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Discovery exposes failure of USDA’s “coexistence” policy

1. New study finds genetically engineered alfalfa has gone wild, exposing failure of “coexistence” policy
2. Occurrence of Transgenic Feral Alfalfa (Medicago sativa subsp. sativa L.) in Alfalfa Seed Production Areas in the United States

1. New study finds genetically engineered alfalfa has gone wild, exposing failure of “coexistence” policy

By Bill Freese
Center for Food Safety
January 13, 2016
http://www.centerforfoodsafety.org/blog/4207/new-study-finds-genetically-engineered-alfalfa-has-gone-wild-exposing-failure-of-coexistence-policy#
[links to sources are at the URL above]

A recent study by USDA scientists shows that genetically engineered (GE) alfalfa has gone wild, in a big way, in alfalfa-growing parts of the West. This feral GE alfalfa may help explain a number of transgenic contamination episodes over the past few years that have cost American alfalfa growers and exporters millions of dollars in lost revenue. And it also exposes the failure of USDA’s “coexistence” policy for GE and traditional crops.

The U.S. Dept. of Agriculture (USDA) has long maintained that genetically engineered (GE) crops can co-exist with traditional and organic agriculture. According to this “co-existence” narrative, if neighboring GE and traditional farmers just sort things out among themselves and follow “best management practices,” transgenes will be confined to GE crops and the fields where they are planted.

The latest evidence refuting USDA’s co-existence fairytale comes from a recently published study by a team of USDA scientists. The study involved Monsanto’s Roundup Ready alfalfa, which, like most GE crops in the U.S. is engineered to survive direct spraying with Roundup, Monsanto’s flagship herbicide.

In 2011 and 2012, USDA scientist Stephanie Greene and her team scouted the roadsides of three important alfalfa-growing areas – in California, Idaho and Washington – for feral (wild) alfalfa stands. Because alfalfa is a hardy perennial plant, it readily forms self-sustaining feral populations that persist for years wherever the crop is grown.

Greene and colleagues found 404 feral alfalfa populations on roadsides. Testing revealed that over one-quarter (27%) of them contained transgenic alfalfa – that is, plants that tested positive for the Roundup Ready gene. They believe that most of these feral populations likely grew from seeds spilled during alfalfa production or transport.

However, the researchers also found clear evidence that the Roundup Ready gene was being spread by bees, which are known to cross-pollinate alfalfa populations separated by up to several miles. Their results suggested that “transgenic plants could spread transgenes to neighboring feral plants, and potentially to neighboring non-GE fields” (emphasis added). While they did not test this latter possibility, there is no doubt that non-GE alfalfa has in fact been transgenically contaminated – not just once, but on many occasions.

In 2013, a Washington State farmer’s alfalfa was rejected by a broker after testing revealed transgenic contamination. In 2014, China rejected numerous U.S. alfalfa shipments that tested positive for the Roundup Ready gene. Alfalfa exports to China, a major market that has zero tolerance for GE alfalfa, fell dramatically. U.S. hay prices fell, and at least three U.S. alfalfa exporters suffered many millions of dollars in losses.

Both the Washington State farmer and those who sold to the exporters intended to grow only traditional alfalfa. It is not clear how their produce became contaminated. Besides cross-pollination from GE feral or cultivated alfalfa, possible explanations include inadvertent mixing during harvest or storage, or (most insidiously) transgenic contamination of the conventional alfalfa seed they planted.

What makes the high (27%) GE contamination rate found in this study so remarkable is how little GE alfalfa produced it. USDA first approved Roundup Ready alfalfa in 2005, and it occupied just 1% of national alfalfa acreage in 2006. A federal court prohibited new plantings starting in 2007, but allowed what had already been planted to remain in the ground (an alfalfa stand is typically grown for about five years). Because this study was conducted just a few months after the re-approval of GE alfalfa in 2011, all of the feral GE alfalfa the researchers detected arose from the comparatively few fields planted in 2005 and 2006. There is much more GE alfalfa being grown now (Monsanto says 30% of alfalfa seed sold is GE). So there is likely much more feral GE alfalfa today than is suggested by this study.

It’s important to note that the study’s major finding – that feral GE alfalfa is present and poses a contamination risk – has been known for at least six years. Oregon alfalfa seed grower Phillip Geertson presented USDA with documented evidence of feral GE alfalfa in Idaho and Oregon in 2009, but was ignored. More broadly, USDA exhaustively discussed this and other modes of transgenic contamination in its voluminous 2010 Environmental Impact Statement (EIS) on Roundup Ready alfalfa. In fact, buried in that EIS is data showing still earlier episodes of transgenic contamination of alfalfa dating back to the crop’s first commercial introduction in 2005.

What’s needed now is not more studies to tell us in finer detail what we already know, but regulatory action. Yet the USDA – which is embarrassingly subservient to the biotechnology industry – has failed to voluntarily enact a single restriction on GE crop growers. This forces traditional farmers to bear the entire burden of preventing transgenic contamination.

The ineffectiveness of this policy is shown by contamination-induced losses of billions of dollars in corn exports to competitors like Brazil. It is also suggested by the absurd spectacle of the U.S. (the world’s leading corn and soybean producer) importing organic corn and soy from countries like Romania and India. Fear of transgenic contamination is one factor deterring more U.S. farmers from meeting America’s growing demand for organic foods.

Because of federal inaction, citizens have taken action to protect their traditional agriculture at the county level, and Center for Food Safety (CFS) has provided critical assistance to these efforts. For instance, in 2014 voters in Jackson County, Oregon, overwhelmingly passed an ordinance prohibiting cultivation of GE crops in their county. CFS helped the County and its farmers fend off a lawsuit seeking to invalidate the Ordinance brought by two GE alfalfa growers with financial backing from the biotechnology industry.

Similar “GE-free zones” have been created with CFS assistance in at least seven other counties in California, Washington, Hawaii and a second county in Oregon. CFS is also proud to support a new ordinance introduced in November of last year in Costilla County, Colorado, that would establish a GMO-Free Zone to protect locally bred heirloom maize from transgenic contamination.

Bill Freese is Science Policy Analyst, Center for Food Safety

2. Occurrence of Transgenic Feral Alfalfa (Medicago sativa subsp. sativa L.) in Alfalfa Seed Production Areas in the United States

Greene SL, Kesoju SR, Martin RC, Kramer M (2015) PLoS ONE 10(12): e0143296. doi:10.1371/journal.pone.0143296
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0143296 (open access)

Abstract

The potential environmental risks of transgene exposure are not clear for alfalfa (Medicago sativa subsp. sativa), a perennial crop that is cross-pollinated by insects. We gathered data on feral alfalfa in major alfalfa seed-production areas in the western United States to (1) evaluate evidence that feral transgenic plants spread transgenes and (2) determine environmental and agricultural production factors influencing the location of feral alfalfa, especially transgenic plants. Road verges in Fresno, California; Canyon, Idaho; and Walla Walla, Washington were surveyed in 2011 and 2012 for feral plants, and samples were tested for the CP4 EPSPS protein that conveys resistance to glyphosate. Of 4580 sites surveyed, feral plants were observed at 404 sites. Twenty-seven percent of these sites had transgenic plants. The frequency of sites having transgenic feral plants varied among our study areas. Transgenic plants were found in 32.7%, 21.4.7% and 8.3% of feral plant sites in Fresno, Canyon and Walla Walla, respectively. Spatial analysis suggested that feral populations started independently and tended to cluster in seed and hay production areas, places where seed tended to drop. Significant but low spatial auto correlation suggested that in some instances, plants colonized nearby locations. Neighboring feral plants were frequently within pollinator foraging range; however, further research is needed to confirm transgene flow. Locations of feral plant clusters were not well predicted by environmental and production variables. However, the likelihood of seed spillage during production and transport had predictive value in explaining the occurrence of transgenic feral populations. Our study confirms that genetically engineered alfalfa has dispersed into the environment, and suggests that minimizing seed spillage and eradicating feral alfalfa along road sides would be effective strategies to minimize transgene dispersal.