The first thing we may think of for livestock farmers is the lack of availability of feed and the cost of it as we deal with the aftermath of this summer’s drought. But in this article you will learn of a few more concerns.
If you have planted cover crops and plan to graze, ensile, or make hay out of them to feed to livestock, Marc Sulc, OSU Extension, says you should consider the potential for nitrate toxicity in the forage this year. This could be especially of concern for cover crops planted after corn silage that was stunted by drought and received a good dose of N fertilizer earlier this year.
Nitrates can accumulate in about any cover crop, including oat, cereal rye, annual ryegrass, and brassica species. If there is potential for N carryover in fields where you planted cover crops, or if N fertilizer was applied to the cover crop forage, it is advisable to test the forage for nitrate content before you harvest or graze the forage this fall. Recent rains could have promoted a flush of nitrates to be taken up by the plant. To make matters worse, the current cold snap might shut down plant growth (depending on the cover crop species) preventing further accumulation of yield, so high nitrate concentrations will not be diluted out in the plant. So consider the N carryover situation in your fields, and test your cover crop forage accordingly.
Fall is in the air and Jack Frost will strike sooner or later. When he does, questions always arise concerning the dangers of feeding frosted forages. A very few forage species can be extremely toxic soon after a frost.
Sulc says the warm-season annual grasses in the sorghum family and other closely related species are capable of becoming toxic to livestock after a frost event. Those species contain compounds called cyanogenic glucosides that convert quickly to prussic acid in freeze-damaged plant tissue. Prussic acid is also known as hydrogen cyanide – the very substance of murder mysteries!
The potential toxicity after frost varies by species. Sudangrass varieties are low to intermediate in cyanide poisoning potential, sudangrass hybrids are intermediate, sorghum-sudangrass hybrids and forage sorghums are intermediate to high, and grain sorghum is high to very high and is most likely to be toxic after a frost. Piper sudangrass has low prussic acid poisoning potential. Pearl millet and foxtail millet have very low levels of cyanogenic glucosides and rarely cause toxicity.
Other species that have potential to have toxic levels of prussic acid after frost are Johnsongrass, chokecherry, black cherry, indiangrass, elderberry, and some varieties of birdsfoot trefoil.
Animals can die within minutes if they consume forages such as the sorghum species that contain high concentrations of prussic acid in the plant tissue. The prussic acid is released from the forage and interferes with oxygen transfer in the blood stream of the animal, causing it to die of asphyxiation. Before death, symptoms include excess salivation, difficult breathing, staggering, convulsions, and collapse.
Ruminants are more susceptible to prussic acid poisoning than horses or swine because cud chewing and rumen bacteria help release the cyanide from plant tissue.
Plants growing under high nitrogen levels or in soils deficient in phosphorus or potassium will be more likely to have high cyanide poisoning potential. After frost damage, cyanide levels will likely be higher in fresh forage as compared with silage or hay. This is because cyanide is a gas and dissipates as the forage is wilted and dried for making silage or dry hay.
Young, rapidly growing plants of species that containing cyanogenic glucosides will have the highest levels of prussic acid. After a frost, cyanide is more concentrated in young leaves than in old leaves or stems. New growth of sorghum species following frost is dangerously high in cyanide. When sorghum species regrow after a drought, the new growth is also dangerously high in cyanide. Pure stands of indiangrass (not common in Ohio and nearby regions) can have lethal levels of cyanide if they are grazed when the plants are less than 8 inches tall.
The following guidelines will help you avoid danger to your livestock this fall when feeding species with prussic acid poisoning potential:
Do not graze on nights when frost is likely. High levels of the toxic compounds are produced within hours after a frost.
Do not graze after a killing frost until plants are dry, which usually takes 5 to 7 days.
After a non-killing frost, do not allow animals to graze for two weeks because the plants usually contain high concentrations of toxic compounds.
New growth may appear at the base of the plant after a non-killing frost. If this occurs, wait for a hard, killing freeze, then wait another 10 to 14 days before grazing the new growth.
Don’t allow hungry or stressed animals to graze young growth of species with prussic acid potential.
Graze or greenchop sudangrass only after it is 18 inches tall. Sorghum-sudangrass should be 30 inches tall before grazing. Never graze immature growth.
Do not graze wilted plants or plants with young tillers.
Green-chopping the frost-damaged plants will lower the risk compared with grazing directly, because animals be less likely to selectively graze damaged tissue. However, the forage can still be toxic, so feed greenchop with great caution after a frost.
Feed greenchopped forage within a few hours, and don’t leave greenchopped forage in wagons or feed bunks overnight.
Prussic acid content in the plant decreases dramatically during the hay drying process and the forage should be safe once baled as dry hay. The forage can be mowed any time after a frost if you are making hay. It is very rare for dry hay to contain toxic levels of prussic acid. However, if the hay was not properly cured and dried before baling, it should be tested for prussic acid content before feeding to livestock.
Forage with prussic acid potential that has undergone silage fermentation is generally safe to feed. To be extra cautious, wait 5 to 7 days after a frost before chopping for silage. If the plants appear to be drying down quickly after a killing frost, it is safe to ensile within a shorter time period after the frost.
Delay feeding silage for eigh weeks after ensiling. If the forage likely contained high levels of cyanide at the time of chopping, hazardous levels of cyanide might remain and the silage should be analyzed before feeding.
Other common forages such as alfalfa, clovers, and cool-season perennial grasses do NOT produce toxic compounds after a frost. There is different concern, however, when grazing alfalfa or clovers after a frost – and that is bloat. One or two days after a hard frost, the risk of bloat is higher for animals grazing legumes. The bloat risk is highest with grazing pure legume stands, and least when grazing stands having mostly grass and only low amounts of legumes present.
The safest management is to wait a few days after a killing frost before grazing pure legume stands – wait until the forage begins to dry from the frost damage. It is also a good idea to make sure animals have some dry hay before being introduced to lush fall pastures that contain significant amounts of legumes.
If doubt remains regarding the safety of the forage, the forage can be tested for prussic acid (HCN) content. But keep in mind that prussic acid is a gas, so it is difficult to detect in samples sent to labs. Sample handling is extremely critical to ensure that the lab test will be representative of what is being fed to livestock.
Obtain a representative FRESH sample of the forage to be fed. Collect 1 to 2 pounds of fresh forage from across the field to be grazed. For silage, follow proper sampling protocol to obtain a representative sample.
Do not allow the sample to dry. Place in an air-tight plastic bag, freeze the sample quickly, and ship the fastest way (overnight express) in a cooler with an ice pack.
Remember, HCN content dissipates with drying of the sample. So if the sample arrives at the lab drier than the fresh forage that is fed, a false negative result will likely occur.
The following are two labs that will analyze samples for prussic acid (cyanide). Other labs may provide testing for prussic acid, always call ahead to confirm whether the prussic acid test is provided and to ask about sample handling protocols.
Sam Custer is the Extension Educator for Agriculture and Natural Resources at the Darke County OSU Extension office. He can be reached at 937-548-5215 or by email at firstname.lastname@example.org.