RU2765125C1 - Method for feeding young rabbits - Google Patents

Abstract

FIELD: rabbit breeding.

SUBSTANCE: invention relates to the field of rabbit breeding, and in particular to a method for feeding young rabbits. The method is characterized by the fact that animals are fed from jigging to slaughter for meat with a complete granulated feed, consisting of the following initial components, %: oats - 35.0; barley - 21.7; corn -21.0; sunflower meal - 10.0; herbal flour - 10.0; feed chalk - 1.0; monocalcium phosphate - 1.0; table salt - 0.3. Compound feed is rationed weekly at the rate of g per head per day: 1 and 2 weeks at 100.0; 3 and 4 weeks - 125.0; 5 week - 130.0; 6th - 140.0.

EFFECT: use of the invention will preserve the high meat productivity of young rabbits.

1 cl, 5 tbl

Description

The invention relates to the field of rabbit breeding (growing commercial young animals to obtain dietary meat from them).

World production of rabbit meat, according to various sources, ranges from 2.0 to 2.5 million tons per year. Among the producing countries, the leader is China (660.0 thousand tons), followed by Italy (330.0), France (250.0), Spain (180.0) (Komlatsky V.I., Tsyganok L.E. ., Turkova BC, 2019; Nigmatullin RM, Balakirev N.A., 2020). All over the world, rabbit breeding is a well-developed and profitable livestock industry (Velkina, 2019). Russia produces only 15 thousand tons. Italians consume the most rabbit meat per capita per year - 6 kg, French - 3 kg, Russians - less than 100 g.

Among other objective reasons for the low consumption of rabbit meat in Russia, its selling price is important, which directly depends on the cost of production. The most expensive item in the cost of rabbit meat is the cost of feeding, reaching 60-70%. Therefore, reducing the cost of feeding while maintaining a high level of productivity is a paramount task that can only be solved by creating reasonable feeding norms based on the peculiarities of the physiology of digestion.

When organizing the feeding of all types of farm animals, first of all, it is necessary to take into account the physiological characteristics of digestion in order to provide the body with all the nutrients in a certain ratio for the maximum realization of the genetic potential in products (Norms and diets, 2003).

Rabbits are herbivorous animals with a single-chamber stomach. Their digestive processes are of a peculiar nature and differ from those of other herbivorous farm animals. The main feature of the physiology of rabbit digestion is the presence of cecotrophy and cecotrophophagy processes, due to which they themselves provide themselves with additional nutrients and biologically active substances, in particular vitamins (De Blas C., Wiseman J., eds., 2010; Laktionov K.C., Zuenko V.A., 2016).

The main type of feeding in the industrial production of rabbit products is feeding with complete granular compound feed (PGK). According to the norms, PGK includes 1% of the vitamin-mineral premix P 90 - 2 (Feeding norms and standards ..., 2007).

In a series of balance and scientific and economic experiments on young rabbits of the Soviet chinchilla breed, it was shown that the addition of synthetic vitamins and microelements to PGA, either as part of the premix or separately, does not affect their meat productivity (Kvartnikov M.P. et al., 2020; Kvartnikova E.G., Kosovsky G.Yu., Kvartnikov M.P., 2020).

The main condition in the rational use of feed agricultural - x. the ratio of nutrients in it serves as animals.

The purpose of the claimed invention is the development of an optimal complete granular compound feed (PCF) for young rabbits that satisfies their physiological need for nutrients and energy and reduces the cost of feeding while maintaining meat productivity.

It is known that all the nutrients and energy of feed are absorbed by the animal's body in a strictly defined ratio, characteristic of each species (Norms and diets ..., 2003). The more adequately for each specific species the diet will be composed according to the ratio of nutrients, the more rationally the feed will be used in obtaining products and maintaining the homeostasis of the animal.

The claimed method of feeding young rabbits, as can be seen from the examples, ensures the realization of the genetic potential of young rabbits in a smaller amount than typical compound feed, which indicates its fuller compliance with the needs of the animal.

The method of feeding young rabbits is characterized by the fact that animals from jigging (45 days) to slaughter for meat (90 days) are fed with complete granular compound feed (PGK), consisting of vegetable and mineral components of the following composition,%: oats -35.0; barley - 21.7; corn - 21.0; sunflower meal - 10.0; herbal flour - 10.0; fodder chalk - 1.0; monocalcium phosphate - 1.0; table salt - 0.3. Compound feed is rationed weekly at the rate of g per head per day: 1 week - 100.0; 2nd - 100.0; 3rd - 125.0; 4th - 125.0; 5th - 130.0; 6th - 140.0.

The invention is illustrated by the following examples.

In a series of balance experiments on young rabbits of the Soviet chinchilla breed, it was found that the digestibility coefficient of nutrients in the diet depends on their ratio. Production approbation confirmed the results of experiments. From 120 heads of young rabbits of the Soviet chinchilla breed of 45 days of age, 2 groups of 60 heads each were formed according to the principle of analogues: 1 - control, 2 - experimental. The rabbits were seated on both sides of a 2-row shed with one head per cage. PGA of both groups was made at the Tosnensky feed mill from the same plant and mineral components: barley, oats, corn, grass flour, sunflower meal, fodder chalk, monocalcium phosphate, table salt. The composition of PGA 1 of the control group contained 1% of the vitamin-mineral premix P 90-2, the composition of PGA 2 of the experimental group contained no vitamin-mineral premix.

The nutritional value of the diets of both groups, determined by the method of complete zootechnical analysis (Zootechnical analysis of feed, 1981), is presented in table 1.

From the data in Table 1 it can be seen that the feed in both groups was identical in terms of gross calorie content, but somewhat differed in the ratio of nutrients. In the feed of the experimental group, there were more nutrients with the highest digestibility coefficient (fat and BEV).

The dynamics of live weight and its average daily gain in young rabbits is presented in Table 2.

From the data in Table 2 it can be seen that in terms of live weight, the rabbits of the experimental and control groups did not have significant differences. But the variability of live weight in the experimental group was greater than in the control group, which indicates uneven growth in individual individuals. The average daily gain in live weight in the first 15 days of testing in rabbits of the experimental group was less than in the control by 8.7 g, in the next 15 days - by 5.9 g, and from 75 to 90 days exceeded the control group by 2.5 d. Accordingly, the average daily gain for the entire testing period, as well as the relative increase in live weight, did not differ significantly between the groups.

The coefficient of variation (V) of the live weight of rabbits in both the control and experimental groups was low. According to the criteria of variation statistics, a sample with a coefficient of variation less than 33.3% is considered homogeneous.

The safety of the livestock in the groups was practically at the same level and corresponded to the technological waste, %: group 1 - 90.0; 2 - 93.3.

The dynamics of the average daily consumption of FHA by groups is presented in Table 3.

From the data in Table 3 it can be seen that the rabbit of the control group consumed an average of 165.2 g of feed per day, the experimental one - 117.2 g, which is 48 g less than in the control, given that all animals were fed ad libitum. The average daily feed consumption in the control group is 40 g higher than the norm, in the experimental group it is 12 g lower than the norm (Feeding norms and standards ..., 2007).

Indicators of meat productivity of young rabbits and feed conversion by groups are presented in table 4.

From the data in Table 4 it can be seen that, despite the significantly lower pre-slaughter weight in the experimental group, the average carcass weight between the groups did not have significant differences, and this is the main final productive indicator. The slaughter yield in both groups was high and differed slightly, while the feed intake per rabbit head during the testing period in the experimental group was 2160 g less than in the control. This made it possible to reduce the feed conversion ratio in the experimental group by 1.32.

The chemical composition of rabbit meat samples by groups taken from the cervical and hip regions is presented in Table 5.

From the data in Table 5 it can be seen that the chemical composition of rabbit meat from the femur between the groups has no significant differences. In meat samples from the neck part of the experimental group, there was a significantly higher content of protein, fat and, accordingly, gross calorie content. This once again confirms that the diet of the experimental group without premix was more optimal for obtaining meat products from young rabbits.

In the cost of rabbit meat production, the cost of feeding is on average 60%, so even a slight reduction in the cost of feed increases profitability.

The results of industrial approbation convincingly illustrate the economic efficiency of this scientific development.

The average market price of 1 kg of vitamin and mineral premix for rabbits is 200 rubles. In PGA it is included in the amount of 1%, or 1 kg 10 g, which cost 2 rubles. at an average price of 1 kg of PGK 20 rubles, that is, the cost of the premix in the price of feed is 10%.

In the experimental group for 45 days, one rabbit ate 2.16 kg of feed less than in the control. At an average price of 1 kg of feed for rabbits, 20 rubles. feeding one head in the experimental group cost 105.5 rubles, in the control group - 148.7 rubles, by 43.2 rubles. more expensive, or 29.1%. At the same time, the meat productivity in the groups was at the same level, and the nutritional value and gross calorie content of the meat of the cervical region in the experimental group was significantly higher.

Consequently, with the optimal rationing of nutrients, vitamins and microelements in the feeding of young rabbits, it is possible to achieve a reduction in feed costs by 39.1% while maintaining high meat productivity.

Sources of information

1. Velkina L.V. World trends in the development of rabbit breeding // Economics of agriculture in Russia. 2019. No. 3. S. 93-98. DOI: 10.32651/193-93.

2. Zootechnical analysis of feed / E.V. Petukhov, Russian Federation. Bessarabova, L.D. Khaleneva, O.A. Antonova. - M.: "Spike", 1981. - 256 p.

3. Kvartnikova E.G., Kosovsky G.Yu., Kvartnikov M.P. Meat productivity of rabbits with dry type of feeding without vitamin-mineral premix // Rabbit breeding and fur farming. - 2020. - No. 4. - S. 34-39.

4. Kvartnikov M.P., Kvartnikova E.G., Myaldzin A.R., Kiselev A.L., Yakhin A.Ya. The degree of influence of synthetic vitamins and microelements on the meat productivity of young rabbits // Rabbit breeding and fur farming. - 2020. - No. 1. - S. 14-20.

5. Komlatsky V.I., Tsyganok L.E., Turkova B.C. Development of industrial rabbit breeding in the Kuban // Rabbit breeding and fur farming. 2019. No. 5. P. 8-15.

6. Laktionov K.S., Zuenko V.A. Physiology of rabbit digestion. Eagle, 2016. - 194 p.

7. Nigmatullin R.M., Balakirev N.A. Breeding and breeding work in rabbit breeding. M.: Publishing House "Scientific Library", 2020. 514 p.

8. Norms and diets of farm animals. Reference manual 3rd and revised and enlarged edition. Edited by A.P. Kalashnikov, V.I. Fisinina, V.V. Shcheglova, N.I. Kleymenov. M., 2003. - 456 p.

9. Norms of feeding and norms for the cost of feed for fur-bearing animals and rabbits. Reference manual. Edited by N.A. Balakirev, V.F. Kladovshchikov. M., 2007. 185 p.

10. De Bias C, Wiseman J., eds. nutrition of the rabbit. 2nd ed. CAB International, Nallingford. 2010. 325 p.

Claims (1)

A method for feeding young rabbits, characterized in that from jigging to slaughter, the animals are fed with a complete granulated compound feed for meat, consisting of the following initial components, %: oats - 35.0; barley - 21.7; corn -21.0; sunflower meal - 10.0; herbal flour - 10.0; fodder chalk - 1.0; monocalcium phosphate - 1.0; table salt - 0.3; at the same time, feed is rationed weekly at the rate of g per head per day: 1 week - 100.0; 2nd - 100.0; 3rd - 125.0; 4th - 125.0; 5th - 130.0; 6th - 140.0.