___

• Alonso, M. L., Benedito, J. L., Miranda, M., Castillo, C., Hernandez, J., Shore, R. F. (2002). Interactions between toxic and essential trace metals in cattle from a region with low levels of pollution. Archives of Environmental Contamination and Toxicology, 42(2): 165-172.
• Amin, B. Y., Dar, R. R., Ali, A., Malla, J. A., Sheikh, S. (2016). Role of micro-nutrients in bovine reproduction. Theriogenology Insight, 6(1): 57-65.
• Ammerman, C. B., Loazia, J. M., Blue, W. G., Martin, F. G. (1974). Mineral composition of tissues from beef cattle under grazing condition in Panama. Journal of Animal Science, 38(1): 158-162.
• Arthington, J. D., Corah, L. R, Blecha, F. (1996). The effect of molybdenum-induced copper deficiency on acute-phase protein concentrations, superoxide dismutase activity, leukocyte numbers, and lymphocyte proliferation in beef heifers inoculated with bovine herpesvirus-1. Journal of Animal Science, 74(1): 211-217.
• Arthur, J. R., Morrice, P. C., Beckett, G. J. (1988). Thyroid hormone concentration in selenium deficient and selenium sufficient cattle. Research in Veterinary Science, 45(1): 122-123.
• Ballantine, H. T., Socha, M., Tomlinson, D. A. D., Johnson, A. B., Fieldıng, A. S., Shearer, J. K., Van Amstel, S. R. (2002). Effects of feding complexedzinc, manganese, copper, and cobalt to late gestation and lactating dairy cows on claw integrity, reproduction, and lactation performance The Professional Animal Scientist, 18(3): 211-218.
• Black, D. H., French, N. P. (2000). Copper copper deficiency on the peripheral blood cells of supplementation and bovine pregnancy rates: Three cattle. Irish Veterinary Journal, 53(4): 213-222.
• Boğa, M., Filik, G. (2011). Ruminant beslemede organik iz minerallerin önemi, Lalahan Hayvancılık Araştırma Enstitüsü Dergisi, 51(1): 31-40.
• Bülbül, T., Küçükersan, S. (2011). ) Organik selenyum, çinko ve bakırın ruminant beslemede kullanımı. VI. Ulusal Hayvan Besleme Kongresi, Samsun, s:400-405.
• Campbell, M. H., Miller, J. K., Schrick, F. N. (1999). Effect of additional cobalt, copper, manganese, andzinc on reproduction and milk yield of lactating dairy cows receiving bovine somatotropin. Journal of Dairy Science, 82(5): 1019–1025.
• Cebra, C. K., Heidel, J. R., Crisman, R. O., Stang, B. V. (2003). The relationship between cortisol, blood micronutrients, and neutrophil function in Postparturient Holstein cows. Journal of Veterinary Internal Medicine, 17 (6): 902–907.
• Combs, G. F., Combs, S. B. (1984). The nutritional biochemistry of selenium. Annual Review of Nutrition, 4(1): 257-280.
• Cook, J. G., Green, M. J. (2007). Reduced incidence of retained fetal membranes in dairy herds supplemented with iodine, selenium and cobalt. Veterinary Record, 161: 625-626.
• Dargatz, D. A., Ross, P. F. (1996). Blood selenium concentrations in cows and heifers on 253 cow-calf operations in 18 states. Journal of Animal Science, 74(12): 2891-2895.
• Eger, S., Drori, D., Karoori, I., Miller, N. (1985). Effects of selenium and vitamin E on incidence of retained placenta1, 2. Journal of Dairy Science. 68(8): 2119-2122.
• Ergün, A., Tuncer, Ş. D,, Çolpan, İ., Yalçın, S., Yıldız, G., Küçükersan, M. K., Küçükersan, S., Şehu, A. (1998). Alınmıştır: Ergün IA (editör) Hayvan Besleme, Ankara, Ankara Üniversitesi Basımevi. s.133-145.
• Fidancı, U. R. (1986). Yurdumuz hayvanlarında iz element noksanlıkları. Veteriner Hekimler Derneği Dergisi, 56 (1): 37-44.
• Gazioğlu, A., Balıkçı, E. (2017). Geçiş dönemindeki ineklerde serum bakır, çinko, manganez ve kobalt düzeyleri. Fırat Üniversitesi Sağlık Bilimleri Veteriner Dergisi. 31(2): 101 – 104.
• Goff, J. P. (2005). Major advances in our understanding of nutritional influnces on bovine health. Journal of Dairy Science, 89(4): 1272-1301.
• Goff, J. P. (1999). Dry cow nutrition and metabolic disease in parturient cows. In: Proceeding Western Canadian Dairy Seminar Red Deer, 177-202.
• Gottsch, M. L., Van Kirk, E. A., Murdoch, W. J. (2000). Tumour necrosis factor alphaup regulates matrix metallo proteinase-2 activity in preovulatory ovine follicles metamorphic and endocrine implications, Reproduction, Fertility and Development, 12 (2): 75-80.
• Graham, T. W., Thurmond, M. C., Greshwin, M. E., Picanso, J. P., Garvey, J. S., Keen, C. L. (1994). Serum zinc and copper concentrations in relation to spontaneous abortion in cows: implications for human fetal loss. Journal of Reproduction and Fertility, 102(1): 253-262.
• Griffiths, L. M., Loeffler, S. H., Socha, M. T., Tomlinson, D. J., Johnson, A. B. (2007). Effects of supplementing complexed zinc, manganese, copper and cobalt on lactation and reproductive performance of intensively grazed lactating dairy cattle on the South Island of New Zealand. Animal Feed Science and Technology, 137 (1-2): 69-83.
• Gültepe, E. E., Uyarlar, C., Çetingul, İ. S., Bayram, İ. (2017). Süt ineklerinde geçiş döneminde immun sistemi desteklemek amacıyla yapılan çalışmalar. Göller Bölgesi Aylık Hakemli Ekonomi ve Kültür Dergisi, Ayrıntı Sayı 56, Kasım 2017/ 34.
• Halilova, H. (2004). Mikroelementlerin (I, Zn, Co, Mn, Cu, Se) biyojeokimyası. İlke-Emek Yayınları, Ankara, 110.
• Harrison, J. H., Hancock, D. D. (1999). The role of selenium and Vitamin E deficiency in postpartum reproductive disease of the bovine In: Hogan, J. (Ed.), The Alvin Lloyd Moxon honorary lectures on selenium and Vitamin E. The Ohio State University, Ohio, 83-95.
• Harrison, J. H., Hancock, D. D., Conrad, H. R. (1984). Vitamin E and selenium for reproduction of the dairy cow. Journal of Dairy Science, 67(1): 123-132.
• Harrison, J. H., Hancock, D. D., Pierre, N. S., Conrad, H. R., Harvey, W. R. (1986). Effect of prepartum selenium treatment on uterine involution in the dairy cow. Journal of Dairy Science, 69(5): 1421-1425.
• Hemingway, R. G. (2003). The influences of dietary intakes and supplementation with selenium and vitamin E on reproduction diseases and reproductive efficiency in cattle and sheep. Veterinary Research Communications, 27(2): 159-174.
• Hidiroglu, M. (1979). Trace element deficiencies and fertility in ruminants: A Review. Journal of Dairy Science 62, 1195-1206.
• Hostetler, C. E., Kincaid, R. L., Mirando, M. A. (2003). The role of essential trace elements in embryonic and fetal development in livestock The Veterinary Journal, 166 (2): 125-139.
• Humann-Ziehank, E. (2016). Selenium, copper and iron in veterinary medicinefrom clinical implications to scientific models Journal of Trace Elements in Medicine and Biology, 37, 96-103.
• Irsik, M. (2018). Copper: An Essential Micronutrient for Beef Cattle. https://vetmed-extension.sites.medinfo.ufl.edu (Son erişim tarihi: 18.09.2018).
• Kreplin, C., Yaremcio, B. (2009). Effects of nutrition on beef cow reproduction. Alberta Agriculture and Rural Development.
• Kumar, S., Pandey, A. K., Abdulrazzaque, W. A., Dwivedi, D. K. (2011). Importance of micro minerals in reproductive performance of livestock. Veterinary World, 4(5): 230. Lawrence, A. K., Amadeo, J. P., Steven, C. K. (2003). Clinical Chemistry. 4th Edition. 714.
• Leonhard-Marek, S. (2000). Warum beeinflussen spruenelemente die fertilität. Tieräztl Prax, 28(6): 60-65.
• Maas, J. (1987). Relationship between nutrition and reproduction in beef cattle. The Veterinary Clinics of North America. Food Animal Practice, 3(3): 633-646.
• Madhavan, E., Iyer, C. P. N. (1993). Treatment of anoestrus in crossbred cattle with CoCu-H. Indian Journal of Animal Reproduction, 14, 125-132.
• Manickam, R., Gopalakrishnan, C. A., Ramanathan, G., Mookkappan, M., & Nagarajan, R. (1977). Studies on the relationships between trace elements and fertilty in cows. Indian Journal of Animal Research, 11, 23.
• Mcdowell, L. R., Conrad, C. H., Hembry, G. F. (1993). Minerals for grazing ruminants in tropic regions. Bulletin University of Florida Gainesville, 29-32.
• Megahed, G. A., Anwar, M. M., Wasfy, S. I., Hammadeh, M. E. (2008). Influence of heat stress on the cortisol and oxidant‐antioxidants balance during oestrous phase in buffalo‐cows (Bubalus bubalis): thermo‐protective role of antioxidant treatment. Reproduction in Domestic Animals, 43(6): 672-677.
• Mehdi, Y., Dufrasne, I. (2016). Selenium in cattle: a review. Molecules, 21(4), 545.
• Mehta, S. N., Gangwar, P. C. (1984). Seasonal variation in plasma trace minerals of lactating buffaloes. Indian Journal of Animal Research, 54, 1035-1036.
• Miller, J. K., Ramsey, N., Madsen, F. C. (1988). The trace minerals in the ruminant animal. In: Church, D. C (Ed.), The Ruminant Animal, Prentice Hall, New Jersey, 342-400.
• National Research Council (NRC) (2001). In: Nutrients requirement of dairy cattle, 7th rev. ed. The National Academies Press, Washington D.C.
• Nebbia, C. (1982). Selenium in veterinary medicine. Riv Zoot Vet, 10, 246-278.
• Orr, J. P., Blakley, B. R. (1997). Investigation of the selenium status of aborted calves with cardiac failure and myocardial necrosis. Journal of Veterinary Diagnostic Investigation, 9(2): 172-179.
• Pal, A. (2015). Role of copper and selenium in reproductive biology: A Brief Update. Biochemical Pharmacology (Los Angel), 4(4): 5.
• Paszkowski, T., Traub, A. I., Robinson, S. Y., McMaster, D. (1995). Selenium dependent glutathione peroxidase activity in human follicular fluid. Clinica Chimica Acta, 236(2): 173-180.
• Patterson, H. H., Adams, D. C., Klopfenstein, T. J., Clark, R. T., Teichert, B. (2003). Supplementation to meet metabolizable protein requirements of primiparous beef heifers: II. Pregnancy and economics. Journal of Animal Science, 81(3), 563-570.
• Phillippo, M., Humphries, W. R., Atkinson, T., Henderson, G. D., Garthwaite, P. H. (1987). The effect of dietary molybdenum and iron on copper status, puberty, fertility and oestrous cycles in cattle. The Journal of Agricultural Science, 109(2): 321-336.
• Prohaska, J. R., Brokate, B. (2002). The timing of perinatal copper deficiency in mice influences offspring survival. The Journal of Nutrition,132(10): 3142–3145.
• Puls, R. (1994). Mineral levels in animal health: diagnostic data, 2nd ed. Sherpa International, Clearbrook. British Columbia, 356.
• Qureshi, G. A., Memon, S. A., Memon, A. B., Ghouri, R. A., Memon, J. M., Parvez, S. H. (2005). The emerging role of iron, zinc, copper, magnesium and selenium and oxidative stress in health and diseases. Biogenic Amines, 19(2): 147–169.
• Rederstorff, M., Krol, A., Lescure, A. (2006). Understanding the importance of selenium and selenoproteins in muscle function. Cellular and molecular life sciences, 63(1): 52-59.
• Roychoudhury, S., Nath, S., Massanyi, P., Stawarz, R., Kacaniova, M., Kolesarova, A. (2016). Copper-induced changes in reproductive functions:ın vivo and ın vitro effects. Physiological Research, 65(1): 11-22.
• Sales, J. N. S., Pereira, R. V. V., Bicalho, R. C., Baruselli, P. S. (2011). Effect of injectable copper, selenium, zinc and manganese on the pregnancy rate of crossbred heifers (Bos indicus× Bos taurus) synchronized for timed embryo transfer. Livestock Science, 142 (1-3): 59-62.
• Sarı, M., Çuçi, İ. H., Deniz, S. (2008). Hayvan Besleme ve Beslenme Hastalıkları. Medipress, Malatya.
• Sato, F., Watanabe, T., Endo, A. (1982). Cytogenetic Effects of zinc-deficiency on oogenesis and spermatogenesis. Teratology, 26 (1): A13–A14.
• Shamberger, R. J. (1986). Selenium metabolism and function. Clinical Physiology and Biochemistry, 4(1): 42-49.
• Spears, J. W. (1996). Organic trace minerals in ruminant nutrition. Animal Feed Science and Technology, 58 (1-2): 151-163.
• Spitzer, J. C. (1986). In: Influences of nutrition on reproduction in beef cattle.. In: Morrow DA (Ed.), Current Therapy in Theriogenology, Toronto, W.B. Saunders, 322-323.
• Staats, D. A., Lohr, D. P., Colby, H. D. (1988). Effects of tocopherol depletion on the regional differences in adrenal microsomal lipid peroxidation and steroid metabolism. Endocrinology, 123 (2): 975-980.
• Taneja, S. K., Kaur, R. (1990). Pathology of ovary, uterus, vagina and gonadotrophs of female mice fed on Zn-deficient diet. Indian Journal of Experimental Biology, 28 (11): 1058-1065.
• Underwood, E. J., Suttle, N. F. (1999). The mineral nutrition of livestock, CABI Publishing, UK, 294-482.
• Vallee, B. L., Falchuk, K. H. (1993). The biochemical basis of zinc physiology. Physiological Reviews, 73 (1): 79-118.
• Weiser, T., Wienrich, M. (1996). The effects of copper ions on glutamate receptors in cultured rat cortical neurons. Brain research, 742 (1-2): 211-218.
• Weiss, W. P., Hogan, J. S., Smith, K. L., Hoblet, K. H. (1990). Relationships among selenium, vitamin E, and mammary gland health in commercial dairy herds 1. Journal of Dairy Science, 73(2), 381-390.
• Wichtel, J. J., Freeman, D. A., Craigie, A. L., Varela-Alvarez, H., Williamson, N. B. (1996). Alpha tocopherol, selenium and polyunsaturated fatty acid concentrations in the serum and feed of spring calving dairy heifers. New Zealand Veterinary Journal, 44(1): 15-21.
• Yatoo, M. I., Saxena, A., Deepa, P. M., Habeab, B. P., Devi, S., Jatav, R. S., Dimri, U. (2013). Role of trace elements in animals: a review. Veterinary World, 6 (12): 963.
• Yıldız, A., Balıkçı, E. (2004). İneklerin kan serumlarındaki bazı mineraller ile embriyonik ölüm arasındaki ilişki. Yüzüncü Yıl Üniversitesi Veteriner Fakültesi Dergisi, 15(1): 11-14.
• Zonturlu, A. K., Üren, N., Özyurtlu, N., Bozkurt, G., Alpaslan, B. M. (2008). Retensiyo sekundinarumlu ineklerde yaş, süt verimi, vücut kondisyon skoru ve kan serumu selenyum düzeylerinin karşılaştırılması. Fırat Üniversitesi Sağlık Bilimleri Veteriner Dergisi, 22 (3): 127 – 130.