Posted on 08/09/2010 8:30:57 PM PDT by Palter
GM canola plant refugees from farms in North Dakota bear multiple transgenic traits
Outside a grocery store in Langdon, N.D., two ecologists spotted a yellow canola plant growing on the margins of a parking lot this summer. They plucked it, ground it up and, using a chemical stick similar to those in home pregnancy kits, identified proteins that were made by artificially introduced genes. The plant was GMgenetically modified.
That's not too surprising, given that North Dakota grows tens of thousands of hectares of conventional and genetically modified canolaa weedy plant, known scientifically as Brassica napus var oleifera, bred by Canadians to yield vegetable oil from its thousands of tiny seeds. What was more surprising was that nearly everywhere the two ecologists and their colleagues stopped during a trip across the state, they found GM canola growing in the wild. "We found transgenic plants growing in the middle of nowhere, far from fields," says ecologist Cindy Sagers of the University of Arkansas (U.A.) in Fayetteville, who presented the findings August 6 at the Ecological Society of America meeting in Pittsburgh. Most intriguingly, two of the 288 tested plants showed man-made genes for resistance to multiple pesticidesso-called "stacked traits," and a type of seed that biotechnology companies like Monsanto have long sought to develop and market. As it seems, Mother Nature beat biotech to it. "One of the ones with multiple traits was [in the middle of] nowhere, and believe me, there's a lot of nowhere in North Dakotanowhere near a canola field," she adds.
That likely means that transgenic canola plants are cross-pollinating in the wildand swapping introduced genes. Although GM canola in the wild has been identified everywhere from Canada to Japan in previous research, this marks the first time such plants have been shown to be evolving in this way. "They had novel combinations of transgenic traits," Sagers says. "The most parsimonious explanation is these traits are stable outside of cultivation and they are evolving."
Escaped populations of such transgenic plants have generally died out quickly without continual replenishment from stray farm seeds in places such as Canada, but canola is capable of hybridizing with at least twoand possibly as many as eightwild weed species in North America, including field mustard (Brassica rapa), which is a known agricultural pest. "Not only is it going to jump out of cultivation; there are sexually compatible weeds all over North America," Sagers says. Adds ecologist-in-training Meredith Schafer of U.A., who led the research, "It becomes a weed [farmers] can't control."
There has been no evidence to show that the herbicide resistance genes will either increase or decrease fitness to date. The finding provides, however, a warning for future genetic modifications that might increase fitness in all kinds of plants; it will be difficult to keep those traits on the farm and out of the wild. "The big concern is traits that would increase invasiveness or weediness, traits such as drought tolerance, salt tolerance, heat or cold tolerance" says weed scientist Carol Mallory-Smith of Oregon State Universityall the traits that Monsanto and others are currently developing to help crops adapt to climate change. "These traits would have the possibility of expanding a species' range." In the case of canola, consider it doneat least in North Dakota.
This is not the first transgenic crop to escape into the wild in the U.S.; herbicide-resistant turf grass being tested in Oregon spread as well in 2006. And GM canola is not a regulated plant, "therefore no protocols are required by the regulatory agencies to reduce or prevent escape," notes ecologist Allison Snow of The Ohio State University. "The next question is: 'So what?' What difference does it make if the feral canola or any species that hybridize with it have two transgenes for herbicide resistance?"
Canola modified to resist either the herbicide glufosinate (brand name Liberty) or glyphosate (brand name Roundup) has been available in the U.S. since 1989and unregulated since 1998 and 1999, respectively for the two herbicides. "These results are not new for Canadian researchers and to be expected if two types of transgenic herbicide-resistant canola are commercially grown," says Suzanne Warwick of Agriculture and Agri-Food Canada, a government agency.
A common source for GM canola in the wild is seed that has scattered during harvest or fallen off a truck during transport. "Because about 90 percent of the U.S. and Canadian canola crop is biotech, it is reasonable to expect a survey of roadside canola to show similar levels of biotech plants," said Tom Nickson, environmental policy lead at Monsanto, in a prepared statement.
Nor does Monsanto claim ownership of the escaped plants, even those with multiple transgenes, according to company spokesman John Combest. "It has never been, nor will it be, Monsanto policy to exercise its patent rights where trace amounts of our patented traits are present in fields as a result of inadvertent means," although researchers would have to obtain a license from the company to work with the GM plant.
It remains to be seen how much sexual mingling such transgenic plants do; U.A.'s Sagers plans to do greenhouse trials starting in a few weeks. But it does provide a compelling example of how genes might move through a given population. "This is a good model for the influence of agriculture on the evolution of native plants," she says. "We can imagine gene flow to native species. If we can imagine it happening, it probably happens."
yes .. i remember that also
Oxtails and leg shanks are the toughest cuts of meat but cost more than tenderloin, if marketed and cooked correctly.
A buck for a bottle of generic canola oil in a plastic bottle? Or $15 for a pint of rape-seed oil in a fancy bottle?
The sad part is that the American public has been dumbed down so far.
/johnny
If this idiot child is "surprised" by this, then she needs to go into another line of work. Apparently she believes certain genetic makeup will somehow magically confine itself to the boundaries of farmers' fields.
Red-Wine Braised Oxtails
Yeah, something like that. Really bad, unforseen consequences. Or forseen, and Monsanto is really sinister. Or both. But nothing good at all from any of this.
Where are the environmentalists on this? This is a real, potentially very serious, and completely novel problem.
This is not the fictional global warming issue.
Yep, those are definitiely two sexually compatible weeds....
Perhaps she’s wrong to be surprised. But didn’t Monsanto say that those very claims were “science fiction”.
So, what, it’s either obvious or fantasy?
I think it’s somewhere in the middle, a potentially severe threat to our environment.
Because oil yield is GMed into the genes as well as immunity to broadleaf herbicides and natural predators.
I'm cool with mutant ragweed oil for cooking. Have to work on the name, of course, but Canada did it with Canola.
/johnny
Newsflash: GM isn’t new or dangerous. Man has been doing it for thousands of years.
Perhaps you’ve heard of Agriculture? Farming?
Which environment? The one that existed 1000 years ago? The one that exists today? Or the one that we are creating?
/johnny
They can reproduce the farmer just can’t keep the seed because the technology belongs to Monsanto.
If you buy their seed and don’t plant it you can’t give it to another farmer. There are all kinds of rules and if you break any of them and Monsanto finds out, you get sued.
Isn’t what’s happening here that the canola and the weeds are pollinating each other? The weeds are good at growing whereever. The canola is good at being roundup ready, being a plant that won’t die when sprayed by roundup. When the canola genes get into the weeds, you end up with a weed that will grow anywhere weeds grow, plus that weed won’t die when sprayed with Roundup. Also, apparently, these super-weeds are resistent to multiple pesticides.
Listen, just leave plants the way they are.
There you go, being rational again.
We still have people complaining about domesticating wolves and modifying them. Right here on this board. There are downsides and upsides. But if they really become a problem, they will be like the dodo. Humans are good at that. Really, really good. Industrial good.
/johnny
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