RU2813533C1 - Effective composition of complete food for lactating rabbits - Google Patents

Abstract

FIELD: rabbit breeding.

SUBSTANCE: invention relates to feeding lactating rabbits to maintain their high reproductive capacity. The feed contains plant and mineral components. The components include barley, sunflower meal, corn, oats, grass flour, limestone flour, monocalcium phosphate, wheat bran, and table salt.

EFFECT: use of the invention will reduce the cost of feeding rabbits while maintaining their high reproductive capacity.

1 cl, 4 tbl, 2 ex

Description

Rabbits are herbivorous animals with a single-chamber stomach. Their digestive processes differ from those of other herbivorous farm animals.

The main feature of the digestive physiology of rabbits is the presence of the processes of cecotrophy and cecotrophophagy, due to which they provide themselves with additional nutrients and biologically active substances, in particular vitamins (De Blas C., Wiseman J., eds., 2010; Laktionov K.S., Zuenko V. A., 2016).

The main type of feeding in the industrial production of rabbit products is feeding with complete granulated feed (PGF), the so-called dry type of feeding. For dry feeding, it is recommended to include 1% vitamin-mineral premix P 90 - 2 in the PGC composition (Feeding norms and standards..., 2007).

An effective method of meat production has been developed for young rabbits, based on feeding PGC without the addition of a vitamin-mineral premix, taking into account the own synthesis of vitamins by the microbiome of the cecum (Kosovsky G.Yu., Kvartnikova E.G., Kvartnikov M.P., 2022) . In the cost price of PGC, the cost of the vitamin-mineral premix is approximately 10%.

The purpose of the claimed invention is to develop an effective complete granulated feed (PGF) for lactating rabbits, satisfying their physiological needs for nutrients and energy and allowing to reduce feeding costs while maintaining reproductive ability. This goal is achieved by creating a recipe for a complete granulated feed for lactating rabbits of a certain nutritional value and calorie content without the inclusion of animal feed, with or without a vitamin-mineral premix.

The declared composition of PGA, as can be seen from the examples, ensures the realization of the genetic potential of lactating rabbits with a lower level of protein, 25.8-28.9% lower than in the recommended standards, and the possibility of excluding the vitamin-mineral premix from the feed in order to reduce its cost by 10 percent.

Composition of the declared feed,%: barley - 30.0; sunflower meal -27.9; corn - 16.5; oats - 12.1; herbal flour - 10.0; limestone flour - 1.0; monocalcium phosphate - 1.0; wheat bran - 1.0; table salt - 0.5.

The invention is illustrated by the following examples.

Example 1.

The digestibility of nutrients of complete granulated feed (PGF) by lactating Soviet chinchilla rabbits was studied in a balance experiment, according to the methodological instructions of V.F. Kladovshchikova, Yu.A. Samkova (1975) and A.I. Ovsyannikova (1976). From 8 ten-month-old female rabbits, analogues in date of birth and live weight, 2 groups of 4 heads each were formed (group 1 - control, 2 - experimental).

The female rabbits were placed one head at a time in specially equipped exchange cages, which made it possible to strictly account for feed consumption and animal excretion. The female rabbits of the control group received experimental PGK, manufactured at the Tosnensky feed mill, with the following composition,%: barley - 30.0; Sunflower meal - 27.9; corn - 16.5; oats - 12.1; herbal flour - 10.0; limestone flour - 1.0; monocalcium phosphate - 1.0; premix P 90-1 - 1.0; table salt - 0.5.

Female rabbits of the 2nd experimental group received experimental PHA of the same composition, but instead of a vitamin-mineral premix it included 1% wheat bran, which was a filler in the premix of the control group.

In the balance experiment, the rabbits were fed according to palatability, with strict consideration of food residues.

The content of raw nutrients and gross energy in PGC, as well as the chemical composition of rabbit excretions, were determined by the method of complete zootechnical analysis (Zootechnical Analysis of Feeds, 1989).

The nutritional value of PGA for rabbits of the control and experimental groups, determined by the method of complete zootechnical analysis, is presented in Table 1.

From the data in Table 1 it can be seen that the diets of the experimental and control groups were completely identical in nutritional value.

The most expensive component of feed is protein. The price of feed is directly dependent on the protein content in it. According to the latest feeding standards (2007), the crude protein content in feed for lactating rabbits is recommended within 20.9-21.8%. The protein content in the feed of both groups is 25.8-28.9% lower than the recommended standards.

The coefficients of digestibility of nutrients and gross energy by female rabbits during lactation are presented in Table 2.

From the data in Table 2 it can be seen that the digestibility coefficients of dry, organic matter, fiber, BEV and gross energy by female rabbits of the experimental group in the first week of lactation are significantly lower than those of the control group. The digestibility coefficients of protein and fat are approximately at the same level in both groups, which indicates their stability and independence from the presence of a vitamin-mineral premix.

Thus, the vitamin-mineral premix in the composition of PGA does not affect the digestibility coefficients of protein and fat, but helps to increase the digestibility coefficients of other nutrients and gross energy.

The absorption of protein from PHA by lactating rabbits, determined by the nitrogen balance in their body, is presented in Table 3.

From the data in Table 3 it can be seen that there is no significant difference in the absorption of nitrogen by female rabbits between the groups, but there is a tendency for greater protein absorption in the experimental group due to less release of endogenous nitrogen.

Greater protein absorption by female rabbits of the experimental group was also manifested in their greater milk production, determined by the indirect method, by 624.85 g (control - 2536.65 ± 755.27; experiment - 3161.50 ± 73.89).

Thus, the vitamin-mineral premix in the composition of PGA does not affect the digestibility coefficients of protein and fat, but helps to increase the digestibility coefficients of other nutrients and gross energy. The absorption of nitrogen in the body of lactating rabbits tends to increase in the absence of a vitamin-mineral premix in the PGC.

Example 2.

The scientific and economic experiment on lactating rabbits was carried out according to the same scheme as the balance experiment. The female rabbits of the control group (21 animals) received PHA with a vitamin-mineral premix, and the experimental group (19 animals) received PHA without a premix.

The reproduction results of female rabbits are presented in Table 4.

From the data in Table 4 it is clear that according to the results of reproduction, the rabbits of the control and experimental groups did not have any significant differences. The fertility of female rabbits and the yield of female rabbits to a successfully bred female rabbit differed significantly between the groups. The average daily feed consumption of rabbits in the control and experimental groups was also the same.

Thus, the results of physiological and scientific-economic experiments indicate that feeding lactating female rabbits PGC with a level of crude protein below the recommended standards by 25.8-28.9% does not reduce their reproductive ability. The inclusion of a vitamin-mineral premix in PGA helps to increase the digestibility of some nutrients and gross energy, but does not affect productivity. At the same time, the cost of feeding increases by an average of 10%. Lactating rabbits can be fed, while maintaining the specified productivity, with both the mixed feed of the control and experimental groups, only the cost of feeding the PGC of the control group will be 10% higher.

List of used literature

1. Zootechnical analysis of feed / E.A. Petukhova, R.F. Bessarabova, L.D. Khaleneva, O.A. Antonov. Ed. 2nd, revised and additional M.: Agropromizdat, 1989. - 239 p.

2. Kladovshchikov V.F., Samkov Yu.A. Study of the digestibility of feed nutrients, nitrogen and energy balance in fur-bearing animals: Guidelines. - M., 1975. - 61 p.

3. Kosovsky G.Yu., Kvartnikova E.G., Kvartnikov M.P. Method of feeding young rabbits. Patent for invention No. 2765125, bulletin No. 3 dated January 25, 2022, M., 2022.

4. Laktionov K.S., Zuenko V.A. Physiology of digestion in rabbits. Orel, 2016. - 194 p.

5. Norms and rations of farm animals. Reference manual 3rd and revised and expanded edition. Edited by A.P. Kalashnikova, V.I. Fisinina, V.V. Shcheglova, N.I. Kleimenov. M., 2003. - 456 p.

6. Feeding standards and feed cost standards for fur-bearing animals and rabbits. Reference manual. Edited by N.A. Balakireva, V.F. Kladovshchikov. M., 2007. 185 p.

7. Ovsyannikov A.I. Fundamentals of experimental business in animal husbandry. - M.: “Kolos”, 1976. - 304 p.

8. De Bias S., Wiseman J., eds. Nutrition of the rabbit. 2nd ed. CAB International, Nallingford. 2010. 325 p.

Claims (2)

An effective complete granulated feed for lactating rabbits, characterized by the fact that it consists of plant and mineral components in the following ratio of components, wt. %: barley 30.0 sunflower meal 27.9 corn 16.5 oats 12.1 grass flour 10.0 limestone flour 1.0 monocalcium phosphate 1.0 wheat bran 1.0 table salt 0.5