SU1264896A1 - Method of determining metabolic energy of feed - Google Patents

Abstract

The invention relates to the feeding of farm animals, in particular, forest animals, and can be used in the development of feeding standards. The purpose of the invention is to accelerate and simplify the determination of the exchange energy of the feed. In the preliminary period, animals are kept on a common diet. During the reference period, part of the control feed is replaced with the test feed. Weigh animals before administering the test feed, on the day the feed was introduced before the first feed, 5-10 days after the feed was administered. Determine the difference in weight gain of the experimental and control groups. The exchange energy of the test feed (X, kcal / g) is calculated by the formula X A (B | -Ba) -K (M, -Mg) C, where X is the target exchange energy of 1 g of the test feed, kcal; A - exchange energy of 1 g of control feed, kcal; Bi - the number of fed control feed in the control group for the reference period, g; B2 - the number of fed control feed in the experimental group for the reference period, g; M: - total weight gain of animal mass of animals (L in the control group for the reference period, g; M2 - total weight gain in live weight of animals in the experimental group for the accounting period; K - standard consumption per 1 g weight gain of young animals, kcal; C - number fed the studied feed for the accounting period, g. to O5 00 with O5

Description

The invention relates to the feeding of farm animals, in particular to the feeding of fur animals, and can be used in the development of norms and rations for feeding animals and birds.

The purpose of the invention is the acceleration and simplification of the determination of the exchange energy of the feed.

Example 1. The experiment was conducted on young foxes at the age of 2 months. The whole experiment lasts 18 days and is divided into two periods: the duration of the first period from the 1st to the 10th day of the experiment (preliminary), the second from the 11th to the 18th day of the experiment (accounting).

During the first period, groups of 24 peer-to-peer analogs are formed in the group by triple weighing to align the groups with growth energy. In this case, young animals are weighed in pairs before morning feeding. Throughout the entire period, the animals of both groups receive the same diet, consisting of pollock, meat trimmings and porridge from animal feed. Upon completion of the first to morning feeding, weighing was carried out in duplicate.

As a control feed, pollock is used. During the accounting period, part of the control feed is replaced with protein-vitamin concentrate (BVK) in a weight ratio of 1 kg of BVK and replaced with 3 kg of pollock (control feed).

For 8 days of the accounting period, feed was fed by groups, g:

Stern The control Experience Pollock 48000 25800 Meat trimmings 30000 30000 Porridge from feed 44500 44500 BVK 7400

At the end of the accounting period, the animals of both groups are again weighed in duplicate and the difference in weight gain is determined.

Over 8 days of the reference period, the total body weight of young experimental group increases by 11590 g, the control - 11440 g (150 g more). It is known that 1 g of pollock contains 0.88 kcal of exchange energy. For 1 g of weight gain in young Arctic foxes at the age of 2-3 months, 5 kcal of metabolic energy is consumed.

Using the above formula, the content of exchange energy in the test food is found: X = 2.74 kcal, and in 100 g of BVK, respectively, 274 kcal of exchange energy (100 g of BVK contains 245 kcal).

Example 2. Determination of the exchange energy of soft offal, canned sodium pyrosulfate, prepared during the shooting of wild reindeer.

The experiment is carried out on two groups of young foxes of two months of age, 32 analog-littermates in the group. In the preliminary period from the 1st to the 5th day of the experiment, the animals of both groups receive the same diet containing horse meat, pollock and porridge from animal feed. The weighing data on the 1st day and on the 5th day of the preliminary period show that the animals of both groups have the same growth energy, since the difference in the average daily gain in the groups does not exceed 1 g. On the 6th day of the experiment, weighing is carried out before morning feeding in double repetition and in the ration of animals of the experimental group, offal is introduced instead of a part of pollock. For 5 days of the accounting period, from the 6th to the 10th day of the experiment, the following amount of feed was fed per group, g:

Stern The control Experience horsemeat 17650 17650 Porridge 28500 28500 Pollock 30000 10,000 Offal - 20000 Total 76150 76150

For 5 days of the accounting period, the animals of the control group receive 3,000 g of pollock, the experimental group - 10,000 g, instead of 20,000 g of pollock, the animals of the experimental group are fed 20,000 g of offal. According to known data, 1 g of pollock in this batch contains 0.775 kcal of exchange energy.

Weighing of 32 animals carried out at the beginning and at the end of the reference period shows a change in body weight, g: Day of experiment Control Experience

6th 59490 59430

10th 66650 68020

The gain of control is 7160 g, and the experience of 8590 g.

The calculation of the exchange energy is carried out similarly: X = 1.13 kcal in 1 g, in 100 g of offal contains 113 kcal of exchange energy.

Claims (2)

The invention relates to the feeding of farm animals, in particular to the feeding of fur animals, and can be used in the development of norms and diets for feeding animals and birds. The purpose of the invention is to accelerate and simplify the determination of the exchange energy of the feed. Example 1. The experiment was conducted on young Arctic foxes at the age of 2 months. The whole experience lasts 18 days and is divided into two periods: the duration of the first period from the 1st to the 10th day of the experience (preliminary), the second - from the 11th to the 18th day of the experience (accounting). During the first period, groups of 24 monogamous analogs per group are formed by weighing three times to align groups with growth energy. At the same time, young people are weighed in pairs before the morning feeding. Throughout the entire period, the animals of both groups receive the same ration consisting of minta, meat pruning and cabbage from mixed fodder. At the completion of the first before the morning feeding, the weighing was carried out in duplicate. Pollock was used as a control feed. In the accounting period, a part of the control feed is replaced by a protein-vitamin concentrate (BVK) in a weight ratio of 1 kg BVK is replaced by 3 kg of a mint (control feed). For 8 days of the reference period, feed was fed to the groups, g: Feed Control. Experience Min. For 8 days of the accounting period, the total body weight of the young of the experimental group increases by 11590 g, the control one - 11440 g (by 150 g more). It is known that in 1 g of mints 0.88 kcal of exchange energy is contained. On 1 g of weight gain in young foxes aged 2-3 months, consumes 5 kcal of exchange energy. Using the above formula, they find the content of exchangeable energy in the test feed: X 2.74 kcal, and in 100 g of BVK, respectively, 274 kcal of exchangeable energy (100 g of BVK contains 245 kcal). Example 2. Determination of the exchange energy of soft by-products, preserved with sodium pyrosulfate, harvested from the shooting of wild reindeer. The experiment was carried out on two groups of young foxes of two months old, each having 32 analogue odnogomnika in the group. In the preliminary period from the 1st to the 5th day of the experiment, the animals of both groups receive the same ration containing horse meat, pollock and porridge from the feed. Weighing data on the 1st day and on the 5th day of the preliminary period show that the animals of both groups have the same growth energy, since the difference in the average daily weight gain by groups does not exceed 1 g. On the 6th day of the experiment, before the morning feeding, weighing in duplicate and in the ration of animals of the experimental group, by-products are introduced instead of a part of a mint. For the 5 days of the reference period, from the 6th to the 10th day of the experiment, the following amount of feed was fed to the group: g: FeedingControl The Konin experience g, instead of 20,000 g of mints, animals of the experimental group feed 20,000 g of offal. According to known data, 1 g of a mint of this batch contains 0.775 kcal of exchange energy. Weighing of 32 animals, performed at the beginning and at the end of the accounting period, shows the change in body weight, g: Experience Day Control 6th Experience 5949059430 10th 6665068020 The control weight is 7160 g, and the experience 8590 g. 1.13 kcal in 1 g, in 100 g of by-products 113 kcal of exchange energy are contained. Claim Method A method for determining the exchange energy of a feed, including selecting groups of animals, quantitatively accounting for feed, keeping animals on a common diet for equal periods of time, followed by replacing part of the feed with the test feed in the experimental group, characterized in that, in order to speed up and simplify the method, from the available feeds, a control feed is isolated with a known content of exchange energy, then the animals are weighed before the test feed is administered, on the day the feed is introduced before the first feed, 5-10 days after its injections, after which the differences in the weight of the test and control groups are determined and the exchange energy of the test food (X, kcal / g) is calculated by the formula A (Bi-B2) -K (M | -Mg) X-g where A - exchange energy of 1 g of control feed, kcal; BI - the number of fed control feed in the control group for the reference period, g; j1264896 B2 - the number of fed control-M2 feed in the experimental group for the reference period, g; MI is the total weight gain in live weight of animals — K in the control group over the accounting period, g; C — d is the total weight gain in live weight of animals in the experimental group during the reference period, g; standard consumption per 1 g weight gain of young animals, kcal; the amount of fed feed under study during the reference period,