Forage Preservatives
Hay, haylage, or silage preservatives will reduce storage losses from moulds, bacteria, and fungi when the forage is put up at higher moisture contents.
There are many types of hay preservatives with various effects. The various products can be grouped into the five following categories:
I. Organic Chemicals
Classification | Examples | Effect of Preservative |
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1) Volatile fatty acids and their salts |
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These acids reduce the pH of the forage material. Applied at low rates they discourage yeasts and mould growth and may encourage a lactic acid fermentation. When applied at high rates, the acids inhibit all microbial activity. Concentrated organic acids work at moisture levels of about 25 per cent. The acids are corrosive but generally effective. |
2) Other organic acids |
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3) Ammonia producing compounds |
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Ammonia is an effective fungicide (prevents mould and yeast growth). The nitrogen from these sources can be utilized as a nutrient by ruminants. Anhydrous ammonia is effective up to and above 30 per cent hay moisture. The product is applied at the rate of 2 per cent of dry forage weight. |
II. Inorganic Chemicals
Classification | Examples | Effect of Preservative |
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1) Inorganic acids |
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These acids reduce the pH of forage material and prevent breakdown and losses of forage nutrients by (a) reducing activity of the plant's own enzymes, and (b) inhibiting microbial activity. |
2) Drying Agents |
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These salts remove water from the forage material and thereby reduce microbial activity. Under ideal conditions dessicants can increase the rate of dry-down by 50 per cent. |
III. Biologicals
Classification | Examples | Effect of Preservative |
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1) Inoculants |
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Inoculation of forage material with desirable acid-producing bacteria helps to initiate a rapid fermentation and sustain a rapid fall in pH of silage. In hay it may reduce the harmful effects of mould and yeast. |
2) Enzymes |
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These enzymes promote plant cell breakdown and render the cellulose and starch more accessible to desirable acid-producing bacteria. |
IV. Nutrients
Classification | Examples | Effect of Preservative |
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1) Fermentation Mediums |
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Encourage fermentation by providing an energy source for desirable bacteria. |
2) Nutrient Additives |
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Usually nitrogen or mineral additives, they make a contribution to the nutrient value of the forage for livestock. In some cases the additive will improve both nutrient value and fermentation quality. |
V. Non-specified Additive Ingredients
Classification | Examples | Effect of Preservative |
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1) Antioxidants | Enhance chemical activity and may maintain a 'green' color. | |
2) Sodium metabisulfite |
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In contact with moisture, this compound forms sulfur dioxide gas and a sulfite salt. These compounds reduce microbial activity. |
Hay preservatives and additives have been used with varying degrees of success.
In Manitoba, experiments with organic acids have given satisfactory results on both hay and silage trials. In general, though, acids are not widely used because they are very corrosive and unpleasant to handle.
Other trials in Manitoba have shown anhydrous ammonia to be very effective in preventing moulds and yeasts in both hay and silage. Anhydrous ammonia is a non-protein nitrogen source which increases the nutritive value and the digestibility of the forage to livestock. The use of granular urea on silage can perform the same function. Even distribution of the product is essential.
Most biological products have a provisional licence for sale in Canada. Products on the marketplace with a temporary registration will be allowed a period of up to one year to substantiate label claims or else be removed from the marketplace. At the present time, many bacterial inoculants are being evaluated by research institutions and universities in Canada. Insufficient research data is available at this time to discuss product effectiveness.