Researchers find genetically engineered corn could affect aquatic ecosystems
A study by an Indiana University environmental science professor and several colleagues suggests a widely planted variety of genetically engineered corn - also used to produce ethanol - has the potential to harm aquatic ecosystems. The study is being published online this week by the journal Proceedings of the National Academy of Sciences.
Researchers, including Todd V. Royer, an assistant professor in the IU School of Public and Environmental Affairs, established that pollen and other plant parts containing toxins from genetically engineered Bt corn are washing into streams near cornfields.
They also conducted laboratory trials that found consumption of Bt corn byproducts produced increased mortality and reduced growth in caddisflies, aquatic insects that are related to the pests targeted by the toxin in Bt corn.
Caddisflies are a food resource for higher organisms like fish and amphibians. If the goal is to have healthy, functioning ecosystems, there is a need to protect all the parts. Water resources are something populations depend on greatly.
Bt corn is engineered to include a gene from the micro-organism Bacillus thuringiensis, which produces a toxin that protects the crop from pests, in particular the European corn borer. It was licensed for use in 1996 and quickly gained popularity. In 2006, around 35 percent of corn acreage planted in the U.S. was genetically modified, the study says, citing U.S. Department of Agriculture data.
Before licensing Bt corn, the U.S. Environmental Protection Agency conducted trials to test its impact on water biota. But it used Daphnia, a crustacean commonly used for toxicity tests, and not insects that are more closely related to the target pests:
energy :: sustainability :: biomass :: bioenergy :: biofuels :: ethanol :: corn :: GMO ::
Royer emphasizes that, if there are unintended consequences of planting genetically engineered crops, farmers shouldn't be held responsible. In a competitive agricultural economy, producers have to use the best technologies they can get.
Their research, conducted in 2005 and 2006 in an intensely farmed region of northern Indiana, measured inputs of Bt corn pollen and corn byproducts (e.g., leaves and cobs) in 12 headwater streams, using litter traps to collect the materials. They also found corn pollen in the guts of certain caddisflies, showing they were feeding on corn pollen.
In laboratory trials, the researchers found caddisflies that were fed leaves from Bt corn had growth rates that were less than half those of caddisflies fed non-Bt corn litter. They also found that a different type of caddisfly had significantly increased mortality rates when exposed to Bt corn pollen at concentrations between two and three times the maximum found in the test sites.
Royer said there was considerable variation in the amount of corn pollen and byproducts found at study locations. And there is likely also to be significant geographical variation; farmers in Iowa and Illinois, for example, are planting more Bt corn than those in Indiana. The level of Bt corn pollen associated with increased mortality in caddisflies could potentially represent conditions in streams of the western Corn Belt.
Other principal investigators for the study were Emma Rosi-Marshall of Loyola University Chicago, Jennifer Tank of the University of Notre Dame and Matt Whiles of Southern Illinois University. It was funded by the National Science Foundation.
References:
E. J. Rosi-Marshall, J. L. Tank, T. V. Royer, M. R. Whiles, M. Evans-White, C. Chambers, N. A. Griffiths, J. Pokelsek, and M. L. Stephen, "Toxins in transgenic crop byproducts may affect headwater stream ecosystems", Proc. Natl. Acad. Sci., 10.1073/pnas.0707177104, Published online before print October 8, 2007
Eurekalert: Study shows genetically engineered corn could affect aquatic ecosystems - October 8, 2007.
Biopact: GM field trials 'underestimate potential for cross-pollination' - study - June 01, 2007
Researchers, including Todd V. Royer, an assistant professor in the IU School of Public and Environmental Affairs, established that pollen and other plant parts containing toxins from genetically engineered Bt corn are washing into streams near cornfields.
They also conducted laboratory trials that found consumption of Bt corn byproducts produced increased mortality and reduced growth in caddisflies, aquatic insects that are related to the pests targeted by the toxin in Bt corn.
Caddisflies are a food resource for higher organisms like fish and amphibians. If the goal is to have healthy, functioning ecosystems, there is a need to protect all the parts. Water resources are something populations depend on greatly.
Bt corn is engineered to include a gene from the micro-organism Bacillus thuringiensis, which produces a toxin that protects the crop from pests, in particular the European corn borer. It was licensed for use in 1996 and quickly gained popularity. In 2006, around 35 percent of corn acreage planted in the U.S. was genetically modified, the study says, citing U.S. Department of Agriculture data.
Before licensing Bt corn, the U.S. Environmental Protection Agency conducted trials to test its impact on water biota. But it used Daphnia, a crustacean commonly used for toxicity tests, and not insects that are more closely related to the target pests:
energy :: sustainability :: biomass :: bioenergy :: biofuels :: ethanol :: corn :: GMO ::
Royer emphasizes that, if there are unintended consequences of planting genetically engineered crops, farmers shouldn't be held responsible. In a competitive agricultural economy, producers have to use the best technologies they can get.
Every new technology comes with some benefits and some risks. I think probably the risks associated with widespread planting of Bt corn were not fully assessed. - Todd V. Royer, assistant professor in the IU School of Public and Environmental AffairsThere was a public flap over the growing use of Bt corn in 1999, when a report indicated it might harm monarch butterflies. But studies coordinated by the government's Agriculture Research Service and published in PNAS concluded there was not a significant threat to monarchs. Around that time, Royer said, he and his colleagues wondered whether the toxin from Bt corn was getting into streams near cornfields; and, if so, whether it could have an impact on aquatic insects.
Their research, conducted in 2005 and 2006 in an intensely farmed region of northern Indiana, measured inputs of Bt corn pollen and corn byproducts (e.g., leaves and cobs) in 12 headwater streams, using litter traps to collect the materials. They also found corn pollen in the guts of certain caddisflies, showing they were feeding on corn pollen.
In laboratory trials, the researchers found caddisflies that were fed leaves from Bt corn had growth rates that were less than half those of caddisflies fed non-Bt corn litter. They also found that a different type of caddisfly had significantly increased mortality rates when exposed to Bt corn pollen at concentrations between two and three times the maximum found in the test sites.
Royer said there was considerable variation in the amount of corn pollen and byproducts found at study locations. And there is likely also to be significant geographical variation; farmers in Iowa and Illinois, for example, are planting more Bt corn than those in Indiana. The level of Bt corn pollen associated with increased mortality in caddisflies could potentially represent conditions in streams of the western Corn Belt.
Other principal investigators for the study were Emma Rosi-Marshall of Loyola University Chicago, Jennifer Tank of the University of Notre Dame and Matt Whiles of Southern Illinois University. It was funded by the National Science Foundation.
References:
E. J. Rosi-Marshall, J. L. Tank, T. V. Royer, M. R. Whiles, M. Evans-White, C. Chambers, N. A. Griffiths, J. Pokelsek, and M. L. Stephen, "Toxins in transgenic crop byproducts may affect headwater stream ecosystems", Proc. Natl. Acad. Sci., 10.1073/pnas.0707177104, Published online before print October 8, 2007
Eurekalert: Study shows genetically engineered corn could affect aquatic ecosystems - October 8, 2007.
Biopact: GM field trials 'underestimate potential for cross-pollination' - study - June 01, 2007
3 Comments:
Did he happen to mention what the consequences would be to going back to "Pesticides?"
BTW, did I read that right? to wit: Some caddisflies MIGHT die if they were fed Two or Three times the Maximum amount found at any sites?
Rufus, the team does not immediately condemn Bt corn, I think. It just notices that the crop could have impacts that were not immediately predicted.
A growing number of studies shows the complexity of potential unintended environmental impacts of GM crops, and the time scales needed to discover these are often quite long. These studies should be a warning and should make it possible to develop stricter policies and testing procedures before such crops are introduced.
The precautionary principle can indeed limit our ability to experiment, but it should not be weakened too much.
You suggest a cost-benefit analysis. Fine, but it should include all possible impacts; and such analyses should be revised when new findings show up.
I'll be honest, I'm starting to suspect that the U.S. Congress is debating a "Farm/Energy" Bill.
What was it two weeks, ago? Nitrous Oxide? Something that's measured in the atmosphere in parts per Billion? Has increased in the atmosphere 16% in 260 years (60 years of heavy fertilizer use, and until recently, deep tilling,) and has a "radiative forcing" effect 1/10 that of CO2?
Seems kinda "timey," to me.
Oh yeah, last month it was my box of corn flakes going up 2.2 cents due to the "Escalating" Price of Corn (It's, since, dropped to 1.1 cents, by the way.)
I wonder how many people died from starvation in Africa as a result of Asia's cattle feed going up from $0.04/lb to $0.06/lb?
I know, I know; I'm being "snarkey," but this whole anti-corn ethanol thing is getting to be a bit much.
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