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The Productivity of cows with alimentary intake of heavy metals

The production of milk in agro ecosystems that situated around developed industrial centers can be greatly complicated by the pollution of the environment by heavy metals, especially cadmium and lead. Milk producers seek to produce not only ecologically safe, biologically fully validand high-quality milk, but also to achieve the maximum level of productivity of cows for the breed (maximum use of genetic potential of cattle), which in such ecological conditions is extremely diffi cult task. There are situations when the level of food contamination of the diet is insignifi cant and exclude them from the diet. It is very diffi cult toreplace with more qualitative.That’s why it is imperative to create some new simple economically-technologically and economically effi cient methods of production of high-quality, competitive milk market with simultaneous increase in the volume of its production. The market off ers the usage of various reentrants in the experiments of feed supplements, new premixes, and etc. The search for more eff ective means remains relevant and includs sorbents (treads), which, while reducing the load of productive animals with heavy meta-lams, contributed to an increase in average daily milk yields. Biochemical analysis of selected samples of plant and animal origin: feed, blood, internal organs and tissues, urine and milk on the content of macro-, microelements including heavy metals, etc. conducted by atomic absorption spectrophotometry (spectrophotometer AAS-30). The accounting of dairy productivity of cows was carried out on the basis of the decade's control tastes. The purpose of the research is to assess the milk yield of cows fed with high levels of heavy metals Cd, Pb, Cu, Zn and the simultaneous use of antidiabetic agents. The complex application of the specially developed, adapted to actual diets of cows’ feeding as antitoxic mineral-vitamin premix MP-A is off ered and checked It was also checkedthe subcutaneous injection of biological active preparation "BP-9" of plant origin for  the protection of the cows’ body from the toxic eff ects of heavy metals, in particular, it has been proposed and tested in experiments, such as cadmium and lead. The joint action of premix and biopreparatur increases the excretion of pollutants from the body of cows with urine, reduces their transition to dairy raw materials.That allows to producethe milk that meets domestic and international quality standards, and due to the supremacy of the basic diet with the necessary micro, macro elements, vitamins increases milk productivity on average 1.6 times from 3477–4426 kg to 5697–6899 kg, which provides rent-free production of milk in farms.But it does not allow to realizein full force and eff ect the genetic potential of black and red-spotted dairy breedbreed at 7–9 thousand kg per lactation. Further research is aimed at the development of more eff ective antidote substances, which have contributed to the production of environmentally safe milk and to maximize the use of animal breeding potential.

Key words: daily averageyield of milk, premix, bioproduct, cadmium, lead, copper, zinc, contaminated feeds, antidote substances.

 

  1. Branca, J., Morucci, G., Maresca, M., Tenci, B., Cascella, R., Paternostro, F., Ghelardini, C., Gulisano, M., Di Cesare Mannelli, L., Pacini, A. (2018). Selenium and zinc: Two key players against cadmium-induced neuronal toxicity. 48, pp. 159–169. Available at:https/doi.org/10.1016/j. tiv.2018.01.007.
  2. Bucjak, V. (2002). Transformacіja vazhkih metalіv іz kormu u moloko na tlі dіi ceolіtu [Transformation of heavy metals from feed into milk against the background of the eff ect of keolite]. Vіsnik Sums'kogo nacіonal'nogo agrarnogo unіversitetu [Bulletin of Sumy National Agrarian University]. Issue 6, pp. 585–588.
  3. Bucjak, V., Kravcіv, R., Bucjak, G. (2005). Ekologіchnij monіtoring vedennja tvarinnictva u bіohіmіchnih provіncіjah [Environmental monitoring of animal husbandry in biochemical provinces]. Lviv: Papyrus, 254 p.
  4. Bucjak, G., Cherevko, M., Suhors'ka, O. (2010). Vikoristannja adsorbentіv ta antidotіv jak profіlaktichnij zasіb poperedzhennja toksikozіv [Use of absorbents and antidotes as a prophylactic means of preventing toxicosis]. Naukovij vіsnik LNUVMBT іmenі S.Z. Gzhic'kogo [Scientifi c Bulletin Stepan Gzhytskyi National University of Veterinary Medicine and Biotechnologies Lviv]. Vol. 12, no. 3 (45), Part 4, pp. 120–128.
  5. DeFrain, J., Socha, M., Tomlinson, D., Kluth, D. (2009). Eff ect of Complexed Trace Minerals on the Performance of Lactating Dairy Cows on a Commercial Dairy, The Professional Animal Scientist, Vol. 25, Issue 6, pp. 709–715. Available at:https/doi.org/10.15232/S1080- 7446(15)30779-8.
  6. Dyman, T.M., Shevchenko, S.I., Berzina, S.V. (2007). Novye tendencii v pitanii cheloveka [New trends in human nutrition]. Kyiv: Gnozis. 76 p.
  7. Gorlov, I. (2005). Ispolzovanie selena pri proizvodstve produktsii zhivotnovodstva i BADov: monografi ya [The use of selenium in the production of livestock products and dietary supplements: a monograph]. Volgogradskiy GTU, Volgogradskiy nauchno-issledovatelskiy tekhnologicheskiy institut myaso-molochnogo skotovodstva i pererabotki produktsii zhivotnovodstva RASKhN [Volgograd State Technical University, Volgograd Scientifi c Research Technological Institute of Meat and Dairy Livestock and Processing of Livestock Products of RASKhN]. М.
  8. Gorlov, I., Shakhbazova, O., Gubareva, V. (2014). Optimizatsiya kormoproizvodstva dlya obespecheniya molochnogo skotovodstva kormami sobstvennogo proizvodstva [Optimization of feed production for providing dairy cattle breeding with feed of own production]. Kormoproizvodstvo[Feed production]. no. 4, pp. 3–7.
  9. Gorlov, I., Khramova, V. (2006). Povyshenie pishchevoy tsennosti moloka za schet obogashcheniya ratsiona korov organicheskim selenom [The decrease in the nutritional value of milk due to the enrichment of the diet of cows with organic selenium]. Khranenie i pererabotka selkhozsyrya [Storage and processing of agricultural series]. no. 4, pp. 49–52.
  10. Gorlov, I., Khramova, V., Chamuraliev, N. (2006). Selenorganicheskie podkormki dlya korov [Organic selenium feed for cows]. Molochnoe i myasnoe skotovodstvo [Dairy and beef cattle breeding]. no. 2, pp. 24–27.
  11. Gorlov, I., Mosolova, N., Zlobina, E., Korotkova, A., Prom, N. (2014). Use of new supplement feeds based on organic iodine in rations of lactating cows. AmericanEurasian Journal of Agricultural and Environmental Sciences. Vol. 14 (5), pp. 401–406.
  12. Gorlov, I., Slozhenkina, M., Nikolaev, D., Zlobina, E., Serdjukova, Ja. (2017). Jeff ektivnost' povyshenija molochnoj produktivnosti korov za schet primenenija innovacionnyh kormovyh sredstv [Effi ciency of increasing milk production of cows through the use of innovative feed products]. Vestnik Altajskogo gosudarstvennogo agrarnogo universiteta [Vesnik of Altai State Agrarian University]. no. 6 (152), pp. 107–114.
  13. Gorlov, I., Mosolova, N., Zlobina, E., Korotkova, A., Prom N. (2014). American Eurasian Journal of Agricultural & Environmental Sciences. Vol. 14, no. 5, pp. 401–406.
  14. Golubkov, A.I., Golubkov, A.A., Sirotin, E. (2013). Puti povyshenija molochnoj produktivnosti i kachestva moloka u korov krasno-pestroj porody [Ways to increase milk productivity and milk quality in red-motley cows]. Vestnik KrasGAU [Bulletin of the KrasSAU]. no. 2, pp. 106–110.
  15. Gorlov, I. (2005). Ispol'zovanie selena pri proizvodstve produkcii zhivotnovodstva i BADov: monografi ya [The use of selenium in the production of livestock products and dietary supplements: a monograph]. M.: Vestnik RASXN [M.: Bulletin of the RAAS]. Volgograd: VolgGTU [Volgograd: Volgograd State Technical University]. 189 p.
  16. Gorlova, I., Mohov, A., Voroncova, E., Slozhenkina, M., Karetnikova, A. (2017). Povyshenie molochnoj produktivnosti i kachestvennyh pokazatelej moloka za set primenenija novih kormovih dobavok [Increase in milk productivity and quality indicators of milk due to the use of new feed additives]. Izvestija Nizhnevolzhskogo agrouni-versitetskogo kompleksa: Nauka i vysshee professional'noe obrazovanie [Bulletin of the Lower Volga Agro-University Complex: Science and Higher Professional Education]. no. 3 (47), pp. 1–8.
  17. Gribovsky, Y. (2000). Scientifi c substantiation of a set measures to reduce the negative eff ect of nickel on the organism domestic animals and the sanitary quality animal products in the natural-man-made provinces of the Urals. Thesis, 332.
  18. Gutyj, B., Mursjka, S., Hufrij, D., Hariv, I., Levkivska, N., Nazaruk, N., Haydyuk, M., Priyma, O., Bilyk, O., Guta Z. (2016). Infl uence of cadmium loading on the state of the antioxidant system in the organism of bulls. Biosystems Diversity. 24(1), pp. 96–102. Available at:https/ doi.org/10.15421/011611
  19. Hmel'nic'kij, G., Homenko, V., Kanjuka, O. (1994). Veterinarna farmakologіja [Veterinary pharmacrorlogy]. K.: Harvest, 502 p.
  20. Ivanov, V., Obuhov, P. (1985). Spravochnik zhivotnovoda molochnoj fermy i kompleksa [Directory of livestock dairy farm and complex]. M.: Rosselkhozizdat, 236 p.
  21. Kalashnikov, A.P., Fisinina, V. I., Scheglova, V.V., Klejmenova (2003). Normy i raciony kormleniya. 3-e izd., pererab. i dop [Norms and diet. 3rd edition revised and supplemented]. M.
  22. Kurljak, I. (2011). Vykorystannja ceolitiv u godivli dijnyh koriv [The use of seolites in the feeding of dairy cows]. Naukovyj visnyk L'vivs'kogo nacional'nogo universytetu veterynarnoi' medycyny ta biotehnologij imeni S.Z. Gzhyc'kogo [Scientifi c Bulletin Stepan Gzhytskyi National University of Veterinary Medicine and Biotechnologies Lviv]. Vol. 13, no. 4(50), Part 3, pp. 165–168.
  23. DSTU 3662-97. Moloko korov’jache nezbyrane. Vymogy pry zakupivli. [Chynnyj vid 1998-01-01]. Vyd. Ofi c. Kyi'v Derzhstandart Ukrai'ny, 1997. 10 s. GOST 26933-86. Syr'e i produkty pishhevye. Metody opredelenija kadmija (GOST 26932-86. Syr'e i produkty pishhevye . Metody opredelenija svinca. GOST 26934-86. Syr'e i produkty pishhevye. Metod opredelenija cinka. GOST 26931-86 . Syr'e i produkty pishhevye. Metody opredelenija medi [DSTU 3662- 97. Whole cow's milk. Procurement requirements. [Eff ective from 1998-01-01]. View. Offi cer. Kyiv State Standard of Ukraine, 1997. 10 p. GOST 26933-86. Raw materials and food products. Methods for determination of cadmium (GOST 26932-86. Raw materials and food products. Methods for determination of lead. GOST 26934-86. Raw materials and food products. Methods for determination of zinc. GOST 26931-86. Raw materials and food products. Methods for determination of copper.].
  24. Mamenko, A., Portjannyk, S., Yvanov, G. (2010). Mygracyja tjazheluh metallov v moloko korov v uslovyjah zagrjaznenyja okruzhajushhej sredu polljutantamy y ksenobyotykamy [Migratsiya heavy metals in milk of cows in conditions of environmental pollution among polyutants and xenobiotics]. Vestnyk Ul'janovskoj gosudarstvennoj sel'skohozjajstvennoj akademyy]. Nauchno-teoretycheskyj zhurnal № 2(12) [Scientifi c and theoretical journal No. 2 (12).] Ul'janovsk – Yzdatel'stvo FGOU VPO “UGSHA” [Ulyanovsk Federal State-Funded Educational Institution of Higher Professional Education “Ugsha”]. pp. 85–91.
  25. Mazur T., Ocheretyana L., Dyman T. (2006). Ekologija syrogo moloka u gospodarstvah riznyh form vlasnosti [Ecology of raw milk in farms of diff erent ownership]. Tvarynnyctvo Ukrai'ny [Livestock Production of Ukraine]. no. 3, pp.7‒8.
  26. Nayeri, A., Upah, N., Sucu, E., Sanz-Fernandez, M., DeFrain, J., Gorden, P., Baumgard, L. (2014). Eff ect of the ratio of zinc amino acid complex to zinc sulfate on the performance of Holstein cows, Journal of Dairy Science. Vol. 97, Issue 7, pp. 4392–4404. Available at:https/doi. org/10.3168/jds.2013-7541.
  27. Neathery, M., Miller, W. (1975). Metabolism and Toxicity of Cadmium, Mercury, and Lead in Animals: A Review1. Journal of Dairy Science. 58(12), pp. 1767– 1781. Available at:https/doi.org/10.3168/jds.S0022- 0302(75)84785-0.
  28. Papaioannou, D., Katsoulos, P., Panousis, N., Karatzias, Н. (2005). The role of natural and synthetic zeolites as feed additives on the prevention and/ or the treatment of certain farm animal diseases: A review. Microporous and Mesoporous Materials. 84(1- 3), pp. 161–170. Available at: https/doi.org/10.1016/j. micromeso.2005.05.030
  29. Podobed, L., Candur, N., Skrylev, N., Nikitin, A. (1996). Tehnika sostavlenija racionov kormlenija, kormosmesej i kombikormov dlja sel'skoho-zjajstvennyh zhivotnyh [Technique for compiling feed and feed mixtures for farm animals]. Odessa: OGOSHOS, 85 p.
  30. Praice, W. (1972). Analitical atomic absortion spectrometry. London, New-York, Phein, pp. 259–275.
  31. Portjannik, S. (2002). Udoskonalennja tehnologіі virobnictva ekologіchno chistogo moloka v umovah zabrudnennja kormіv vazhkimi metalami [Improving the technology of production of environmentally friendly milk in terms of feed contamination with heavy metals]. Problemi zooіnzhenerіі ta veterinarnoi medicini [Problems of zooengineering and veterinary medicine]. Zbіrnik naukovih prac' Harkіvs'koi derzhavnoi zooveterinarnoi akademіi [Collection of scientifi c works of Kharkiv State Zooveterinary Academy]. pp. 317–322.
  32. Portjannyk, S. (2002). Vplyv premiksu i preparatu “T” na otrymannja ekologichno chystogo moloka [The eff ect of premix and drug "T" on the production of environmentally friendly milk]. Visnyk Sums'kogo nacional'nogo agrarnogo universytetu [Bulletin of Sumy National Agrarian University]. Naukovo-metodychnyj zhurnal serija “Tvarynnyctvo” [Scientifi c and methodological journal series "Livestock"]. Issue 6, pp. 471–474.
  33. Pareek, N., Voigt, J., Bellmann, O., Schneider, F., Hammon, H. (2007). Energy and nitrogen metabolism and insulin response to glucose challenge in lactating German Holstein and Charolais heifers. Livestock Science. Vol. 112, Issue 1–2, pp. 115–122. Available at: https/doi.org/10.1016/j. livsci.2007.02.001.
  34. Portjannik, S., Mamenko, O., Kochetkova, V.V. (2003). Rekomendacіі z udoskonalennja tehnologіі virobnictva ekologіchno chistogo moloka і jalovichini ta znizhennja іh zabrudnenostі vazhkimi metalami [Recommendations for improving the technology of production of environmentally friendly milk and beef and reducing their contamination with heavy metals]. Rekomendacіi [Recommendations]. Kharkiv: CDZVA, 20 p .
  35. Savchenko, Ju., Savchuk, I. (2013). Saponit znyzhuje koncentraciju vazhkyh metaliv u produkcii' svynarstva [Saponite reduces the concentration of heavy metals in pig products]. Agropromyslove vyrobnyctvo [Agro-industrial production]. Issue 6, pp. 114–118.
  36. Savchenko, Ju., Savchuk, І., Savchenko, M., Chorna, L., Karpjuk, N. (2011). Mіgracіja vazhkih metalіv v sistemі kormi-organіzm bugajcіv na vіdgodіvlі [Migration of heavy metals in the feed-organism system of bulls for fattening]. Vіsnik Zhitomirs'kogo nacіonal'nogo agroekologіchnogo unіversitetu [Bulletin of Zhytomyr National Agroecological University]. 1(28), pp. 225–231.
  37. Shurygina, A. (2013). Balans v racione i produktivnost' [Balance in the diet and productivity]. Zhivotnovodstvo Rossii [Livestock of Russia]. no. 11, 51 p.
  38. Soriani, N., Trevisi, E., Calamari, L. (2012). Relationships between rumination time, metabolic conditions, and health status in dairy cows during the transition period. J. Anim. Sci. Vol. 90, pp. 4544–4554.
  39. Sokolov, V., Andreeva, N., Nozdrin, G. (2002). Klinicheskaja farmakologija [Clinical Pharmacology]. M.: Kolos, 464 p.
  40. Tommje, M. (1968). Mineral'nyj sostav kormov [The mineral composition of the feed]. M.: Kolos, 256 p.
  41. Trinder, N., Woodhouse, C., Renton, C. (1969). The eff ect of vitamin E and selenium on the incidence of retained placenta in dairy cows. The Veterinary record. no. 85, pp. 550–553.
  42. Tucker, W., Hogue, J., Waterman, D., Swenson, T., Xin, Z., Hemken, R., Jackson, J., Adams, G., Spicer, L. (1991). Role of sulfur and chloride in the dietary cation-anion balance equation for lactating dairy cattle. J. Dairy Sci. no. 69, 1205 p.
  43. Vdovenko, A., Gostudim, O., Grigor’єv M., Ponomarenko, L., Bodak O., Kornjushkіna, І., Lebіd' І., Bajdan, S. (2017). Regіonal'na dopovіd' pro stan navkolishn'ogo prirodnogo seredovishha v Poltavs'kіj oblastі u 2016 rocі [Regional assistance about the camp of a middleaged treasury in the Poltava region near 2016]. Іnformacіju pіd-gotuvali specіalіsti Departamentu ekologіі ta prirodnih resursіv Poltavs'koі oblderzhadmіnіstracіі [Information was prepared by specialties to the Department of Ecology and Natural Resources of the Poltava Regional State Administration]. 169 p.
  44. Zasekіn, D. (2000). Detoksikacіja nadlishku vazhkih metalіv v organіzmі tvarin – zaporuka zberezhennja zdorov’ja ta oderzhannja ekologіchno chistoі tvarinnic'koi produkcіi [Detoxifi cation of excess heavy metals in the body of animals is a guarantee of preservation and production of environmentally friendly livestock products]. Nauk. vіsn. NAU [Scientifi c Bulletin of the National Agrarian University]. Issue 28, pp. 258–269.
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