RU2475040C2 - Cattle milk productiveness enhancement method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to zootechny and may be used in dairy cattle breeding. The cattle milk productiveness enhancement method involves introduction of an additive of sapropel from Orenburg Lake of Yetkulsky raion of the Chelyabinsk oblast and of expanded vermiculite into the animal ration. The additive production is as follows: one adds expanded vermiculite in an amount of 200-220 g into sapropel in an amount of 780-800 g; the produced mixture is stirred and fed to animals in a dose of 0.70-1.20 per kg of live weight once a day during 14-16 days; then one makes a pause for 14-16 days. The additive introduction into the ration is performed according to the said schedule three times.

EFFECT: invention usage allows to enhance cattle milk productiveness.

3 tbl, 1 ex

Description

The invention relates to livestock and can be used in dairy cattle breeding.

Milk production is held back by malnutrition in livestock. The main condition for the effective use of the components of the feed by the animal body is the fullness of the diet for all nutrients, vitamins and mineral elements. Trace elements are part of many enzymes involved in the biosynthesis of proteins, fats and carbohydrates. Therefore, a deficiency in the diet of individual mineral elements leads to a violation of the digestibility of nutrients in the intestine and inhibition of biosynthetic processes in tissues (A.I. Voiner, 1960).

Deficiency of phosphorus, calcium, micronutrients, vitamins is not compensated by imported feed. To balance the diets of cattle by mineral elements and vitamins, the industry produces a huge range of feed additives. However, for many households they are not available due to the high cost and lack of funds for their acquisition. An alternative can be cheap and environmentally friendly natural sources of biologically active substances.

A known method of increasing the milk productivity of cattle using sapropel as a stimulant. Sapropel is a silty sediment of fresh water bodies containing a large amount of organic substances, as well as inorganic components of a biogenic and introduction nature (V. B. Dobretsov, 2005).

According to E.G. Medvedev (1961), when feeding sapropel in the amount of 1.5-2 kg per head per day, milk yield increased during the lactation period by 242-293 l and milk fat content by 0.19-0.20%.

To study the effect of sapropel on the milk productivity of cows, A.L. Musikhin (1962) conducted a scientific and economic experiment. Cows were fed 1 kg of sapropel per day. The milk yield of cows fed sapropel in addition to the main diet was 9.4% higher than that of the control counterparts. However, in ecologically unfavorable zones or in biogeochemical provinces of natural origin, the effectiveness of the method for increasing the milk productivity of cattle, including the introduction of sapropel in the diet, is reduced due to the content of heavy metals in the feed, an excess of some, and a lack of other chemical elements.

The aim of the invention was to develop a more effective way to increase the milk productivity of cattle by adding additives from the sapropel of Lake Orenburg in the Etkul region of the Chelyabinsk region and expanded vermiculite from the Potanensky field of the Chelyabinsk region to the diet of animals. The additive is obtained from the calculation: in the sapropel weighing 780-800 g add expanded vermiculite in an amount of 200-220 g, the resulting mixture is mixed and fed to the animal at a dose of 0.70-1.20 g per kilogram of live weight once a day for 14- 16 days, then take a 14-16-day break. Introduction to the diet of the additive is carried out according to the specified scheme three times.

The composition of the sapropel of Lake Orenburg in the Etkul region of the Chelyabinsk region is presented in table 1.

Table 1 The composition of the sapropel of Lake Orenburg, Etkul district, Chelyabinsk region Name of indicator Actual Content 1. Appearance Mass of homogeneous gray to black visco-plastic consistency 2. The reaction medium, pH units 8.6 3. Mass fraction of dry matter,% 16.6 4. Mass fraction of organic matter,% 56.3

Continuation of table 1 Name of indicator Actual Content 5. Mass fraction of total nitrogen,% 1,67 6. Mass fraction of ammonia nitrogen,% 0.006 7. Mass fraction of total phosphorus,% 0.25 8. Mass fraction of calcium,% 14.8 9. Mass fraction of iron,% 1.44 10. Mass fraction of sulfur,% 3.02 11. Mass fraction of fat,% 0.24 12. Mass fraction of crude fiber,% 30.63 13. Mass fraction of crude protein,% 11,4 14. The concentration of amino acids, mg / kg Aspartic acid 6.3 Glutamic acid 6.6 Series 2.9 Histidine 5.1 Glycine 4.2 Threonine 4.0 Arginine 3.4 Alanine 4.0 Tyrosine 2.2 Valine 2.9 Phenylalanine 2.7 Isoleucine 1,5 Leucine 3,1 Lysine 2,4 Cystine 0.37 Methionine 0.92 Tryptophan 0.58 15. The concentration of toxic elements, mg / kg Cadmium 0.20 Copper 3.80 Arsenic 1.06 Mercury 0.005 Lead 2,31 Zinc 2,50 16. The activity of radionuclides, Bq / kg Cesium - 137 5.32 Strontium - 90 7.00

Expanded vermiculite is a natural mineral from the hydromica group, a light, loose and porous material.

The composition of vermiculite includes 35.12% SiO ₂ , 9.39% Al ₂ O ₃ , 6.35% Fe ₂ O ₃ , 0.06% MnO, 25.96% MgO, 1.12% CaO, 0.78 % K ₂ O, 0.42% TiO ₂ .

From the generally available literature, we are not aware of such technical solutions that provide that 200-220 g of expanded vermiculite from the Potanensky field is added to sapropel (deposits of Lake Orenburg in the Etkul district of the Chelyabinsk region) and mixed, the finished preparation is fed to the animal in a dose 0.70-1.20 g per kilogram of live weight per head per day for 14-16 days, then a 14-16-day break is made, supplementation according to this scheme is carried out three times.

Thus, the claimed method meets the criteria of the invention of "novelty." Analysis of the prototype and other similar methods in this field of livestock technology did not reveal signs similar to the claimed solution, which allows us to conclude that the proposed method meets the criterion of "inventive step". Testing the method in agricultural production showed that the invention is industrially applicable.

Studies on the use of sapropel in cattle feed have shown that sapropel supplements to the main diet stimulate the growth of animals of all ages by 9-12%, have a positive effect on digestive processes in the pancreas, and increase digestibility and assimilation of nutrients from the diet.

As you know, a valuable component of sapropels is the humic complex. Its humic acids stimulate biological processes in a living organism, have antimicrobial and antiseptic effects, increase the digestibility of diets, and hence livestock productivity. In addition, sapropel is rich in minerals, vitamins: B ₁ , B ₂ , B ₁₂ , pantothenic acid, pyridoxine, folic acid, carotene and other biologically active substances (G.A. Evdokimova, 1988).

The presence of biologically active substances determines the activation of physiological processes in the body of the animal. When feeding sapropelic feed additives, the activity of the most important animal systems and organs is improved: hematopoiesis, blood circulation, liver, stomach, as a result of which the morbidity decreases, and resistance to adverse environmental influences increases. Animals that receive sapropel in the diet are distinguished by good appetite, great fatness, which leads to an increase in the yield of milk productivity, and an improvement in its quality. A significant drawback of sapropel is a significant reduction in the degree of assimilation of the animal by its body when using low-quality feeds and the content of toxic substances in them (V.A. Antipov, 2004).

An important problem of increasing livestock production is to increase the safety and productivity of animals. At the same time, poisoning associated with feeding poor-quality feed and the presence of excessive amounts of heavy metals in water and feed are causing great economic damage to dairy cattle (I.M. Karput et al., 1989; V.M.Scheglov, 1995).

Toxic substances in feed and water cause a decrease in the productivity of cows, pass into milk, meat and products derived from them. In order to protect farm animals and products obtained from them from various toxicants, drugs are used that have sorption, ion exchange and cytoprotective properties. Due to their physicochemical properties, enterosorbents have the ability to bind various pathological metabolites, heavy metals, and bacterial toxins (N.A. Belyakov, 1991).

Vermiculite is an effective sorbent with high ion-exchange properties in relation to a large group of environmentally hazardous substances: metal ions, organic compounds such as phenol, dioxin, oil products, carcinogens, toxic chemicals, nitrates and nitrites, chlorine, fluorine, sulfur compounds (P Ya.Akhtyamov, 1999, AMGertman, D.M. Maksimovich, 2002).

A study by AMGertman (2002) found that the use of vermiculite from the Potanensky deposit in the diet of dairy cows improved the quality of milk: the mass fraction of fat increased by 0.18%, the mass fraction of total protein - by 0.43%, dry skim milk residue - by 0.4%. In addition, titratable acidity decreased by 1.5 ° T, which indicates an improvement in the bactericidal properties of milk. The average daily milk yield increased by 10.3%. However, a significant drawback of vermiculite is the absence in its composition of organic compounds, including biologically active substances and nitrogen-containing compounds. The use of vermiculite in large doses can cause hypotension of the pancreas in cows. The rationale for determining the amount of vermiculite included in the feed supplement was a series of scientific experiments. Initially, when conducting preliminary research experimentally, it was found that the dose of vermiculite Potanensky deposits of the Chelyabinsk region of 0.4; 0.6; 0.8; 1.0 g / kg of live weight, applied once a day for 30 days without a break, reduces the processes of cicatricial digestion in ruminants. The higher the amount of the mineral, the faster the signs of partial hypotension of the cow’s pancreas were detected. When examining cicatricial contents on the 15th day of studies at a maximum test dose of 1.0 g / kg body weight per day, the total number of ciliates decreased by 16.0%, the active acidity of the rumen medium increased to 7.5 (with a norm of 7.2 7.3), the amount of acetic and propionic acids decreased by 14.7 and 12.1%, respectively, of the norm. On the 30th day of the study, a reduction in scar reduction was found (DR2 at 2 minutes with a normal DR4 of 2 minutes), and the reductions were sluggish, irregular. An increase in ruminant periods was also noted. These data served as the basis for the decision on the need to take breaks with the additional introduction of ruminants into the diet for up to two weeks.

When vermiculite of the Potanensky deposit of the Chelyabinsk region was introduced into the diet at a dose of 0.2-0.3 g / kg per day for 30 days, the following results were obtained: on the 15th day of studies, the total number of ciliates increased by 9.4%, an active reaction environment within the normal pH range of 7.2, a slight increase in the concentration of acetic and propionic acids by 10.3 and 7.1%, respectively. On the 30th day of the research, the total number of ciliates relative to the research on the 15th day decreased by 4.3%, but still it was higher than the norm by 5.3%. The active reaction of the environment of cicatricial contents was within pH = 7.3, the concentration of acetic and propionic acids slightly decreased relative to studies conducted on the 15th day. The obtained data confirmed the need for a break with the introduction of vermiculite in the ruminant mineral, which is associated with the digestion in the multicameral stomach of ruminants.

At the second stage of preliminary studies, the dose effectiveness of the vermiculite of the Potaninsky field was checked. Vermiculite was used in doses of 0.15; 0.20 and 0.25 g / kg body weight per day for 14-16 days with an interval of 14-16 days. It was found that on the 15th day of the study, the total number of ciliates, the concentration of acetic and propionic acids increased. On the 30th day of the experiment, the total number of ciliates increased on average by 21.9%, the concentration of acetic and propionic acids by 29.4 and 26.1%, respectively. Therefore, it was concluded that the introduction of vermiculite in the diet in such an amount with an interval of 14-16 days promotes the activation of cicatricial digestion. The introduction of vermiculite in large doses in the diet is undesirable, since partial scar hypotension occurs. Doses of vermiculite less than 0.15 g / kg body weight are not effective. When preparing a feed additive from sapropel and vermiculite, the components were used in a ratio of 4: 1, respectively, the dose was 0.7; 0.95 and 1.2 g / kg body weight per day.

The positive qualities of sapropel and vermiculite determine their compliance with modern requirements and trends in the production of environmentally friendly products. The development and implementation of such products in dairy farming is relevant not only to improve the qualitative and quantitative characteristics of the final product - milk, but also to maintain the optimal level of animal health. The inclusion of such drugs in the diets of dairy and dead cows will significantly increase the efficiency of dairy farming.

The use of sapropel and vermiculite in feeding dairy cows contributes to an increase in their milk production. However, the introduction of sapropel and vermiculite in animal diets separately from each other is not quite effective, since it slightly reduces the cost of purchasing feed per unit of output and slightly increases the quantity and quality of milk produced.

Execution example. To test the effectiveness of this method, an experiment was conducted on the basis of Yasny Polyany LLC, Troitsky district, Chelyabinsk region. As experimental animals we took cows of the Simmental breed of Austrian breeding at the age of three years (after the second lactation) with an average live weight of 600 kg and formed five groups on the basis of pairs of analogues. During the study, all animals were in the same conditions of feeding and keeping in a 4-row barn on a leash. In the summer, during the daytime, the animals were in the pasture, at night - indoors. In the winter, during the daytime, the animals were provided with active exercise in a walking yard in fine weather, the rest of the time the cows were kept indoors.

Feeding all animals during the experiment was the same, using the same feed. Animals of the 1st group received the main diet adopted on the farm (control group). In addition to the main diet, animals of group II were given 450 g of sapropel (0.75 g / kg of live weight) per head per day (prototype). In addition to the main diet, animals of the III group were given 420 g of sapropel feed additive (0.70 g / kg body weight); Group IV - 570 g of sapropel feed additive (0.95 g / kg body weight); V groups - 720 g of sapropel feed additive (1.20 g / kg live weight) per head per day, prepared according to the claimed method. Sapropel and sapropel feed supplement were mixed with concentrated feed during morning feeding for 15 days, then a 15-day break was taken. The introduction of additives into the diet was carried out in the indicated sequence three times. In the course of scientific and industrial experience, sapropel of Lake Orenburg in the Etkul region of the Chelyabinsk region (subsoil user of NPO Organika LLC), vermiculite of the Potanensky field of the Chelyabinsk region were used.

We studied the milk productivity and milk quality of Simmental cows in the second lactation. Milk productivity is characterized by the quantity and quality of milk received from cows for a certain period of time. The best milk productivity was characterized by cows of the experimental groups (table 2).

When sapropel was included in the diet, animals of the experimental group II exceeded their control analogues with a high degree of reliability (P <0.001) in milk yield per lactation by 744.6 kg (17.9%), the average fat content in milk per lactation increased by 0, 50% (12.99 points), the average protein content per lactation increased by 0.12% (3.73 points, P <0.01). The cows of the experimental group II exceeded the animals of the control group by the amount of milk fat by 53.51 kg (33.48%, P <0.001), by the amount of milk protein by 29.71 kg (22.25%, P <0.001), the coefficient milk yield - by 122.68 kg (17.69%, P <0.001).

The research results indicate a positive effect of the proposed method of using sapropel and vermiculite on the milk productivity of cows.

When a sapropel feed additive prepared on the basis of the sapropel of the Orenburg Lake in the Etkul district of the Chelyabinsk region and the expanded vermiculite of the Potanensky field of the Chelyabinsk region is included in the diet, animals of the III, IV and V experimental groups exceeded their analogues from the second group in all of the above indicators. Thus, the difference with animals of the second group in milk yield for lactation in the III, IV and V groups was 69.7 (1.41%), 334.5 (6.82%), 168.9 kg (3.44%), respectively . The fat content in the milk of cows of groups III, IV and V of the group, on average per lactation, increased by 0.46 in comparison with animals fed with sapropel; 1.60 and 0.92 points, the total protein content, on average for lactation, increased by 0.30; 1.50 and 0.60 points, respectively. Cows of the III, IV, and V experimental groups exceeded animals of the II group in the amount of milk fat by 4.03 (1.89%); 18.18 (8.52%) and 9.38 kg (4.40%), by the amount of milk protein - by 2.89 (1.77%); 13.82 (8.47%) and 6.72 kg (4.12%), milk ratio - by 13.00 (1.60%); 58.59 (7.18%) and 29.53 kg (3.62%), respectively.

When comparing the milk productivity of cows fed different doses of a sapropel feed supplement prepared on the basis of the sapropel of Lake Orenburg in the Etkul region of the Chelyabinsk region and the expanded vermiculite of the Potanensky field, it is clear that the cows of the experimental group I received 570 g daily with food sapropel feed additive (0.95 g / kg body weight) over cows of groups III and V. In animals that were fed 0.70 g of sapropel feed additive per kg of live weight (group III) per head per day, the milk yield for lactation was lower by 264.8 kg (5.32%), the fat and protein content in milk - lower by 0.05 and 0.04%; the amount of milk fat and the amount of milk protein are lower by 14.15 (6.51%) and 10.93 kg (6.58%), respectively. The milk yield coefficient in cows of this group was also lower than in the group of animals that received 570 g of sapropel feed additive (0.95 g / kg body weight) daily with food, by 45.59 kg or 5.50%. With an increase in the dose of sapropel feed supplement from 570 g (0.95 g / kg live weight) to 720 g (1.20 g / kg live weight) per head per day, all indicators of milk productivity slightly decreased: milk yield for lactation - by 165, 6 kg (3.26%), the fat and protein content in milk decreased by 0.03%; the amount of milk fat and the amount of milk protein decreased by 8.8 (3.95%) and 7.1 kg (4.18%), the milk ratio decreased by 29.06 kg or 3.44%.

The animals of the experimental groups showed a higher steady lactation activity compared to the cows of the control group, which had a sharper and faster decline in productivity, starting from the fifth month of lactation. By the end of lactation, the average daily milk yield of cows of group II was higher than in the control group by 2.6 liters. When sapropel feed additives were included in the diet, this indicator increased by 1.40 (group III), 6.86 (group IV), and 3.46% (group V) compared with group II. That is, the average daily milk yield was also highest for cows who received 570 g of sapropel feed additive (0.95 g / kg live weight) per day per day with feed.

The composition and properties of cow's milk during lactation are presented in table 3.

Table 3

)Physico-chemical indicators and the sanitary condition of milk on average for lactation (n = 10,

) Indicator Group I II III IV V Dry matter content,% 12.43 ± 0.028 13.12 ± 0.07 *** 13.14 ± 0.051 *** 13.24 ± 0.077 *** 13.19 ± 0.026 *** SOMO content,% 8.60 ± 0.004 8.79 ± 0.006 *** 8.80 ± 0.003 *** 8.83 ± 0.004 *** 8.81 ± 0.002 *** The lactose content,% 4.59 ± 0.06 4.62 ± 0.03 4.62 ± 0.01 4.63 ± 0.02 4.62 ± 0.03 The calcium content, mg% 126.34 ± 0.56 128.59 ± 0.15 ** 128.61 ± 0.32 *** 128.65 ± 0.15 *** 128.62 ± 0.18 *** The phosphorus content, mg% 92.98 ± 0.550 102.64 ± 0.198 *** 102.68 ± 0.125 *** 102.89 ± 0.140 *** 102.74 ± 0.239 *** Density, ° A 28.94 ± 0.04 29.25 ± 0.056 29.28 ± 0.040 29.34 ± 0.067 29.30 ± 0.039 Titratable acidity, ° T 17.01 ± 0.073 16.83 ± 0.011 16.74 ± 0.018 16.59 ± 0.022 1b, 68 ± 0,032

From the data in Table 3 it can be seen that the use of sapropel and a feed additive prepared on the basis of the sapropel of Lake Orenburg in the Etkul region of the Chelyabinsk region and the expanded vermiculite of the Potanensky field in the diet of dairy cows made it possible to increase the content of the main components in the milk of cows of the experimental groups. Compared with the control group (I), in milk of cows of group II with a high degree of certainty (P <0.001) there was 0.69% more dry matter (5.55 points), SOMO - 0.19% (2.20 points) ) When vermiculite is added to sapropel, there is a further increase in these indicators. So, in the milk of cows of the III, IV and V groups of dry matter there was more than in the milk of cows of the II group, by 0.02-0.12%, SOMO - by 0.01-0.04%. The highest concentration of dry matter and SOMO was found in the milk of cows fed daily with 570 g (0.95 g / kg live weight) of sapropel feed additive per head per day. With a decrease in this dose to 420 g (0.70 g / kg live weight) or an increase to 720 g (1.20 g / kg live weight) per head per day, a decrease in the values of these indicators was established: dry matter content - by 0.1 (III group) - 0.05 (V group)%, SOMO content - by 0.03 (III group) - 0.02 (V group)%. Differences in the content of milk sugar for animals of all groups were not significant. In the quantitative determination of the basic mineral elements of milk, it was found that the calcium content ranged from 126.34 ± 0.56 (I group) to 128.65 ± 0.15 (IV group) mg%, phosphorus - from 92.98 ± 0.55 (I group) to 102.89 ± 0.14 (IV group) mg%. The differences are significant at P <0.001. Moreover, the dynamics of changes in the content of calcium and phosphorus in the milk of cows in the control and experimental groups remains the same. The lowest concentrations of calcium and phosphorus were found in the milk of cows in the control group. When sapropel was added to the diet, the calcium content in the milk of group II cows increased by 2.25 mg%, and the phosphorus content increased by 9.66 mg%. When feeding cows sapropel together with vermiculite, there is a further increase in the values of these indicators. The calcium content in the milk of cows of group III, IV and V was higher than in the milk of cows of group II, 0.02 (group III) - 0.06 (group IV) mg%, phosphorus content - 0.04 (group III ) - 0.25 (IV group) mg%. The highest concentration of calcium and phosphorus was in the milk of cows fed daily with 570 g (0.95 g / kg live weight) of sapropel feed supplement per head per day. With a decrease in this dose to 420 g (0.70 g / kg body weight) or an increase to 720 g (1.20 g / kg body weight) per head per day, a decrease in the values of these indicators was established: calcium content - by 0.04 ( III group) - 0.03 (V group) mg%, phosphorus content - 0.21 (III group) - 0.15 (V group) mg%. The density and titratable acidity of the milk of cows from the control and experimental groups were at the same level, the differences between them were insignificant. However, the best indicators were again set for milk from group IV cows.

Thus, the method of increasing the milk productivity of cattle using a feed additive prepared on the basis of sapropel of the Orenburg Lake of the Chelyabinsk Region of the Etkul District and the expanded vermiculite of the Potanensky field increases the amount of milk produced and the content of the main substances that determine the biological and nutritional value of milk in it.

Based on this, milk production technology should provide for not only high milk yield, but also the possibility of better use of feed nutrients and, in particular, the synthesis of milk proteins and fats from them. This will allow you to get more milk with a high content of fat and protein.

From the results of hematological and biochemical studies it follows that in the blood of cows of the experimental groups, in comparison with the control group, a higher content of hemoglobin, red blood cells, total protein, glucose, as well as a higher activity of transamination enzymes were found. No significant differences in hematological parameters between animals of the experimental groups were found.

Based on the studies, it can be concluded that sapropel separately and in combination with vermiculite have a positive effect on protein, carbohydrate and mineral metabolism, increase the level of γ-globulins in the blood serum of animals, and stimulate erythropoiesis.

Thus, the use of sapropel separately and in combination with vermiculite in feeding dairy cows has a beneficial effect on the course of a number of physiological processes in the body, which is reflected in the morphological and biochemical parameters of blood and, as a result, in the milk productivity of cattle.

Summarizing the results obtained, we can conclude that the advantage of the claimed method, compared with the prototype and other proposals in this area, allows us to recommend a method of increasing the milk productivity of cattle, including sapropel feed additive, prepared on the basis of sapropel of Lake Orenburg, Etkulsky district of Chelyabinsk area, and expanded vermiculite of the Potanensky field at a dose of 0.70-1.20 g per kg of live weight per head per day for 14-16 days with a break of 14-16 days for increased ya milk productivity and improve the quality of cow's milk. The introduction of a feed additive according to this scheme is carried out three times.

Bibliography

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Claims (1)

A method of increasing the milk productivity of cattle, including the addition of sapropel additives to the diet, characterized in that the animals are fed with a mixture of sapropel from the Orenburg lake deposit of the Etkul region of the Chelyabinsk region and expanded vermiculite based on the calculation: expanded vermiculite is added to the sapropel weighing 780-800 g in an amount of 200-220 g, mix and give the animals a dose of 0.70-1.20 g / kg of live weight once a day for 14-16 days, then make a 14-16-day break, introducing sapropel mixture into the diet and sun healed vermiculite according to this scheme is carried out three times.