NL8501511A - METHOD AND MEANS FOR INCREASING THE RISKED FOOD RECEPTION IN FATTING FARMING. - Google Patents

Description

# * Μ i r 1.- - Method and means for increasing the rationed food intake when fattening ruminants -

The invention relates to a method and means for increasing the rationed food intake in the fattening of ruminants for their meat production, also during the period that they have to be fed, especially during the winter.

Increasing rationed food intake, i.e. increasing body weight as quickly as possible at a given food ration, is economically important. In particular, because in the case of herig chewers in particular oxen, bulls, cows and heifers intended for slaughter because of their meat, only part of the food used by these animals is used for their growth, partly because of the nature of the present conventional food that is only partially digested, partly because of their special anatomy, which makes them specially adapted to a herbivorous lifestyle.

It has already been proposed to provide for this by protecting at least certain food constituents, for example by tanning or encapsulating so that they are not unduly affected in the stomach before they can reach the duodenum.

French Pat. No. 2,344,233 proposes to use the mother liquors of xylitol as feed additives for dairy cows, not to fatten them, but to increase blood sugar and milk production. The mother liquors used contained 5-25 wt.% Xylitol, 20-35 wt.% Arabitol, 10-25 wt.% Mannitol, 5-15%. GüÜ5 * - * i - 2 - wt% sorbitol, 5-10 wt% dulcitol and 5-10 wt% rhamnitol based on the dry matter. The effect of the mother liquors of xylitol on milk production has been attributed to the carbohydrate-type polyalcohols exhibiting excellent resistance to attack in the stomach so that they can reach the intestines practically unaffected.

In vitro studies on the decomposition of the various polyols have shown that the pentitols (xylitol * and arabitol) .. show by far the best resistance but that sorbitol decomposes much faster. That the xylitol stomachs can be safely fed to dairy cows is also evident from a study described in Nutrition Reports International of June 1981, vol. 23, No. 6, pp. 1077-1087.

15 “A more recent study, but on sheep, described in J.Sc. Food Agr. (1984), vol. 35, pp. 21-28, has also shown that sorbitol as well as mannitol is rapidly decomposed, especially when incubated with the appropriate microorganisms, and cannot be demonstrated in the digestive content of the duodenum. Thus, this confirms the effect of the mother liquors. of xylitol on milk production in dairy cows should be attributed exclusively to the pentitols such as, xylitol and arabitol.

It has been found that with a relatively small amount of sorbitol in the feed for ruminants which are fattened due to their meat production, the rationed food intake is increased, the average daily weight increases significantly, and that is the ratio of the amount of food consumed and the 30 amount of meat produced is improved.

This is unexpected after what has become known about the very rapid decomposition of sorbitol in the stomach of ruminants. While there is French Patent 79 01697 which relates to the use of sorbitol as a bile expulsion agent for calves, these have one 3201511 £ 3 - single stomach as opposed to ruminants (where the foregoing and the following refer to the stomach ruminants fattened for their meat means rumen). Also, the fact that sorbitol has already been used as an adjunct to certain vitamin or drug preparations cannot carry any weight because these are very small doses or relatively high doses but punctual and time-bound in case of digestive difficulties in certain animals. And as far as the aforementioned French Patent 2,344,233 is concerned, dairy cows cannot be equated with ruminants fattened for their meat because the ratio of digestible and non-digestible proteins is different and carbohydrates are administered. In other words, the feeding regime is completely different.

The invention has led to a method for increasing the rationed food intake during fattening of ruminants which may be maintained for a time, characterized in that an effective amount of sorbitol is fed to the ruminants at the same time as the normal food ration.

The invention further relates to an agent for increasing rationed food intake in ruminant fattening, characterized in that the agent mainly consists of sorbitol.

The invention furthermore relates to a feed for ruminants which are fattened, characterized in that the feed contains an effective amount of said agent.

In which the invention is also embodied, the sorbitol can be used as a powder or solution in a pure state or in the form of a hydrolyzate of hydrogenated starch in which it is the main constituent. «· · - 4 - part is. Preferably, the sorbitol content in the hydrolyzate is at least 71% by weight, based on the dry matter.

The amount in which the sorbitol is administered is suitably about 10-200 g per day, preferably about 20-120 g per day and especially about 80 g per day.

The ruminant feed suitably contains about 0.1-2 wt% and preferably about 0.3-1.2 wt% sorbitol based on the dry matter.

As shown in the examples below, sorbitol in the feed for jack chewers significantly increases the daily average weight gain. And this is not caused by an increased consumption of the animals, according to the fact that the consumerings-j_5 index is even going down. The mechanism of action of sorbitol is therefore not yet clear.

Tests within the scope of the invention have shown that the effect of sorbitol on food intake is expressed in particular with feed with 2Q having a low or medium total nitrogen content, which is less than 15% by weight and usually about 9%. 13% by weight calculated as N x 6.25 relative to the dry matter.

According to a preferred embodiment of the method according to the invention, ruminants are fed sorbitol together with a feed with a content N x 6.25 lower than 15% by weight and preferably 9-13% by weight.

Sorbitol may be administered by mixing it with the other ingredients in the ruminant food ration at the time of feeding, but it is also possible to feed a ready-to-use mixture that contains at least some, if not all, of the ingredients in addition to sorbitol. food ration.

Example I

This example illustrates that sorbitol decomposes 850 1 5 1 1 - 5 - *> f * • * very quickly by the microorganisms in the rumen and thus cannot reach the duodenum.

An in vitro test was performed according to the technique described in I.N.R.A. in Theix and incubating various amounts of sorbitol at 39 ° C for 6 hours in a medium containing an unlimited amount of ammonia nitrogen and in the presence of a large amount of rumen content and juice. All this was taken from a sober heifer provided with a rumen fistula and to which a feed of constant composition but without sorbitol was fed.

The composition of the medium was as follows: 400 ml artificial saliva composed of: hydrogen carbonate 9.24 g 15 disodium hydrogen phosphate 7.12 g potassium chloride 0.45 g calcium chloride 0.055 g magnesium chloride 0.047 g distilled water to 1 1 20 200 ml rum juice 200 g rumen content 15 g potato pulp 0.250 g urea. To 3 Erlenmeyer flasks, each containing 1 liter of the medium, 0.40, 0.80 and 1.60 g sorbitol were added. The amount of residual sorbitol was determined after incubating for 1,2,5, 4 and 6 hours, respectively. The results are shown in the table below 30 850 1 5 1 1 * *

- 6 -Table A

j Amount of residual sorbitol after | 0 hours 1 hour 2.5 hours 4 hours 6 hours

Erlenmeyer flask 1 0.40 0.25 0.02 0 0

Erlenmeyer flask 2 0.80 0.45 0.06 0 0

Erlenmeyer flask1 1.60 1.05 0.72 0.40 0 10 _____

The results show that after 2.5 hours of incubation of the 0.40 and 0.80 g sorbitol, nothing remains, and that the amount of 1.60 g is completely decomposed after 6 hours.

Example 2

To confirm the results of Example I, a study was conducted on the decomposition of sorbitol in the rumen of sheep. The study was conducted at the Laboratoire de la Digenstion des Ruminants of the I.N.R.A. in Theix to three sheep with two cannulas each, one in the rumen and the other in the duodenum. 40 g of sorbitol was introduced into the pen through the cannula before the morning feed. After 0.25, 0.5, 1.5, 2, 3, 4.6, and 8 hours, juice and contents were withdrawn from the rumen. At the same time, the contents were extracted from the duodenum.

Analysis showed that the sorbitol disappears from the rumen very quickly because no more sorbitol could be detected 1.5 hours after administration. Furthermore, it was found that the amount of sorbitol entering the small intestine is very small, namely on the order of 2% of the amount administered, despite the fact that this amount was administered in one go.

850 151 1 s * - 7 - Example 3

Two tests were performed in vivo with 8-month-old bulls in the Laboratoire de la Production de Viande of the I.N.R.A. in Theix. Two types of feed were used, one based on maize trot and the other based on maize kernels.

a). Results with the feed based on maize trot.

Six different corn trot-based feeds were used with the composition indicated in Table B below. The results with these feeds are shown in table C below.

Table B

Feed composition based on corn trot 15 1 2 3 4 5 6 corn trot,% 79.1 79.7 78.2 78.8 77.3 77.9 starch,% 13.1 13.2 13.0 13.1 12, 8 12.9 20 maxska: iEls,% 5.5 5.5 5.4 5.4 5.4 5.4 5.4 vitamin-containing flavoring,% 1.6 1.6 1.6 1.6 1.6 1, 6 urea,% 0 0 1.1 1.1 2.2 2.2 25 sorbitol,% 0.70 0 0.70 0 0.70 0 total nitrogen content in Nx6.25, g / kg 90.75 90 , 4 121.3 121.9 152.0 152.6 30 - © K f! * S.? «I Q'J Si i - · f - 8 - *

Table C

^ n feed composition no number of days 1 2 3 4 5 6 average weight gain per day, g 56 1025 888 1263 1221 1096 1236 124 1162 1030 1130 1200 1120 1230 142 1137 1042 1193 1103 1140 1245 weight ratio 56 145 117 187 170 161 174 increase tg) and units of feed 124 l53 130 157 153 150 16l

The results in Table C show that with sorbitol the daily average weight gain is improved and that this is not due to an increase in the amount of feed ingested. In fact, the weight gain per unit of energy is enhanced when sorbitol is added. On the other hand, sorbitol does not seem to have any effect for this type of feed with a total nitrogen content of more than 15%.

b) Results with feed based on maize kernels.

Six feeds with those listed in Table D below

indicated composition were fed to six groups of five bulls. The results are shown in Table E below.

30 8501511 - - 9 -

Table D

Feed composition based on corn kernels 1 2 3 4 5 6 corn kernels,% 76.9 77.4 75.9 76.5 75.2 75.8 y starch,% 6.7 6.8 6.6 6.7 6, 5 6.6

J

corn trot,% 12.4 12.6 12.4 12.5 12.1 12.2 I vitamin-I contain the mineral flavor,% 1.6 1.6 1.6 1.6 1.6 1 .6 urea,% 0 0 1.1 1.1 2.2 2.2 sorbitol,% 0.80 0 0.80 0 0.80 0 total nitrogen content in Nx6.25, g / kg 93.4 94.1 124.0 125.0 154.6 155.3

Table E

I 1! feed composition no.

number of days! 1 2 3 4 5 6 ________________I _ average weight gain per day, g 56 888 621 1107 1023 1236 1264 124 1000 790 1270 1130 1340 1390 142 970 818 1232 1151 1352 1392 weight gain ratio (g) and units recorded food! of the 56! 135 88 165 144 183 178 124 132 102 168 146 177 181

__J

o κ o 1 si i 9 'W kJ - W Λ Λ o - 10 -

Here, too, it appears that with the addition of sorbitol the daily average weight gain is markedly improved, as is the yield for the animals which received feeds with a total nitrogen content in Nx6.25 of about 9-12.5%.

It is noted that "increasing the rationed food intake" is to be understood as improving or even optimizing the assimilation or digestion of the ingested feed ration.

8501511

Claims (10)

Method for improving the assimilation of the feed ration in ruminants which are fattened and possibly maintained for a while, characterized in that an effective amount of sorbitol is fed to the ruminants at the same time as the normal feed ration. 2. Means for improving the assimilation of the feed ration in ruminants who are fattened, characterized in that the agent mainly consists of sorbitol. 3. Use of sorbitol as a means of improving the assimilation of the feed ration in ruminants that are fattened. 4. Feed for ruminants which are fattened, characterized in that the feed contains an effective amount of the agent according to claim 2. Method according to claim 1, characterized in that the amount in which the sorbitol is used is at least 10 g per day. A method according to claims 1 and 5, characterized in that the amount in which the sorbitol is used does not exceed about 200 g per day. 7. A method according to claims 1, 5 and 6, characterized in that the amount in which the sorbitol is used is about 20-120 and preferably about 80 g per day. 8. Feed for ruminants which are fattened, characterized in that the feed contains an amount of sorbitol of about 0.1-2.0 wt.% And preferably about 0.3-1.2 wt.%. Feed according to claim 8, characterized in that, ______ - - - 850 1 51 1 - 12 - Λ ψ ψ the feed has a total nitrogen content of less than 15%, and usually about 9-13%, and that it contains an amount of sorbitol of about 0.1-2% by weight. 10. Methods, agents and feed compositions as described in the description and examples. 350151?