Pesticide Training

Extensive Spread of Corn Toxin Could Affect 2019 Crop

A wetter than normal summer and fall in Ohio led to the worst spread of a toxin on corn in at least a decade, according to a grain disease expert with The Ohio State University.

And next year’s crop may be at risk as well. The fungus that produces the toxin can survive the winter, particularly if stalks or other plant material from the 2018 corn crop are left on the surface of the soil, said Pierce Paul, an Ohio State University Extension specialist in corn and small grain diseases. OSU Extension is the outreach arm of the College of Food, Agricultural, and Environmental Sciences (CFAES).

The extent of vomitoxin across Ohio and the rest of the Corn Belt led some farmers to receive a lower price for their crop, Paul said.

High moisture levels spur the spread of vomitoxin, which can cause people and animals to get sick. The rainy summer and fall in the state and across the Midwest not only left more moisture in fields, but also delayed some farmers from harvesting.

And any corn left standing in wet fields becomes more susceptible to vomitoxin, Paul said.

Gibberella ear rot, a fungal disease that produces vomitoxin, also sucks nutrients out of corn, leading to smaller and lighter kernels, which can reduce yields and what farmers earn for the grain.

“I know there were farmers who had problems with price discounts, and some had their grain completely rejected,” Paul said.

Vomitoxin can cause animals, particularly pigs, to vomit or simply refuse to eat the tainted corn. If contaminated grain or grain products are consumed, this toxin can also make people ill, which is why the U.S. Food and Drug Administration has set strict limits on the amount of vomitoxin allowed in grain for human and animal consumption.

Moldy corn still can be used to produce ethanol. But the byproduct of ethanol production, typically a rich source of nutrients for animals, cannot be given to them because it will have a high concentration of vomitoxin, Paul said.

Vomitoxin can also contaminate wheat and barley. However, in Ohio, both of these crops were harvested by the first few weeks of July and were out of the fields before the persistent rains came, Paul said.

Not every cornfield had a problem with vomitoxin, because rainfall amounts are never uniform across the state.

The fields that were tainted with vomitoxin could still be a problem next season if the same or another susceptible hybrid is planted, Paul said.

Gibberella ear rot can survive in a field through winter and potentially harm the new crop if wet weather occurs, and “there’s nothing you can do after the fact” to control the disease, Paul said.

As a result, it’s important for farmers to choose corn seed that’s resistant to the fungus, he said. No corn hybrid is totally immune to Gibberella ear rot.

So, buying a hybrid that resists the disease is akin to people getting a flu shot. The hybrid does not guarantee that the crop will not get the disease, but it reduces the odds of that happening. If the crop does get infected, the damage is less extensive.  

In a field contaminated with vomitoxin, burying the stalks and other plant material that remain will help reduce, but won’t eliminate, the spread of the fungus in next year’s crop, Paul said.

Symptoms of Gibberella ear rot include pinkish mold. But it can be easy to overlook if a growing crop has been tarnished by the fungus because the husk covers up where the damage occurs, on the ear of the corn.  

“A lot of farmers are caught off guard,” Paul said. “After you harvest the grain or when you take it into the grain elevator, that’s when you start seeing weird stuff and realize you have a problem.”

For more information on vomitoxin, see go.osu.edu/vomitoxinfacts

Does Your Pesticide or Fertilizer License Expire in 2019?

The Knox County Re-certification Dates are listed below

Knox County

Pesticide & Fertilizer Re-Certification

January 29, 2019 – 5:30 p.m.

March 27, 2019 – 9:00 a.m.

Cost – $35, includes all materials & PIZZA

Conference Room – Advantage Ag & Equipment

1025 Harcourt Rd., Mount Vernon, Oh.

Check https://u.osu.edu/knoxcountyag for updates

 

New Requirements For Dicamba Use

Revised label and new training required before use in 2019

If you are planning to use Engenia (BASF), XtendiMax (Monsanto) and FeXapan (DuPont) in 2019 there are major changes to the labels for the products that you need to be aware of.  The biggest change is only license applicators can purchase, mix, load, apply or clean application equipment.  Previously these tasks could have been completed by an unlicensed applicator if they were “supervision by a certified applicator”.  Below is the ODA news release pertaining to the new regulations.

REYNOLDSBURG, Ohio (Jan. 16, 2019) – The Ohio Department of Agriculture (ODA) is reminding farmers of revised labels and new training requirements for applicators who intend to use dicamba herbicide products this year. In October 2018, U.S. EPA approved revised labels for the three dicamba products that are labeled for use on soybeans: Engenia (BASF), XtendiMax (Monsanto) and FeXapan (DuPont).

“Like any other product, we want to ensure licensed applicators are properly following label directions as they get ready for this growing season,” said Matt Beal, chief of the ODA Division of Plant Health. “This not only helps ensure the safe use of pesticides, it also helps prevent misuse and mishandling.”

The manufacturers of these dicamba products also agreed to additional requirements for their products. Some of the requirements include:

  • 2019 labels supersede all prior labels for these products. Applicators must obtain a copy of the new label and must have that label in their possession at the time of use
  • Only certified applicators may purchase and apply the products
    • Those operating under the supervision of a certified applicator may no longer purchase or apply.
    • Anyone who mixes, loads or cleans dicamba application equipment must become licensed.
    • ODA will host additional “Dicamba Ag Only” exams in February and March for those looking to become a certified applicator. Visit agri.ohio.gov for more details.
  • Applicators must complete dicamba-specific training
  • Increased recordkeeping requirements
  • Wind speed restrictions
  • Temperature inversion restrictions
  • Sensitive/susceptible crop consultation
  • Spray system equipment clean-out

More details on these revisions can be found in the attached fact sheet. Applicators looking for a list of ODA-approved trainings can visit www.agri.ohio.gov. For questions, applicators can contact the ODA Pesticide and Fertilizer Regulation Section at 614-728-6987 or pesticides@agri.ohio.gov.

Developing a long-term comprehensive weed management system – Part 2

Source: Iowa State University, (Edited)

Post 2 of a 4 post series.

As the end of the year approaches and we reflect on the 2018 growing season we need to look at what changes or improvements we need to make in our production plans for 2019.  Herbicide resistant weeds are continuing to create problems.  New, very invasive and harmful weed species (Palmer Amaranth and Waterhemp) are now prevalent in Knox County.  Therefore, a review of the effectiveness of your herbicides program is definitely in order.

To effectively battle these new weed problems, creating a comprehensive, all-encompassing weed control strategy is essential in today production agriculture.  Over the next 4 weeks I will share information developed by Meaghan Anderson and Dr. Bob Hartzler at Iowa State University on developing a long-term weed management system.

Last week’s post:   Herbicide program development: Using multiple sites of action

This week’s post: Herbicide program development: Using effective herbicide groups

After you’ve started working on a program that contains multiple herbicide groups (sites of action), you need to make sure you’re using multiple herbicide groups that will be effective against your target weeds. For most people, the target weed will be waterhemp. Others may have problems with giant ragweed, horseweed/marestail, or other weeds. Waterhemp is the target weed in my example, but consider what your most problematic weeds are to run through this exercise for yourself.

Things to consider when determining whether a herbicide is effective against your target weed include (1) whether the herbicide is labeled to control the weed and (2) whether your target weed is resistant to the herbicide group.

Let’s look at herbicides as if waterhemp is the weed that causes us the most issues. Here’s a table of herbicide groups used in Iowa crops.

Continue reading Developing a long-term comprehensive weed management system – Part 2

Developing a long-term comprehensive weed management system.

Source: Iowa State University, (Edited)

As the end of the year approaches and we reflect on the 2018 growing season we need to look at what changes or improvements we need to make in our production plans for 2019.  Herbicide resistant weeds are continuing to create problems.  New, very invasive and harmful weed species (Palmer Amaranth and Waterhemp) are now prevalent in Knox County.  Therefore, a review of the effectiveness of your herbicides program is definitely in order.

To effectively battle these new weed problems, creating a comprehensive, all-encompassing weed control strategy is essential in today production agriculture.  Over the next 4 weeks I will share information developed by Meaghan Anderson and Dr. Bob Hartzler at Iowa State University on developing a long-term weed management system.

This week’s post:   Herbicide program development: Using multiple sites of action

With the stagnant development of new herbicides and weeds seemingly evolving herbicide resistance faster than ever before, it’s important to maximize the usefulness of every herbicide application. A new herbicide site of action (or herbicide group number) for use in corn and soybean production has not been discovered since the early 1980s. According to Dr. Ian Heap with www.weedscience.org, since the 1980s, the confirmed number of unique cases of herbicide resistance globally is increasing at a rate of about 12 discoveries per year.

Continue reading Developing a long-term comprehensive weed management system.

Inversion and Drift Mitigation – Workshop on December 14

Inversion and Drift Mitigation Workshop
Dec. 14, 2018 • 10 a.m. – noon

10 – 11 a.m. Weather Conditions and Potential Inversions
Speaker: Aaron Wilson, Weather Specialist & Atmospheric Scientist, OSU Extension, Byrd Polar & Climate Research Center

11 – noon Using FieldWatch to Communicate
Speaker: Jared Shaffer, Plant Health Inspector, Ohio Department of Agriculture

Two choices for attending the workshop:

Attend in person (pre-registration required, limited to the first 75 people registered)
Ohio Dept. of Agriculture • Bromfield Administration Building
8995 E. Main St., Reynoldsburg, OH 43068
Click here to register

Attend virtually:
Link coming soon – no pre-registration required

No cost to attend. Core commercial and private pesticide recertification credits available only athe Reynoldsburg in-person location. Limited to the first 75 registered. No recertification credits given for virtual/internet attendees.

For more information about the workshop, contact:
Cindy Folck, folck.2@osu.edu
614-247-7898

Event sponsored by OSU Extension IPM program and the USDA NIFA Crop Protection and Pest Management Competitive Grants Program (Grant number 2017-70006-27174).

 

Save the Date

Save the Date!

The following meetings are scheduled for 2019

January 16 – Precision Ag Symposium – All Occasions Catering – Waldo

Featuring the most up-to-date information on Precision Ag Technologies

January 29 – Pesticide and Fertilizer Re-certification – 5:30 p.m.

1025 Harcourt Rd. Mt. Vernon

March 27 – Pesticide and Fertilizer Re-certification – 9:00 a.m.

1025 Harcourt Rd. Mt. Vernon

***Continue to check back for more information on these and other Winter Educational Events ***

Properly Winterizing Sprayers Can Help Mitigate Costly Problems Next Spring

Source: Dr. Erdal Ozkan (Edited)

OK, it’s way too wet to be in the fields … So how about doing something like winterizing your sprayer too take your mind off of harvest for awhile?!

The four main steps are Rinsing, Cleaning, Winterizing and Storing.  Below are some suggestions from Dr. Erdal Ozkan, Extension Agricultural Engineer.

This is a busy time of year for many farmers, but taking time to winterize your sprayer now can payoff in avoiding problems next spring.  Without proper winterizing before the temperature falls below freezing, you could end up with a pump that is cracked and/or not working at its full capacity.  Here are some important things you need to do with your sprayer this time of the year.

Rinsing

Make sure to rinse the whole sprayer thoroughly before storing. Rinsing the sprayer thoroughly after each use reduces likelihood of cross-contamination of products applied next spring. Insufficient rinsing may also result in clogged nozzles. Once the nozzles are clogged, it is extremely difficult to bring them back to their normal operating conditions. Leaving chemical residues in nozzles will usually lead to changes in their flow rates, as well as in their spray patterns resulting in uneven distribution of chemicals on the target.

Depending on the tank, proper rinsing of the interior of the tank can be challenging.  Rinsing is easy if the tank is relatively new and equipped with special rinsing nozzles and mechanisms inside the tank. If this is not the case, manual rinsing of the tank interior is more difficult, and poses some safety problems such as inhaling fumes of leftover chemicals during the rinsing process. To avoid these problems, either replace the tank with one that has the interior rinse nozzles, or install an interior tank rinse system in your existing tank.

For effective rinsing of all the sprayer components, circulate clean water through the whole sprayer for several minutes with the nozzles off, then flush out the rinsate through the nozzles. Rinsing should be done in the field, or on a concrete chemical mixing/loading pad with a sump to recover rinse water. Dispose of the rinsate according to on the directions on the labels of the pesticides in the tank. Always check the label for specific instructions. Most labels recommend following procedure: If rinsing is done on a concrete rinse pad with a sump, put the rinsate collected in the sump back in the tank, dilute it with water and spray it in the field where there is no potential for the rinsate to reach ditches and other water bodies nearby. If the rinsing is done in the field, make sure you are not flushing out the rinsate in the system in one area. It is best to further dilute the rinse water in the tank and, spray it on the field on areas where there is no potential for the rinsate to reach ditches and other water bodies nearby.

 

Cleaning

Rinsing the system with water as explained above may not be sufficient to get rid of chemicals from the sprayer. This may lead to cross-contamination problems. Residues of some pesticides left in the sprayer may cause serious problems when a spray mixture containing these residual materials is applied on a crop that is highly sensitive to that pesticide. To avoid such problems, it is best to clean and rinse the entire spraying system with cleaning solution. A mixture of 1 to 100 of household ammonia to water should be adequate for cleaning the tank, but you may first need to clean the tank with a mixture containing detergent if tank was not cleaned right after the last spraying job was done. Some chemicals require specific rinsing solution. The Univeristy of Missouri has a publication listing commonly used pesticides and the specific rinsing solutions required of each, available online here:  http://extension.missouri.edu/p/G4852. Always check the product label to find out the most recent recommendations on cleaning agents.

Cleaning the outside of the sprayer components deserves equal attention. Remove compacted deposits with a bristle brush. Then flush the exterior parts of the equipment with water. A high pressure washer can be used, if available. Wash the exterior of the equipment either in the field away from ditches and water sources nearby, or a specially constructed concrete rinse pad with a sump. Again, the rinsate should be disposed of according to the label recommendationsMost labels recommend the following practice: put the rinsate collected in the sump back in the tank, dilute it with water and spray it in the field where there is no potential for the rinsate to reach ditches and other water bodies nearby.

Continue reading Properly Winterizing Sprayers Can Help Mitigate Costly Problems Next Spring

Registration of Dicamba for Use on Dicamba-Tolerant Crops

The EPA extended the registration for two years for over-the-top use of dicamba to control weeds in fields for cotton and soybean plants genetically engineered to resist dicamba. This decision was informed by extensive collaboration between EPA, the pesticide manufacturers, farmers, state regulators, and other stakeholders. The registration includes label updates that add protective measures to further minimize the potential for off-site damage.  The registration will automatically expire on December 20, 2020, unless EPA further extends the registration.

The following label changes willbecome effective this year.

  • Only certified applicators may apply dicamba over the top (those working under the supervision of a certified applicator may no longer make applications)
  • Prohibit over-the-top application of dicamba on soybeans 45 days after planting and cotton 60 days after planting
  • For cotton, limit the number of over-the-top applications from 4 to 2 (soybeans remain at 2 OTT applications)
  • Applications will be allowed only from 1 hour after sunrise to 2 hours before sunset
  • In counties where endangered species may exist, the downwind buffer will remain at 110 feet and there will be a new 57-foot buffer around the other sides of the field (the 110-foot downwind buffer applies to all applications, not just in counties where endangered species may exist)
  • Clarify training period for 2019 and beyond, ensuring consistency across all three products
  • Enhanced tank clean-out instructions for the entire system
  • Enhanced label to improve applicator awareness on the impact of low pH’s on the potential volatility of dicamba
  • Label clean up and consistency to improve compliance and enforceability

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