Fungicides

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Fungicides are pesticides that prevent, kill, mitigate or inhibit parasitic fungi and their reproductive spores. They are commonly used in agriculture to prevent or treat fungal diseases detrimental to crop production.

Fungicides, which can be used on nearly every crop type and in conventional and organic production, generally work by immobilizing critical metabolic pathways to prevent spore germination or hyphal growth. In agricultural production, fungicides may be applied via a seed treatment, in-furrow at planting or as an in-season foliar application.

Classifying Fungicides

Fungicides can be classified in several ways, including based on:

Plant Mobility

Fungicides may have either contact or systemic activity in the plant.

Contact fungicides aren't absorbed by plant tissue; instead, they offer a protective barrier that protects against pathogen entry. Contact fungicides are preventive because they must be applied before a disease penetrates plant tissue. They do not protect new plant growth or move to the underside of leaves where they may be needed most; if disease pressure is high, consider adding a systemic or translaminar fungicide to the tank mix.

Systemic fungicides have movement capabilities within the plant tissue. The systemic movement varies depending on the fungicide's active ingredients and formulation. Some products are locally systemic, with limited translocation beyond the application site. Xylem-mobile fungicides move upward from the point of entry via xylem cells. Some fungicides translocate throughout the plant via the xylem and phloem cells. Translaminar fungicides aren't truly systemic, but they provide movement from the top to the underside of leaves and vice versa.

Mode of Action

Mode of action refers to how the fungicide controls the fungal pathogen. The most common fungicide modes of action for agricultural applications include respiration inhibitors (Groups 7, 11 and 29) and sterol biosynthesis inhibitors (Group 3).

Fungicides from these four groups are widely used to manage a broad spectrum of crop fungal diseases, which can lead to fungicide resistance. Rotating fungicide modes of action and using products with multiple modes of action can help reduce the risk of resistant fungal populations.

Preventive or Curative Protection

Preventive fungicides must be applied before pathogen exposure to limit disease entry into plant tissue.

Curative fungicides may be applied after an initial disease infection and generally stop or slow disease progression if applied within 24 to 72 hours of pathogen exposure, depending on the fungicide.

Despite their name, curative fungicides don't cure a plant of disease and aren't effective on advanced disease infections. However, curative fungicides are an excellent option to stop early pathogen growth in plant cells if applied in the first few days following infection.

Generally, it's best to take a proactive approach and apply all fungicides before disease infection occurs.

When to Apply Fungicide

Application timing is critical because, even with curative fungicides, applications must be made within a few days of infection to be effective. It's generally best to apply a fungicide before a disease infection occurs to maximize fungicide ROI. Diligent scouting is important to identify disease pressure in fields while they are still treatable.

Foliar applications made between corn's VT and R1 growth stages provide the greatest yield benefit.

For soybeans, target an application around the beginning pod stage (R3) to maximize return on investment. A two-pass fungicide program may offer more plant protection in heavy disease-pressure years or if disease sets in early. Consult with your agronomist for specific application timing recommendations based on field conditions.

If possible, apply systemic fungicides during humid and cloudy conditions so plant cuticles are open for faster plant absorption. Applying fungicides in the morning is preferable to reduce the risk of volatilization and drift.

If applying a fungicide on every acre isn't feasible due to budget or logistical limitations, consider these factors and prioritize foliar fungicide applications accordingly:

How to Apply Fungicide

Fungicides can be applied in several ways, including:

Fungicide seed treatments effectively control soil-borne fungal pathogens, including Pythium, Phytophthora, Rhizoctonia and Fusarium, that may cause seed rot and seedling diseases. Products that contain mefenoxam and metalaxyl effectively control Rhizoctonia and Phytophthora and can be combined with other active ingredients to manage a broad spectrum of soil-borne diseases. Most corn hybrids include a standard seed treatment, but soybeans may not be pre-treated. Consult your agronomist for more information about seed treatment options that are a good fit for your acres.

In-furrow fungicides are applied at planting to offer extra protection against early-season fungal diseases. They can help support vigorous emergence, which offers season-long crop benefits. Some in-furrow fungicide formulations may be applied with starter fertilizers to add application convenience and efficiency.

Foliar fungicides are applied via ground or aerial spray to protect against a broad spectrum of crop diseases. These application guidelines can help you maximize the ROI of your foliar fungicide applications.

When applying fungicide, be sure to:

How to Address Crop Diseases Using Fungicide

Using Fungicide to Treat Gray Leaf Spot in Corn

Gray leaf spot is one of the most damaging foliar corn diseases because its lesions reduce the plant's green leaf area and photosynthetic activity. This results in lower yield and grain quality, with smaller kernel sizes and lower test weights. Reduced photosynthesis can also increase the risk for late-season stalk lodging and infection by stalk rot diseases.

Moderate to warm temperatures and high humidity or wet conditions favor gray leaf spot development. Begin scouting between the V10 and V14 growth stages to assess crop risk. If disease is present and/or conditions favor disease development, a foliar fungicide can help protect the crop.

Using Fungicide to Treat Soybean Cyst Nematode

Soybean cyst nematodes (SCN) are plant-parasitic roundworms that penetrate plant roots and feed within the plant's vascular system. It is the most yield-limiting soybean disease in the U.S. and increases the crop's risk for other soil-borne diseases such as brown stem rot, sudden death syndrome, and Fusarium root rot. Adult nematode root feeding can significantly reduce yield as infected plants become yellow, stunted and necrotic.

Several factors can favor SCN development in fields. High soil pH, sandy, well-drained soils and fields with continuous soybean rotations tend to be at a higher risk for SCN. Soil samples should be taken if SCN is suspected in fields. Test results can confirm the presence of SCN and provide population estimates for choosing suitable treatments.

SCN can be managed with an integrated strategy that includes choosing SCN-resistant soybean varieties, rotating soybeans with other non-host crops and controlling weeds, moisture and fertility to reduce plant stress. For fields with heavy SCN pressure or a history of disease, adding a seed treatment with specific active ingredients for SCN control is recommended.

Using Fungicide to Treat Common Rust in Corn

Common rust is a fungal disease in corn caused by windblown spores originating from southern corn-growing regions. It is generally not a disease of economic significance in field corn (unlike southern rust) but can be problematic in seed corn and sweet corn production. Disease impacts include reduced photosynthesis due to disease lesions, which results in lower yield and grain quality. Reduced sugar production from photosynthesis also reduces stalk strength and increases the risk of stalk diseases. The latest planted corn in an area generally has the highest risk for yield loss.

Common rust develops in moist and cool conditions and typically progresses as corn matures in late summer if the environment remains conducive. Large circular or elongated pustules form on the top and undersides of leaves. The disease can spread quickly across the field, so scouting consistently throughout the season is important.

If a foliar fungicide application is warranted (especially for high-value specialty crops), it should be applied as soon as the first few disease pustules are observed.