EP0866662A1 - Use of potassium chloride for the ensilage of green fodder - Google Patents

Abstract

The invention relates to the use of potassium chloride in combination with known ensilage agents.

Description

 Use of potassium chloride to ensilage green fodder

description

The invention relates to the use of potassium chloride in combination with silage auxiliaries known per se, such as sodium propionate, calcium propionate, sodium formate, free formic acid and / or propionic acid.

The production of silage is of great economic importance in animal feed. A number of additives are known for improving the fermentation process and for improving the silage quality. The currently valid list of ensiling agents tested by the German Agricultural Society (DLG) describes the use of salts of formic acid and propionic acid, nitrite compounds, sorbic acid, formaldehyde-generating compounds and substances containing sugar, e.g. Molasses. The addition of lactic acid bacteria cultures or enzymes is also described.

In general, for a very good silage to succeed, a sufficient amount of lactic acid is produced as quickly as possible and this is retained in the silage during the entire storage period. A prerequisite for sufficient lactic acid production is the presence of a sufficient amount of fermentable carbohydrates, anaerobic conditions in the feed stock and the lowest possible temperatures. There are close interactions between these parameters. In the presence of atmospheric oxygen, fermentable carbohydrates can be processed by parts of the plant which have not yet died and by aerobic microorganisms. This process leads to a loss of nutrients, which inhibits the development of lactic acid bacteria and at the same time opens up growth opportunities for silage pests. This process continues until the atmospheric oxygen is used up. Under unfavorable conditions, this means that the rapid and necessary pH reduction in the silage is not achieved. Under these conditions, clostridia can form butyric acid, which leads to a deterioration in the quality of the silage and its complete deterioration.

It is now from Gross, Riebe; "Gärfutter" Ulmer-Verlag 1974, p. 155 and Mc Donald, Henderson, Heron; "The Biochemistry of Silage", 2nd Edition Chalcombe Publications 1991, p. 213, to use sodium chloride as the silage salt. It is believed that by increasing the osmotic pressure the fermentation of the Lactic acid bacteria are promoted and the development of clostridia and other harmful fungi is suppressed.

Nevertheless, the silage suffers constant weight loss due to the inhalation of sugar and starch due to the undesirable microorganisms.

It was found that potassium chloride suppressed the formation of chlorostriene without this finding having any practical benefit for the silage. Furthermore, the replacement of sodium chloride by potassium chloride and the joint use of potassium chloride and sodium chloride have also been investigated (Shockey, et. Al. Journal of Diary Science (1991) Vol. 74, No. 1, pp. 155-159 and Pp. 160-166).

It has now surprisingly been found that when chloride-free silage auxiliaries known per se are used in combination with effective amounts of potassium chloride for the silage of green fodder, very good results are achieved with regard to the storage stability of the silage.

The use of potassium chloride leads to the same application rates as before, i.e. 1 to 10 kg of the total amount of silage aid per t of green fodder at significantly lower dry weight losses. It is not known what is to be attributed to this, since potassium chloride could not have been expected to have a clear advantage with a purely osmotic effect.

In particular, the invention relates to silage auxiliaries selected from sodium propionate, calcium propionate, sodium formate, free formic acid and / or propionic acid in combination with effective amounts of potassium chloride for the silage of green fodder.

Known silage additives with which potassium chloride can be used are, for example, the silage additives mentioned in the list published by the DLG (5th edition, status: April 10, 1995). These usually contain an alternative to sodium propionate, calcium propionate, sodium formate and / or formic acid and propionic acid, calcium formate, in addition to some dicalcium phosphate, sodium chloride, sodium benzoate, sodium bisulfite, sodium nitrite, hexamethylenetetramine, (sugar cane) meßasse, sorbic acid, salts from inorganic acids (Phosphoric acid, sodium, magnesium compounds) as well as other mineral substances, mineral carriers, trace elements. Bacterial cultures, such as lactic acid bacteria, enzymes or enzyme complexes, are also preferred, in particular if they are adsorbed / applied to a carrier. Also suitable products that contain fermentable carbohydrates, such as, in addition to the molasses already mentioned, boiled potatoes, crushed grain or dried whey.

The weight ratio of the known SiIating agents, in particular sodium propionate, calcium propionate, sodium formate, propionic acid and / or formic acid to potassium chloride, is generally 90 to 10 to 30 to 70, preferably 60 to 40 to 40 to 60.

In general, the silage additive is added in an amount of 1 to 10 kg, in particular 2 to 5 kg, per ton of silage. The exact amount depends on the type of material to be ensiled, in particular whether it is easy to silage, moderately difficult to ensile or difficult to ensile. More precise values can be found in the DLG list above and the corresponding instructions for the individual silage additives. The application rate of the potassium chloride is generally 0.2 to 9 kg / t of green fodder, preferably 0.5 to 6 kg / t and in particular 1 to 4 kg / t.

The silage material from fermentation feed that can be used for the use according to the invention is not subject to any particular restriction per se. Ge are suitable all easy to ensile fodder (slightly wilted grass and other forage plants having more than 3% sugar content in the fresh mass, wilted grass with more than 30% dry matter, wilted legumes with more than 25% dry matter, Ganzpflan ^¬ zen cereal, moist cereal and moisture maize, pressed chips), with ^¬ telschwer ensile fodder {grass 20 to 25% dry matter, Le ^¬ guminosen 25 to 30% dry matter and other forage plants having sugar contents of 1.5 to 3% in the fresh mass) or difficult to ensile fodder (grass with less than 20% dry matter or legumes with less than 20% dry matter and with less than 1.5% sugar in the fresh matter, and grass or legumes whose wilting failed). The silage preferably has a moisture content of at least 60%, more preferably 60 to 90% (corresponding to 40 to 10% dry matter). The silage agents according to the invention can be distributed homogeneously in the silage material, for example by applying the silage material in layers and distributing the silage mixture according to the invention over each layer. In addition, there is also the possibility of mixing the silage material with the silage mixture according to the invention before it is introduced into the silo. It is most preferred to automatically meter in the silage mixture at the chopper discharge by a special metering device. It is advantageous to use the finished mixture according to the invention of silage additives and potassium chloride known per se. In addition, there is also the possibility that the individual components are mixed in separately. This variant is also considered to be included. The silage mixture is then applied either by hand, an applicator or a metering device, which is preferably attached to the discharge of a chopper.

The invention is illustrated by the following example.

Examples

Alfalfa with a dry matter content of 19%, 45.1 g / kg dry weight of water-soluble carbohydrates and 0.9% water-soluble carbohydrates in the wet mass was ensiled in three 2 1 test silos. The mass loss in the silo was determined after 13, 30, 60 and 90 days and after 7 months. The same procedure was followed with a lot of meadow grass, which had a dry matter content of 23.7%, had 95.6 g / kg of water-soluble carbohydrates in dry weight and 2.3% water-soluble carbohydrates in wet mass. The results are shown in Table 1 for 7-month storage and in Table 2 for the shorter times.

In the examples, a total amount of the silage of 3 kg / t of green fodder was applied; the weight ratio of sodium formate to potassium chloride was 50:50.

Dry weight loss (in% by weight)

Table 1:

VO

Table 2

Ul IΛ tΛ

cn

* ^* on

H w * vo- * tΛ o tΛ

Ul

U)

Example 4 VO -4

As described in Example 1, alfalfa and meadow grass were ensiled and after 120 days U> IΛ IΛ the following average values were determined from 3 batches.

o -8

IΛ

Ul ul

Claims

claims

1. Use of known silage additives in combination with effective amounts of potassium chloride for ensiling green fodder.

2. Use according to claim 1 of ensiling agents selected from sodium propionate, calcium propionate, sodium formate, free formic acid and propionic acid, in each case in combination with potassium chloride for ensiling green fodder.

3. Use according to claim 1, characterized in that the weight ratio of the known silage to potassium chloride is 90 to 10 to 30 to 70.

4. Use according to claim 1, characterized in that the application rate of potassium chloride is 0.2 to 9 kg / t of green fodder.

5. ensiling agent containing essential ingredients known per se, in combination with effective amounts of potassium chloride

6. ensiling agent according to claim 5 containing as essential components sodium propionate, calcium propionate, sodium formate, propionic acid and / or formic acid, in each case in combination with potassium chloride.

7. silage additive according to claim 5 containing the known silage additive and potassium chloride in a weight ratio of 90 to 10 to 30 to 70.