Working with Syngenta Crop Protection, the maker of the HPPD-inhibiting herbicide Callisto, the researchers first looked at herbicide target genes in the waterhemp plants, expecting to find signs of a mutation in the plant's HPPD gene sequence, expression, or in reduced herbicide absorption. They were able to establish that none of these measures were behind the resistance.
Instead the researchers found that resistance was due to increased metabolism of mesotrione and atrazine—via P450 enzymes for mesotrione and GST enzymes for atrazine. The faster metabolism of the HPPD-inhibiting herbicides in waterhemp resembles the natural mechanism in corn, where the P450 enzymes confer tolerance to Callisto.
Riechers says there are many P450 and GST genes in plants, possibly hundreds, but they have not yet narrowed down which ones are involved in waterhemp resistance. "But we know they are in those family of metabolism genes," he adds.
The HPPD enzyme helps protect the plant's chlorophyll by producing protective compounds such as Vitamins A and E. Rong Ma, a doctoral student in weed science and herbicide physiology with Riechers at the U of I and one of the researchers on the study, explains that by inhibiting HPPD, chlorophyll is degraded and new leaves will show bleaching. HPPD-inhibitors are systemic herbicides and will continue to move toward new tissue in the plant, eventually killing it.
Older waterhemp growth in the study initially did show bleaching from Callisto, however new emerging leaves recovered and turned green due to the increased metabolism of the herbicides, Ma explains. She adds that the corn in the central Illinois field study was also very short due to the waterhemp taking away needed water and nutrients.
Although the 2009 report was the first to document this type of resistance, Riechers says four or five other locations in the Midwest have since reported similar occurrences.
"It doesn't appear to be isolated because it looks like there are other resistant Amaranthus populations coming up," Riechers notes. "The concerning thing is that some of these fields actually did have corn and soybean rotations. They weren't just growing corn, they were rotating, which is what you're supposed to do. But it still became HPPD resistant, and we're not sure how that happened."
What are the implications for growers now that this resistance has emerged?
Ma says one of the first things growers should consider is not using the same herbicide mode of action repeatedly. "For example, don't use HPPD-inhibiting herbicides alone for several years in a row because it is then easier for weeds to develop resistance," she said.
Growers could also use tillage to help control waterhemp populations, Riechers says.
"In a way we have aided waterhemp in becoming a problem by not using tillage, using the same chemical over and over, and by not rotating crops," he notes.
The U of I researchers are now looking at new ways to overcome the resistance mechanism by blocking P450 enzymes in the weed while it is still small by using a different chemical inhibitor.
Source: University of Illinois