Monsanto and evolution

http://www.nytimes.com/2010/05/04/business/energy-environment/04weed.html

DYERSBURG, Tenn. — For 15 years, Eddie Anderson, a farmer, has been a strict adherent of no-till agriculture, an environmentally friendly technique that all but eliminates plowing to curb erosion and the harmful runoff of fertilizers and pesticides.

But not this year.

On a recent afternoon here, Mr. Anderson watched as tractors crisscrossed a rolling field — plowing and mixing herbicides into the soil to kill weeds where soybeans will soon be planted.

Just as the heavy use of antibiotics contributed to the rise of drug-resistant supergerms, American farmers’ near-ubiquitous use of the weedkiller Roundup has led to the rapid growth of tenacious new superweeds.

To fight them, Mr. Anderson and farmers throughout the East, Midwest and South are being forced to spray fields with more toxic herbicides, pull weeds by hand and return to more labor-intensive methods like regular plowing.

“We’re back to where we were 20 years ago,” said Mr. Anderson, who will plow about one-third of his 3,000 acres of soybean fields this spring, more than he has in years. “We’re trying to find out what works.”

Farm experts say that such efforts could lead to higher food prices, lower crop yields, rising farm costs and more pollution of land and water.

“It is the single largest threat to production agriculture that we have ever seen,” said Andrew Wargo III, the president of the Arkansas Association of Conservation Districts.

The first resistant species to pose a serious threat to agriculture was spotted in a Delaware soybean field in 2000. Since then, the problem has spread, with 10 resistant species in at least 22 states infesting millions of acres, predominantly soybeans, cotton and corn.

The superweeds could temper American agriculture’s enthusiasm for some genetically modified crops. Soybeans, corn and cotton that are engineered to survive spraying with Roundup have become standard in American fields. However, if Roundup doesn’t kill the weeds, farmers have little incentive to spend the extra money for the special seeds.

Roundup — originally made by Monsanto but now also sold by others under the generic name glyphosate — has been little short of a miracle chemical for farmers. It kills a broad spectrum of weeds, is easy and safe to work with, and breaks down quickly, reducing its environmental impact.

Sales took off in the late 1990s, after Monsanto created its brand of Roundup Ready crops that were genetically modified to tolerate the chemical, allowing farmers to spray their fields to kill the weeds while leaving the crop unharmed. Today, Roundup Ready crops account for about 90 percent of the soybeans and 70 percent of the corn and cotton grown in the United States.

But farmers sprayed so much Roundup that weeds quickly evolved to survive it. “What we’re talking about here is Darwinian evolution in fast-forward,” Mike Owen, a weed scientist at Iowa State University, said.

Now, Roundup-resistant weeds like horseweed and giant ragweed are forcing farmers to go back to more expensive techniques that they had long ago abandoned.

Mr. Anderson, the farmer, is wrestling with a particularly tenacious species of glyphosate-resistant pest called Palmer amaranth, or pigweed, whose resistant form began seriously infesting farms in western Tennessee only last year.

Pigweed can grow three inches a day and reach seven feet or more, choking out crops; it is so sturdy that it can damage harvesting equipment. In an attempt to kill the pest before it becomes that big, Mr. Anderson and his neighbors are plowing their fields and mixing herbicides into the soil.

That threatens to reverse one of the agricultural advances bolstered by the Roundup revolution: minimum-till farming. By combining Roundup and Roundup Ready crops, farmers did not have to plow under the weeds to control them. That reduced erosion, the runoff of chemicals into waterways and the use of fuel for tractors.

If frequent plowing becomes necessary again, “that is certainly a major concern for our environment,” Ken Smith, a weed scientist at the University of Arkansas, said. In addition, some critics of genetically engineered crops say that the use of extra herbicides, including some old ones that are less environmentally tolerable than Roundup, belies the claims made by the biotechnology industry that its crops would be better for the environment.

“The biotech industry is taking us into a more pesticide-dependent agriculture when they’ve always promised, and we need to be going in, the opposite direction,” said Bill Freese, a science policy analyst for the Center for Food Safety in Washington.

So far, weed scientists estimate that the total amount of United States farmland afflicted by Roundup-resistant weeds is relatively small — seven million to 10 million acres, according to Ian Heap, director of the International Survey of Herbicide Resistant Weeds, which is financed by the agricultural chemical industry. There are roughly 170 million acres planted with corn, soybeans and cotton, the crops most affected.

Roundup-resistant weeds are also found in several other countries, including Australia, China and Brazil, according to the survey.

Monsanto, which once argued that resistance would not become a major problem, now cautions against exaggerating its impact. “It’s a serious issue, but it’s manageable,” said Rick Cole, who manages weed resistance issues in the United States for the company.

Of course, Monsanto stands to lose a lot of business if farmers use less Roundup and Roundup Ready seeds.

“You’re having to add another product with the Roundup to kill your weeds,” said Steve Doster, a corn and soybean farmer in Barnum, Iowa. “So then why are we buying the Roundup Ready product?”

Monsanto argues that Roundup still controls hundreds of weeds. But the company is concerned enough about the problem that it is taking the extraordinary step of subsidizing cotton farmers’ purchases of competing herbicides to supplement Roundup.

Monsanto and other agricultural biotech companies are also developing genetically engineered crops resistant to other herbicides.

Bayer is already selling cotton and soybeans resistant to glufosinate, another weedkiller. Monsanto’s newest corn is tolerant of both glyphosate and glufosinate, and the company is developing crops resistant to dicamba, an older pesticide. Syngenta is developing soybeans tolerant of its Callisto product. And Dow Chemical is developing corn and soybeans resistant to 2,4-D, a component of Agent Orange, the defoliant used in the Vietnam War.

Still, scientists and farmers say that glyphosate is a once-in-a-century discovery, and steps need to be taken to preserve its effectiveness.

Glyphosate “is as important for reliable global food production as penicillin is for battling disease,” Stephen B. Powles, an Australian weed expert, wrote in a commentary in January in The Proceedings of the National Academy of Sciences.

The National Research Council, which advises the federal government on scientific matters, sounded its own warning last month, saying that the emergence of resistant weeds jeopardized the substantial benefits that genetically engineered crops were providing to farmers and the environment.

Weed scientists are urging farmers to alternate glyphosate with other herbicides. But the price of glyphosate has been falling as competition increases from generic versions, encouraging farmers to keep relying on it.

Something needs to be done, said Louie Perry Jr., a cotton grower whose great-great-grandfather started his farm in Moultrie, Ga., in 1830.

Georgia has been one of the states hit hardest by Roundup-resistant pigweed, and Mr. Perry said the pest could pose as big a threat to cotton farming in the South as the beetle that devastated the industry in the early 20th century.

“If we don’t whip this thing, it’s going to be like the boll weevil did to cotton,” said Mr. Perry, who is also chairman of the Georgia Cotton Commission. “It will take it away.”

Reminds me of…

Nature still really hasn’t found a way to cope with steel though. Of course the article does point out the problems with plowing(like taking a ton of fuel).

I see the article was published in May, but if you don’t mind my asking rickrock305, did you posting this article have anything to do with the fact that roundup ready alfalfa was just approved for use by the Supreme Court? Not trying to accuse you of anything(I’m not here defending either Monsanto or roundup anything), just the date of this post and the alfalfa issue made me wonder if this was related some how.

no, i wasn’t even aware of that. i got this from another forum i read and found it pretty interesting.

I see. Thanks for posting the article since I found it pretty interesting. I live on a farm/ranch operation and I was discussing part of the issue raised here with my dad not too long ago.

In case you were interested in the roundup ready alfalfa deal.
http://www.farmgate.illinois.edu/archive/2010/06/roundup_ready_a.html

as a person with first hand knowledge of farm operations, how do you view Monsanto?

I’ll have to get back to you on that tomorrow after I ask my dad what he knows about them. I don’t know a hell of a lot about Monsanto other than they aren’t loved by all in the industry. I think a some of that might have been related to how they used to sell roundup for a pretty high price. My knowledge of the farming industry is limited since I was born in the late 80s and I’m more interested in the cattle side of my family’s operation. Plus the farming side of our operation is pretty basic compared to people who run dedicated farms so we don’t use much in the way of herbicides and I don’t think we’ve used roundup ready anything or years. Sorry I can’t be of more help tonight. I’ll try to get some more info ready for tomorrow if I have time.

Sure it has, it’s called oxidation.

Yeah it has that. Too bad the soil claims plow sweeps through wear long before oxidation has a chance. I was referring more to the fact weeds haven’t really found a way to form a resistance to plowing like it has to chemicals.

So does this mean we will need more “migrant workers” to pull weeds?

Or chain-gangs…

I don’t buy the takes a ton of fuel to plow. We used to plow a good 40 acres a season for tobacco and turning all that ground rarely took more than a tank of fuel.

It depends how much you are plowing. Land in my neck of the woods is not very productive, so you need a lot of land to get anything accomplished. When I was working ground a few weeks ago, I was doing at least 60 or more a day(which really isn’t a lot here) for the good part of 1.5 weeks(note I’m doing this from memory, so my numbers are a bit off). We’re also using a fairly large 4wd tractor that consumes something like 18 gallons of diesel an hour, so at least for us it’s fairly fuel intensive.

I think the problem is that we think we can totally solve problems like weeds, or unsinkable boats, or the business cycle. Work on a problem long enough with out finding a solution and it isn’t a problem, its a fact. What Monsanto should have been doing is engineering a ‘weed’ that is a lot less detrimental than these other weeds and make that round-up proof. Sure you loose some yield to your weed, but you make it almost impossible for a wild weed to mutate around the round-up and overcome the friendly weed at the same time. ‘Competitive inhibition’ is how I remember it from biology.

In real world terms for ‘weeds’ would you rather have the Italian mob in your city, or the Russian mob? Have visit you, your mother or your mother-in-law?

When using a moldboard plow you have to work the ground at least one more time, if not two more times as running no till, and both of these times are with heavy horsepower ground working tractors not light weight spray rigs.

1. Moldboard plowing. 4x4 tractor 150 HP or higher. 17-25 gallon an hour.
2. Disc harrowing. heavy 2WD tractor and a smaller set of discs or the same sized tractor as was used to break the soil.
   Begin planting operation. Which tends to be a good sized 4x4 around here because they tend to run a large planter and depending on crop drag a annhydrous Ammonia tanks and injectors.
   No till
3. Spray. This is done by a dedicated spray company running specialized equipment, or by the farmer. The spray rigs burn a bit more fuel an hour than a 70hp tractor that the farmer would use to spray, but they go a shit load faster. So the fuel consumption is a bit of a wash.
4. Wait for weeds to ‘burn’
   Begin planting.
   With no-till most farmers in my area will run sub soil rippers every 2-4 years, depending on the soil make up and how wet it was when they were harvesting and possibly compacting the soil. This does take the big HP tractors, but not nearly as often as the ground working approach does.

The fact that people are surprise about this happening just goes to show that they either slept through some of their biology classes when getting their agronomy degrees, or that they should get a refund for those classes. Recent and classic example of this is DDT and mosquitoes. First year, “no bugs” , second year a few bugs… IIRC you were seeing as many skeeters within 5 or 7 years as when you started, if you ran a constant dose. This is why DDT was getting pumped out, you had to keep upping the ‘dosage’ to kill the little buggers that had been selected for resistance to DDT. This is why you want to run 2-3 year revolving chemical usage. Won’t go into the reasons that doesn’t happen, but it is basic freaking “Biology for agricultural managers” level stuff.

No, Monsanto should have developed another herbicide to complement Round-up. One that had nothing to do with gly-4. Then the farmers simply would have run Round-up 2-4 years, then the other for 2-4. Used the $$ from this approach and worked out a third way herbicide for them to run, instead of the gly-4 resistant crops. Staying ahead of the weeds defenses and using their adaptations against them. so they are running 3 different vector weed killers over a 10 year span. Instead of 25 + years of one chemical.

About a week ago there was an article in the local rag. The issue was this Round Up laden additive. My community is a big ag belt and I assist a friend by doing a fair portion of his tractor work. Discing, beating, burning etc, etc.

Not many of the farmers are using that round up specifically. They are using other chemicals and most apply the chemical/seed via crop dusters.

As for tractors and fuel, Im driving 40 sometimes 50 year old tractors that still run like a top. I can go pretty much all day on a topped off tank of fuel.

The guy I help is a very practical man. He could purchase these new tractors with GPS AC and XM radio. He says, and I agree with him that there is more to farming then making a profit.

I actually enjoy driving the older tractors as I feel like I did something at the end of the day. After we harvest the horseradish, Im spitting dust and dirt out for a solid week.

D Williams

Makes sense, but it would have been more costly for Monsanto to do that. Developing one herbicide and overselling it as the weeds gain resistance is better for quarterly profits than developing 3 herbicides.

I’m sure the scientists and engineers knew this would have been a better course, but as usual the non-technical managers who probably rose up the ladder in sales before taking on GM roles made the more “cost-effective” decision while ignoring the long-term effects.

Happens everywhere.

Aye, certain that there was probably a Harvard or Yale MBA involved with the course they set, ignoring the biologists and chemists who have more degrees than a thermometer.

Professional managers taking over the world.

The funny thing about this thread popping up now is that I just finished watching a movie called Food Inc. and they have a portion about Monsanto that is not very flattering and I was wondering about what people in the farming community really think about them.

Have seen food inc. it is a bit over board. A good number of professional farmers dislike Monsanto’s business model, primarily due to the potential for what is happening with gly-4 resistant weeds.