Vestnik On-line
Orenburg State University september 24, 2017 RU/EN
Headings of Vestnik
Architecture
Biological sciences
Humanitarian sciences
Natural sciences
Historical sciences
Medical sciences
Sciences about Earth
Pedagogical sciences
Social sciences
Technical sciences
Physical-mathematical sciences
Philological sciences
Philosophical sciences
Chemical sciences
Economic sciences
Jurisprudence
Bibliography
Miscellaneous
Science events

Search
 Creative Commons
Creative Commons

Miroshnikova E.P., Arinzhanov A.E., Kilyakova Y.V. PARTICULARLY THE EXCHANGE OF CHEMICAL ELEMENTS IN FISH WHEN ADMINISTERED IN THE DIET AND DIETARY SUPPLEMENTS OF IRON NANOPARTICLES
Recent advances in animal nutrition has significantly increase the range of use of dietary supplements, a positive effect on growth rate, feed conversion and resistance of the organism. Research on warm-blooded animals have shown the promise of joint use of dietary supplements and metal nanoparticles in feeding, however, the experimental work in fish farming on the subject are rare. We first studied the prospects of joint use of preparations of nanoparticles of iron and supplements in the feeding of fish and showed that their simultaneous use enhances performance of weight gain up to 28% compared to control. With the introduction in the diet of Fe NPS (nanoparticles) noted a significant increase in concentrations of macro— and micronutrients compared to control: calcium 42% (P<0.001), potassium 8.2% (P<0.05), magnesium 19% (P<0.001), sodium 27% (P<0.001), phosphorus by 32% (P<0.001), chromium by 6% (P<0.05), copper 18.8% (P<0.05), cobalt 6% (P<0.05), manganese by 72.2% (P<0.001), selenium 17.5% (P<0.001) and zinc by 34% (P<0.001). When added to the diet of Fe NPS and the enzyme, Rovabio XL showed a significant increase in sodium concentration by 13% (P<0.01), copper 14% (P<0.05), cobalt 9.6% (P<0.05), manganese 26.6% (P<0.05), selenium 9.2% (P<0.01) and zinc 42.5% (P<0.001) and decreased concentration of calcium by 26% (P<0.001) compared to control. When included in the ration Fe NPS and Bifidobacterium bifidum showed a significant increase in the content of elements in comparison with the control: the calcium 148% (P<0.001), and potassium 62% (P<0.001), magnesium 111% (P<0.001), sodium 100% (P<0.001) and phosphorus by 100% (P<0.001), chromium 36.8% (P<0.001), copper 84% (P<0.001), cobalt 174% (P<0.001), iron 58% (P<0.001), manganese 270% (P<0.001), selenium by 82% (P<0.001) and zinc by 125% (P<0.001). Analysis of the content of toxic elements in the fish body showed that for the experimental groups was characterized by a decrease in the concentration of elements except lead. Thus, it is established that the joint inclusion in the diet of carp nanoparticles of iron and dietary supplements positively affects the accumulation of macro— and micronutrients and does not affect the accumulation of toxic elements in the body of a fish, with the best performance on the dynamics of live weight was obtained by joint use of Fe NPS of the drug and probiotic Bifidobacterium bifidum.Key words: enzymes, probiotics, fish feeding, nanoparticles, iron, macronutrients, micronutrients.

References:

1. Primenenie probiotikov v osetrovom rybovodstve / A.A. Pyshmanceva i dr. // Sbornik nauchnyh trudov Severo-Kavkazskogo nauchno-issledovatel'skogo instituta zhivotnovodstva.— 2014.— T.2.— №3.— S. 225–229.

2. Kcoeva, I.I. Himicheskij sostav myshc raduzhnoj foreli pri ispol'zovanii v kormah biologicheski aktivnyh dobavok / I.I. Kcoeva, R.B. Temiraev // Izvestiya Gorskogo gosudarstvennogo agrarnogo universiteta.— 2014.— T. 51.— №4.— S. 150–153.

3. Influence of iodine on efficience of fish / A.A. Vasiliev et al. // Journal of Agricultural Sciences.— 2014.— T. 6.— №10.— P. 79.

4. A comprehensive assessment of the impact of the additive «Abiopeptide with iodine» on the growth, development and marketable quality of the Lena sturgeon grown in gages / I.V. Poddubnaya et al. // Biosciences Biotechnology Research Asia.— 2016.— T. 13.— №3.— P. 1547–1553.

5. Mechanisms of the effects of probiotics on symbiotic digestion / N.A. Ushakova et al. // Biology Bulletin.— 2015.— T. 42.— № 5.— P. 394–400.

6. Vliyanie fermentnyh preparatov na soderzhanie mikroehlementov v tkanyah i organah kur / E.P. Miroshnikova i dr. // Vestnik Orenburgskogo gosudarstvennogo universiteta.— 2004.— № S4.— S. 60–61.

7. Miroshnikova, E.P. Influence of enzymatic preparations on elemental status of carp and hen / E.P. Miroshnikova, A.A. Barabash // Mikroehlementy v medicine.— 2010.— T. 11.— №2.— S. 46 a.

8. To the development of innovative mineral additives based on alloy of Fe and Co antagonists as an example / E.A. Sizova et al. // Agricultural Biology.— 2016.— V. 51.— № 4.— P. 553–562.

9. Comparative assessment of effect of copper nano- and microparticles in chicken / S.A. Miroshnikov et al. // Oriental Journal of Chemistry.— 2015.— T. 31. № 4.— P. 2327–2336.

10. Antagonist metal alloy nanoparticles of iron and cobalt: impact on trace element metabolism in carp and chicken / A. Arinzhanov et al. // Human & Veterinary Medicine. International Journal of the Bioflux Society.— 2015.— Vol. 7.— Iss. 4.— P. 253–259.

11. EHffektivnost' fermentsoderzhashchih kombikormov v sochetanii razlichnymi formami cinka v racionah zhvachnyh / D.V. Nesterov i dr. // Vestnik myasnogo skotovodstva.— 2012.— T.4.— №78.— S. 74–78.

12. Nanorazmernoe zhelezo— kormovaya dobavka dlya sel'skohozyajstvennoj pticy / I.N. Nikonov i dr.// Doklady Akademii nauk.— 2011.— T. 440.— №4.— S. 565–569.

13. Nanoparticles in combination with amino acids change productive and immunological indicators of broiler chicken / E.V. Yausheva et al. // Agricultural Biology.— 2016.— V. 51.— №6.— P. 912–920.

14. Morphological and biochemical blood parameters in broilers at correction with dietary copper salts and nanoparticles / E.A. Sizova et al. // Agricultural Biology.— 2016.— V. 51.— №6.— P. 903–911.

15. To the development of innovative mineral additives based on alloy of fe and Co antagonists as an example / E.A. Sizova et al. // Agricultural Biology.— 2016.— V. 51.— № 4.— P. 553–562.

16. OECD Guideline for Testing of Chemicals. Guideline 203. Fish, Acute Toxicity Test.— Organization of Economic Cooperation Development, Paris, France, 1992.

17. Ustanovka dlya polucheniya i issledovaniya fiziko-himicheskih svojstv nanochastic metallov / A.N. ZHigach i dr. // Pribory i tekhnika ehksperimenta.— 2000.— №6.— S. 122–127.

18. Patent RF 2517228. Sposob proizvodstva korma dlya ryb. Arinzhanov A.E., Miroshnikova E.P., Sizova E.A., Kilyakova YU.V., Rodionova G.B., Glushchenko N.N. Zayavleno 27.12.2012. Opublikovano 27.05.2014.

19. Sizova, E.A. Nekotorye biohimicheskie i morfologicheski pokazateli krovi pri vvedenii v organizm nanochastic medi / E.A. Sizova, E.A. Rusakova, YU.A. Sizov // Izvestiya Orenburgskogo gosudarstvennogo agrarnogo universiteta.— 2011.— T. 4.— №32-1.— S. 308–309.

: on-line, ISSN on-line 1814-6465
,
: № 77-37678 29 2009 .
, , : ()
1999 - 2017 CIT OSU