is part of the Division of Informa PLC

This site is operated by a business or businesses owned by Informa PLC and all copyright resides with them. Informa PLC's registered office is 5 Howick Place, London SW1P 1WG. Registered in England and Wales. Number 8860726.

  • American Agriculturist
  • Beef Producer
  • Corn and Soybean Digest
  • Dakota Farmer
  • Delta Farm Press
  • Farm Futures
  • Farm Industry news
  • Indiana Prairie Farmer
  • Kansas Farmer
  • Michigan Farmer
  • Missouri Ruralist
  • Nebraska Farmer
  • Ohio Farmer
  • Prairie Farmer
  • Southeast Farm Press
  • Southwest Farm Press
  • The Farmer
  • Wallaces Farmer
  • Western Farm Press
  • Western Farmer Stockman
  • Wisconsin Agriculturist

Soybean experts divided by river

There’s no rancor, animosity or fur flying in what follows. However, that doesn’t mean there isn’t a pointed debate going on the use of Dimilin in soybeans. When it comes to the use of the product as a yield enhancer or fungicide, Extension viewpoints in Mississippi and Arkansas couldn’t be much different.

Dimilin is a product that has long been marketed as an insecticide, a juvenile growth hormone that inhibits chitin (which forms insect exoskeletons) development. The active ingredient in the Crompton/Uniroyal Chemical product is diflubenzuron.

“As far as its insecticide properties, it works great,” says Cliff Coker, a plant pathologist with the Arkansas Cooperative Extension Service. “We recommend it for grasshoppers and some other insects.”

Any further claims for the product, says Coker, have yet to be proven on Arkansas soils. “I’ve looked at Dimilin in conjunction with fungicides, including Quadris. We saw no yield response. I’ve also looked at Dimilin by itself. In 1997, I looked at Dimilin as a yield-enhancer.

Tests all over

“There were tests spread all over the Arkansas delta – from Mississippi County down to Chicot County. It was put out on high-yielding beans at a 2-ounce rate at R-3/R-4. We saw no yield response to those tests – while using replicated, small plots, big plots, aerial application, weigh wagons and all the other tools – at all.”

Chris Tingle, Arkansas’ soybean specialist, says Dimilin has been tested in the state for years and still is. This year, state researchers will once again look at the product in multiple, replicated experiments.

“I’ve talked to Lanny Ashlock long and hard about this,” says Tingle, referring to the former Arkansas soybean specialist. “Researchers found nothing under his watch nor have they under mine. We’ve looked at this product over many environments, at multiple rates, at different growth stages and everything else. We’ve found nothing. We’ve seen no yield or fungicide enhancement that’s touted in other states.

“It’s tough. Before making any recommendation, I have to consider that a product has the potential to be applied to 3 million acres. We must be able to back our recommendations up with data. We just don’t have that data for Dimilin.”

Ashlock, who now works at Cullum Seed, agrees with Tingle’s characterization. Perhaps, he suggests, “both camps are right because the soybean production environments in much of Arkansas are just different enough from those found further into the Southeast.”

Not only is much more rice grown in his home state, suggests Ashlock, but there are also, “possible slight differences in temperature and humidity…It’s kind of strange. These are credible scientists on both sides of the river.”

On the other hand

Across the Mississippi River, Alan Blaine, Extension soybean specialist, has two research colleagues who began studying Dimilin in the early 1980s. “We’ve had extensive testing on this for over 20 years, and this is not a product to use in every situation. However, I want to highlight some situations where we feel it’s beneficial.”

Over the years, Mississippi researchers have observed Dimilin doing three things:

  • Providing control of certain pest species.

  • In some situations researchers have noted the reduction of frogeye leafspot in conjunction with Dimilin.

    “We’re not saying Dimilin is a broad spectrum, across-the-board fungicide. But it appears to help on some diseases and we continue to study it.”

  • It has yield enhancement abilities.

At times, in the absence of insect pests, yield responses have been observed that we feel are due to (Dimilin-related) disease suppression…In around 50 tests, we’ve seen results from no response to an increase of 8 bushels.”

Blaine says the normal use rate of Dimilin is 2 ounces (costing about $2.50 per acre). It provides a residual of about three weeks.

One area where Dimilin has been inconsistent is in early-planted soybeans – particularly early Group 4s. Mississippi’s best results with Dimilin are seen on Group 5’s planted after mid-April.

“If you have some Groups 4s planted in late April or early May, they’re going to act a lot like a Group 5,” says Blaine. “In that circumstance, you’re much more likely to see a response from Dimilin. Much of the efficacy of Dimilin has to do with planting date.”

Typically, timing of application in the state has been at the R-3/R-4 growth stage. In tests over the last couple of years, researchers have piggybacked Dimilin with a fungicide (most often Quadris). In order to do a combination treatment, the fungicide has been placed at a slight disadvantage.

”A tad late”

“To reach a happy medium, we’ve gone with fungicides a tad late. It’s worth the slight risk in order to just have just one trip over the field,” Blaine points out.

In the south delta region of Mississippi, the predominate worm species is soybean loopers. Blaine and colleagues have found that Dimilin applied as a preventative under heavy looper pressure won’t work. That’s true, he says, even if rates are increased to 6 ounces. It will suppress the worms, though, buying a grower seven to 10 days.

“Dimilin will suppress worms long enough to delay application for a week or so. That’s a big deal,” says Blaine.

Why? Because in some areas (until Mississippi received a Section 18 ewmergency exemption on Intrepid from EPA) growers had been in a two-spray situation to control loopers.

“There was no way around it. We had no really good residual material for loopers. Spraying so much was very expensive - $20 per acre. With Dimilin buying us a week to 10 days, many growers could cut field trips with the higher-cost product from two to one. A lot of times, we’re just trying to buy time until September’s cooler nights and conditions take loopers out.”

Blaine insists Dimilin will also “annihilate” green clover worms, velvet bean caterpillars (a pest common in Mississippi’s hill country), cabbage loopers and salt marsh caterpillars.

Three years ago, Dimilin’s efficacy was again revealed when grasshoppers threatened.

“We were in some dry weather and seeing a bunch more grasshoppers. We started putting Dimilin (at a 1-ounce rate) in with Roundup. We’ve since received a label in Mississippi for grasshoppers.”

While Dimilin doesn’t work terribly fast on grasshoppers (normally taking from five to seven days) its value to no-till producers rose. Blaine says with Roundup Ready soybeans, farmers often don’t just spray the fields but also ditches and turnrows. In so doing, the pest is deprived of its preferred grasses and moves into soybeans.

“If you’ve planted soybeans no-till and the crop is a week from coming up, a little Dimilin put in with burndown will control grasshoppers before the crop ever emerges. Obviously, if you’ve got high numbers feeding on the crop, acephate or Orthene is the product of choice.”

From a fungicidal standpoint, Dimilin is also promising, says Blaine.

“Research has shown that there are several organisms with a chitin component. Since Dimilin prevents chitin development, we feel it offers fungicidal benefits – particularly with frogeye leafspot.”

As proof, Blaine points to 1983 when two Mississippi State researchers “checkerboarded” plots in south Mississippi. Later, they noticed that everywhere Dimilin was sprayed there was no frogeye. It was concluded that this was due to Dimilin/chitin interaction.

Trying it again

Intrigued with the 1983 findings, Blaine saw the frogeye outbreak of 2001 as an opportunity to try and repeat the earlier results. In numerous grower fields, he tried and failed.

Then, last year, “just by pure luck, I had 14 early-planted Group 4 dryland fields in the verification program. I wanted to try and protect the yields because we had a heck of a crop. Some didn’t want me to do it, but I decided to put Dimilin on those fields. Today, I’ll tell you I should have put out a pyrethroid instead.”

Still, some interesting data came about because at the same time, on those same fields, “we had some remote sensing projects and were having flyovers. A fellow researcher suggested we leave an untreated strip right in the middle of the field. On three of the fields, growers were making their last herbicide shot. We asked them to put Dimilin in with their Roundup and to leave an untreated strip in the middle.”

Application was just prior, or right at, bloom. When the researchers later returned they found that where Dimilin had been sprayed there was no frogeye. Where the fields were untreated, “frogeye was everywhere.”

To prevent frogeye using Dimilin, says Blaine, you must spray the field prior to the disease arriving. Once frogeye is in a field, Dimilin has no impact.

“This year, I’m going to set up several field tests to see if we’re on to something with Dimilin and frogeye. I’m going to put Dimilin out at bloom. We’ve already seen similar preliminary results with frogeye in lab conditions. If this has an application here, we could be looking at two entirely different uses for the product.”

At this point, though, Blaine makes it clear that he’s not advocating Dimilin as a stand-alone fungicide.

“We use Dimilin as an insecticide,” he says, “and then it does other things that mystify us.”


TAGS: Outlook
Hide comments


  • Allowed HTML tags: <em> <strong> <blockquote> <br> <p>

Plain text

  • No HTML tags allowed.
  • Web page addresses and e-mail addresses turn into links automatically.
  • Lines and paragraphs break automatically.