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Influence of Spirulina Platensis in the composition of feed on the content of heavy metals in rabbit meat

An important area for the further development of animal husbandry is to provide humanity with environmentally friendly food. One way to reduce the content of heavy metals in livestock products in general and meat in particular is to feed some feed products that have sorbent properties. For this purpose, a scientific and economic experiment was conducted to study the effect of feeding compound feeds containing 0.5–2% Spirulina platensis to rabbits raised for meat. The experimental period of the research lasted from the 60th to the 120th day of life of young rabbits and ended with a control slaughter. During this period, the live weight of the rabbits, their safety and the amount of feed consumed were monitored. During the control slaughter, the chemical composition of the longest back muscle was studied, as well as the content of Lead and Cadmium. According to the results ofthe experiment it was found that the introduction of compound feed rabbits Spirulina platensis in doses of 0.5–2.0% helps to improve their growth, reduce the content of Cadmium and Lead in meat, reduce the fat content in it and increase the proportion of dry matter and protein. It should be noted that the highest productivity of rabbits was achieved at a feed content of 1.5% of Spirulina platensis, ahead of control counterparts by 7.8% (P<0.01). Instead, the lowest concentration of heavy metals in meat was recorded at the content of 2.0% of the specified feed: Cadmium by 34.1% (P<0.01), and Lead – by 25.9% (P<0.001) less than the control indexes. As for the chemical composition of meat, the highest protein and the lowest fat in it was recorded at 1.5% Spirulina platensis in the feed. Compared to control animals, rabbit meat in this group contained 1.2% more protein and 0.7% (P<0.01) less fat. Thus, 1.5% of Spirulina platensis in the feed for rabbits raised for meat can be considered the optimal proportion.

Key words: rabbits, Spirulina platensis, live weight gain, productivity, Cadmium, Lead, meat.

TYTARIOVA O.


CHERNYAVSKYY O.


KUZMENKO O.


BLYZNIUK M.


  1. Petriakov, V.V. (2017). Vlyianye byolohychesky aktyvnoho kompleksa mykrovodorosly Spirulina platensis na produktyvnue pokazately porosiat na dorashchyvanyy [Influence of the biologically active complex of the microalgae Spirulina platensis on the productive indicators of piglets in rearing]. Sovremennue tekhnolohyy v zhyvotnovodstve: problemu y puty ykh reshenyia [Modern technologies in animal husbandry: problems and ways to solve them]. Materyalu Mezhdunarodnoi nauchno-praktycheskoi konferentsyy [Materials of the International scientificpractical conference]. Pod obshchei redaktsyei V.A. Solopova [Under the general editorship of V.A. Solopova]. Samara, pp. 67–70.
  2. Khomenko, A.D., Merzlov, S.V. (2015). Vykorystannia kormovoi dobavky Spirulina platensis za vyroshchuvannia perepeliv [The use of feed additive Spirulina platensis for growing quail]. Naukovyi visnyk Lvivskoho natsionalnoho universytetu veterynarnoi medytsyny ta biotekhnolohii im. Gzhytskoho [Scientific Bulletin of Lviv National University of Veterinary Medicine and Biotechnology named after Gzhytskyi]. Vol. 17, no. 1(3), pp. 238–242.
  3. Boiago, M.M., Dilkin, J.D., Kolm, M.A., Barreta, M., Souza, C.F., Baldissera, M.D., dos Santos, I.D., Wagner, R., Tavernari, F.d.C., da Silva, M.L.B., Zampar, A., Stivanin, T.E., da Silva, A.S. (2019). Spirulina platensis in Japanese quail feeding alters fatty acid profiles and improves egg quality: Benefits to consumers. Journal of food biochemistry. Vol. 43, Issue 7, e12860. DOI:10.1111/jfbc.12860C
  4. Chaiklahan, R. (2010). Cultivation of Spirulina platensis Using Pig Wastewater in a Semi-Continuous Process. Journal of Microbiology and Biotechnology. Journal of Microbiology and Biotechnology. Vol. 20, pp. 609–614. DOI: 10.4014/jmb.0907.07026
  5. Cheunbarn, S., Peerapornpisal, Y. (2010). Cultivation of Spirulina platensis using anaerobically swine wastewater treatment effluent. International Journal Of Agriculture And Biology. Vol. 12, pp. 586– 590. DOI:10.144/AWB/2010/12–4–586–590
  6. Christaki, E., Karatzia, M., Bonos, E., FlorouPaneri, P., Karatzias, C. (2012). Effect of dietary Spirulina platensis on milk fatty acid profile of dairy cows. Asian Journal of Animal and Veterinary Advances. Vol. 7, Issue 7, pp. 597–604. DOI:10.3923/ajava.2012.597.604
  7. Fathi, M. (2018). Effect of dietary supplementation of algae meal (Spirulina Platensis) as growth promoter on performance of broiler chickens. Egyptian Poultry Science Journal. Vol. 38, Issue 2, pp. 375–389. Available at:https://epsj.journals.ekb.eg/artic le_8203_4ee0289dce5e1c9dec59eccf1a4f2f64.pdf
  8. Glebova, I., Besedin, N., Gryaznova, O., Glinushkin, A., Cheiko, V., Kislov, A., Kosolapov, V. (2018). The use of spirulina platensis in cattle feeding. Entomology and Applied Science Letters. Vol. 5, Issue 2, pp. 78–85. Available at:https://easletters.com/storage/models/article/AKAnD5FFw3qY94vZ3uLOwlH3sr...
  9. Grinstead, G.S., Tokach, M.D., Dritz, S.S., Goodband, R.D., Nelssen, J.L. (2000). Effects of Spirulina platensis on growth performance of weanling pigs. Animal Feed Science and Technology. Vol. 83, Issue 3–4, pp. 237–247. DOI:10.1016/S0377- 8401(99)00130-3.
  10. Jung, F., Krüger-Genge, A., Waldeck, P., Küpper, J.H. (2019). Spirulina platensis, a super food? Journal of Cellular Biotechnology. Vol. 5, Issue 1, pp. 43–54. DOI:10.3233/JCB-189012
  11. Kaoud, H.A. (2012). Effect of spirulina platensis as a dietary supplement on broiler performance in comparison with prebiotics. Scientific Journal of Applied Research. Vol. 1, Issue 2, pp. 44–48. Available at:https://www.researchgate.net/profile/Hussein-Kaoud/publication/262300716... platensis_as_a_dietary_supplement_on_broiler_performance_in_comparison_with_prebiotics/ links/57386a4108ae298602e29d3d/Effect-ofspirulina-platensis-as-a-dietary-supplement-on-broilerperformance-in-comparison-with-prebiotics.pdf
  12. Kulpys, J., Paulauskas, E., Pilipavipius, V., Stankevipius, R. (2009). Influence of cyanobacteria Arthrospira (Spirulina) platensis biomass additives towards the body condition of lactation cows and biochemical milk indexes. Agronomy Research. Vol. 7, Issue 2, pp. 823–835. Available at:vol072/p7205.pdf
  13. Mariey, Y.A., Samak, H.R., Ibrahem, M.A. (2012). Effect of using Spirulina platensis algae as a feed additive for poultry diets: 1-productive and reproductive performances of local laying hens. Egyptian Poultry Science Journal. Vol. 32, Issue 1, pp. 201–215.
  14. Nedeva, R., Jordanova, G., Kistanova, E., Shumkov, K., Georgiev, B., Abadgieva, D., Kacheva, D., Shimkus, A., Shimkine, A. (2014). Effect of the addition of Spirulina platensis on the productivity and some blood parameters on growing pigs. Bulgarian Journal of Agricultural Science. Vol. 20, Issue 3, pp. 680–684. Available at:https://www.agrojournal.org/20/03-28.pdf
  15. Selim, S., Hussein, E., Abou-Elkhair, R. (2018). Effect of Spirulina platensis as a feed additive on laying performance, egg quality and hepatoprotective activity of laying hens. European Poultry Science. Vol. 82. DOI:10.1399/eps.2018.227.
  16. Sugiharto, S., Yudiarti, T., Isroli, I., Widiastuti, E. (2018). Effect of feeding duration of Spirulina platensis on growth performance, haematological parameters, intestinal microbial population and carcass traits of broiler chicks. South African Journal of Animal Science. Vol. 48, Issue 1, pp. 98–107. DOI:10.4314/sajas.v48i1.12
  17. Wang, T.Ye., Liu, H.Ch., Lee, Ye. (2013). Use of Anthropic Acclimated Spirulina platensis (Arthrospira platensis) Bio-adsorption in the Treatment of Swine Farm Wastewater. International Journal of Agriculture and Biology. Vol. 15, Issue 1, pp. 107–112. Available at:http://www.fspublishers.org/published_ papers/64564_..pdf
  18. Yordanova, G., Nakev, J., Nedeva, R., Marchev, Y., Popova, T., Kistanova, E., Simkus, Al. (2016). Effect of the addition of Spirulina platensis on the carcass traits, chemical composition and physical characteristics of М. longissimus dorsi in fattening pigs. Bulgarian Journal of Agricultural Science. Vol. 22, Issue 5, pp. 815–820. Available at:https://www.agrojournal.org/22/05-18.pdf
  19. Yusuf, M.S., Hassan, M.A., Abdel-Daim, M.M., Nabtiti, A.S., Ahmed, A.M., Moawed, S.A., ElSayed, A.K., Cui, H. (2016). Value added by Spirulina platensis in two different diets on growth performance, gut microbiota, and meat quality of Japanese quails. Veterinary world. Vol. 9, Issue 11, pp.1287–1293. DOI:10.14202/vetworld.2016.1287-1293
  20. Zahroojian, N., Moravej, H., Shivazad, M. (2013). Effects of Dietary Marine Algae (Spirulina platensis) on Egg Quality and Production Performance of Laying Hens. Journal of Agricultural Science and Technology. Vol. 15, Issue 7, pp. 1353–1360. Available at:https://jast.modares.ac.ir/article-23-11401-en.pdf
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BTF №1 2022