Wheat Category Archives | AgroLiquid Blog

More bread for your bread: How nutrient management can increase protein levels in wheat

Carla Wardin — Mon, 19 May 2025 14:46:53 +0000

The concentration of protein in wheat is one of the biggest determinants of baking quality, since it affects the strength of gluten, elasticity of the dough, water absorption, mixing properties, and the volume of the loaf.

As a result, wheat that hits a specific protein threshold receives a premium price on the market. This is an obvious economic incentive for growers to manage crops to get the highest protein levels possible.

How can nutrient management best increase protein levels in wheat, and how can AgroLiquid help? Let’s explore.

Wheat characteristics
Genetic selection and agronomic practices play important roles in protein content, but there is also a direct impact from nutrients, particularly nitrogen and sulfur.

For nitrogen, growers have a few options for helping wheat reach its full potential:

Base nitrogen applications
First, growers can begin with soil testing to understand existing nutrient levels. While considering the region and economics, it’s helpful to set realistic yield goals and protein targets. Then, use the nitrogen application that works best with these targets.
Split applications
With split applications, growers can divide nitrogen applications to match the crop’s needs throughout the growing season. An initial amount supports early growth and establishment, while later applications can be timed to improve the accumulation of protein in the grain.
Late-season nitrogen
Also, consider late-season nitrogen application. Foliar nitrogen applications around flag leaf, anthesis (flowering), or post-anthesis can be effective for increasing grain protein. Also, make sure that the foundational nitrogen needs for yield have already been met, and carefully manage foliar applications to prevent leaf burn.

The role of sulfur
While nitrogen gets the most attention for protein improvement, Sulfur also plays a large role. In fact, sulfur is increasingly recognized as a support for both wheat yield and quality, including protein content.

An adequate supply of sulfur is needed for the plant to synthesize complete proteins, and it’s also important for the formation of chlorophyll and photosynthetic processes.

Plus, sufficient sulfur is needed for the plant to effectively convert nitrogen into protein. It’s helpful to watch for signs of sulfur deficiency, like the yellowing of new leaves. Soil tests can determine the need for sulfur fertilization, especially when using high nitrogen rates or in soils known to be sulfur-deficient.

Products that can help
Focusing on nitrogen and sulfur helps elevate protein levels in wheat, and AgroLiquid offers two products that can be integrated into nutrient management plans to achieve these goals: NResponse and Micro 500.

NResponse
NResponse is designed to address the nutrient needs for protein development. It delivers a balanced supply of nitrogen and sulfur, the two drivers of protein accumulation.

Nitrogen – The nitrogen in NResponse fuels the synthesis of amino acids, which are the building blocks of protein in the wheat kernel. By providing available nitrogen, especially when applied through split or late-season applications, NResponse contributes to higher grain protein concentrations.
Sulfur – The sulfur component in NResponse plays a role in helping the plant efficiently use the applied nitrogen. Sulfur is needed for the formation of certain amino acids that are components of gluten proteins. Ensuring adequate sulfur availability through NResponse allows the wheat plant to convert nitrogen into protein more effectively.

Growers can use NResponse as part of their nitrogen management program. For instance, incorporating NResponse into a late-season foliar application can provide the readily available nitrogen and sulfur needed to push protein levels higher during grain fill, when protein accumulation is most active.

Micro 500
Micro 500 offers a blend of micronutrients – zinc, manganese, iron, copper, and boron – that play a supporting role in achieving high protein wheat.

Plant health – These micronutrients help with enzyme activation, chlorophyll production, and nutrient uptake. Making sure these micronutrients are not limiting allows the wheat plant to function at its best and use the applied nitrogen and sulfur for protein synthesis.
Nitrogen metabolism – Adequate levels of zinc and manganese help plants convert absorbed nitrogen into protein.

Micro 500 can be integrated into the nutrient management plan through soil or foliar applications, depending on soil test results and plant tissue analysis. By helping with a balanced supply of all essential micronutrients, Micro 500 helps create an environment where the wheat plant can maximize its genetic potential for protein production in response to nitrogen and sulfur applications.

AgroLiquid support
By strategically using NResponse and Micro 500, growers can create a comprehensive nutrient management program that directly targets the nutritional requirements for high protein wheat. The crop, the yield, and the economic benefits will follow. Or in other words, more bread for your bread.

Ready to get started? We’d love to talk. Contact us at AgroLiquid today.

The post More bread for your bread: How nutrient management can increase protein levels in wheat appeared first on AgroLiquid.

Late Foliar Applications to Winter Wheat

Angi Bunn — Fri, 14 Aug 2015 13:54:58 +0000

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Experiment Info

Planted	10/4/2011
Variety	Pioneer 25W43
Population	2 mill seed/A
Previous Crop	Navy beans
Plot size	15’x180’/210’/130′
Replications	5
Topdress	4/13/2011
Late Foliar	5/24/2011
Harvested	7/13/2011

Soil Test Values (ppm)

pH	7.5
CEC	8.3
%OM	1.6
Bicarb	7
K	70
S	12
%K	2.2
%Mg	15.5
%Ca	81.7
%H	0
%Na	0.6
Zn	1.2
Mn	3
B	0.6

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Objective:

This picture was taken on May 5. The plot to the left of the stake received the Pro-Germinator + Micro 500 through the drill at planting. The plot to the right of the stake received nothing at that time. At the time, it was apparent that the plots that received the fall fertilizer had larger wheat and the plants were darker green.

This picture was taken during the late foliar
application on May 24. There were no visible signs of wheat disease at any time before or after the applications. There was no fertilizer burn on the wheat leaves following application.

1) Evaluate the effects of a drill application of 4 gal/A of Pro-Germinator + 2 qt/A on yield of winter wheat compared to no fertilizer applied, which is the most common treatment option. (2) Evaluate the effects of a fungicide application (Quadris) at fl ag leaf (Feekes stage 10) either alone or with foliar fertilizers. (Note: all treatments received the same topdress application: 12 gal/A High NRG-N + 16 gal/A 28%+eNhance.)

Winter wheat is usually planted right after soybean harvest here in the Upper Midwest, and is usually not fertilized at that time. Later in the growing season, foliar applications of fungicides have often shown yield increases due to suppression of fungal diseases. The application of fungicides presents an excellent opportunity for the inclusion of some crop nutrition. An experiment was conducted to evaluate the above two objectives, and this was the second year of application of these treatments.

For the foliar application, spray volume was at 20 gal/A with Turbo TeeJet nozzles (TJ-03) at a pressure of 60 psi.

Treatment yields appear in the following chart.

Conclusions:

The application of the Pro-Germinator + Micro 500 at planting resulted in a signifi cant yield increase.
Application of Quadris, Quadris + ferti-Rain and Quadris + NResponse had a larger yield effect on the wheat that received Pro-Germinator + Micro 500 at planting. It is possible that the addition of fertilizer at planting increased yield potential. The presence of the foliar inputs was able to take advantage of wheat that was not limited by lack of nutrition in the fall, whether this was due to larger plants, or better fed.
The application of the planting-time fertilizer did not seem to have a major effect on the treatment that received no foliar application. There must have been a synergistic effect where the presence of both had a far greater effect than that of either input alone.

Treatment averages from the two years of this experiment appear in the following table.

Effect of Drill-Applied Fertilizer and Foliar Applications on Winter Wheat Yield.

North Central Research Station. 2010-2011

With Drill Fertilizer	2010	2011	2 yr avg.
no foliar	83.7	85.9	84.8
Quadris alone	86.3	93.2	89.8
Quadris + ferti-Rain	85.5	97.6	91.6
Quadris + NResponse	88.2	98.5	93.4
Quadris + Coron	83.9	87.2	85.6
Average:	85.5	92.5	89.0
No Drill Fertilizer
no foliar	73.6	83	78.3
Quadris alone	71.7	83.4	77.6
Quadris + ferti-Rain	81.4	84.6	83.0	Application rates in table:
Quadris + NResponse	79.2	89.3	84.3	Quadris: 8 fluid oz/A
Quadris + Coron	81.4	85.3	83.4	NResponse and Coron: 3 gal/A
Average:	77.5	85.1	81.3	ferti-Rain: 3 gal/A (2010); 2 gal/A (2011)

Conclusions:

There was a 7.7 Bu/A advantage per year from the application of the planter-time fertilizer (4 gal/A Pro-Germinator + 2 qt/A Micro 500).
Addition of ferti-Rain and NResponse to the foliar application of Quadris did result in further yield increase of wheat.

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Winter Wheat Fertilizer Program Comparisons

Angi Bunn — Fri, 14 Aug 2015 13:54:57 +0000

Experiment Info

Planted:	9/24
Variety:	Red Devil
Population:	1.85 million
Row Spacing:	7.5″
Previous Crop:	Navy Beans
Plot Size:	15′ x 265′
Replications:	4
Liquid BC:	4/5
Topdress:	7/16

Soil Test Values (ppm)

pH:	6.7
CEC:	12.4
% OM:	2.8
Bray P1:	15
K:	132
S:	6
% K:	2.7
% Mg:	21.2
% Ca:	75.9
% H:	0
% Na:	0.2
Zn:	1.2
Mn:	5
B:	0.5
Yield Goal:	100 bu
Target Fertilizer Rate:	120-113-15

Objective:

To compare fertilizer program rates and sources for winter wheat.

Fall applied fertilizer programs have been researched for a number of years at the NCRS. Comparisons of a soil test program to a basic program of Pro-Germinator and Micro 500 have been tested the last 5 years to determine the importance of following a soil test. In this year’s experiment , a soil test program of 8.5 gal/A Pro-Germinator, 1 gal/A Sure-K, 2 qt/A Micro 500 and 2 gal/A access was compared to 4.25 gal/A Pro-Germinator with 2 qt/A Micro 500. These programs were also compared to a conventional fertilizer program of 10-34-0, ATS, Manganese and Zinc. Yield results appear on the chart below.

Conclusions:

All fertilizer treatments increased wheat yield over the nitrogen only treatment.
Although the soil test program did have a higher yield than the other fertilizer programs, it was not statistically significant. Similar treatments have been evaluated in the past at the NCRS with a 2 bu average yield advantage to the soil test program. In all cases, the additional fertilizer costs were not covered by the yield increase.
The addition of access to the fertilizer program did not influence yield.
The conventional program yielded similar to the other fertilizer programs.

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