Anthony Hanson, Extension Educator - Field Crops Integrated Pest Management (hans4022@umn.edu)
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| Figure 1. Seed corn maggot feeding on a soybean cotyledon. |
Seed corn maggot (SCM) feeds on seed and newly emerging seedlings where adult females lay eggs in disturbed soil beginning in spring. Eggs can hatch within two to four days and maggots move to and feed on seed and germinating plants. Multiple generations continue throughout the growing season in fairly distinct waves for each generation. Like with other insects, the warmer the average daily temperature, the quicker SCM develops and progresses through each generation as populations build. When most of the SCM adults of a given generation have emerged, this is when risk of damage to recently planting seedlings is highest.
To predict pest risk, two questions need to be answered:
- When will the pest show up?
- Will the pest have sufficient population size to cause significant damage?
Predicting damage timing and modifying planting schedules
The timing of damage occurs in fields planted during the adult
population peak for each generation, which can be predicted by
calculating degree-days specific to seed corn maggot.
As of April 29, 2025, the overwintering generation peak emergence at 360
degree-days is occurring in along the Iowa border and into south central Minnesota. Peak adult flight is forecast to
move up through southern Minnesota to central counties within the next week as daily temperatures
increase to the 70s and near 80 °F for highs along with lows above 50°F.
(Figs. 2 and 3, click to view full-size images).
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| Figure 2. Current degree-days for seed corn maggot as of April 29, 2025. |
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| Figure 3. Six day forecast of degree-days for seed corn maggot as of April 29, 2025. |
Degree-day maps only indicate the time of year when high risk can occur
and do not guarantee the seed corn maggot peak population will be large
enough to cause economic damage.
As of April 28, current USDA planting estimates for the state are 26%
for corn and 13% for soybeans. This year, the timing of the peak first
generation may be occurring just as a sizeable percentage of corn goes in the
ground this week across southern Minnesota. For southern counties with fields that are prone to SCM issues, there may be some benefit in delaying planting planned near April 28 by about a week. For farmers in central counties, the highest risk period will be around May 5 if temperature forecasts hold.
Risk of high populations and management
For seed corn maggot, answering if it will be at damaging population levels is less exact than predicting timing. Fields with historical seed corn maggot problems or high organic matter should be considered for additional management if they are being planted in the coming week. Fields with cover crops recently incorporated or tilled under can be more attractive to SCM, but fields using no-till practices, regardless of cover crop adoption, tend not to have increased populations.
Planting can instead be delayed in these high-risk fields until after peak seed corn maggot flight; this decision also needs to be balanced with the likelihood of seed corn maggot reaching damaging levels in particular field and if it’s economically feasible to wait another week depending on the growing needs of the crop. Forecast maps for SCM are updated twice a week if you want to follow updated forecasts through the planting season.
After planting, there are no effective treatments once damage occurs, though there are some insecticides labeled for in-furrow or seed-applied use at planting. Insecticide seed treatments can be effective protection, but are best used when you know a field is in a high-risk situation. Using a seed treatment as a preventative in low-risk fields without a history of SCM isn't likely to give a return on investment.
For more information
Continued updates on seed corn maggot and other pest forecasts are available at: https://z.umn.edu/pestforecastFor management of seed corn maggot in soybean, visit:
https://extension.umn.edu/soybean-pest-management/seedcorn-maggot
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