Skip to main content

Plan Now for Successful Corn Planting

By Jeff Coulter, Extension Corn Agronomist

Coulter 3-19-10 Fig 1.jpg

With field work just around the corner, now is the time to evaluate decisions related to corn planting. Corn planting date studies from 1988 through 2003 conducted at the University of Minnesota Southwest Research and Outreach Center in Lamberton show that on average grain yield was maximized with an April 28 planting date, but planting dates ranging from April 21 to May 6 produced yields within 1% of the maximum (Figure 1). In central and northern Minnesota, optimum planting date windows generally begin a few days later. When corn planting is delayed beyond mid-May, yield potential is reduced rapidly.

Planting date

Coulter Photo 1 3-19-10.png
Figure 1. Response of corn grain yield to planting date from
1988 to 2003 at Lamberton, MN. Data are from Bruce Potter
and Steve Quiring.

Corn requires soil temperatures of 50 degrees F or higher for germination, and the amount of time from planting to emergence has been shown to be reduced from 24 days to 13 days when average soil temperature in the seed zone from planting to emergence increases from 51 to 54 degrees F (Nielsen, 2009). A greater amount of time for emergence increases the potential for stand establishment problems, but in very late April most agronomists agree that growers should ignore soil temperature and plant corn as soon as soils are fit, since warmer temperatures are expected soon afterwards.

Timely planting also increases the amount of time for in-field grain drying prior to harvest, but the advantages of timely planting can be lost if planting occurs when soils are too wet. Sidewall smearing can occur on heavy soils when double-disk openers on the planter cut through wet soil, resulting in compacted soil around the seed that is difficult for seedling roots to penetrate. Seed furrows can also open up after heavy soil dries following wet conditions at planting. In general, a field is fit for seedbed preparation (Figure 2) if soil from the surface 3 to 4 inches breaks apart when pressed between your fingers rather than forming a ribbon or ball.

Thumbnail image for Coulter 3-19-10 Fig 3.jpg
Figure 2. Seedbed preparation in mid-April
of 2009 in southern Minnesota.

A firm seedbed at planting is critical for obtaining good seed-to-soil contact and establishment of roots that are located near the soil surface. A seedbed is too loose if your boots sink over one inch when walking through the field. At the same time, avoid excessive preplant tillage, which can result in surface crusting and emergence problems if heavy rainfall occurs prior to emergence. Excessive preplant tillage can also enhance wind erosion (Figure 3) and injure corn seedlings with blowing soil.

Coulter 3-19-10 Fig 4.jpg
Figure 3. Dry soil, limited surface residue
coverage, and strong winds after planting
enhance soil erosion and mechanical wind
injury to corn seedlings. Photo by Dave

Plant population

Research funded by the Minnesota Corn Growers Association over the last two years shows that optimum final corn stands typically range from 32,000 to 34,000 plants per acre, and that this is consistent regardless of the planting date (Figure 4) or row width (Figure 5). Over-seeding by 5% is common, but the necessary amount could be slightly higher or lower based on surface residue amounts and soil temperature. Thus, it is important for growers to document their seeding rates and final stand for each field, and adjust over-seeding rates for future years as needed based on their experience. Under most conditions in Minnesota, seeding rates ranging from 33,000 to 35,000 seeds per acre are economically optimal (Table 1).

Coulter PD x Pop 3-19-10.png
Figure 4. Corn (DKC52-59) response to final plant population for
three planting dates. Data are averages from Lamberton and Waseca,
MN in 2008 and 2009.

Coulter Row x Pop 3-19-10.png
Figure 5. Corn response to final plant population for two row widths.
Data are averages from three hybrids (Pioneer 38P43, Pioneer 37N68,
and Pioneer 35F44) at Lamberton and Waseca, MN in 2009.

Table 1. Optimum corn seeding rates (seeds per acre) for various seed costs and corn prices. These seeding rates assume 5% over-planting. Data are averages over 3 planting dates at two locations (Lamberton and Waseca, MN) in 2008 and 2009 for DKC52-59.
Seed cost Corn price ($/bushel)
($/bag) 2.75 3.25 3.75 4.25 4.75
175 33,900 34,600 35,100 35,600 35,900
200 33,100 34,000 34,600 35,000 35,400
225 32,500 33,500 34,100 34,600 35,000
250 31,800 32,800 33,600 34,200 34,600
275 31,100 32,300 33,100 33,800 34,300
300 30,400 31,100 32,600 33,300 33,900

Planting depth

Corn seedling showing nodal roots
Figure 6. Nodal roots are located between the seed and the soil surface. Barriers to successful nodal root establishment, such as shallow planting or sidewall compaction caused from planting in wet soils, can severely reduce yield and increase the potential for root lodging.

Planting depths of 1.75 to 2 inches are optimal for corn in most situations, but could be as deep as 2.5 inches under very dry conditions to ensure that adequate soil moisture is present in the seed zone for germination. Planting depths shallower than 1.75 inches increase the risk of poor establishment of the nodal roots that develop between the seed and the soil surface (Figure 6), which increases the potential for root lodging. Finally, keep an eye on planting speed, as speeds above 5.5 miles per hour can result in excessive fluctuation in planting depth and within-row seed placement. Pay attention to details this spring, as mistakes with planting last the entire season. More information on corn production from the University of Minnesota is available at

Print Friendly and PDF