It was a bad week for genetically engineered crops.
A new report released by the Union of Concerned Scentists (UCS) finds that despite 20 years of research and 13 years of commercialization, genetic
engineering has failed to significantly increase U.S. crop yields.
Also, Germany announced it will ban cultivation and sale of genetically modified (GMO) maize, despite European Union rulings that the biotech grain is safe.
The report, titled "Failure to Yield" was written by researcher Doug Gurian-Sherma. The UCS said it is the first report to closely evaluate the overall effect genetic engineering has had on crop yields in relation to other agricultural technologies.
It reviewed two dozen academic studies of corn and soybeans, the two primary genetically engineered food and feed crops grown in the United States. Based on those studies, the UCS report concluded that genetically engineering herbicide-tolerant soybeans and herbicide-tolerant corn has not increased yields. Insect-resistant corn, meanwhile, has improved yields only marginally. The increase in yields for both crops over the last 13 years, the report found, was largely due to traditional breeding or improvements in agricultural practices.
The UCS report comes at a time when food price spikes and localized shortages worldwide have prompted calls to boost agricultural productivity, or yield–the amount of a crop produced per unit of land over a specified amount of time. Biotechnology companies maintain that genetic engineering is essential to meeting this goal. Monsanto (NYSE: MON), for example, is currently running an advertising campaign warning of an exploding world population and claiming that its “advanced seeds… significantly increase crop yields…”
The UCS report debunks that claim, concluding that genetic engineering is unlikely to play a significant role in increasing food production in the foreseeable future.
The biotechnology industry has been promising better yields since the mid-1990s, but Failure to Yield documents that the industry has been carrying out gene field trials to increase yields for 20 years without significant results.
Failure to Yield makes a critical distinction between potential—or intrinsic—yield and operational yield, concepts that are often conflated by the industry and misunderstood by others. Intrinsic yield refers to a crop’s ultimate production potential under the best possible conditions. Operational yield refers to production levels after losses due to pests, drought and other environmental factors.
The study reviewed the intrinsic and operational yield achievements of the three most common genetically altered food and feed crops in the United States: herbicide-tolerant soybeans, herbicide-tolerant corn, and insect-resistant corn (known as Bt corn, after the bacterium Bacillus thuringiensis, whose genes enable the corn to resist several kinds of insects).
Herbicide-tolerant soybeans, herbicide-tolerant corn, and Bt corn have failed to increase intrinsic yields, the report found. Herbicide-tolerant soybeans and herbicide-tolerant corn also have failed to increase operational yields, compared with conventional methods.
Meanwhile, the report found that Bt corn likely provides a marginal operational yield advantage of 3% to 4% over typical conventional practices. Since Bt corn became commercially available in 1996, its yield advantage averages out to a 0.2% to 0.3% yield increase per year. To put that figure in context, overall U.S. corn yields over the last several decades have annually averaged an increase of approximately 1%, which is considerably more than what Bt traits have provided.
In addition to evaluating genetic engineering’s record, “Failure to Yield” considers the technology’s potential role in increasing food production over the next few decades. The report does not discount the possibility of genetic engineering eventually contributing to increase crop yields. It does, however, suggest that it makes little sense to support genetic engineering at the expense of technologies that have proven to substantially increase yields, especially in many developing countries. In addition, recent studies have shown that organic and similar farming methods that minimize the use of pesticides and synthetic fertilizers can more than double crop yields at little cost to poor farmers in such developing regions as Sub-Saharan Africa.
The report recommends that the U.S. Department of Agriculture, state agricultural agencies, and universities increase research and development for proven approaches to boost crop yields. Those approaches should include modern conventional plant breeding methods, sustainable and organic farming, and other sophisticated farming practices that do not require farmers to pay significant upfront costs.
The report also recommends that U.S. food aid organizations make these more promising and affordable alternatives available to farmers in developing countries.
“If we are going to make headway in combating hunger due to overpopulation and climate change, we will need to increase crop yields,” said Gurian-Sherman. “Traditional breeding outperforms genetic engineering hands down.”
German Ban
German Agriculture and Consumer Protection Minister Ilse Aigner told a news conference that Monsanto’s MON 810 maize no longer be sown for this summer’s harvest.
Read the full Reuters report at the link below.