Production Blog

Weeds Outrunning Controls in Midwest

Pam Smith
By  Pam Smith , Crops Technology Editor
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Many weeds are resistant to more than one herbicide family, according to a new Illinois study. (DTN photo by Pamela Smith)

DECATUR, Ill. (DTN) -- Weeds such as waterhemp and Palmer amaranth may not have noses, but they are increasingly thumbing them at chemical controls as if they do. A report from the University of Illinois Plant Clinic shows an increasing number of fields across the Midwest tested positive for resistance to multiple herbicides.

Two years ago, the Plant Clinic began using molecular protocols to test for herbicide resistance to glyphosate and PPO inhibitors (such as Aim, Cadet, Cobra, Flexstar, Sharpen, Ultra Blazer, Valor and others) in waterhemp. Last year, the clinic expanded the service to Palmer amaranth as that aggressive weed has continually moved northward.

"Almost twice as many whole fields were tested in 2016 compared to 2015: 593 vs. 338," said Suzanne Bissonnette, U of I Extension assistant dean for agriculture and natural resources and Plant Clinic director, in a news release.

Bissonnette told DTN the lab adapted testing protocols developed by University of Illinois molecular weed scientist Pat Tranel. "We are able to test a large quantity of material in a shorter period of time because we are strictly a testing lab," Bissonnette said. "This frees up a researcher's time to investigate emerging issues. This testing is expensive and so not all university testing labs are set up to manage the costs and the time."

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The clinic received samples from 10 states across the Midwest in 2016, with the majority of samples coming from Illinois. In the 378 samples from Illinois, 48% were resistant to both glyphosate and PPO inhibitors. Resistance to both herbicides was detected in 75% of samples from Iowa, with 87 samples tested from that state.

Fields with plants that are positive for both glyphosate and PPO inhibitor resistance are of particular concern, due to the limited possibilities for control of these weeds, said plant diagnostic outreach Extension specialist Diane Plewa.

Southern states have seen increasing incidence of PPO-resistant Palmer amaranth, but it was new to Illinois this year. "Several samples from southwestern Illinois were confirmed to be PPO inhibitor-resistant (three from Madison, and one from St. Clair counties) in our testing," Plewa reports. The Plant Clinic received samples from 52 Illinois counties that had at least one sampled field that had waterhemp or Palmer amaranth plants that tested resistant to both glyphosate and PPO inhibitors.

The tests detect target-site mutations, the most common mechanism of resistance to the two chemicals. Target-site mutations come from a gene mutation that keeps the herbicide from attaching to the proteins it is designed to destroy.

However, waterhemp and Palmer amaranth are also known to use metabolic pathways to detoxify herbicides before it reaches the protein it is meant to destroy. Even though more than half of the fields sampled in Illinois did not show resistance to glyphosate and PPO inhibitors, farmers were warned that they should not assume these weeds can be killed by alternative herbicides. In 2016, Illinois populations of tall waterhemp were found to resist five sites of action: ALS inhibitors, Photosystem II Inhibitors, PPO Inhibitors, HPPD inhibitors and Synthetic Auxins (2,4-D), according to the International Survey of Resistant Weeds. (www.weedscience.org)

Glyphosate and PPO inhibitor Summary: 593 field samples representing approximately 2,000 waterhemp or Palmer amaranth plants were tested for herbicide resistance at the University of Illinois Plant Clinic in the 2016 season.

2016 University of Illinois Plant Clinic Herbicide resistance testing results.

State No. of Field samples No. of Glyphosate resistant fields No. of PPO Inhibitor resistant fields No. of Fields Positive for both Glyphosate and PPO Inhibitor resistance % of Fields Positive for both Glyphosate and PPO Inhibitor resistance
IL 378 280 244 182 48.1 %
IA 87 77 70 65 74.7 %
IN 9 9 6 6 66.6 %
KS 1 1 0 0 0 %
KY 3 1 1 0 0 %
MI 1 0 1 0 0 %
MN 78 58 34 27 34.6 %
MO 11 10 10 9 81.8 %
NE 8 5 1 0 0 %
WI 17 15 4 2 11.8 %

For more information on testing and how to submit a sample for 2017, go to:

http://bit.ly/…

(ES/AG)

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