DE2409233C2 - Monodietetic feed - Google Patents

Description

The invention relates to a monodietic feed which ensures optimal use of feed energy, that is to say can also be administered alone, in which 50 to 90% of the nitrogen is present as NPN and which improves the utilization of energy. NPN Is the abbreviation for nitrogen not present as protein nitrogen (non-protein nitrogen)
It is known that the economic feeding of animals around the world by the general

- ■ >> Protein deficiency is prevented. The protein can be broken down into amino acids by the animal organism Form to be included. Efforts are being made to replace at least some of the proteins with Feeding materials which contain NPN is known. These attempts led to certain results, in that the ruminant can be synthesized from this NPN protein in the organism. That in the digestive system of the multi-lumen animals involved in the hydrolysis of NPN

* <> containing materials (for example urea) inevitably released ammonia, however, limits the use because the ammonia level of the animal blood increases and is shifted to the alkaline range. Although the ammonia content of the blood is detoxified in the liver by the formation of urea, this process only takes place up to a certain limit, beyond which symptoms of poisoning occur, which often lead to the death of the animal. In the case of the procedures that are widespread on a company scale

■ >> this threshold value is a 30 * lgcn replacement of the total nitrogen requirement by NPN. When administered This amount of nitrogen as urea requires a period of 15 to 20 days to get used to.

In the experiments of Vlrtanen (Science, 1966, Volume 153, No. 3744) the total nitrogen requirement covered by urea and other nitrogen compounds other than proteins. These attempts have only theoretical significance, because only chemically pure materials (e.g. α-cellulose refer to

5 "or sucrose) could be used as a feed component.

The various types of waste formed during acid hydrolysis of polysaccharide-containing vegetable waste so-called residues can be used for feeding purposes under favorable conditions. In such Feed on c "sr basis of by-products succeeded in a 50% nitrogen utilization 75% of the To cover the total nitrogen requirement with urea nitrogen. The well-known vellification hazards are thereby involved does not exist at all, and it is not necessary to get used to it. With such feed 79.4 to 87.8 MJ are required to produce 1 kg live weight (Ällatenyesztes, 1971, volume 20, No. 7, page 41). This value corresponds to the general energy utilization of feeding (Nature, 1967, Volume 216, No. 5116, page 721).

It is also a method in which the disadvantage of urea feeding by a joint administration

'' "chung with inorganic salts, preferably sodium chloride, are known (Hungarian patent 1 56 601).

Furthermore, DE-OS 22 34 819 discloses a process for the production of a Protelner salt in ruminant feed as well as a material suitable as a fertilizer for growing plants with slow release of nitrogen which one

a) a solid carbohydrate material containing water-insoluble polysaccharides with an aqueous solution of an amide such as urea. Biuret, formamide or acetamide and an acidic catalyst that works for Ruminants are not poisonous, soaked and the polysaccharides become reactive with the amide

Carbonyl groups are hydrolyzed,

b) the impregnated solid material at a temperature in the range from 70 to 145 ° C, based on the temperature the solid material is dried and converted to a slowly releasing nitrogen product, contains the amide-polysaccharide adducts and at least about 5% water, and

c) the product is cooled to ambient temperature,>

known.

According to the compilation on page 10 of DE-OS 22 34 819, the lowest ratio of natural base to supplement is 6 parts of the former per part of the latter and the highest urea content in the supplement is 30% by weight. Then, in this case, ¹ part of urea was used per 6 parts of polysaccharide-containing material or, in other words, 18 parts of polysaccharide-containing material per part of urea. However, in order to have the reference to the nitrogen of the urea, the 18 parts of polysaccharide-containing material must be multiplied by a factor of 2.15, which results in 38.7 parts of polysaccharide-containing material per part of NPN. According to patent claim 15 of DE-OS 22 34 819, the content of water-insoluble nitrogen in their products is 50 to 90 "of the total nitrogen, which corresponds to values of 10 to 50% NPN, based on the total nitrogen 36, cells 7 from below to 5 from below (m Example 7) of DE-OS 22 34 819, according to which only 38.9% of the total nitrogen is present as water-soluble nitrogen]. According to rare 13, cells 2 to 6 of DE-OS 22 34 819, a further reaction of the urea with hydrolyzed polysaccharides takes place during the pelletizing process at temperatures of, for example, 60 to 150 ° C. and pressures of 38.5 to 1540 bar. *>

It is also known from DE-OS 18 15 095 and DE-AS 16 92 476 that the release of urea from feed is delayed if swellable substances or flours are also used.

It has now surprisingly been found that in one by using from vegetable Abialiststoffe obtained preparation products of certain quality produced Mlschfuttermlttel when dosing the Fuitermlttelteile In a certain ratio the degree of energy utilization increases and the other properties of the mixture also improve noticeably, with the extremely high proportion of urea nitrogen in the total amount of 50 to 90%, for example of 75% according to the literature reference Älaitenyosztes, 1971, volume 20, no. 7, rare 41, and the 50% nitrogen utilization remain unchanged. This Product of special quality and composition represents a 20-25% increase in implementation Nutrients Safe in Energy. According to the test results of the applicants, the energy utilization increases 3 " so that the energy consumption in bottle production from the usual value of 82.8 MJ / kg to 62.7 MJ / kg decreases, while in milk production instead of the usual values of 0.0046 to 0.0058 MJ / kg values of 0.0033 to 0.0038 MJ / kg can be achieved, with the proportion of NPN in the total nitrogen content of the feed 50 to 90%.

The invention is based on the discovery that the products obtained from vegetable waste products certain quality, high-energy carbohydrates are present at a given ratio these processing products to a material containing NPN by the microorganism assimilating the NPN can be used much better, because these microorganisms are mainly used to multiply an optimal amount of short chains bound by the large surface area of the above material Fatty Acids Is Required.

The subject of the invention is therefore a monodietic feed consisting of

a) one obtained by acid hydrolysis of polysaccharide-containing materials of plant origin Materials,

b) a material containing NPN, the nitrogen of this material being 50 to 90% of the total nitrogen of the feed, and

c) where applicable, other fuel stocks,

which is characterized in that

the material under a) is derived from one or more pentosans, cellulose and / or lignin-containing materials, has a specific surface area of at least lOdmVg and an acid content of 5 to 50 g acetic acid equivalent / kg dry substance and
the dry matter is 3 to 20 g per g of NPN.

Preferably, the nitrogen of the NPN-containing material makes up 60 to 70% of the total nitrogen Feed from.

It is also preferred that the acid content of the material, which is from one or more pentosans, Cellulose and / or lignin-containing materials derives, 10 to 45 g acetic acid equivalent / kg dry substance, In particular, 20 to 30 g of acetic acid equivalent / kg of dry substance is.

Furthermore, it is preferred that the dry matter amount of the material, which consists of one or more 6 ^|! Pentosans, cellulose and / or lignin containing Materlallen derives. 5 to 18 g, in particular 8 to 10 g.

Preferably the NPN-compliant material is urea.

The monodietetic feed according to the invention can be produced in the catfish that the on one specific surface of at least lOdmVg, expediently by hydrolysis, crushed, dry ^ Material of vegetable origin and / or a mixture of such up to reaching the acid content of 5 to 50 μ acetic acid equivalent / kg dry substance is acidified and the product obtained with the NPN containing Material and, if necessary, the other oil utilities are homogenized.

According to an expedient embodiment of this process, the acidification of the ^{vegetable painter's valley, which has a specific surface area of at least 10 dm:} / g, is carried out with an inorganic acid and / or a low molecular weight organic acid, preferably with steam treatment.

The organic acids located on the large specific surface can besides the slowing down the release of ammonia also serve as an easily usable energy source for the microorganisms, who are capable of such catfish, in addition to processing the NPN, also the polysaccharides of the product special quality in an excellent yield.

Another advantage of the feed according to the invention is that its application is not special and difficult-to-obtain feed additives, but also shared with others in agricultural Operated on the spot, the feed available is usable.

In contrast to DE-OS 22 34 8! 9, in which it is materlallen based on polysaccharide-containing materials impregnated with an aqueous solution of an amide such as urea and an acid catalyst, which can also be of vegetable origin According to the invention, these are mixtures of materials obtained by acid hydrolysis of polysaccharide-containing materials of vegetable origin and materials containing NPN. While, according to DE-OS 22 34 819, the acid is also brought into direct contact with the amide, such as urea, according to the invention the NPN-containing material, such as urea, is first added to the polysaccharide which has already been acidically hydrolyzed. So it is with the method of DE-OS 22 34 819 so that the acidic treatment, the amide, such as urea, loses value and so the product is less v.ähvo11, on page 4, cells 1 to 6 of the DE OS 22 34 819 speaks of the fact that the reactive carbonyl groups formed by the hydrolysis of the polysaccharides react with the amide, which means that the amide is bound by the carbonyl groups. In contrast, according to the invention, there is no reaction at all between the materials obtained by acid hydrolysis of polysaccharide-containing materials of vegetable origin and the materials containing NPN, such as urea, during the production of the feed. The surface enlargement of the polysaccharide-containing materials of vegetable origin takes place completely separately before the feedstuff is homogenized. In other words, according to DE-OS 22 34 819, the rapid microbial utilization of materials containing NPN, such as urea, is prevented in the fore-stomachs of ruminants by making the former water-insoluble in a technical process by causing a chemical reaction. According to the invention, on the other hand, the material containing NPN, such as urea, gets into the feed in 3d crystalline form for homogenization. Thus, according to the invention, the polysaccharide-containing material can be one which has a high adsorption capacity. Reacts weakly acidic in liquid cellosis and represents a "purified" cellulose, whereby it is obtained as a technical by-product, so that the technical devices required according to DE-OS 22 34 819 and the creation of the relevant reaction conditions and the digestion of vegetable polysaccharide material are superfluous .
In the feed according to the invention, the dry matter amount of the acidic solid of vegetable origin is lower than in the products of DE-OS 22 34 819. According to the above specifications, the maximum value of the acidic solid of vegetable origin is 20 g per g of NPN, while the lowest value in question is the products of DE-OS 22 34 819 is 38.7 parts of polysaccharide-containing material per part of NPN, so that according to the invention at least about 2 times as much NPN-containing material as urea per 1 g of material obtained by acid hydrolysis of polysaccharide-containing materials of vegetable origin As in DE-OS 22 34 819. Thus, the feed according to the invention are significantly cheaper with regard to the replacement of the feed protein by material containing NPN. The values of the NPN, based on the total nitrogen, in the products according to the invention according to the above specifications are also 50 to 90% compared to 10 to 50% NPN, based on the total nitrogen, in the products of DE-OS 22 34 819. • js Darin This again shows the advantage of the products according to the invention that they have a higher NPN content and that this is possible without harming the animals. This is due to the fact that according to the invention, in relation to the acidic polysaccharide-containing material, more NPN-containing material is used than in the cited publication. It is also surprising that, although in contrast to the products of DE-OS 22 34 819, the NPN-containing material, such as urine-Mi substance, is not bound by the acidic polysaccharide-containing material in the products according to the invention, the feed according to the invention has more NPN-containing material can contain without causing harm to the animals. The action of the feed according to the invention differs fundamentally from that of DE-OS 22 34 819 in that, in contrast to the latter, according to which technically water-insoluble amd / polysaccharide complexes, such as urea / polysaccharide complexes, are produced industrially, the rapid microbial decomposition the - ^; Non-water-soluble NPN-containing materials, such as urea, are delayed in the rumen and the nitrogen retention is increased by the given reaction of the polysaccharide-containing material in the rumen, whereby there is a sensitivity to the normal cellulase activity and a constant formation of volatile fatty acids during rumen fermentation. Through the formation of fatty acids, a stabilized pH value, the moderation of the urease activity of the rumen fluid and a system of optimal conditions for the constant formation of protein and protein are achieved. In the acidic medium of the fore-stomachs of ruminants, material is produced from the material obtained by acid hydrolysis of polysaccharide-containing materials of vegetable origin. In particular cellulose, created such chemical conditions that the measures required according to DE-OS 22 34 819 own technical digestion, creating the conditions for the chemical reaction and repeated homogenization in different ratios can be omitted.
<><■ For any NPN-containing materials as the basis of mlkroblellen protein synthesis in the rumen of ruminants or consequently containing the fine structure of Rohl'asern pulping of the cellulose of fundamental Ucdeulung In view of the Cclluloseaktlvltüt and from the decomposition of the NI ¹ N Materliiles originating from / Nmmonliikloxlkose. So is mud In the interest of the Au.stiCülkhenhelt der

bacterial protein synthesis: and the satisfaction of the energy requirements resulting from the volatile skin acids of the ruminating animal the simultaneity of fermentation of the cellulose-based fiber structure and the dynamics of the Ammorila cooling. This is in the feed according to the invention realized and therefore it is possible compared to DE-OS 22 34 819 and the rest of the prior art g polysaccharldhaltlges Mal.erla! at least up to about 2 times the amount of NPN-containing material in the bring animal organism into it. The chance of synchronizing the biological processes "in vivo" Namely, it is much greater than the probability of one predicted in manufacturing process engineering System of conditions.

Another difference between the present invention and DE-OS 22 34 819 is that according to the former In contrast to the latter, according to which a further reaction of the urea with hydrolyzed Polysaccharides takes place during the pelletizing process at elevated temperatures and under elevated pressures, no such heat and pressure treatment is to be carried out by homogenizing the NPN containing material with the acidic polysaccharide-containing material of vegetable origin at room temperature and is carried out under normal pressure.

Also, the effort associated with the production of the feed according to the invention is less than the ι * in the process of DE-OS 22 34 819. In the process of DE-OS 22 34 819 namely the components in technical processes are implemented in compliance with certain conditions while this is Production of the feed according to the invention is not necessary, with these being in the stomachs the ruminants would otherwise only be made more effective to a lesser extent and this can also be achieved by alienating a technical waste product. In In this context it should be noted that attempts to break up wood chips and sawdust are still ongoing for the production of animal feed with multiple energy expenditure and poorer efficiency be undertaken, against the earthenware products because of the materials used, the manufacturing process and the beneficial design of the biological control letting the NPN containing Materlallen, such as urea, in the ruminant animals with regard to the effort are much cheaper.

Since the feed according to the invention have fundamentally different features and effects than those of DE-OS 22 34 819, as can be seen from the above, it is no longer important. The extent to which the provision of a high specific surface area, the numerical definition of which is at least 10dm ² / g, but is also evident from the prior art, is itself surprising. However, this is also compared to the fact that it is known from CiE-OS 18 15 095 and DE-AS 16 92 476 that the release of urea from feed is delayed if swellable substances or flours are also used will be the case. It is the case that in the production of flours the specific surface area increases in such a way that the polysaccharide grains come about by means of comminution and only the surface of the grains are active against water or urea dissolved in water, while with the - ¹⁵ feeds according to the invention, the surface enlargement of one component, namely the material obtained by acid hydrolysis of polysaccharide-containing materials of vegetable origin, during its production before its use In the feeds according to the invention on the way of removing a component of the polysaccharide-containing material of vegetable origin, especially hemicellulose , occurred by hydrolysis. This surface enlargement comes about primarily in the interior of the grains * o through tunnel formation with unchanged grain size. In contrast to flour, this material cannot swell. The bacteria can only get to the NPN-containing material bound to the active surface of the tunnel by adsorption, such as urea, through simultaneous degradation of the polysaccharide-containing material such as cellulose. Emeses material does not delay the release of the NPN-containing material, such as urea, but its consumption by bacteria. It is clear that the prior art has been unable to provide any indication.

Monodietetic feeding can be carried out with the compound feed according to the invention. By doing it without any habituation at any time of the year or continuously throughout the year without feeding with others Feed can be administered.

I) Examples relating to feed according to the invention
example 1

Any such as by the below-described methods a) γ) by acid hydrolysis of polysaccharidhaltlgen materials of plant origin obtained material, as well as urea, corn meal, lucerne meal, getrockneies beet pulp from sugar factories and the other represented by the following materials or were used in the amounts according to the following formulations .

IS * J The mineral premix 2 » Comment: the procedure <x) A. 12.50 wt. 96 - 6.50 wt. 96 - B. 7.14 wt% - 60.70 wt. 96 - 15.35 wt. 96 of the material produced according to process catfish γ) Painting meal the procedural catfish y) 6.00 wt. -9t; 3.00 wt. »; - 3.56 wt% 3.65 wt. 96 6.00 wt% Alfalfa flour 37.00 wt 1.00% by weight 100.00 wt 2.00 wt% 100.00 wt% Dry beet wedges 1.00 wt. 96 0.80 wt. 96 Silomals had the following composition: 33.00 wt% χ '2 H ₂ O 0.80 wt. 96 molasses 25th 502 g / kg Ca (H ₂ PO ₄ ) χ 2H ₂ O urea 171 g / kg CaSO ₄ χ 7H ₂ O Feed salt 143 g / kg ZnSO ₄ χ 6H ₂ O ¹¹¹ mineral premix *) 107 g / kg FeCl ₃ χ 5H ₂ O Any material after 48 g / kg MnSO ₄ Any material after 17 g / kg MgCO, χ 5H ₂ O water 5 g / kg CuSO ₄ χ 7H ₂ O 3 g / kg CoSO ₄ 2 g / kg KJ 2 g / kg KCI _1n The percentage composition given above relates to feed with the usual moisture contents. Mixture B can also be homogenized beforehand

40

with the mineral premix and with the urea and a subsequent 2-month storage. A material obtained according to process fl) could also be used analogously.

The mixture weighed together with the exception of the molasses was In a rotating drum with horizontal Shoveled shaft to encourage blending of the material for 45 minutes touched. During this treatment, the molasses was sprayed into the drum.

The materials obtained by acid hydrolysis of polysaccharide-containing materials of vegetable origin are made as follows.

Procedural catfish a)

Various materials containing polysaccharides were treated according to Table 1. The chosen raw material was washed under atmospheric pressure with water containing 4% acetic acid to a moisture content 40% sprinkled and then under a pressure of 11 bar with saturated steam for 1 hour on one Maintained temperature of 175 ° C, the amount of steam being 2.4 times the dry matter content of the Raw material fraud.

Table 1

55

Raw material humidity after Properties of the treated Materlales before the Beriese Acetic acid cgcha !! *) Water ; al! Specific Beriese lung In In Surface·*) lung In g / kg % In In 40 Dry matter dmVg Paint flask 18th 41 26th 43 85 Paint flask 29 39 25th 44 80 Malslieschen 24 41 27 42 22nd Corn stalks 32 39 25th 44 43 Sunflowers- 13th 25th 41 20th core shell 41 Beech wood 25th 27 43 34 sawdust

*) The amount of the treated material weighed in g acetic acid / kg dry substance was 0.01 η for 1 hour

KOH shaded, then the pH was determined and the acetic acid content was calculated from this . * ·) The specific surface was determined according to the BET method using Hellumadsorptlon

Procedure β)

The procedure was as described for procedure ot) , but with the difference that the material was treated under a pressure of 11 bar at 175 ° C., whereupon it was allowed to relax before it was cooled to atmospheric pressure. The system was then placed under vacuum and its moisture content was reduced to values of 16 to 20% compared to the values given for process a).

Procedural catfish y)

The procedure described in procedure a) was followed , but with the modification that the material was sprayed with a calculated amount of glacial acetic acid instead of the water containing 4% acetic acid, whereby the values summarized in Table 2 below were obtained.

Table 2

Raw material Moisture Properties of the treated material Specific salary before Acetic acid content *) Water content surface spray In in in in g / kg % dm '/ g % Dry matter 105 Corn on the cob 23 28 26th 120 Corn on the cob 17th 50 19th 35 Corn lice 21 40 24 33 Sunflower seed shell 15th 28 17th 42 Beechwood sawdust 28 28 31 *) See the explanation under Table 1 Procedure δ)

The material produced from corn on the cob by acid hydrolysis according to the above procedure a) was treated with superheated steam at 130 ° C under atmospheric pressure until, with an unchanged specific surface area, a material with an acid content of 5 g acetic acid / kg dry matter or 3 g of acetic acid / kg of dry substance (comparison material).

B e i s ρ I e I 2 -w

A product with a specific surface area of 8 dm ² / g and a product with a specific surface area of 12 dm ^: / g, although the acid content remained unchanged in each case, were produced from corn cobs according to method a) of Example 1. Mixtures of the composition A were prepared from these according to Example 1. ⁴ ·

II) Examples relating to the use of feed according to the invention

Example 3

The genius designated with A in Example 1 became that in the following. Test group No. 7 listed in Table 3 as well as the test groups No. 5, 6 and 8, which were also given there, the last three, however, with the modification that the weight ratio of the dry matter content of the respective material obtained according to the method a.) To the feed urea nitrogen present (with the ratio of the other components unchanged) was 2, 3 and 21, respectively.

Example 4

The materials of composition A produced from the materials obtained according to method δ) of example 1 according to example 1 were administered to test group no. 1 and comparative test group Z in Table 3 below.

Example 5

Using the paint flasks treated according to procedure γ) of Example 1 and having an acid content of 50 g acetic acid / kg dry matter, a mixture of composition A was prepared according to Example 1 and this was administered to test group No. 2 in Table 3 below.

Example 6

A mixture of composition A, which has been prepared from any material prepared according to the procedure ß) of Example 1 according to Example I, was administered to test group No. 10 in Table 3 below.

Example 7

The mixture of composition A prepared from the beechwood sawdust according to Example 1, which had an acid content of 28 g of acetic acid / kg of dry matter and was treated according to procedure γ) of Example 1, became test group No. 9 in Table 3 below administered.

Example 8

The feed of Example 2 was assigned to test group no. 4 in Table 3 below

and 3 administered, respectively.
The test conditions and results for the test groups, each consisting of 10 Hungarian colored fattening bulls, 1 comparison test group and 1 blind test group are shown in Table 3 below

compiled.
- ⁿ The masibulls consumed the fuiter during a fattening period (about 6 months).

Table 3

Attempt Characteristic values of the feed specific surface Hydrolyzed Energy recovery groups Acetic acid content *) of the hydrolyzed Dry matter In MJ / kg meat number In Materlales In g / kg In g / g NPN Dry matter dmVg

Z (comparison test group)
B 1

50

25 to 28
25 to 28
25 to 28
25 to 28
25 to 28
25 to 28
25 to 28
25 to 28

20th

20 20 20 20 20 20 20

Blind test or control group with feeding that corresponds to the nutritional requirements

81.51 81.51 65.63

98.65 63.95 85.27 59.36 61.86

82.22

*) see explanation under table 1

Evaluation of table 3

Trial evaluation

group number

Although there was no ammonia poisoning, the animals' feed was due to the relatively low acid content not used particularly economically.

Although there was no ammonia poisoning, the animals did not use the feed particularly economically due to the relatively high acid content.
No ammonia poisoning, economic recovery. As a result of the low specific surface area symptoms of ammonia poisoning, the experiment was stopped. Symptoms of ammonia poisoning due to lack of hydrolyzed material, the experiment was stopped. Although there was no ammonia poisoning, poor feed conversion due to lack of hydrolyzed material.

No ammonia poisoning, economic recovery.

continuation

Trial group number

evaluation

Z (comparative test group)

Although there was no ammonia breakdown, poor feed conversion due to the excess of hydrolyzable material. No ammonia poisoning, economic recovery. No ammonia poisoning, economic recycling. Symptoms of ammonia poisoning due to the low acid content, the attempt was stopped.

Example 9

The feed mixture of Composition B of Example 1 was administered to dairy cows for 6 months.

The results (Experiment No. 1) are shown in the following Table 4 together with those obtained by a conventional one Feeding obtained (experiment no. 2) compiled.

Table 4

Number of animals in the group Experiment No. 1 Experiment No. 2 100 100 Acetic acid content *) In g / kg dry matter 40 conventional (Malslleschen, according to Example 1, feeding Procedural catfish γ treated) Specific surface area In dm ² / g 35 conventional feeding Dry matter per g of NPN 8th conventional feeding Average milking in kg 15th 12th Milk fat in % 3.7 3.4 Energy recovery expressed as 0.0035 0.0047 Energy consumption in MJ / kg milk

.Vl

*) see the explanation after table 1

40 45

Claims (5)

Patent claims: 1. Monodietic feed, consisting of * a) one obtained by acid hydrolysis of polysaccharide-containing materials of vegetable origin Material, b) a material containing NPN, the nitrogen of this material being 50 to 90% of the total nitrogen of the feed, and c) other feed ingredients, if applicable,
in characterized in that - the material under a) containing one or more pentosans, cellulose and / or lignin Materials derives a specific surface area of at least 10 dm '/ g and an acid content of 5 to SO g of acetic acid equivalent / kg of dry substance and - the dry matter amount of a) is 3 to 20 g per g of NPN. 2. Feed according to claim 1, characterized in that the nitrogen of the NPN-containing material 60 to 70% of the total nitrogen in the feed. 3. Feed according to claim 1 or 2, characterized in that the acid content of the material is below Claim 1 a) 10 to 45 g of acetic acid equivalent / kg of dry substance, in particular 20 to 30 g of acetic acid equivalent / kg Dry matter. 4. Feed according to claim 1 to 3, characterized in that the dry matter amount of the material under claim 1 a) 5 to 18 g. In particular 8 to 10 g. 5. Feed according to claim 1 to 4, characterized in that the NPN-containing material is ^{urea <5} substance.