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John A. Lory
Division of Plant Sciences
Commercial Agriculture Program

K.C. Olson
Division of Animal Sciences
Commercial Agriculture Program

Chris Zumbrunnen
Livestock Specialist

Cattle surrounding a supplemental feed pile.
Supplemental feeds can provide an important source of nutrients for pastures.

Most cattle maintained on pasture receive supplemental feed during some portion of the year. Supplements are commonly fed to grazing cattle when pasture forage quality and quantity are below animal requirements. The availability of low-cost grain milling byproducts has encouraged some producers to expand the use of supplemental feeds. Examples of grain milling byproducts that have become popular for use as supplements include condensed distillers solubles (CDS), dried distillers grain with solubles (DDGS), corn gluten feed, and soybean hulls.

The value of grain milling byproducts as cattle feeds is well established. An often-overlooked aspect of supplementing grazing cattle with hay and grain milling byproducts is the additional mineral nutrients that pass through the animal to the pasture in the manure. The objective of this guide is to help calculate the value of supplemental feeds as a fertilizer for pastures.

Table 1 provides estimates of the fertilizer value of the nutrients fed a cow for 100 days. Capturing the fertilizer value in supplemental feeds is particularly important with rising fertilizer prices and the need to protect water quality by using fertilizer nutrients efficiently. The fertilizer value of these materials also can offset some of the cost of purchasing supplemental feed.

Well-managed, intensively grazed pastures already have lower fertilizer maintenance requirements than hay fields because so many of the nutrients in the forage are redeposited onto the pasture. Nutrients in supplemental feeds can reduce or eliminate the need for maintenance fertilizer applications on pastures. Table 2 summarizes the annual phosphate and potash removal rates for pasture and hay fields. These removal rates for pastures can frequently be met or exceeded with typical supplemental feeding strategies.

Some typical nutrient concentrations in feedstuffs are reported in Table 3. Cattle do not use the nutrients in feed with 100 percent efficiency. The majority of the nutrients consumed by cattle are redeposited on pasture in the urine and feces. Table 4 summarizes the percentage of consumed nutrients excreted by cattle. Mature cattle use the nutrients in feed to maintain the tissues of their bodies; however, they usually excrete about as much protein and minerals as they consume.

Table 1. Estimated fertilizer value of selected supplemental feeds fed to one cow for 100 days.

FeedstuffDaily intake1 in poundsNitrogen2 (pounds per 100 days)Phosphate (pounds per 100 days)Potash (pounds per 100 days)
Fescue hay30232367
Alfalfa hay30302095
Dried distillers grain with solubles81472
Condensed distillers solubles6474
Wet corn gluten feed188135
Dry corn gluten feed188135
Soybean hulls85311
Wet brewers grain24129<1
1. On an "as-fed" basis.
2. Assumes availability of 35 percent for nitrogen excreted by the animals.

Table 2. Estimated annual phosphate and potash removal from cool-season pasture and hay fields.

ForageYield goalPhosphate removalPotash removal
Pasture3 tons per acre10 pounds per acre34 pounds per acre
Hay3 tons per acre27 pounds per acre102 pounds per acre

Calculating the fertilizer value of supplemental feed

Unrolling hay
Unrolling hay is one strategy for increasing the distribution of nutrients on pasture.

There are three steps in determining fertilizer nutrient value of supplemental feeds.

  1. Determine the amount of supplemental feed consumed by grazing animals.
  2. Determine the amount nutrients in the supplemental feed available for use as fertilizer.
  3. Determine the effective nutrient application rate onto a pasture.
Step 1. Determine the amount of supplemental feed consumed by animals.

The most convenient way to estimate the amount of supplemental feed consumed by animals is to estimate the daily intake of the feed by the animals grazing the pasture and the number of days feed was provided to the animals. The amount of supplemental feed (SF) consumed, in pounds, is equal to the number of animals fed (A) times the amount of feed each animal receives per day (Fd) times the number of days (D) the animals are on feed:

SF = A x Fd x D

Table 5 includes typical values for the daily intake (on an "as-fed" or wet basis) of specific supplemental feeds. The number of days animals are fed over the course of a year typically ranges from 90 to 150 days. These values are provided as guidelines; use the actual numbers for your farm.

Step 2. Determine the amount of nutrients available for use as fertilizer.

The objective here is to estimate the amount of supplemental nutrients excreted onto pasture and, therefore, available for use as fertilizer.

Nutrient availability in supplemental feed is affected by the concentration of nutrients in the feed, the percentage of those nutrients excreted by the animals and the availability of the manure nutrients as a fertilizer source. For the amount of supplemental feed (SF) calculated in Step 1, use values in Tables 3 and 4 to calculate the amount of nitrogen, in pounds, available as fertilizer (Na) as follows:

Na =(SF x protein concentration (percent)/100) (Table 3)
x excreted nitrogen (percent)/100 (Table 4)
x 35 percent fertilizer availability/100
x 1 pound nitrogen fertilizer/6.25 pounds protein

Similarly, the amounts of available phosphate (Pa) and available potash (Ka) can be calculated as follows:

Pa =(SF x phosphorus concentration (percent)/100)
x excreted phosphorus (percent)/100
x 100 percent fertilizer availability/100
x 2.3 pounds phosphate fertilizer per pound phosphorus
Ka =

(SF x potassium concentration (percent)/100)
x excreted potassium (percent)/100
x 100 percent fertilizer availability/100
x 1.2 pounds potash fertilizer per pound potassium

Use Table 3 to estimate the nutrient concentration in the supplemental feed. Use Table 4 to estimate the percentage of nutrients excreted by the animal. Note that phosphate and potash in manure are 100 percent equal to fertilizer nutrients. However, nitrogen in manure is substantially less available than fertilizer nitrogen. An estimated 35 percent of the nitrogen in excreted urine and feces is available as fertilizer. The rest is lost to the atmosphere as ammonia or tied up in unavailable forms in the manure.

Table 3. Nitrogen, phosphorus and potassium concentration of selected feedstuffs. All values are reported on an "as-fed" basis.

FeedstuffDry matter (percent)Protein1 (percent)Phosphorus (percent)Potassium (percent)
Fescue hay10012.50.31.7
Alfalfa hay100180.32.6
Dried distillers grain with solubles90320.40.2
Condensed distillers solubles35120.50.6
Wet corn gluten feed4080.30.3
Dry corn gluten feed90180.70.6
Soybean hulls90110.21.1
Wet brewers grain3090.20.03
1. To convert from protein to nitrogen, divide by 6.25.

Table 4. Percentage of consumed nutrients (nitrogen, phosphorus and potassium) excreted by cattle.

Animal typeNitrogenPhosphorusPotassium
Growing cattle50 to 70 percent excreted65 to 75 percent excreted65 to 85 percent excreted
Mature cattle100 percent excreted100 percent excreted100 percent excreted

Table 5. Typical daily intake (on an "as-fed" basis) for selected supplemental feeds.

FeedstuffTypical daily intake
(pounds per animal per day)
Fescue hay30
Alfalfa hay30
Dried distillers grain with solubles6 to 10
Condensed distillers solubles3 to 9
Wet corn gluten feed13 to 23
Dry corn gluten feed6 to 10
Soybean hulls6 to 10
Wet brewers grain17 to 30
Step 3. Determine the effective nutrient application rate for a pasture.

The rate (Ra) at which nutrients are applied to a pasture is affected by the availability of nutrients in the manure (Calculated in Step 2), the proportion of the supplemental feed fed in a particular pasture and the size of the pasture:

Ra =available nutrients (pounds) x percent of feed fed on that pasture/100
pasture size (acres)

Example 1. Feeding fescue hay.

A farmer feeds 100 cows (A) 30 pounds fescue hay per day (Fd) from mid-December to early April (D = 110 days). The winter pasture is 100 acres. What is the fertilizer value of the imported hay to this pasture?

Step 1

Amount of supplemental feed (SF) = 100 cows x 30 pounds hay per cow per day x 110 days = 330,000 pounds feed

Step 2

Available nitrogen=(330,000 pounds feed x 12.5 percent nitrogen/100)
x 100 percent excreted/100
x 35 percent available/100
x 1 pound nitrogen fertilizer/6.25 pounds protein
 =2,310 pounds nitrogen
Available phosphate=(330,000 pounds feed x 0.3 percent phosphorus/100)
x 100 percent excreted/100
x 100 percent available/100
x 2.3 pounds phosphate fertilizer per pound phosphorus
 =2,280 pounds phosphate
Available potash=(330,000 pounds feed x 1.7 percent potassium/100)
x 100 percent excreted/100
x 100 percent available/100
x 1.2 pounds potash fertilizer per pound potassium
 =6,730 pounds potash

Step 3

Nitrogen application rate=(2,310 pounds nitrogen x 100 percent on field/100) / 100 acres
 =23 pounds nitrogen per acre
Phosphate application rate=(2,280 pounds phosphate x 100 percent on field/100) / 100 acres
 =23 pounds phosphorus per acre
Potash application rate=(6,730 pounds potash x 100 percent on field/100) / 100 acres
 =67 pounds potash per acre

Note
The phosphate and potash application rate is more than double the annual removal rate for most pastures, so soil test levels for these nutrients will increase over time if this pasture is used annually for winter pasture. The available nutrients in the manure are worth $2,967, or $29.50 per acre or $18 per ton of hay if one assumes fertilizer value of $0.40 per pound nitrogen, $0.30 per pound phosphate and $0.20 per pound potash.


Example 2. Feeding dried distillers grain with solubles.

A farmer feeds 40 cows (A) 8 pounds of dried distillers grain with solubles (DDGS) per day (Fd) from January to early March (D = 60 days) in a 25-acre pasture. What is the fertilizer value of the imported feed to this pasture.

Step 1

Amount of supplemental feed (SF) = 40 cows x 8 pounds DDGS per cow per day x 60 days = 19,200 pounds feed

Step 2

Available nitrogen=(19,200 pounds feed x 32 percent protein/100)
x 100 percent excreted/100
x 35 percent available/100
x 1 pound nitrogen fertilizer/6.25 pounds protein
 =344 pounds nitrogen
Available phosphate=(19,200 pounds feed x 0.4 percent phosphorus/100)
x 100 percent excreted/100
x 100 percent available/100
x 2.3 pounds phosphate fertilizer per pound phosphorus
 =176 pounds phosphate
Available potash=(19,200 pounds feed x 0.2 percent potassium/100)
x 100 percent excreted/100
x 100 percent available/100
x 1.2 pounds phosphate fertilizer per pound phosphorus
 =46 pounds potash

Step 3

Nitrogen application rate=(344 pounds nitrogen x 100 percent on field/100) / 25 acres
 =14 pounds nitrogen per acre
Phosphate application rate=(176 pounds phosphate x 100 percent on field/100) / 25 acres
 =7 pounds phosphorus per acre
Potash application rate=(46 pounds potash x 100 percent on field/100) / 25 acres
 =2 pounds potash per acre

Note
The nitrogen application rate is close to the spring nitrogen needs of many pastures and the phosphate application rate is nearly the annual removal rate for most pastures. The available nutrients in the manure are worth $194, or $7.75 per acre or $20 per ton of DDGS if one assumes fertilizer value of $0.40 per pound nitrogen, $0.30 per pound phosphate and $0.20 per pound potash.


Barriers to using feed nutrients as a fertilizer

With manure nutrients, cattle are the fertilizer spreader. Urine typically contains more than 50 percent of the total nitrogen and potassium excreted by cattle. Conversely, feces contain 80 percent of the total phosphorus excreted by cattle.

The nutrients in supplemental feed are only valuable as a fertilizer if you take steps to ensure that they are spread evenly around the whole field. Animals typically do a poor job of distributing nutrients around a pasture; nutrients tend to concentrate near feeders, water and shade areas. The bulk of the pasture often gets only limited benefits from manure nutrients unless steps are taken to improve manure distribution by grazing animals.

Through management farmers can improve nutrient distribution in pastures. Managing animals so they do a better job of distributing manure in a pasture makes their manure more valuable as a fertilizer. Recommended steps include:

  • Regularly move feeders and feeding areas around the pasture.
  • Increase the stocking density of animals but move animals from area to area more frequently to prevent over use of areas in the pasture.
  • Do not use the same pasture for supplemental feeding every year. Instead move the supplemental feeding area to distribute the nutrient benefits around the farm.
  • Maintain a setback area of at least 100 feet between supplemental feeding areas and streams. Avoid placing feeding areas where runoff will easily move into surface waters, particularly in winter when frozen and saturated soil promotes the movement of manure nutrients in runoff.

Missouri research shows that moving the hay feeding area every two days resulted in higher pasture yield and higher phosphorus and potassium soil test levels in the field. Feeding hay in one spot resulted in similar yields in most of the pasture as importing no hay.

These results emphasize that capturing the fertilizer benefit of nutrients in supplemental feed requires moving feeding areas on a regular basis. You cannot fertilize a field with a manure spreader by just running the spreader in a corner of the field. Similarly, you cannot benefit from the fertilizer nutrients in your feed supplements if you always put the feeder in the same spot in a pasture.

Publication No. G2083