Emergence Irregularity

Emergence irregularity is often observed on coarse-textured soil (sandy soil: sandy loam, fine to very fine sandy loam). There are spots in the field that retains more moisture ; some well-compacted to achieve better contact with seed for germination. In drier areas of the field, germination can be delayed.

Dry spring aggravates germination irregularity.  Producers run their center-pivot sprinklers in spring for the first time during the cropping season to achieve better germination and, attain plant growth uniformity.

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The above photo shows a portion of the field with spring wheat seeds emerged.

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The above photo shows a portion of the field (just few feet next to the first photo above) with no emergence. In this field there are canola residues from previous year. Traditionally, we think residues in the field will help keep moisture and reduce evapotranspiration – loss of water from surface soil.  It is important to note that there are multitudes of advantages returning residues to the ground. On a fortuitous dry spring/year, however, residue may dry up the surface even more. Dry residue on a dry spring (on a coarse-textured soil) may have reduced seed to soil contact and thus, exacerbates germination irregularities. See photo below with spring wheat seeds unable to germinate.

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On a dry spring (like this year), dryland production system or irrigated fields on a coarse soil where irrigation system is not yet in-place ready to use, can only hope for rain. This reminded me of a special prayer intention at times… ‘pray for rain’.

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JT

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Seeding & Seed Size

“How many pounds seeds per acre should I plant?”, a producer asked over the phone. Agronomists/scientists receive such a call on a regular basis in spring. This is a very important call because making the right decision enables significant farm savings from seed dollar expense.

Target number of plants per acre is used in the U.S Corn Belt region to seeding. Corn seeding per acre ranges from 29 to 34k seeds on irrigated fields, whereas, 18 to 30k seeds on dryland fields. The difference between irrigated vs. dryland target seeding is related to availability of in-season soil moisture (stress).

Soybean, on the other hand, seeding ranges from 130 to 200k seeds/acre regardless of moisture regime.  Soybean plant is known to be highly compensatory. At low population, a plant produces more branches with more pods/plant and is the opposite at high population.  Thus, no distinctive seeding adjustment between irrigated and dryland production system. This article (click on the link) showed that soybean seeding on both irrigated and dryland is ~145k/acre. Still. producers plant more than what is recommended. Extension agents/ agronomists encourage to drop soybean seeding rate and save $10-$18 per Acre.

Lastly, the commonly used unit for seeding wheat in a commercial production scale is lbs seeds per acre (as per phone calls in early spring). I once asked a local seed dealer if thousand kernel weight can be specified in the purchase receipt of certified wheat seeds. Unfortunately not. In central MT, research on wheat seeding rate reported that 20 seeds/ft2 provided optimum yield. It is not uncommon that in high rainfall and irrigated parts of Montana, 35 seeds/ft2 is adopted, though, my spring wheat research in 2014 at NWARC used 20 seeds/ft2 with attained yields from 80 to 140 bushels/acre from dryland to irrigated, respectively.

Information on wheat seed size (thousand kernel weight) is not always available. It is a very important piece of information when estimating how much seeds to plant.

The graphs below illustrate potential savings from seed expenses when estimation of wheat seeds to plant is done with information on seed size. Estimates were calculated based on a 90% germination rate and 33 dollars/100 lb certified seeds. Percent plant survival (final standing plant) was not accounted.

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