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2,4-D resistance confirmed in Nebraska waterhemp population

2,4-D resistance confirmed in Nebraska waterhemp population
2,4-D-resistant waterhemp is discovered in warm-season grass in Nebraska by University of Nebraska-Lincoln crops researchers. Waterhemp has developed resistance to six herbicides. Its ability to adapt and produce large numbers of seeds helps it survive and change. Growers need to properly use herbicides to reduce resistance development.

Resistance to 2,4-D has been confirmed in a waterhemp population that is confined to a few fields of warm-season grass in southeast Nebraska, according to the University of Nebraska-Lincoln (UNL). This is the sixth herbicide waterhemp has become resistant to in the U.S.

UNL researchers reported that in 2009, they learned of this specific waterhemp population not controlled by 2,4-D. The researchers collected seed from the field in 2009 and 2010 to conduct greenhouse trials to determine if the population was herbicide resistant.

The results showed the suspect population was ten times more tolerant to 2,4-D than non-resistant waterhemp. It took 54 fluid oz./acre of 2,4-D to reduce the 2,4-D-resistant waterhemp by 50%. The general population of waterhemp required only a dose of 5 fluid oz./acre to reduce waterhemp by 50%.

In a 2011 study conducted in the field where seed from the suspect population was collected, waterhemp was treated with 2,4-D doses of 0.25  to 64 qt./acre (64 times a typical use rate). At 28 days after treatment, plants treated with 64 qt./acre were stunted compared to untreated plants and showed injury symptoms characteristic of 2,4-D, but were recovering. At 84 days, individual plants that had been treated recovered sufficiently to produce seed.

The UNL researchers report that they believe these results warrant labeling this population as “2,4-D resistant.”

Why waterhemp?

Waterhemp is the predominant pigweed (Amaranthus) species in eastern and south central Nebraska fields and is problematic throughout much of the Corn Belt. It is well adapted to reduced tillage cropping systems that rely primarily on herbicides for weed control. Waterhemp has succeeded because it emerges from May through August, allowing late emerging plants to avoid herbicides.

Waterhemp is a dioecious species, which means that male and female flowers occur on separate plants. Because of this and the large number of seeds produced per female plant, genes favorable for survival under a particular selection pressure (such as repeated use of a specific herbicide) rapidly spread throughout a population. When a single herbicide is used repeatedly over many years, there is a high risk of herbicide resistant populations developing. Since 1993 waterhemp populations have been reported to have evolved resistance to atrazine (Photosystem II inhibitors), imazethapyr and chlorimuron (ALS-inhibitors), fomesafen and lactofen (PPO-inhibitors), glyphosate (Glycines), and mesotrione and tembotrione (HPPD-inhibitors).

Multiple herbicide resistance

Of particular concern are waterhemp populations where individual plants are resistant to three or more herbicide mechanisms-of-action. In these instances, growers have fewer, effective weed management options.

When populations with multiple-herbicide resistance are then managed with the one or two remaining herbicide mechanisms-of-action that are still effective, the likelihood of the population evolving resistance to those herbicides is high. The herbicide use pattern in the field where the resistant population was collected included an annual burndown application of atrazine, metolachlor, and 2,4-D followed by a postemergence application of 2,4-D. Research is underway at UNL to determine whether this waterhemp population has developed resistance to additional herbicide mechanisms-of-action.

Reducing herbicide resistance

New technologies that confer resistance to 2,4-D and dicamba (both synthetic auxins) are being developed to provide additional herbicide options for postemergence weed control in soybean and cotton. The development of 2,4-D resistant waterhemp in this field is a reminder and a caution that these new technologies, if used as the primary tool to manage weeds already resistant to other herbicides such as glyphosate, atrazine or ALS-inhibitors, will eventually result in new herbicide resistant populations evolving. This will limit the value of those technologies to farmers.

To minimize the risk of developing herbicide resistant weeds:

  • Rotate effective herbicide mechanisms of action,
  • Tank-mix multiple effective herbicides, and
  • Use effective doses.

Where possible, use an integrated weed management plan that also includes non-chemical weed control options such as crop rotation and tillage. Carefully monitor fields for changes in susceptibility to the herbicides being used and contact an Extension Service office when resistance is suspected. If multiple plants survive in a field, and that species is known to have developed resistance elsewhere to herbicides used in that field, it may be prudent to remove the survivors before they produce seed.

Mark Bernards, former Extension weeds specialist; Javier Crespo, graduate research assistant, Department of Agronomy and Horticulture;
Greg Kruger, Extension cropping systems specialist, West Central REC, North Platte, NE; Roch Gaussoin, Extension turfgrass specialist and interim head, Department of Agronomy and Horticulture 

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