceuticals such as vaccines. Plants may be grown to boost
nutrients such as pro-vitamin A, ferritin, lycopene, and protein.
Scientists are worried about fallible humans allowing these pharmaceutical
crops to accidentally get into our food supply. “You don’t
want to read about cornflakes with GE spermicide,” says Jaffe.
Dietitians Weigh in On GE
“I don’t think dietitians have a good grasp on the GE
foods issue,” says Tagtow, who adds that even for professionals
interested in the topic, it’s very difficult to stay on top
of the latest information. But Tagtow also reports an increase in
HEN membership and inquiries regarding GE foods, indicating that
dietitians are starting to realize that GE foods is an important
issue they need to be informed about.
Wading through the science and emotion is essential
to communicating a message to your community regarding GE foods.
Jaffe suggests that dietitians turn to reputable sources of information
such as the CSPI Web site, the FDA Web site, the Pew Initiative
on Food and Biotechnology, and the National Academies of Sciences
Report. Barbara Hartman, MS, RD, LD, HEN DPG chair, suggests that
dietitians may find that HEN offers networking opportunities with
many dietitians of varying opinions on GE foods.
Dietitians are finding themselves in the thick of
the battle on GE foods. Look at the 15 dietitians of San Luis Obispo
County, Calif., who signed their support of Measure Q in September
23, 2004, stating that “registered dietitians in the county
feel that it is premature and unwise to introduce these GE organisms
into our open environment when there is no proven health benefit
to do so. Conversely, they will most certainly bring us many potential
health risks.”22
“When it comes to GE foods, the more I read,
the more questions I have. Are there any longitudinal effects from
consuming GE foods? Are there nutritional differences between conventional
and organic products? How do GE grown foods affect agriculture?”
comments Tagtow.
Dietitians need to be able to answer tough questions
when the community cries out, “Should we be eating GE foods?”
“First, we need to educate ourselves about
potential benefits and dangers and learn more about decision making
under the precautionary principles,” says Barbara Scott, MPH,
RD, School of Medicine at University of Nevada, Reno. “After
we educate ourselves and know why we believe what we believe and
understand where gray areas are, then we can communicate this to
our patients so they can make an informed decision for themselves.”
— Sharon Palmer, RD, is a freelance food
and nutrition journalist in Southern California.
Special thanks to Christine McCullum, PhD, RD, for guidance with
this article.
References
1. McCullum C. Taking a closer look at biotechnology and genetically
engineered foods. Hunger and Environmental Nutrition Newsletter.
Winter 2003. Available at: http://www.hendpg.com/files/Winter_HEN_Newsletter_2003.pdf
2. Genetically modified wheat is still a market
risk. Western Organization of Resource Councils, USA. November 16,
2004. Available at: http://www.worc.org/media/worc_news.html
3. A growing concern: Protecting the food supply
in an era of pharmaceutical and industrial crops. Union of Concerned
Scientists. December 15, 2004. Available at: http://www.ucsusa.org/news/press_release.cfm?newsID=444
4. Pope hints at thumbs-down for GM food. Catholic
News. October 18, 2004. Available at: http://cathnews.com/news/410/81.php
5. Americans’ opinions about genetically modified
foods remain divided, but majority want a strong regulatory system.
The Pew Initiative on Food and Biotechnology. November 24, 2004.
Available at: http://pewagbiotech.org/newsroom/releases/112404.php3
6. GE foods in the market. Cornell Cooperative Extension.
November 2003. Available at: http://www.geo-pie.cornell.edu//crops/eating.html
7. Bren L. Genetic engineering: The future of foods?
FDA Consumer. November-December 2003. Available at: http://www.fda.gov/fdac/features/2003/603_food.html
8. Study shows lack of research into GM health effects.
Medical News Today. June 24, 2004. Available at:
http://www.medicalnewstoday.com/medicalnews.php?newsid=9876
9. Composition of altered food products, not method
used to create them, should be basis for federal safety assessment.
The National Academies. July 27, 2004. Available at: http://www4.nationalacademies.org/news.nsf/isbn/0309092094?OpenDocument
10. Leahy S. Crop testing rules menace food supply,
say critics. IPS News Agency. November 25, 2004. Available at: http://ipsnews.net/africa/interna.asp?idnews=26437
11. National Opinion Poll on Labeling of Genetically
Engineered Foods. Center for Science in the Public Interest (CSPI).
April 2001. Available at: http://www.tccouncil.org/surveys_cspi0401.htm
12. Snow AA, Andow DA, Gets P, et al. Genetically
engineered organisms and the environment: Current status and recommendations.
Ecological Society of America. 2004. Available at: http://www.esa.org/pao/esaPositions/Papers/geo_position.htm
13. Marrero C. Biodiversity in danger: The genetic
contamination of Mexican maize. Americas Program, Interhemispheric
Resource Center. June 2004. Available at: http://www.americaspolicy.org/articles/2004/0406contam_body.html
14. Benbrook C. Genetically engineered crops and
pesticide use in the United States: The first nine years. Northwest
Science and Environmental Policy Center, Sandpoint, Idaho. October
25, 2004. Available at: http://www.biotech-info.net/technicalpaper7.html
15. New research reveals widespread GMO contamination
and threats to local agriculture from the worlds’ first commercially
planted genetically engineered tree, Organic Consumers Association.
September 9, 2004. Available at: http://www.organicconsumers.org/biod/papaya090804.cfm
16. Polis J. GE grass threat to land and economy.
The Portland Alliance. 2004. Available at: http://www.theportlandalliance.org/2004/nov/gecrops.htm
17. Trinity County board of supervisors votes to
ban genetically engineered crops and animals. Organic Consumers
Association. August 3, 2004. Available at: http://www.organicconsumers.org/ge/trinity-county.cfm
18. Farmers reject GM food crops. The Kenya
Times. August 25, 2004. Available at: http://www.kentimes.com/25aug04/nwsstory/news19.html
19. Blaney B. Hybrid sunflower oil free of trans
fats. The Associated Press, September 7, 2004. Available at: http://msnbc.msn.com/id/5935579
20. A showcase project to develop a genetically
modified crop for Africa has failed. New Scientist. 2004;181(2433):7.
Available at: http://www.gmwatch.org/archive2.asp?arcid=2765
21. Viewpoint: ‘Mom killers’ and convents.
Inquirer News Service, Philippines. October 25, 2004. Available
at: http://news.inq7.net/opinion/index.php?index=4&story_id=16063&col=110
22. Registered dietitians support for Measure Q.
San Luis Obispo County. September 23, 2004.
GE Foods on the Supermarket Shelves
More than 50 biotech food products have been evaluated by the FDA
and found to be as safe as conventional foods, including the following:
• Canola oil;
• Corn;
• Cottonseed oil;
• Papaya;
• Potatoes;
• Soybeans;
• Squash;
• Sugar beets;
• Sweet corn; and
• Tomatoes.
*For a complete list of GE foods that have completed
FDA consultation, go to www.cfsan.fda.gov/~lrd/biocon.html.
Resources
The Pew Initiative on Food and Biotechnology
www.pewagbiotech.org
The Center for Science in the Public Interest
www.cspinet.org
The Council for Biotechnology Information
www.whybiotech.com
Rural Advancement Foundation International
www.rafiusa.org
ADA, Position on Biotechnology and the Future of
Foods
www.eatright.org/Public/Other/index_abiotechnology.cfm
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