Soybean aphid. Photo credit: Chris DiFonzo, Michigan State University.

60 aphids (click on image to view a larger version) The UW Nutrient and Pest Management program published a Visual Guide to the Number of Soybean Aphids per Leaflet . Each soybean leaflet has a specific number of aphids displayed to help you count Copies can be ordered from the NPM Program at 608-265-2660 or you can print one here»

1. Begin scouting in late June or early July, and continue through pod set. Check 20 to 30 plants per field, covering 80% of the field. Pay particular attention to late-planted fields, or fields under moisture stress. Examine the entire plant, particularly the new growth at the top and side branches.

2. Use an action threshold of 250 aphids per plant if populations are actively increasing. This action threshold should be based on an average of 250 aphids per plant over 20-30 plants sampled throughout the field. Regular field visits are required to determine if soybean aphid populations are increasing.

In replicated research trials, this threshold has worked well in R1 (right at first bloom) to R4 soybeans. This threshold incorporates an approximate 7-day lead-time between scouting and treatment to make spray arrangements or handle weather delays. Spraying at or beyond R6 has not been documented to increase yield. View photos of soybean growth stages at R1- R8 and soybean action thresholds (UWEX pdf)»

• To determine if an aphid population is actively increasing, check over several visits. Conditions that favor aphid population growth are cool temperatures, plant stress, particularly drought stress, and a lack of aphid predators.
• Check for mummies and winged females. Do not spray if mummies are numerous or a majority of aphids are winged or developing wings, an indication that the aphids will soon leave the field.
• Plants are likely to be considerably above threshold if stems or pods are covered with aphids and honeydew, sooty mold covers the bottom leaves, and plants are stunted. Insecticide treatment is probably still of value, but the optimal time for treatment (greatest economic return) is past.

3. Consider the product choices for your situation. Aphid kill, residual, and yield gains can vary among individual insecticides and application conditions.

• Pyrethroids (Warrior, Mustang Max, Asana, Baythroid) have a long residual, and are most effective at temperatures below 90°F. Organophosphate products (Lorsban) have a fuming action, and may work better in heavy canopies or at higher temperatures.
• Tank mixes of insecticide, fungicide and/or herbicide are not generally recommended. Soybean aphid, disease and weed pests do not all appear at the same time at economically damaging levels so a single tank mix, while convenient, will not provide satisfactory control of all three pest types. Additionally, sprayer specifications such as water volume, nozzle type (droplet size), and pressure must be optimized for each pest situation.
• Good coverage is important. Higher spray volumes and higher pressure help to move the insecticide down into the canopy.
• Adding insecticide to early-season glyphosate application as "insurance" is not recommended unless aphids are at threshold levels and actively increasing.
  

4. Leave an unsprayed check strip to compare against sprayed areas to determine the performance of the insecticide and the value of the treatment.

5. Communicate treatment plans to beekeepers and follow precautions to minimize bee kills. In areas with concern about honey bees, read insecticide labels carefully to determine risk to bees and take necessary precautions (for example, do not apply during hours in which bees are actively foraging).

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Questions? Please contact Eileen Cullen at 608-261-1507 or cullen@entomology.wisc.edu. These recommendations are the cooperative effort of researchers in Wisconsin and throughout the North Central states, funded with soybean checkoff dollars through the North Central Soybean Research Program.