SWAT MAPS Yield Potential Program: Maximize Potential, Cut the Costs

Hana Ruf
Regional Manager, East Central SK
hana@swatmaps.com

SWAT MAPS variable rate technology is the first step in maximizing efficiency and productivity through fertilizer, seed, and soil amendments. Once a farm has been fully mapped and the client and their agronomist feel they have a solid fertility plan, they might be wondering what else they can do to improve their practices.  The Yield Potential Program (YPP) is for SWAT MAPS clients who want to take their VR potential to the next level. Included in the YPP are unlimited in-season prescriptions, yield analysis, and SWAT CAM.

Unlimited In-Season Prescriptions

Unlimited in-season prescriptions can be made using the SWAT MAP itself, SWAT CAM maps, or NDVI satellite imagery. There are many uses for in-season prescriptions such as on/off or VR fungicides, herbicides, insecticides, plant growth regulators, top dressing, and desiccation/pre-harvest.

Figure 1 is an example of an on/off fungicide prescription that was applied by a ground sprayer using an NDVI map. In this case, areas of the field had minimal crop growth due to dry conditions and sandy soil, and in other areas due to high salinity. The fungicide was turned off in these areas (zones 8-10 on the NDVI map), saving the client $538 on this 150 acre field. If these in-season prescriptions were used across 5,000 acres and fungicide was turned off 20% of the time, in places where it is not needed, the savings alone would pay for the cost of the YPP subscription ($2/ac).

Figure 1. In-season prescription for on/off fungicide for a 150 acre canola field. Prescription is on the left, and resulting application map is on the right.

SWAT CAM

SWAT CAM maps are most often used for top-dressing and herbicide applications. One example of an easy way to save money using SWAT CAM is to target kochia with products such as Authority® (sulfentrazone) or Edge® (ethalfluralin). Figure 2 demonstrates a prescription that was used for an on/off Edge application based on both the SWAT MAP and the kochia map. The Edge is turned on in zones 7-10 on the SWAT MAP, as well as in any places where the SWAT CAM identified kochia plants to ensure good coverage. The Edge was turned off for 74.7% of this 160 acre field, saving $3935.

Figure 2. On/off Edge application using a combination of a SWAT MAP and SWAT CAM Kochia Map.

The SWAT CAM is also very useful for helping identify issues in a field such as nutrient deficiencies or drill issues. It is a useful tool for directing scouting efforts and checking on “problem” areas of a field. A quick reference to a SWAT CAM photo in a saline zone 10 can indicate how well the crop is growing there, and if you should adjust your seed or fertilizer rates there in future. The SWAT CAM provides clients and agronomists with unbiased, high resolution plant stand counts for canola, corn, soybeans, and potatoes. Future adjustments to seed rates can be made based on these plant stand counts.

Yield Data

As agronomists, we consider many factors when deciding what fertilizer rates to apply in each zone on a field. We use the SWAT MAP, soil tests, and general knowledge about the field and region to ensure we are not over or under applying seed or fertilizer. As a result, we see many benefits such as increased fertilizer efficiency, reduced lodging, more evenly maturing fields, and increased profitability. However, we are missing an important piece of the puzzle by not knowing exactly how our decisions within a field are affecting yield and ROI. At the end of the season, we don’t get a “report card” to know where the highs and lows were in a field or on a farm. In the YPP, client yield data is cleaned, analyzed, and used to fine tune our decisions going forward.

YPP provides useful data for each field such as actual yield by zone, yield vs. farm average by zone, multi-year yield % of average by zone, stability maps, and profitability maps and graphs. We have been successfully using these tools to identify where we are both overestimating and underestimating yield potential, whether on a zone scale or entire field scale.

Figure 3 shows a field where we were continuously underestimating the yield potential of the entire field, especially in zones 1, 2, and 10. This was a common trend on this entire farm, so in 2024 we adjusted the yield goals (Table 1.) and fertilizer rates to try and achieve even greater yield in these areas. After a few years of doing this, we can gain confidence in just how much we can push these yields and know what our potential really is. This will allow us to maximize ROI by aiming for our maximum yield potential without overapplying fertilizer to achieve it.

Figure 3. Yield % of Average by zone; 2022 canola actual yields versus target yields by zone.

Table 1. Canola yield goal, actual yield, and adjusted yield goal for example field.

ZoneAcresYield goal 2022Actual Yield 2022Yield Goal 2024
16.9305355
241.8356060
385.3406260
495.3456365
5106.7506365
6122.3506265
7156.9506160
899.4505860
926.6455255
108.6355150

We might also identify fields or zones in which we are overestimating the yield potential. The field in Figure 4 is a poor yielding field historically and has a very sandy zone 1 and 2. When we looked at the actual vs. target yield for each year, we were always well below our target in these zones and on the field average.  We knew the yield was poor in zones 1 and 2 and did adjust the yield goals and fertility for that, but we were still overestimating the yield potential even in years with adequate rainfall. Looking at the yield vs. farm average by zone and seeing how poor this field performs compared to the rest of the farm, we decided since this is a higher risk field we might be better off scaling back the fertilizer and yield goals and allocating that budget to better performing areas on the farm. This will help mitigate the risk and manage inputs properly.

Figure 4. A poor performing field with very sandy zones 1 and 2 that consistently yield lower than the farm average.

Clients can provide their input costs and selling prices to attain profitability maps and analysis through the YPP. This can help us improve margins and increase profitability both in good producing zones and troublesome zones. Zones 6 and 7 in the field in Figure 5 are at 32% of the profit margin (profit margin = profit/income). The yield data analysis provides this information, and then the client and agronomist can determine the “why.” We might be able to use SWAT CAM images to provide us with more information. We can then decide if there is a way to increase these margins. Is the solution in the seed or fertilizer rates? Do we need better drainage? If the profit margin in zones 6 and 7 can be increased by 2%, that would be an additional $30/ac. At 160 acres, that is $4800.

Figure 5. Profit Margin Analysis by Zone for a 160 acre field.

Summary

There are many use cases for the Yield Potential Program. Unlimited in-season prescriptions provide clients with an efficient and cost reducing alternative for applying pesticides. SWAT CAM provides options for directing scouting efforts, diagnosing and assessing issues in a field, and unbiased plant stand counts. The yield analysis component has many benefits which all help to fine-tune seed and fertilizer management and improve profitability.

For more information or to sign up for the Yield Potential Program, call 1-800-421-4099 today!

Using SWAT MAPS to optimize fertility recommendations, reduce crop Inputs, and save $$$

Sean Barath
Precision Agronomist
sean.barath@swatmaps.com

Introduction
Every fertilizer recommendation should start with soil test data. Without soil test data you would basically be making blind recommendations, based on yield goals and crop uptake/removal tables. This is not an ideal method of nutrient planning as you could either over or under apply certain nutrients.

Soil Testing
Composite soil testing (Table 1) can be a good starting point for making fertilizer recommendations for flat rate applications; however, it only captures soil nutrient levels in the mid-slope areas of fields, leaving out important information on soil nutrient levels in depressions or hilltops. Implementing zone-based soil sampling (Table 2) along with the use of SWAT MAPS variable rate seed and fertilizer can help producers get their best ROI on inputs and save money.

Table 1. Example of composite soil sampling test results.

Table 2. Example of zone-based soil sampling test results.

Right away, the zone soil test results in Table 2 show some potential cut back on nitrogen and phosphorus rates in upper and lower SWAT MAPS zones. Zones 1-2 are hilltops where the yield is most limited by low moisture levels, whereas zones 7-10 start getting into yield-limiting levels of salinity. There are already higher soil nitrate and phosphate levels in these areas which will also influence the recommendation for these zones. The zone soil test also sheds some light on other soil factors that the composite sample does not show. The pH levels are elevated in zones 1-2 and 7-10, OM differences between zones are significant and sulfur and zinc levels in zone 1-4 are lower.

Fertility Recommendations

The process of making fertility recommendations based on a SWAT MAP is simply not a button to hit that gives a recommendation. Agronomists are in contact with the farmer early in the fall to discuss any fall fertilizer passes, and then again in the winter for spring plans. In some cases, the grower has a set fertilizer budget to work with, while other growers want a fertility plan more aligned with yield goals and soil test results. Once agronomists have the grower's intended fertility plan, VR recommendations can begin.

Soil test results (Table 2) are the main tool to determine crop demand for a certain yield goal. The soil test is also very useful in determining the soil N supply, including left-over nitrates, organic matter credits, and N credits for cases like previous pulse crops, broken up hay/alfalfa land or previous manure applications. A critical soil test N level of 20 lbs/ac is used. If levels are below this threshold at year end, the crop was potentially starved. If levels are higher than 20 lbs/ac, the crop was supplied with too much N, other factors limited yield and nutrient uptake, or the soil mineralized more nitrate in season that the crop didn't use. When making recommendations, the crop is supplied with enough N for the yield goal while maintaining the 20 lb/ac level at year end. N credits can be tricky as there aren't absolute numbers for the mineralization rate and amount of N coming from the organic matter, pulse crop residue, old hay residue, or manure applications. Organic matter credits can range from 6-8 lbs of N per % OM but can be unpredictable in terms of the above-mentioned practices. When making zone-based recommendations with N credits, the size of credit given can also be based on the landscape position of the field. Zones 1-2 usually have the lowest N credit per % OM as these areas tend to be driest, resulting in less mineralization. In Zones 3-8, credits gradually increase due to higher mineralization potential in lower landscape areas as soil moisture and organic matter content increases. Zones 9-10 can have the highest N credit unless poor health limits microbial activity.

Figure 1. Nitrogen Recommendation for a 45 bu/ac average canola crop.

The example SWAT MAPS Field in Figure 1 has soil nitrate levels of 15 lbs to 104 lbs. The zone trend is common, especially after drought years where the zone 1-2's (hills) and zone 7-10's (saline areas) both have high soil nitrate levels where the crop use was low. The organic matter levels range from 4.6 to 6%. The average canola yield goal for this field is 45 bu/ac; however, yield goals per zone do vary based on zone characteristics that limit yield potential. Canola is a heavy user of N, using roughly 3 lbs N per bushel of grain produced. Using the yield goals from Figure 1 would result in crop demand ranging from 105 lbs actual N to 150 lbs actual N. Crop demand is an easy starting point to begin making the recommendation. Total soil supply includes residual nitrates plus N credits from organic matter, minus any losses that may happen and minus the 20 lb/ac year end critical level. Losses are hard to predict but N losses in lower, saturated areas within a field due to denitrification are more likely to happen. There can be leaching losses in sandy areas as well with very wet conditions. Once soil supply is determined, this amount is subtracted from crop demand and the remaining fertilizer requirements are made into a VR report.

In a SWAT MAPS recommendation for P, 15 ppm Olden-P generally is the critical level. Less than 15 ppm is low and zone(s) testing low will receive higher P rates to increase the soil test P level to above 15 ppm. If the soil test level is higher than 15 ppm, maintenance rates are applied to the zone(s) to maintain the soil test levels above 15 ppm. If soil test levels are high, to a point where they become an environmental concern, lower P rates are applied to allow the crop to mine the excess P from the soil. In the SWAT MAPS field example, the soil test in Table 2 shows zones 3-6 are well below the critical level of 15 ppm. These areas are the focus for the VR phosphate application. Zones 1-2 and 7-10 soil test levels are above the critical level and will receive maintenance rates. Depending on yield limiting factors, lower P rates may be applied to allow the crop to mine from the soil. Saline areas and fields that have had excessive manure applications in the past are some examples of where mining soil P instead of maintaining the levels would occur. Table 3 has recommended application rates from AGVISE Laboratories for P based on soil test levels and yield goals. Canola is a heavy user of P, removing roughly 0.9 lbs of P2O5 per bushel of canola grown and this needs to be taken into consideration when making P recommendations for canola. The soil test results for the example field in Figure 2 are showing soil P levels down to 8 ppm. According to this recommendation chart and the yield goal, it would need to be 40-45 lbs of actual P2O5 just to maintain this soil test level; however, applying higher rates to build the soil P level is a good idea.

Table 3. Phosphorus fertilizer recommendation guide from Agvise Laboratories.

Figure 2 shows an example VR report of the N & P recommendations for the example field. As you can see, the fertility rates do vary significantly depending on zones, soil test data and the overall crop demand.

Figure 2. Example VR report for SWAT MAPS field.

Variable rate vs. Flat Rate Applications
You might be wondering how variable rate will give you the best ROI on your inputs and possibly save you some money. The soil test results from Table 1 and Table 2 would result in very different fertilizer applications. A recommendation based on the composite soil test would result in high application rates being applied to the whole field. The zone-based soil test is telling a different story, where there is opportunity to rely on residual N and P levels to supply the crop with part of the fertility demand along with accounting for yield limiting factors like the salinity in Zones 7-10. In Figures 3 and 4, variable rate vs flat rate urea comparison shows how effective SWAT MAPS can be at saving product from over application in areas of the field that don't need the extra fertility.

Figure 3. Urea VR vs FR comparison for the example field.
Figure 4. Phosphorus VR vs. FR comparison for the example field.

Conclusion
Composite soil testing is a good start when making fertilizer recommendations; however, this sampling method misses important details within areas of a field like nutrient levels, pH differences, salinity, organic matter, etc. Zone-based soil sampling and SWAT MAPS Variable Rate is the most effective way to capture all the variability within a field. In the variable rate vs. flat rate example, the grower would save 37,875 lbs of urea and 19,144 lbs of MAP just by using SWAT MAPS on this field. That is a large amount of product saved and can result in product reallocated to other fields or saved money that can be invested into other areas on the farm. Talk to your SWAT MAPS service provider about how they can help you get the best return on your crop inputs and save money with SWAT MAPS Variable Rate.