DE1928285A1 - Feed - Google Patents

Description

The present invention relates to aldehyde urea animal feed -Condensate as a protein source, especially on feed for ruminants from a C, jl aldehyde-urea condensate as a protein source,

In recent years industrial products such as urea and ammonium phosphate have been used and polyammonium phosphate widely used as substitutes for natural ones Feed used.

The usefulness of such industrial products & s protein sources for ruminants is based on the fact that the rumen of ruminants is easily relieved from these products by releasing them Ammonia is used as a nitrogen source by those present in the rumen Bacteria evaluated; and the bacteria formed are called protein utilized by ruminants through absorption through digestion *

Excessive feeding of this indusirij ^ prodttfete, however, produces a serial Release of an excess amount of ÄiMQftiak if & fsnsen, so that the bacteria the ammonia cannot absorb, thus reducing the excess Ammonia accumulates around circulating blood and leads to death

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Causes respiratory paralysis. Thus, the amount of these industrial products added to animal feed as "a substitute for the protein source in natural feeds " is limited to only about kO ^{e j ».}

The aim of the present invention is therefore to provide feedstuffs for animals from industrial products as a protein source which are non-toxic to ruminants; The object of the invention is achieved by adding a C ₂ ^ aldehyde-urea condensate to the animal feed as a protein source.

Cp λ aldehyde-urea condensates used according to the invention are, for example, crotylidenediurea (CDU) from the condensation of acetaldehyde or crotonaldehyde with urea, propylidene diurea (PDU) or propylidene monourea (PMU) from the condensation of propionaldehyde with urea and isobutylidenediurea (IBDU) from the condensation of isobutyraldehyde with urea.

Since these aldehyde-urea condensates are difficult to dissolve in the rumen, runs the breakdown of the condensates very slowly without sudden excessive release Amount of ammonia to be absorbed by the bacteria.

The by-products from the decomposition or breakdown of these condensates are free from harmful SLgen but rather have a beneficial effect on the growth of ruminants.

For example, propionaldehyde, which is the by-product from the decomposition of. PDU and ΡΜίϊ is, and isobutyraldehyde, which is the by-product from the decomposition of IBDU is quickly oxidized in the rumen to propionic acid or isobutyric acid, the important lower aliphatic acids to maintain or accelerate of the growth of ruminants.

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Furthermore, l-methylpropenylene urea, a by-product from the decomposition, becomes by CDU, gradually decomposed to ammonia under the influence of bacteria.

From the. Above-mentioned reasons, the condensates according to the invention can be used for animal feed in larger quantities than urea, ammonium phosphate, polyammonium phosphate etc. are mixed in without having a negative effect on the growth of the ruminants. These condensates can be used as a source of protein in animal feed in an amount up to 80% by weight of the digestible Crude proteins are used

According to the invention, the aldehyde-urea concentrates can also be used either in combination with any other type of animal feed or per se. The aldehyde-urea condensates, for example, cottonseed flour, coconut oil flour, starch pulp, molasses, fishmeal, soybean flour, defatted rice bran, corn, wheat bran, barley, millet, buckwheat, peeled rice, oats, rye, barley bran, etc. are mixed in, whereby the nutritional value / of the feed received must be taken into account * As mentioned, i & t according to the invention the use of aldehyde-urea condensates in large quantities al? Replacement for common industrial products as a source of protein in animal feed is possible.

The following examples illustrate the present invention without it

Restrict EU. · .. ·. '

Example 1

The inventive feed with C, _. Aldehyde-carbide condensates as a substitute for the protein source in animal feed were compared with conventional feed according to the following table; all components are in% by weight

specified; DGP means digestible crude protein.

0 0 9 8 0 8: · / 1 Ut S-

Feed Persisted.
Gewo - ',' ί 68, A. 8th B. n. Weight - $>
DCP 8th C. 45.2 Weight - $
DCP D. 78 Weight %
DCP , 3 10 Weight -5b
DCP Persisted.
Wt .- ^ 0.96 Persisted.
Weight-35 0.64 Persisted.
Wt .- '^ - Corn 10 . 0.64 15th - 10 4.10 __ - degreased.Rice3ü.eie 30th 0.14 - 3.15 36 3.78 3.78 White bran 37 3.78 ■ * 25 - 30th - 30th - Starch pulp - - 47 · - 15th 56 - So bean flour —— - - - ■ · - 9 _— 12.20 —- · 7.00 13.55 oo Ci) II
ο
oo Ir.DU 2 12.20 9 __ 5 - 10 - _ ^ Calcium carbonate .2 · - 2 __. 2 . 2 - * SaI 7. 100 2 16.31 2 15.52 2 17.33 «Η in total, 17.76 100 100 100 , -Aldohyd-UreaE-
Fondensnt as
Gew.- '»the DSP

The numbers in the DCP column mean those in the individual components of the mixed Digestible crude proteins contained in animal feed

CD K) OO K) OO cn

feed

Consists .. Gew, -jo Consists. Wt .- ^
4 PCP Gew _o- $ DCP

Persisted. Ge w. ~ ° p

DCP

Comparison attempt

Ingredient wt -.% Wt -i PCP.

Corn 10 0.64 5 0.32 10

. degreased rice Jileie 40 4.65 ^: 20 .2.28 30

Wheat bran 20 2.52 15 ■ 1.89 36

Starch pulp 21 "- 49 ~ -. 15th

Soybean meal - «<·« - - ^ - -

PMU ■ - - - -. 5

ο PPU 5 7.80, 7 10.92

^ CDU - ■ -, -

^ Calcium carbonate 2 - 2 '2

Ii salt 2 2 - 2

0.64
3.42
4.54

6.13

30th
36
10

ZÖ

2
2

1.92

4.13 1.26

8.02

100 15.52

100

15.41

100

14.73

100

15.33

Aldehyde-urea condensate as- '
PCP

50.3

70.8

(JD K) CO

E3 experiments were made with goats, sheep and dairy cows to determine the influence a constant feeding of the food preparations A to G according to the invention determine the reproduction over a long period of time.

(1) Effect on weight gain in goats and sheep

Two groups of k goats and 4 sheep each, each weighing 20-21 kg, were used for this experiment was feed a to G, comprising a C "aldehyde -Kondensat urea as a ^w protein substitute, fed; the experiments each lasted ¹ ½ weeks. For those with. the group fed the usual feed showed an increase in body weight of 0.9-112 kg, while the group fed the feed according to the invention showed an increase of 1.6-2.2 kg. This clearly shows the beneficial effect of the aldehyde urine substance condensates.

(2) Effect on auxiliary production of dairy cows

Two groups of 5 cows each were used for this experiment. The sixth group was fed the usual mixed ration of hay and the comparative feed H, while the other group received mixed rations of hay) and aeix feeds A to G according to the invention. The 4-kitchen experiment was used to compare the milk product ion. The hilch production of the group fed with the feed according to the invention increased by usr 6-3 $ compared to the group fed with the usual feed and showed the values customary in cow's milk with regard to casein, polysaccharide and milk fat. ·

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In comparison to the usual, soybean meal is shown as a source of protein containing animal feed in the case of the aldehyde-urea condensates mixed feed significantly increases body weight and milk production. This is obviously due to the fact that, although soybean meal by the bacteria in the rumen in stages, in which the soybean meal is successively converted into peptide, amino acid and ammonia, the aldehyde-urea condensates are evaluated directly can be used as ammonia by the bacteria.

(3) Influences of constant administration of a feed mixed with aldehyde-urea condensates for a long time

Goats, sheep and dairy cows were constantly mixed with for 3 months Rations consumed feed A to G fed. During the trial Samples of the rumen content were taken through artificial cannulas or catheters connected directly to the rumen, and volatile Fatty acids, ammonia, etc. examined. The fourth found were normal and did not show any strange phenomena in the rumen affecting the Digestion. In addition, the number of bacteria present in the rumen content was as well the types of bacteria normal.

Furthermore, bacteria grown in vitro showed normal activities regarding protein decomposition and the ability to generate gas.

These experimental data are now with regard to the feed mixed with IBDU

A illustrates.

(a) volatile fatty acids

The experiment was carried out with a group who did not receive IBDU and a group the IBDU was fed. The amount of volatile present in 1-Iagen juice Fatty acid became ar. Morning before feeding hay, 3 hours after.

Feeding and 2 hours after feeding eir.es supplemented by IBDU or one normal, unmixed feed measured. In each "test was done for both of them

Groups the similar amount of volatile substances given in the following table Fatty acid found.

treat animals before 3 hours after 3 hours after feeding

Feeding Feeding the mixed feed

of hay

Goats fed with IBDU "ρ« i <, _{1n 1lL 1iL}

Group (female) ^{ö '01 lllJ0 1} ^ * ¹ *

not .filled with IBDU. 9.03 10.94 15.06

Group (male)

Goats fiddled with IBDU 7.88 10.88 - 13.89

Group (male)

not fed with IBDU. 8.49 ll., 6l 14.46

Group (female)

The numbers indicate the amount of volatile fatty acid expressed in millimoles per dl gastric juice, measured as acetic acid

(b) vitamin content .

The group not fed with IBDU and the group fed with IBDU were examined for the amount of vitamins contained in the rumen. Before the hay feeding in the morning samples were taken of the rumen content, including drafts at 55 ° C. dried and ground for the purpose of determining B ₂ , B ^, pantheine and nicotinic acid by means of quantitative analysis for chemical components and bacteria. The results showed no significant differences between the two groups.

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B ₂ Bg PaA HiA

Goats

IBDU-fed group (female) 4.4 7.7 49.5 43.7

Group not fed with IBDU (male) 5.1 8.2 51.8 41.5

Goats -

IBDU fed group (male) 7.1 8.0 52.4 33.6

group not fed with IBDU (female) 6.4 7.5 68.4 31.9

The numbers mean V ^v per g phase content on a dry basis (c) Gas formation by bacteria in the rumen

The experiments were carried out with the two groups mentioned above. Before hay feeding in the morning bacteria were separated from the rumen content. It was a suspension of the separated bacteria produced, glucose was in added to a portion of $ 2, and the fermentation raw materials containing this suspension were left to stand for 3 hours at 39 G to determine the amount of gas formed therein. As shown in the following table, the result Aryan there were no significant differences between the two groups.

Goats

group fed with IBDU (female) ß »50 cm

Group not fed with IBDU (male) 9.24 ecm

Goats

IBDU-fed group (male) 6.82 cm

Group not fed with IBDU (female <,) 7 »25 cm

The numbers mean that in 3 hours of 20 ecm of the bacterial suspension amount of gas formed

( d) Protein degradation by bacteria in the rumen

According to paragraph (c) a bacterial suspension was prepared, but the pending from G ^ cose casein was added. The fermentation tubes were 3 hours at 39 ° C. left to add the remaining amount of casein

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The difference between the amount of casein added and the remaining amount The amount of casein was taken as the amount of degraded casein. As the The following table shows that there was no significant difference between the two groups o

1) aim - *

IBDU fed group (female) 66.97 mg

Group not fed with IBBU (male) 61.3 ** · - mg

Z) aim

^ra ß not (female.) with IBDU gofütterte group with IBDU fed group (male). · 5 ^ "12 53" 6l mg

The numbers show that from 30 ecm bacterial suspension in 3 hours degraded amount of casein

(e) Number of protozoa contained in the rumen

The two groups mentioned were as above with regard to their rumen content examined. The number of protozoa contained in the rumen was determined by blood tests found, with no significant differences between the two groups.

1) goats

group fed with IBDU (female) '^ fOO 000 Group not fed with IBDU (male) 510,000

2) goats

group fed with IBDU (male) 390,000

Group not fed with IBDU (female) 4-10 000

The numbers mean the number of protozoa in 1 ecm of rumen juice

(f) Influence of IBDU feeding on pregnancy and parturition

The experiment was carried out on a 2 year old female goat by constant; Feeding a feed mixed with 5 $ IBDU 2.5 months after the start of Pregnancy to parturition to the effect of such feeding Determining pregnancy and delivery «However, none were noticeable Effects on the mother's body or fetal growth up to

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Birth of the kid on the expected date, 104 '. Day of 13DU feeding, established. The birth took place normally, the kid was normal both in body shape and in its physical abilities and weighed about 2 kg a mother's body weight of 24 kg. With normal milk production, no strange phenomena were found that might be may have been caused by IBDU feeding.

(4) Relationship between the amount of ammonia formed in the rumen and the! Aldehyde-urea condensate feed

To determine the amount of ammonia formed in the rumen in relation to the According to the invention, aldehyde-urea condensate feed became the method of one artificial rumen applied · The figures given in the table below mean the amount of nitrogen contained in the gaseous ammonia formed is, per cm of gastric juice, measured after 2, 4 and 6 hours after the Feeding.

Conditions: samples 50 mg / 50 ecm gastric juice; Temperature == 39 ° C

NH ₃ -N (, j * - / ecm)

- sample 2 hours 4 hours 6 hours according to the invention IBDU 42 22nd 45 It CDU 86 98 96 Il PDU 50 92 90 Il 'PMU 64 80 70 Comparative example urea 420 430 470

As can be seen from the above data, the decomposition proceeds according to the invention Condensates fairly slow due to their low solubility, which does not show any rapid release of ammonia in large quantities results.

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The animal feeds according to the invention are still non-toxic and require a longer time for ammonia to form in the rumen, which in turn the complete conversion of ammonia to microbial protein in slow speed Course enables.

In the above experiments it was found that an increased addition of the aldehyde-urea condensate to the feed rations no noticeable change the formation of NH ^ -N results in (A ^ oniak-S toff) “.

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Claims (1)

- 13 - 1923285 1.- Feed for ruminants, lots and made from or containing a C ^ Aldehyde-urea condensate as a source of protein. 2. - Feed according to claim 1, characterized in that it contains a C ₉ ,, aldehyde-urea condensate in a proportion of less than 10% by weight of the total amount of the digestible crude proteins contained in the feed. 3, - Feed according to claim 1 and 2, characterized in that the ^ 2-A aldehyde urea condensate crotylidene diurea ί, propylidene iono urea substance, propylidenediurea or isobutylidenediurea. ^ • .- method for feeding ruminants, characterized in that one a feed according to claim 1 to 3 is used. The patent attorney: ■ Λ 9; 8Q8 / 1115 iA ORIGJK'AL