NEW BRUNSWICK, N.J. — FRAC Group 11 Fungicides: The strobilurin, or QoI fungicides (FRAC group 11) are extremely useful in controlling a broad spectrum of common vegetable pathogens.
You may know some of strobilurins as azoxystrobin (Quadris), trifloxystrobin (Flint), pyraclostrobin (Cabrio), or Pristine (pyraclostrobin + boscalid, 11 + 7). For example, FRAC group 11 active ingredients such as azoxystrobin are also now available generics or in combination products as Quadris Top (azoxystrobin + difenoconazole, 11 + 3), Quilt (azoxystrobin + propiconazole, 11 + 3), or Quadris Opti (azoxystrobin + chlorothalonil, 11 + M5).
All strobilurin fungicides inhibit fungal respiration by binding to the cytochrome b complex III at the Q0 site in mitochondrial respiration. Simply said, the fungicide works by inhibiting the fungi’s ability undergo normal respiration. The strobilurin chemistries have a very specific target site, or mode-of-action (MOA).
Although highly effective, fungicide chemistries like those in FRAC group 11, with a very specific MOA, are susceptible to fungicide resistance development by some fungi. Why is that? In the strobilurin’s, a single nucleotide polymorphism of the cytochrome b gene leads to an amino acid substitution of glycine with alanine at position 143 of the cytochrome b protein.
How do we avoid the chances for fungicide resistance like this to develop? It’s simple, don’t let the fungus ‘figure out’ what it is being sprayed with and do this by rotating different fungicide chemistries (i.e., FRAC groups). Proper fungicides rotations are necessary when fungicides with specific MOA’s are used in fungicide programs for controlling important diseases. That’s why it is important to follow a fungicides label precisely and be certain that some fungicide chemistries aren’t overused.
All strobilurin fungicides should be tank mixed with a protectant fungicide, when possible. Remember tank-mixing high-risk fungicides (i.e., FRAC group 11) with low-risk, protectant fungicides (FRAC groups M1-M9) helps reduce (and/or delay) the chances for fungicide resistance development. Never tank mix strobilurins together and never apply any strobilurin fungicide (either the same chemistry or different chemistry) in consecutive applications if stated by the label. Remember, azoxystrobin acts against the fungus the same way as trifloxystrobin does and so on. Even though you are spraying two different fungicides, each has the similar MOA and is acting against the fungus in the same exact way.
Azoxystrobin (i.e., Quadris 2.08F) used heavily in vegetable production is now off patent and is available in generic forms from a number of companies. In the 2020/2021 Vegetable Crops Recommendations Guide you will see that references to Quadris have been replaced with azoxystrobin, much like we did the chlorothalonil (i.e., Bravo Weatherstik) a few years ago. Over the next couple years other FRAC code 11 fungicides will also be coming off patent and similar changes in the recommendations guide will occur. Resistance to FRAC group 11 fungicides has been reported in multiple pathogens in multiple crops worldwide. Resistance to FRAC group 11 fungicides in our region have been reported in cucurbit powdery mildew and gummy stem blight. Importantly, in recent years, the lack of efficacy in strobilurin fungicides in crops, such as parsley and beet, where azoxystrobin was one of the few fungicides available for Septoria leaf spot control is showing up in areas of southern New Jersey and elsewhere.
The threat for resistance development in important pathogens to FRAC group 11 fungicides is always present, and it will become even more important to monitor as generic products with azoyxstrobin and other group 11 fungicides as active ingredients begin to emerge in the future.
FRAC Group 3 Fungicides
The DMI (DeMethylation Inhibitors) or Sterol Biosynthesis Inhibiting (SBI’s) fungicides belong to FRAC code 3 which include the triazoles and imidazoles. Some of these fungicides are commonly known as Tilt (propiconazole), Rally (myclobutanil), Folicur (tebuconazole), and Procure (triflumizole) and are widely-used in agriculture.
DMI’s work by inhibiting the biosynthesis of ergosterol which is a major component of the plasma membrane of certain fungi and needed for fungal growth. Resistance by fungi to the DMI fungicides has been characterized and is generally known to be controlled by the accumulation of several independent mutations, or what is known as ‘continuous selection’ or ‘shifting’, in the fungus.
In any given field population, the sensitivity to the DMI fungicide by the fungus may range from extremely high (highly sensitive, and will be controlled by fungicide) to moderate (partially sensitive to the fungicide) or low (mostly resistant to fungicide).
This type of resistance is also known as quantitative resistance. With quantitative resistance, as stated above, there are different levels of resistance to the fungicide due to independent mutations, which, is unlike the target mutations that occur in qualitative resistance associated with the QoI (FRAC code 11) fungicides. Because different levels of resistance to the DMI fungicide may exist in the field, control of fungal population may widely vary based on the rate of the DMI fungicide being applied. It is suggested that using a higher rate of a DMI fungicide, may improve control when lower rates have failed.
For example, let’s say that a cucurbit powdery mildew population on pumpkin consists of 25% highly sensitive, 50% moderately sensitive, and a 25% low sensitive (resistant) population to a DMI fungicide. If fungicide is applied at the low rate, only 25% of the population (highly sensitive) may be controlled. Where, if the high rate was used, 75% (the 25% highly sensitive + 50% moderately sensitive) of population would have been controlled. The main point is that if low rates of DMI fungicides have been used and control seems to be weakening, increasing to a higher rate may improve control.
Unfortunately, it is difficult to determine what proportion of the powdery mildew population is sensitive or not sensitive by just looking at the field until you have begun a proper spray program. The best advice, if you are using low rates and think those rates are not working, is to increase to the high rate the next time the fungicide is sprayed, and if the high rate still doesn’t work it may be safe to assume the fungal population has grown mostly resistant. Importantly, if the high rate fails, whether you bumped up to a high rate or started with one, and control does not seem adequate, DO NOT continue to use the DMI fungicide.
Recognizing if and when fungicide chemistries are failing and when fungicide resistance is developing is critically important to producing successful crops and why scouting on a regular basis, at least before and after each fungicide application, is important. Regular scouting can help reduce unwarranted and ineffective fungicide applications and help reduce wasted costs.
Remember to always tank mix DMI fungicides with protectant (M) fungicides (i.e., chlorothalonil, manzate) to help reduce the chances for fungicide resistance developing. Always apply DMI fungicides according to label rates and resistant management recommendations and always be aware of the fungicide rate you are applying.