Year 2021,
Volume: 27 Issue: 2, 179 - 186, 04.06.2021
Serdal Çoban
,
Zeynep Erdoğan
References
- Albuquerque K P, do Prado I N, do Prado R M, Cavallieri F L B, Rigolon L P & Barbosa O R (2012). Superovulatory response, production and quality of embryos of cows fed on linseed or canola seed supplemented diets. Acta Scientiarum Animal Sciences 34(3): 321-327
- Ambrose D J, Kastelic J P, Corbett R, Pitney P A, Petit H V, Small J A & Zalkovic P (2006). Lower pregnancy losses in lactating dairy cows fed a diet enriched in linoleic acid. Journal of Dairy Science 89: 3066-3074
- AOAC (1998). Official methods of analysis. 16th ed. 4th revision, Association of Official Analytical Chemists, Washington DC, USA
- Bidarimath M & Glover K (2015). Effect of omega-3 fatty acıds on the ovarıes of lactatıng daıry cows. https://www.researchgate.net-publication-284673150 (Date of Access: 20.12.2016)
- Boland M P & Lonergan P (2003). Effects of nutrition on fertility in dairy cows. Advances in Dairy Technology 15: 19-33Bülbül B & Dursun Ş (2005). İneklerde süperovulasyon cevabına etki eden faktörler. Hayvancılık Araştırma Dergisi 15(1): 16-25
- Bó G A, Baruselli P S, Moreno D, Cutaia L, Caccia M, Tríbulo R, Tríbulo H & Mapletoft R J (2002). The control of follicular wave development for selfappointed embryo transfer programs in cattle. Theriogenology 57(1): 53-72
- Capovilla L C T, Rıgolan L P, Cavalıerı F L B, Macedo F A F, Albuquerquue K P, F J Lourenço & G Santello (2006). Superovulation and embryos viability of santa ınes ewes fed with essential fatty acids. Academical Journal 4(1): 65-73
- Childs S, Carter F, Lynch C O, Sreenan J M, Lonergan P, Hennessy A A & Kenny D A (2008). Embryo yield and quality following dietary supplementation of beef heifers with n-3 polyunsaturated fatty acids (PUFA). Theriogenology 70(6): 992-1003
- Elis S, Freret S, Desmarchais A, Maillard V, Cognie J, Briant E, Touze J L & Dupont M (2016). Efect of a long chain n-3 pufa-enriched diet on production and reproduction variables in holstein dairy cows. Animal Reproduction Science 164:121-132
- Ergün Y & Erdoğan Z (2001). Süt sığırlarında beslemenin fertilite üzerine etkisi- I: Enerji, protein ve fertilite ilişkisi. Bültendif Vet Derg Ekim: 9-12
- Fouladi-Nashta A A, Gutierrez C G, Gong J G, Garnsworthy P & Webb R (2007). Impact of dietary fatty acids on oocyte quality and development in lactating dairy cows. Biology of Reproduction 77(1): 9-17
- Gandra J R, Verdurico L C, Mingoti R D, Takiya C S, Gardinal R, Vendramini T H A, Barletta R V, Visintin J A & Rennóve F P (2017). Whole flaxseed, raw soybeans, and calcium salts of fatty acids supplementation for transition cows: Follicle development and embryo quality. Italian Journal of Animal Scıence 16(4): 538-545
- Ghasemzadeh-Nava H, Fatahnia F, Nikkhah A & Zamiri M J (2011). Effects of dietary polyunsaturated fatty acids on ovarian function and prostaglandin secretion in lactating dairy cows. International Journal of Veterinary Research 5(2): 129-135
- Hasler J F (2004). Factors influencing the success of embryo transfer in cattle. https://www.researchgate.net/profile-John_Hasler/publication/228484750 (Date of Access: 25.11.2014)
- Hiçcan Ö & Yıldız G (2016). Sütçü ineklerde enerji dengesinin üreme üzerine etkileri. http://www.tarimdanhaber.com/haber/hayvancilik/sutcu-ineklerde-enerji-dengesinin-ureme-uzerine-etkileri (Erişim tarihi: 28.12.2016
- )IETS (2010). Bovine in vivo embryo slide set tutorial. http://www.iets.org. (Date of access: 21.12.2016)Kanagawa H, Shimohira I & Saitoh N (1995). Manual of bovine embryo transfer.
- National Livestock Breeding Center MAFF, JICA-JapanKaymaz M (2015). Çiftlik hayvanlarında doğum ve jinekololji. Yardımcı üreme teknikleri. 2. Baskı, Medipres Matbaacılık Yayıncılık Ltd. Şti., Malatya, s. 695-811
- Leroy J L, Sturmey R G, Van Hoeck V, De Bie J, McKeegan P J & Bols P E J (2013). Dietary lipid supplementation on cow reproductive performance and oocyte and embryo viability: A real benefit? Animal Reprodiction Science 10(3): 258-267
- Mattos R, Staples C R & Thatcher W W (2000). Effects of dietary fatty acids on reproduction in ruminants. Reviews of Reproduction 5(1): 38-45
- Moriel P, Cappellozza B I, Ferraretto L F, Aboin A C, Vieira F V R, Rodrigues R O, Cooke R F & Vasconcelos J L M (2014). Effects of supplementation of calcium salts of polyunsaturated fatty acids on serum concentrations of progesterone and insulin of pregnant dairy cows. Revista Brasileira de Zootecnia 43(1): 20-26
- Muller M, Prado I N, Júnior A R L, Silva R R, Capovilla L C T, Rigolon L P, Cavalieri F L B & Marques J A (2009). Ω-3 nd Ω-9 on performance, superovulatory response and embryo production in nellore heifers. Archivos de Zootecnia 58(222): 241-252
- NRC (2001). Nutrient Requirement of Dairy Cattle. 7th revised ed., National Academy Press, Washington
- Petit H V, Cavalieri F B, Santos G T, Morgan J & Sharpe P (2008). Quality of embryos produced from dairy cows fed whole flaxseed and the success of embryo transfer. Journal of Dairy Science 91(5): 1786-1790
- Rivera F A, Mendonça L G, Lopes G J R, Santos J E, Perez R V, Amstalden M, Calderon A C & Chebel R C (2011). Reduced progesterone concentration during growth of the first follicular wave affects embryo quality but has no effect on embryo survival post transfer in lactating dairy cows. Reproduction 141(3): 333-342
- Salehi R, Colazo M G, Tsoi S, Behrouzi A, Tsang B K, Dyck M K, Oba M & Ambrose D J (2016). Morphologic and transcriptomic assessment of bovine embryos exposed to dietary long-chain fatty acids. Reproduction 152: 715-726
- Santos J E P, Cerri R L & Sartori R (2008). Nutritional management of the donor cow. Theriogenology 69(1): 88-97Smith O B & Akinbamijo O O (2000). Micronutritients and reproduction in farm animals. Animal Reproduction Science 60-61: 549-560
- Staples C R, Burke J M & Thatcher W W (1998). Influence of suplemental fats on reproductive tissue and performance of lactating cows. Journal of Dairy Science 81(3): 856-871
- SPSS for Windows (1999). Base System User’s Guide, Release11.5, PSS Inc. Chicago, USA
- Şirin E & Kuran M (2004). Rasyondaki yağ asitlerinin ruminantlarda üreme fonksiyonları üzerine etkisi. 4. Ulusal Zootekni Bilim Kongresi. 1-3 Eylül, İsparta, s. 54-61
- Takahashi M, Sawada K, Kawate N, Inaba T & Tamada H (2013). Improvement of superovulatory response and pregnancy rate after transfer of embryos recovered from japanese black cows fed rumen bypass polyunsaturated fatty acids. Journal of Veterinary Medical Science 75(11): 1485-1490
- Tessaro F H, Ayala T S & Martins J O (2015). Lipid mediators are critical in resolving ınflammation: a review of the emerging roles of eicosanoids in diabetes mellitus. Biomed Research International 2015: 8
- Tur İ (2014). Koyun rasyonundaki ham protein oranının kan üre nitrojen, ovaryum fonksiyonu, fertilizasyon, uterus fizyoloji ve embriyo kalitesi üzerine etkisi. Doktora tezi, Selçuk Üniversitesi Sağlık Bilimleri Enstitüsü, Konya
- Urlep Z & Rozman D (2013). The ınterplay between circadian system, cholesterol synthesis, and steroidogenesis affects various aspects of female reproduction. Front Endocrinol (Lausanne) 4: 111
The Effects of Unsaturated Fatty Acid Supplementation to Ration on Superovulation Performance and Embryo Quality of Donor Cows
Year 2021,
Volume: 27 Issue: 2, 179 - 186, 04.06.2021
Serdal Çoban
,
Zeynep Erdoğan
Abstract
This study was conducted to determine the effects of omega-3 (α-linolenic acid) fatty acid supplementation to donor cow rations on superovulation performance, embryo number and quality, and blood-progesterone levels. The study was carried out with two groups, each consisting of 10 black-and-white breed dairy cows. Control group was fed with the basic ration prepared, and the experimental group was fed with the ration added with omega-3 polyunsaturated fatty acid (PUFA) source at a level of 3.82% of the basic ration dry matter (DM) for 60 days training period. Thus, each of experimental group’s cow consumed 900 g-day feed additives consisting 149.4 g omega-3 daily. The superovulation protocol was started at the 40th day of feeding period. According to the findings of the study, the difference between the groups in terms of the response to superovulation was found to be insignificant (P>0.05). Similarly, there was no significant difference in blood progesterone levels between the groups (P>0.05). However, the difference between the control group and the experimental group in terms of transferable and non-transferable embryo rates was found to be significantly important (P<0.05). The total number of transferred embryos was determined as 37 in the experimental group and 79 in the control group. The total number of non-transferable embryos was recorded as 78 in the trial group and 43 in the control group. At the end of the study, it was concluded that supplementation to donor cow rations with omega-3 fatty acid sources might have a negative effects on transferrable embryo number and quality.
Thanks
This study was supported by Republic of Turkey Ministry of Agriculture and Forestry-General Directorate of Agricultural Research and Policies TAGEM - HAYSUD - AR-GE -15.A02.P03.03 project number.
References
- Albuquerque K P, do Prado I N, do Prado R M, Cavallieri F L B, Rigolon L P & Barbosa O R (2012). Superovulatory response, production and quality of embryos of cows fed on linseed or canola seed supplemented diets. Acta Scientiarum Animal Sciences 34(3): 321-327
- Ambrose D J, Kastelic J P, Corbett R, Pitney P A, Petit H V, Small J A & Zalkovic P (2006). Lower pregnancy losses in lactating dairy cows fed a diet enriched in linoleic acid. Journal of Dairy Science 89: 3066-3074
- AOAC (1998). Official methods of analysis. 16th ed. 4th revision, Association of Official Analytical Chemists, Washington DC, USA
- Bidarimath M & Glover K (2015). Effect of omega-3 fatty acıds on the ovarıes of lactatıng daıry cows. https://www.researchgate.net-publication-284673150 (Date of Access: 20.12.2016)
- Boland M P & Lonergan P (2003). Effects of nutrition on fertility in dairy cows. Advances in Dairy Technology 15: 19-33Bülbül B & Dursun Ş (2005). İneklerde süperovulasyon cevabına etki eden faktörler. Hayvancılık Araştırma Dergisi 15(1): 16-25
- Bó G A, Baruselli P S, Moreno D, Cutaia L, Caccia M, Tríbulo R, Tríbulo H & Mapletoft R J (2002). The control of follicular wave development for selfappointed embryo transfer programs in cattle. Theriogenology 57(1): 53-72
- Capovilla L C T, Rıgolan L P, Cavalıerı F L B, Macedo F A F, Albuquerquue K P, F J Lourenço & G Santello (2006). Superovulation and embryos viability of santa ınes ewes fed with essential fatty acids. Academical Journal 4(1): 65-73
- Childs S, Carter F, Lynch C O, Sreenan J M, Lonergan P, Hennessy A A & Kenny D A (2008). Embryo yield and quality following dietary supplementation of beef heifers with n-3 polyunsaturated fatty acids (PUFA). Theriogenology 70(6): 992-1003
- Elis S, Freret S, Desmarchais A, Maillard V, Cognie J, Briant E, Touze J L & Dupont M (2016). Efect of a long chain n-3 pufa-enriched diet on production and reproduction variables in holstein dairy cows. Animal Reproduction Science 164:121-132
- Ergün Y & Erdoğan Z (2001). Süt sığırlarında beslemenin fertilite üzerine etkisi- I: Enerji, protein ve fertilite ilişkisi. Bültendif Vet Derg Ekim: 9-12
- Fouladi-Nashta A A, Gutierrez C G, Gong J G, Garnsworthy P & Webb R (2007). Impact of dietary fatty acids on oocyte quality and development in lactating dairy cows. Biology of Reproduction 77(1): 9-17
- Gandra J R, Verdurico L C, Mingoti R D, Takiya C S, Gardinal R, Vendramini T H A, Barletta R V, Visintin J A & Rennóve F P (2017). Whole flaxseed, raw soybeans, and calcium salts of fatty acids supplementation for transition cows: Follicle development and embryo quality. Italian Journal of Animal Scıence 16(4): 538-545
- Ghasemzadeh-Nava H, Fatahnia F, Nikkhah A & Zamiri M J (2011). Effects of dietary polyunsaturated fatty acids on ovarian function and prostaglandin secretion in lactating dairy cows. International Journal of Veterinary Research 5(2): 129-135
- Hasler J F (2004). Factors influencing the success of embryo transfer in cattle. https://www.researchgate.net/profile-John_Hasler/publication/228484750 (Date of Access: 25.11.2014)
- Hiçcan Ö & Yıldız G (2016). Sütçü ineklerde enerji dengesinin üreme üzerine etkileri. http://www.tarimdanhaber.com/haber/hayvancilik/sutcu-ineklerde-enerji-dengesinin-ureme-uzerine-etkileri (Erişim tarihi: 28.12.2016
- )IETS (2010). Bovine in vivo embryo slide set tutorial. http://www.iets.org. (Date of access: 21.12.2016)Kanagawa H, Shimohira I & Saitoh N (1995). Manual of bovine embryo transfer.
- National Livestock Breeding Center MAFF, JICA-JapanKaymaz M (2015). Çiftlik hayvanlarında doğum ve jinekololji. Yardımcı üreme teknikleri. 2. Baskı, Medipres Matbaacılık Yayıncılık Ltd. Şti., Malatya, s. 695-811
- Leroy J L, Sturmey R G, Van Hoeck V, De Bie J, McKeegan P J & Bols P E J (2013). Dietary lipid supplementation on cow reproductive performance and oocyte and embryo viability: A real benefit? Animal Reprodiction Science 10(3): 258-267
- Mattos R, Staples C R & Thatcher W W (2000). Effects of dietary fatty acids on reproduction in ruminants. Reviews of Reproduction 5(1): 38-45
- Moriel P, Cappellozza B I, Ferraretto L F, Aboin A C, Vieira F V R, Rodrigues R O, Cooke R F & Vasconcelos J L M (2014). Effects of supplementation of calcium salts of polyunsaturated fatty acids on serum concentrations of progesterone and insulin of pregnant dairy cows. Revista Brasileira de Zootecnia 43(1): 20-26
- Muller M, Prado I N, Júnior A R L, Silva R R, Capovilla L C T, Rigolon L P, Cavalieri F L B & Marques J A (2009). Ω-3 nd Ω-9 on performance, superovulatory response and embryo production in nellore heifers. Archivos de Zootecnia 58(222): 241-252
- NRC (2001). Nutrient Requirement of Dairy Cattle. 7th revised ed., National Academy Press, Washington
- Petit H V, Cavalieri F B, Santos G T, Morgan J & Sharpe P (2008). Quality of embryos produced from dairy cows fed whole flaxseed and the success of embryo transfer. Journal of Dairy Science 91(5): 1786-1790
- Rivera F A, Mendonça L G, Lopes G J R, Santos J E, Perez R V, Amstalden M, Calderon A C & Chebel R C (2011). Reduced progesterone concentration during growth of the first follicular wave affects embryo quality but has no effect on embryo survival post transfer in lactating dairy cows. Reproduction 141(3): 333-342
- Salehi R, Colazo M G, Tsoi S, Behrouzi A, Tsang B K, Dyck M K, Oba M & Ambrose D J (2016). Morphologic and transcriptomic assessment of bovine embryos exposed to dietary long-chain fatty acids. Reproduction 152: 715-726
- Santos J E P, Cerri R L & Sartori R (2008). Nutritional management of the donor cow. Theriogenology 69(1): 88-97Smith O B & Akinbamijo O O (2000). Micronutritients and reproduction in farm animals. Animal Reproduction Science 60-61: 549-560
- Staples C R, Burke J M & Thatcher W W (1998). Influence of suplemental fats on reproductive tissue and performance of lactating cows. Journal of Dairy Science 81(3): 856-871
- SPSS for Windows (1999). Base System User’s Guide, Release11.5, PSS Inc. Chicago, USA
- Şirin E & Kuran M (2004). Rasyondaki yağ asitlerinin ruminantlarda üreme fonksiyonları üzerine etkisi. 4. Ulusal Zootekni Bilim Kongresi. 1-3 Eylül, İsparta, s. 54-61
- Takahashi M, Sawada K, Kawate N, Inaba T & Tamada H (2013). Improvement of superovulatory response and pregnancy rate after transfer of embryos recovered from japanese black cows fed rumen bypass polyunsaturated fatty acids. Journal of Veterinary Medical Science 75(11): 1485-1490
- Tessaro F H, Ayala T S & Martins J O (2015). Lipid mediators are critical in resolving ınflammation: a review of the emerging roles of eicosanoids in diabetes mellitus. Biomed Research International 2015: 8
- Tur İ (2014). Koyun rasyonundaki ham protein oranının kan üre nitrojen, ovaryum fonksiyonu, fertilizasyon, uterus fizyoloji ve embriyo kalitesi üzerine etkisi. Doktora tezi, Selçuk Üniversitesi Sağlık Bilimleri Enstitüsü, Konya
- Urlep Z & Rozman D (2013). The ınterplay between circadian system, cholesterol synthesis, and steroidogenesis affects various aspects of female reproduction. Front Endocrinol (Lausanne) 4: 111