RU2478956C1 - Method of evaluating element status of birds on feather - Google Patents

Abstract

FIELD: veterinary medicine.

SUBSTANCE: method involves the analysis of chemical elements content in the substrate. Feather of live bird is used as a substrate for analysis. The selection of substrate is carried out from three places: area of head, back and wings. The feather is plucked at a total weight of 1 g.

EFFECT: method enables to evaluate in vivo the analysis of the bird element status with the possibility of its further correction.

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Description

The invention relates to the agricultural industry.

To determine the elemental status of the poultry organism, a method is known in which the tibia is used as a substrate (Scientific basis for feeding poultry: V.A. Fisinin, I.A. Egorov, T.M.Okolelova et al. - All-Russian Scientific. - research and technology institute of poultry farming. - Sergiev Posad: VNITIP, 2008. - 351 p.). The disadvantage of this method is that to take the material for analysis it is necessary to slaughter the bird. This procedure is time-consuming, and the selected substrate requires certain storage conditions.

In medical diagnostics, the study of hair has recently become of increasing interest in determining the elemental status of a person. Available data show that the content of chemical elements in the hair reflects the elemental status of the whole organism as a whole and is an integral indicator of mineral metabolism (A.V. Skalny, R.Kh. Sharygin. Microelement correction. - in the book: Encyclopedia of Traditional Traditional Medicine: Directions. Methods. Practices. / Compiled by I.M. Mineev. - M.: Publishing House AST: "Involvement", 2002. - 702 pp. - S.359-365. ISBN 5-17-010011-6). In this case, feathers can act as an analog of a human hair substrate for a bird.

The technical result of the invention is the intravital analysis of the elemental status of the bird with the possibility of further correction.

The problem is solved in that in order to assess the elemental status of the bird according to the feather, a substrate consisting of a feather of a live bird is used, the substrate is selected from three places: the area of the head, back and wings, the feather is plucked with a total weight of 1 g.

The figure 1 presents the age-related dynamics of the Ca / P ratio in the investigated substrates, the figure 2 presents the age-related dynamics of the K / Na ratio in the studied substrates.

In the figure 1, position 1 denotes the Ca / P ratio in the feathers of a bird, position 2 in the tibia. In figure 2, position 1 denotes the ratio of K / Na in the feathers of a bird, position 2 in the tibia.

The method is implemented as follows: in a bird in vivo from three different places, for example, the region of the head and neck; back and wings, a feather is plucked with a total mass of 1 g. After that, the analysis of the sample is carried out by atomic emission and mass spectrometry with inductively coupled argon plasma (AES-ICP and MS-ICP).

As a result of the studies, data were obtained on the age-related dynamics of macronutrients in the studied substrates, presented below (Table 1).

Considering changes in calcium concentration, it was found that in the feathers of a bird from 10 to 14 weeks of life, this element increases from 997 to 2610 mg / kg. A change in the concentration of calcium in the tibia occurs with a similar tendency from 10 to 12 weeks, decreasing by 14 weeks. Starting from week 14, the concentration of calcium in the feathers decreased from 2610 to 922 mg / kg - at 18 weeks of age. Against this background, in a similar period of time, the mass fraction of calcium in the tibia increased. A correlation between the calcium content in the tibia and feathers was established between 10 (R = 0.96, r = 0.05) and 12 (R = 0.96, r = 0.05) weeks.

The picture of phosphorus changes in biosubstrates was as follows: in the tibia from 10 to 14 weeks there was an increase in this indicator, and from 14 weeks to 18 - a decrease; in feathers, the concentration of phosphorus, on the contrary, decreased from 789 to 364 mg / kg from 10 to 16 weeks with an increase to 817 mg / kg by week 18.

Table 1 Element Age weeks Substrate 10 12 fourteen 16 eighteen Ca pen 997.0 ± 23.0 2096.0 ± 88.0 ^a 2610.0 ± 209.0 1719.0 ± 72.0 ^s 922.0 ± 91.0 ^d tibia 15223 ± 1519 22710 ± 2400 12422 ± 1195 26331 ± 2290 ^s 26272 ± 4059 K pen 803.0 ± 19.0 883.0 ± 37.0 ^a 912.0 ± 73.0 444.0 ± 19.0 ^s 1013.0 ± 100.0 ^d tibia 3189.0 ± 318.0 3013.0 ± 318.0 3567.0 ± 343.0 3224.0 ± 280.0 3492.0 ± 540.0 Mg pen 152.0 ± 4.0 341.0 ± 14.0 ^a 356.0 ± 29.0 307.0 ± 13.0 142.0 ± 14.0 ^d tibia 1659.0 ± 166.0 1931.0 ± 204.0 2898.0 ± 279.0 ^b 1984.0 ± 173.0 ^s 1812.0 ± 280.0 Na pen 1240.0 ± 29.0 1391.0 ± 58.0 1196.0 ± 96.0 998.0 ± 42.0 1893.0 ± 187.0 ^d tibia 3688 ± 368 3403 ± 360 4627 ± 445 3223 ± 280 3475 ± 537 P pen 789.0 ± 19.0 540.0 ± 23.0 ^a 474.0 ± 38.0 364.0 ± 15.0 817.0 ± 81.0 ^d tibia 34464 ± 3440 42050 ± 4443 61546 ± 5922 48877 ± 4250 47608 ± 7356 Note: a - P <0.05 when comparing results at the age of 10 and 12 weeks; b - P <0.05 when comparing results at the age of 12 and 14 weeks; c - P <0.05 when comparing results at the age of 14 and 16 weeks; c - P <0.05 when comparing results at the age of 16 and 18 weeks.

When considering the Ca / P ratios in the investigated substrates, a certain relationship was traced (Figure 1). So, the value of the Ca / P ratio in feathers during the period from 14 to 18 weeks decreased from 4.25 to 0.87, in the tibia during this period, on the contrary, there was an increase in this ratio from 0.16 to 0.43, a correlation in the Ca / P ratio between the tibia and feather was established for 10- (R = 0.94, r = 0.05), 12- (R = 0.94, r = 0.05), 16- (R = -0.81, r = 0.05) and 18 weeks of age (R = -0.99, r = 0.01) (Table 2). Moreover, the nature of the relationship in the period from 10 to 12 weeks was positive, and from 16 to 18 weeks - negative.

As for magnesium, its content in feathers and tibia increased from 10 to 14 weeks, and decreased from 14 to 16 weeks. In the reproductive organs, the magnesium level decreased from 200 to 169 mg / kg from 10 to 14 weeks. From 14 to 16 weeks of age, the concentration of magnesium increased from 169 to 229 mg / kg, while decreasing by 18 weeks to 153 mg / kg. A correlation was observed between the magnesium content in the tibia and feathers at the age of 10 weeks (R = 0.99, r = 0.01) and 14 weeks (R = 0.99, r = 0.05). The concentration of potassium in feathers, similarly to magnesium, increased during the period from 10 to 14 weeks, and from 14 to 16 - decreased with an increase by 18 weeks of age. Correlation in the content of potassium in bone tissue and feathers at 14 (R = 0.99, r = 0.05) and 16 weeks of age (R = 0.97, r = 0.05).

According to the results of the studies, it was found that the maximum values of sodium concentration in the feathers and tibia were, respectively, at 18-, 16- and 14-week-olds. At the same time, the minimum values of sodium in feathers and tibia were at 16 weeks. Significantly correlated relationships between the sodium content in bone tissue and feathers were observed at the age of 12 (R = 0.99, r = 0.01) and 18 weeks (R = -0.99, r = 0.05).

The K / Na ratios in the studied substrates in age dynamics are presented in Figure 2. As follows from the results obtained, the changes in the ratio of these elements in the feathers and tibia were almost the opposite. So, with an increase in the K / Na ratio in the period 12-14 weeks in feathers from 0.37 to 0.45, in the tibia - a decrease from 0.52 to 0.45 (R = -0.90, r = 0, 05). Conversely, with a decrease in the K / Na ratio during the period of 14-18 weeks in feathers from 0.45 to 0.26, an increase in this indicator from 0.45 to 0.59 occurred in the tibia.

The iron concentration in feathers from 10 to 14 weeks increased from 24.99 to 32.95 mg / kg while decreasing to 18.2 mg / kg by 18 weeks. The level of iron in the tibia decreased throughout the entire observation period and at 51 weeks was 51.15 mg / kg. A correlation between the iron content in the feathers and tibia was established between 12 and 16 weeks (R = 0.990, r = 0.001)

Thus, in comparison with the prototype, the claimed technical solution allows intravital analysis of the elemental status of the bird with the possibility of further correction.

Claims (1)

A method for assessing the elemental status of a bird by feather, characterized in that the substrate consists of a feather of a live bird, the selection of substrate is made from three places: the area of the head, back and wings, the feather is plucked with a total weight of 1 g.

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