Kadmiyum İlaveli Konsantre Yemlere Farklı Düzeylerde Kuru Şeker Pancarı Posası Katılmasının Tavşanların Kesim Ürünlerinde Kadmiyum Seviyelerine Etkisinin Araştırılması

Öz

Ticari konsantre yemler genellikle kabul edilen seviyenin üzerinde kadmiyum elementini içeren tavşan diyetlerinin ana bileşenidir. Bu toksik iz element, tavşanların etlerine, böbreklerde, karaciğerde, kemiklerde ve dalaklarında birikebilir. Bu tür et ve yan ürünlerinin tüketimi, insan vücudunda kadmiyum birikimine katkıda bulunabilir ve bu durum bir takım patolojik değişikliklere neden olabilir. Bu çalışmada, 100 adet gümüş ırkın analoğu genç tavşan kullanılmıştır. Tavşanlar, her birinde 20 adet olmak üzere 5 gruba ayrılmıştır. Gruplar 1 kontrol ve 4 deneme grubu olacak şekilde düzenlenmiştir. Araştırma 60 gün boyunca sürdürülmüştür. Sonuçlar, 5. deneme grubundaki tavşanlarda, kesim sonrası elde edilen karkasta ve bazı iç organlarda en az düzeyde kadmiyum içeriğinin tespit edildiğini göstermiştir. Sonuç olarak, deneme boyunca, 0.04 mg/kg düzeyindeki kadmiyum katkılı rasyonlara artan düzeylerde kuru şeker pancarı ilavesinin, karkas ve bazı iç organlarda kadmiyum seviyesinin azaltılmasına katkıda bulunduğu tespit edilmiştir. Ayrıca kadmiyumun çoğunun dışkı ile atıldığı, yani kan dolaşımına emilmediği ve tavşanın vücudu üzerinde olumsuz bir etkiye sahip olmadığı da kaydedilmiştir. 

Anahtar Kelimeler

• Kadmiyum,Kuru Şeker Pancarı Posası,Kesim Ürünleri,Tavşan,karma yem

Investigation the Effect of Different Levels of Dry Sugar Beet Pulp mixed Concentrate Feeds on Cadmium Levels in Rabbit Slaughter Products

Abstract

Commercial concentrated feeds are traditionally a major component of rabbit diets which contain Cadmium element in quantities above generally accepted level. This toxic trace element can accumulate in meat, kidneys, liver, bones and spleen of rabbits. Consumption of such meat and by-products will contribute to the accumulation of Cadmium in the human body, which may lead to a number of pathological changes. In this study, 100 young rabbits-analogues of silver breed were selected, and divided into 5 groups, 20 rabbits in each group: the 1st group was the control group, the 2nd, 3rd, 4th and 5th were experimental with total 60 days duration period. Results showed the smallest content of Cadmium in slaughter products was observed in the rabbits at 5th experimental group. In conclusion, the course of the experiment, it has been established that supplementation into the rabbit’s mixed fodder of dry sugar beet pulp contributes to reducing the level of Cadmium accumulation in slaughter products. It has also been noted that most of Cadmium is excreted with feces, that is, it is not absorbed into the bloodstream and does not have a negative effect on the body of the rabbit.

Keywords

• slaughter products,mixed fodder,Cadmium,dry sugar beet pulp,rabbits

References

1. Bonnie L. Carson, Harry V. Ellis III, Joy L. McCann. Toxicology Biological Monitoring of Metals in Humans, 2018; CRC Press
2. Chen X., Zhu G., Jin T., Qin B., Zhou W., Gu S. Cadmium is More Toxic on Volume Bone Mineral Density than Tissue Bone Mineral Density. Biol. Trace Elem. Res., 144: 380–387.
3. Council Regulation (EC) № 1099/2009 of 24 September 2009 on the protection of animals at the time of killing Official Journal of the European Union, 2011; 52: 1–30.
4. Dyachenko L, Syvyk T, Kosyanenko О. Influence of different levels of Cadmium in ration with natural detoxicant on performance, digestibility of substances and metabolism of nitrogen in young fattening pigs. J. Tech of produc and processing of animal products: Collection of scientific works of Bila Tserkva National Agrarian University, 2015; 1 : 163–168.
5. Dyachenko L.S., Syvyc T.L., Tytariova O.M., Kuzmenko O.A., Bilkevich V.V. Natural detoxicants in pig rations and their impact on productivity and quality of slaughter products. Ukrainian J of Ecology, 2017; 7, (2) :239–246.
6. Elinder, C.G.; Lind, B.; Kjellstorm, T.; Linnman, L.; Friberg, L. Cadmium in kidney cortex, liver and pancreas from Swedish autopsies: Estimation of biological half time in kidney cortex, considering calorie intake and smoking habits. Arch. Environ. Health 1976, 31, 292–301.
7. Garrick, M.D.; Dolan, K.G.; Horbinski, C.; Ghio, A.J: A mammalian transporter for multiple metals. Biometals 2003, 16, 41–54
8. Ikeda, M.; Nakatsuka, H.; Watanabe, T.; Shimbo, S. Estimation of daily cadmium intake from cadmium in blood or cadmium in urine. Environ. Health Prev. Med. 2015, 20, 455–459

9. Johri N, Jacquillet G, Unwin R. Heavy metal poisoning: the effects of cadmium on the kidney. Biometals, 2010; 23(5): 783-92
10. Khotimchenko M.Yu., Kolenchenko E.A. Efficiency of low-esterified pectin in toxic damage to the liver inflicted by lead treatment. Bulletin of Experimental Biology and Medicine, 2007; 144 (1) : 60–62
11. Kirsten T Eriksen, Jytte Halkjær, Jaymie R Meliker. Dietary cadmium intake and risk of prostate cancer: a Danish prospective cohort study. BMC Cancer, 2015; 15 : 177.
12. Maertes L. Nutritive value of raw materials for rabbits: World rabbits sci., 2004; 10: 157–166.
13. Mehrdad Rafati Rahimzadeh, Mehravar Rafati Rahimzadeh. Cadmium toxicity and treatment: An update. Caspian J Intern Med, 2017; 8(3): 135–145.
14. McLaughlin, M.J.; Singh, B.R. Cadmium in soils and plants. In Developments in Plant and Soil Sciences; McLaughlin, M.J., Singh, B.R., Eds.; Kluwer Academic Publishers: Dorddrecht, The Netherlands; Boston, London, 1999; Volume 85, pp. 1–7.
15. Nordberg GF. Cadmium and health in the 21st century-historical remarks and trends for the future.Biometals, 2004; 17: 485–489
16. Nie, X.; Wang, N.; Chen, Y.; Chen, C.; Han, B. Blood cadmium in Chinese adults and its relationships with diabetes and obesity. Environ. Sci. Pollut. Res. Int. 2016, 23, 18714–18723.
17. Vance, T.M.; Chun, O.K. Zinc intake is associated with lower cadmium burden in U.S. adults. J. Nutr. 2015, 145, 2741–2748.
18. Pehlivan E., Yanık B.H., Ahmetli G., Pehlivanc M. Equilibrium isotherm studies for the uptake of cadmium and lead ions onto sugar beet pulp. Bioresource Technology, 2008; 99 (9): 3520-3527.
19. Scott V. Adams, Sabah M. Quraishi, Martin M. Shafer. Dietary Cadmium Exposure and Risk of Breast, Endometrial, and Ovarian Cancer in the Women’s Health Initiative. Environ Health Perspect, 2014;122 (6): 594–600.
20. Temiraev R.B., Kozhokov M.K., Cherchesova S.K., Kokaeva F.F., Tletseruk I.R. Method for diminishing the adverse effect of anthropogenic heavy metal pollution on poultry meat products Journal of Environmental Management and Tourism, 2017; 3(19): 567–573.
21. Wu X, Samuel J. Cobbina, Guanghua Mao. A review of toxicity and mechanisms of individual and mixtures of heavy metals in the environment. Environmental Science and Pollution Research, 2016; 23 (9): 8244–8259.