A new scientific review from the University of
California, Davis, reports that the performance and health of food-producing
animals consuming genetically engineered feed, first introduced 18 years ago,
has been comparable to that of animals consuming non-GE feed. The review study
also found that scientific studies have detected no differences in the
nutritional makeup of the meat, milk or other food products derived from
animals that ate genetically engineered feed.
The review, led by UC Davis animal scientist Alison Van Eenennaam, examined
nearly 30 years of livestock-feeding studies that represent more than 100
billion animals. Titled "Prevalence and Impacts of Genetically Engineered
Feedstuffs on Livestock Populations," the review article is now available
online in open-access form through the American Society of Animal Science.
Genetically engineered crops were first introduced in 1996. Today, 19
genetically engineered plant species are approved for use in the United States,
including the major crops used extensively in animal feed: alfalfa, canola,
corn, cotton, soybean and sugar beet.
Food-producing animals such as cows, pigs, goats, chickens and other poultry
species now consume 70 to 90 percent of all genetically engineered crops,
according to the new UC Davis review. In the United States, alone, 9 billion
food-producing animals are produced annually, with 95 percent of them consuming
feed that contains genetically engineered ingredients.
"Studies have continually shown that the milk, meat and eggs derived
from animals that have consumed GE feed are indistinguishable from the products
derived from animals fed a non-GE diet," Van Eenennaam said.
"Therefore, proposed labeling of animal products from livestock and
poultry that have eaten GE feed would require supply-chain segregation and
traceability, as the products themselves would not differ in any way that could
be detected."
Now that a second generation of genetically engineered crops that have been
optimized for livestock feed is on the horizon, there is a pressing need to
internationally harmonize the regulatory framework for these products, she
said.
"To avoid international trade disruptions, it is critical that the
regulatory approval process for genetically engineered products be established
in countries importing these feeds at the same time that regulatory approvals
are passed in the countries that are major exporters of animal feed," Van
Eenennaam said.
Collaborating on the study was co-author Amy E. Young in the UC Davis
Department of Animal Science. The review study was supported by funds from the
W.K. Kellogg endowment and the California Agricultural Experiment Station of UC
Davis.
Source: http://www.sciencedaily.com
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