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Published 12 May
2003
Delayed Planting
Considerations for Corn
uite a bit of Indiana’s corn crop remains to be
planted, especially in southern Indiana, due to the current rainy spell that
put the brakes on what had been a very rapid planting pace. As of 11 May, 42%
of Indiana’s intended corn acreage was yet to be planted (USDA-NASS,
http://www.nass.usda.gov/in/cropweat/2003/we1903.txt). While
the calendar should not yet be a concern for corn and soybean planting, growers
may want to consider the following issues as they impatiently wait for fields
to dry out.
- Corn Hybrid Maturity.
Some growers may be thinking about switching from their fuller
maturity hybrids to earlier maturing ones out of concern for the shortening
growing season. This concern should be placed on the back burner for a while
because most adapted hybrid maturities can be planted in Indiana until at least
the end of May with little to no risk of fall frost injury to immature grain.
If the rains continue or growers believe they will continue for another couple
of weeks, information about hybrid maturity decisions is available in the
Purdue Extension publication AY-312-W, “Delayed Planting &
Hybrid Maturity Decisions”. Ask for this publication at your local
Purdue Extension office or download it from the Web at
http://www.agry.purdue.edu/ext/pubs/AY-312-W.pdf.
- Bt Corn Hybrids. For
most Indiana corn production systems, economic benefits from the use of
transgenic Bt corn hybrids resistant to corn borers are more likely to occur
with delayed plantings. Consequently, growers may want to consider switching
some of their late-planted intended non-Bt corn acreage to Bt hybrids as
insurance against the higher risk of infestation by late brood corn borers.
This is especially true for growers in extreme southern Indiana where
southwestern corn borer can be an issue.
- Corn Seeding Rates.
There is no need to consider changing seeding rates for corn simply because
planting is delayed. Optimum seeding rates for most growers’ fields range
from 28,000 to 33,000 seeds per acre. Lower rates (low to mid-20’s) are
suitable for fields with yield levels historically near or below 100 bushels
per acre.
- Corn Seeding Depth.
The key factor that should be used for determining seeding depth for corn is
the importance of adequate and uniform soil moisture in the seed furrow. Some
might say this is a moot point given the current soggy soil conditions.
Remember, though, how quickly Mother Nature can change and how quickly
shallow-placed seed can find themselves in bone-dry soil. A seeding depth of
1.5 to 2 inches is acceptable over a range of soil conditions. Shallower depths
are risky if rains stop altogether and surface soils begin to dry rapidly.
- Corn Insecticides. For
those areas of Indiana where western corn rootworm is a major pest to contend
with, continue to use a full rate of soil-applied insecticide for corn
plantings through the first week of June to insure against damage from corn
rootworm larvae. For more information on managing corn rootworms, see Purdue
Extension E-49-W, “Managing Corn Rootworms –
2003”. This publication can be obtained at your local Purdue
Extension office or download it from the Web at
http://www.entm.purdue.edu/entomology/ext/targets/e-series/EseriesPDF/E-49.pdf.
- Corn Replanting Decisions.
Extensive corn death is likely to occur over the next week or
so in low-lying fields affected by floodwaters or poorly drained areas within
fields that are ponded. If growers are uncertain whether replanting is
warranted, the Purdue Extension publication AY-264-W,
“Estimating Yield and Dollar Returns From Corn Replanting”
will help growers make this important decision. This publication can be
obtained at your local Purdue Extension office or download it from the Web at
http://www.agry.purdue.edu/ext/pubs/AY-264-W.pdf.
Recognize that the decision to replant ponded areas of fields needs to be made
in the context of how much of a grower’s original corn and soybean acres
remain to be planted. Non-planted acres should usually take priority in the
remaining planting schedule over the ones to be replanted.
- Field Tillage Operations.
Remaining pre-plant field operations should be scrutinized
carefully to determine whether they are truly necessary. With today’s
modern corn planters, there is little reason to overly-prepare a field to
create a picture-perfect seedbed. In delayed planting situations, every day
wasted overworking a field is a day lost to planting and represents lost yield
potential. Furthermore, unnecessary tillage operations on soils that may be
marginally wet increase the risk of creating tire and tillage compaction layers
that can haunt root development and corn health later if excessively dry
conditions suddenly become the norm. Remember your neighbors’ fields last
year?
- Planter Sidewall Compaction.
Another lesson learned from last year’s wet planting
conditions was the dramatic potential for significant root restriction by
severe sidewall compaction when a rapid shift from wet to dry conditions
occurred after planting. If at all possible, avoid planting fields when soil
moisture conditions favor the smearing of furrow sidewalls by the coulters or
double-disc openers of the planter.
- Nitrogen Fertilizer Applications.
Growers that have yet to apply pre-plant nitrogen fertilizer
should consider switching to a sidedress application strategy instead to make
the best use of available field working days for planting in the coming weeks.
If planting is seriously delayed to the end of May or early June, growers may
want to consider backing off on their intended nitrogen fertilizer application
rates due to the expected lower yield of the late-planted corn. The rule of
thumb most commonly applied to lost yield potential for delayed planting is one
bushel per acre per day after May 10 up to 2 bushels per acre per day after
June 1. Consider using a pre-sidedress soil nitrate test to further
fine-tune your nitrogen application rates. Information about this soil test can
be found in the Purdue Extension publication AY-314-W, “The
Pre-Sidedress Soil Nitrate Test for Improving N Management in Corn”.
Ask for this publication at your local Purdue Extension office or download it
from the Web at http://www.agry.purdue.edu/ext/pubs/AY-314-W.pdf.
- Starter Fertilizer.
Where soil phosphorus and potassium soil test levels are
adequate or better and tillage is other than pure no-till, consider eliminating
starter fertilizer use for the remainder of this season’s corn planting.
Soil temperatures at planting from here on will be more than adequate for rapid
corn germination and early seedling growth, thus greatly diminishing the value
of starter fertilizer. Eliminating starter fertilizer will not only reduce your
costs, but will save some time during the planting operation. No-till corn,
however, will likely continue to benefit from starter fertilizer applications,
especially the nitrogen component, for planting throughout the remainder of the
month.
Related References:
- Brouder, Sylvie. 2003. The Pre-Sidedress Soil Nitrate Test for
Improving N Management in Corn. Purdue Univ. Cooperative Extension
Service publication AY-314-W. Online at
http://www.agry.purdue.edu/ext/pubs/AY-314-W.pdf.
[URL verified 5/9/03].
- Nielsen, Bob. 2003 (rev). Estimating Yield and Dollar Returns From
Corn Replanting. Purdue Univ. Cooperative Extension Service publication
AY-264-W. Online at http://www.agry.purdue.edu/ext/pubs/AY-264-W.pdf.
[URL verified 5/9/03].
- Nielsen, Bob and Peter Thomison. 2003 (rev). Delayed Planting
& Hybrid Maturity Decisions. Purdue Univ. Cooperative Extension Service
publication AY-312-W. Online at
http://www.agry.purdue.edu/ext/pubs/AY-312-W.pdf.
[URL verified 5/9/03].
- Hyde, Jeffrey, Marshall A. Martin, Paul V. Preckel, and C. Richard
Edwards. 2001 (rev.). The Economics of Bt Corn: Adoption Implications
(ID-219). Online at http://www.ces.purdue.edu/extmedia/ID/ID-219.pdf.
[URL verified 5/12/03].
- Edwards, C. Richard, Larry W. Bledsoe, and John L. Obermeyer. 2003
(rev.). Managing Corn Rootworms – 2003 (E-49-W). Purdue Univ.
Cooperative Extension. Online at
http://www.entm.purdue.edu/entomology/ext/targets/e-series/EseriesPDF/E-49.pdf.
[URL verified 5/12/03].
- Purdue/Ohio State AgAnswers. 5/9/2003. Storms shouldn't rain on
farmers' planting parade. Online at
http://www.agriculture.purdue.edu/aganswers/2003/05-09_Storms_Shouldnt_Discourage_Farmers.htm.
[URL verified 5/9/03].
- Vyn, Tony. 2002. Tillage Options for Corn in a Wet Spring.
Purdue Univ. Pest & Crop Newsletter. (26 Apr 2002). Online at
http://www.entm.purdue.edu/entomology/ext/targets/p&c/P&C2002/P&C6_2002.pdf.
[URL verified 5/12/03].
- Vyn, Tony. 2002. Minimizing Compaction in a Wet Spring. Purdue
Univ. Pest & Crop Newsletter. (10 May 2002). Online at
http://www.entm.purdue.edu/entomology/ext/targets/p&c/P&C2002/P&C8_2002.pdf.
[URL verified 5/12/03].
For
other information about corn, take a look at the Corn Growers' Guidebook
at http://www.kingcorn.org.
©2003, Purdue University,
all rights reserved. It is the policy of the Purdue
Agronomy Department that all persons shall have equal opportunity
and access to its programs and facilities without regard to race, color,
sex, religion, national origin, age, or disability. Purdue University is an Affirmative Action
employer. This material may be available in alternative formats.
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