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Year 2022, Volume: 28 Issue: 2, 217 - 222, 25.04.2022
https://doi.org/10.15832/ankutbd.783056

Abstract

References

  • Adamec V, Cassell B G, Smith E & Pearson R E (2006). Effects of Inbreeding in the Dam on Dystocia and Stillbirths in US Holsteins. J. Dairy Sci. 89(1):307-14
  • Bayram B, Güler O, Yanar M, Akbulut Ö, Aydın R, Bilgin Ö C & Tüzemen N (2008). Atatürk Üniversitesi Ziraat Fakültesi Çiftliğinde Yetiştirilen Siyah Alaca Sığırlarda Akrabalı Yetiştirme Düzeyi ile Bunun Bazı Üreme ve Süt Verim Özellikleri Üzerine Etkileri. Hayvansal Üretim Dergisi 49(2):1-6
  • Boldman K G, Kriese L A, Van Vleck L D, Van Tassel C P & Kachman S D (1995). A Manual for Use of MTDFREML. A Set Programs to Obtain Estimates of Variances and Covariances. US Department of Agriculture, Agriculture Research Service. USA. ftp://aipl.arsusda.gov/pub/outgoing/mtdfreml/mtdfrman.pdf
  • Doekes H P, Veerkamp R F, Bijma P, Jong G, Hiemstra S J & Windig J J (2019). Inbreeding depression due to recent and ancient inbreeding in Dutch Holstein–Friesian dairy cattle. Genetics Selection Evolution volume 51, Article number: 54 Cleveland M A, Blackburn H D, Enns R M & Garrick D J (2005). Changes in Inbreeding of U. S. Herefords During the Twentieth Century. J. Anim. Sci. 2005, 83:992-1001
  • Falconer D S & Mackay T F C (1997). Introduction to Quantitative Genetics (4th Edition). Longman Scientific and Technical, Harlow, UK.
  • Freyer G, Hernández-Sánchez J & Cassell, B G (2005). A note on Inbreeding in Dairy Cattle Breeding. Arch. Tierz., Dummerstorf 48 (2005) 2, 130-137.
  • Gullstrand, P (2015). Control of Inbreeding in Dairy cattle in the Genomic Era. Examensarbete / Swedish University of Agricultural Sciences, Department of Animal Breeding and Genetics, 485. On-line Publication: http://epsilon.slu.se
  • Hofmannova M., Pribyl J, Krupa E & Pesek P (2019). Estimation of Inbreeding Effect on Conception in Czech Holstein. Czech Journal of Animal Science, 64, 2019 (7):309-316
  • Kaygısız A & Kösetürkmen E (2007). Akrabalı Yetiştirmenin Esmer Sığırların Süt ve Döl Verim Özelliklerine Etkileri. KSÜ Fen ve Mühendislik Dergisi, 10(2)
  • Mc Parland S, Kearney J F, Rath M & Berry D P (2007). Inbreeding Trends and Pedigree analysis of Irish Dairy and Beef Cattle Populations. J. Anim. Sci.2007. 85:322-331
  • Miglior F (2000). Impact of Inbreeding- Managing a Declining Holstein Gene Pool. 10th World Conference-Sydney-Australia.
  • Pryce J E, Haile-Mariam M, Goddard M E & Hayes B J (2014). Identification of Genomic Regions Associated with Inbreeding Depression in Holstein and Jersey Dairy Cattle. Genetics Selection Evolution 2014, 46:71.
  • Rokouei M, Torshizi V R, Shahabak M M, Sargolzai M & Sorensen A C (2010). Monitoring Inbreeding Trends and Inbreeding Depression for Economically Important Traits of Holstein Cattle in Iran. J. Dairy Sci. 93:3294-3302
  • Sewalem A, Kistemaker G J, Miglior F & Van Doormaal B J (2006). Analysis of Inbreeding and Its Relationship with Functional Longevity in Canadian Dairy Cattle. J. Dairy Sci. 89:2210-2216
  • Sorensen A C, Sorensen M K & Berg P (2005). Inbreeding in Danish dairy Cattle Breeds. J. Dairy Sci. 88:1865-1872
  • Thompson J R, Everett R W & Hammerschmidt N L (2000). Effects of Inbreeding on Production and Survival in Holsteins. J. Dairy Sci. 83:1856-1864.
  • TUIK (2021). Retrieved on January 14, 2021, from http://rapory.tuik.gov.tr/15-01-2021-19:28:54-1874420587686368828239441645.html?
  • USCDCB (2021). Animal Improvement Programs Laboratory. Retrieved on January 12, 2021, from https://queries.uscdcb.com/eval/summary/inbrd.cfm Weigel K A (2001). Controlling Inbreeding in Modern Breeding Programs. 2001 J. Dairy Sci. 84(E. Suppl.):E177-E184
  • Weigel K A & Lin S W (2002). Controlling Inbreeding by Constraining the Average Relationship Between Parents of Young Bulls Entering AI Progeny Test Programs. J. Dairy Sci. 85:2376-2383
  • Wiggans G R & VanRaden P M (1995). Calculation and Use of Inbreeding Coefficient for Genetic Evaluation of United States Dairy Cattle. 1995 J. Dairy Sci. 78: 1584-1590
  • Wright S (1922). Coefficients of Inbreeding and Relationships. The American Naturalist 56:330-338

Inbreeding in Holstein Friesian Cattle Population in Turkey

Year 2022, Volume: 28 Issue: 2, 217 - 222, 25.04.2022
https://doi.org/10.15832/ankutbd.783056

Abstract

Inbreeding is generally associated with a reduction in production and profitability. Therefore, it is essential that it be monitored and kept under control. The purpose of this study was to calculate the inbreeding coefficient for Holstein Friesian cattle registered in the database of the Cattle Breeders' Associations of Turkey (CBAT). In this study, pre-herdbook and herdbook databases were combined. The database consisted of 6,935,005 individuals born between 1962 and 2012. Inbreeding coefficients were calculated using Wright's method, and ranging from zero to 43.75% with a mean of 0.0012 and standard deviation (SD) of 0.01273 for all animals, and considering the inbred animals, the mean inbreeding coefficient was 0.0106 and standard deviation was 0.03272. The average inbreeding of all animals born in the population in 2012 was found to be 0.0022. In the population, the proportion and the number of inbred individuals increased over the years, while the mean inbreeding coefficient decreased. This could be due to the fact that gene flow in the population from different countries was considerably high, and pedigree information was taken into account while importing sperm and live animals (both heifers and bulls).

References

  • Adamec V, Cassell B G, Smith E & Pearson R E (2006). Effects of Inbreeding in the Dam on Dystocia and Stillbirths in US Holsteins. J. Dairy Sci. 89(1):307-14
  • Bayram B, Güler O, Yanar M, Akbulut Ö, Aydın R, Bilgin Ö C & Tüzemen N (2008). Atatürk Üniversitesi Ziraat Fakültesi Çiftliğinde Yetiştirilen Siyah Alaca Sığırlarda Akrabalı Yetiştirme Düzeyi ile Bunun Bazı Üreme ve Süt Verim Özellikleri Üzerine Etkileri. Hayvansal Üretim Dergisi 49(2):1-6
  • Boldman K G, Kriese L A, Van Vleck L D, Van Tassel C P & Kachman S D (1995). A Manual for Use of MTDFREML. A Set Programs to Obtain Estimates of Variances and Covariances. US Department of Agriculture, Agriculture Research Service. USA. ftp://aipl.arsusda.gov/pub/outgoing/mtdfreml/mtdfrman.pdf
  • Doekes H P, Veerkamp R F, Bijma P, Jong G, Hiemstra S J & Windig J J (2019). Inbreeding depression due to recent and ancient inbreeding in Dutch Holstein–Friesian dairy cattle. Genetics Selection Evolution volume 51, Article number: 54 Cleveland M A, Blackburn H D, Enns R M & Garrick D J (2005). Changes in Inbreeding of U. S. Herefords During the Twentieth Century. J. Anim. Sci. 2005, 83:992-1001
  • Falconer D S & Mackay T F C (1997). Introduction to Quantitative Genetics (4th Edition). Longman Scientific and Technical, Harlow, UK.
  • Freyer G, Hernández-Sánchez J & Cassell, B G (2005). A note on Inbreeding in Dairy Cattle Breeding. Arch. Tierz., Dummerstorf 48 (2005) 2, 130-137.
  • Gullstrand, P (2015). Control of Inbreeding in Dairy cattle in the Genomic Era. Examensarbete / Swedish University of Agricultural Sciences, Department of Animal Breeding and Genetics, 485. On-line Publication: http://epsilon.slu.se
  • Hofmannova M., Pribyl J, Krupa E & Pesek P (2019). Estimation of Inbreeding Effect on Conception in Czech Holstein. Czech Journal of Animal Science, 64, 2019 (7):309-316
  • Kaygısız A & Kösetürkmen E (2007). Akrabalı Yetiştirmenin Esmer Sığırların Süt ve Döl Verim Özelliklerine Etkileri. KSÜ Fen ve Mühendislik Dergisi, 10(2)
  • Mc Parland S, Kearney J F, Rath M & Berry D P (2007). Inbreeding Trends and Pedigree analysis of Irish Dairy and Beef Cattle Populations. J. Anim. Sci.2007. 85:322-331
  • Miglior F (2000). Impact of Inbreeding- Managing a Declining Holstein Gene Pool. 10th World Conference-Sydney-Australia.
  • Pryce J E, Haile-Mariam M, Goddard M E & Hayes B J (2014). Identification of Genomic Regions Associated with Inbreeding Depression in Holstein and Jersey Dairy Cattle. Genetics Selection Evolution 2014, 46:71.
  • Rokouei M, Torshizi V R, Shahabak M M, Sargolzai M & Sorensen A C (2010). Monitoring Inbreeding Trends and Inbreeding Depression for Economically Important Traits of Holstein Cattle in Iran. J. Dairy Sci. 93:3294-3302
  • Sewalem A, Kistemaker G J, Miglior F & Van Doormaal B J (2006). Analysis of Inbreeding and Its Relationship with Functional Longevity in Canadian Dairy Cattle. J. Dairy Sci. 89:2210-2216
  • Sorensen A C, Sorensen M K & Berg P (2005). Inbreeding in Danish dairy Cattle Breeds. J. Dairy Sci. 88:1865-1872
  • Thompson J R, Everett R W & Hammerschmidt N L (2000). Effects of Inbreeding on Production and Survival in Holsteins. J. Dairy Sci. 83:1856-1864.
  • TUIK (2021). Retrieved on January 14, 2021, from http://rapory.tuik.gov.tr/15-01-2021-19:28:54-1874420587686368828239441645.html?
  • USCDCB (2021). Animal Improvement Programs Laboratory. Retrieved on January 12, 2021, from https://queries.uscdcb.com/eval/summary/inbrd.cfm Weigel K A (2001). Controlling Inbreeding in Modern Breeding Programs. 2001 J. Dairy Sci. 84(E. Suppl.):E177-E184
  • Weigel K A & Lin S W (2002). Controlling Inbreeding by Constraining the Average Relationship Between Parents of Young Bulls Entering AI Progeny Test Programs. J. Dairy Sci. 85:2376-2383
  • Wiggans G R & VanRaden P M (1995). Calculation and Use of Inbreeding Coefficient for Genetic Evaluation of United States Dairy Cattle. 1995 J. Dairy Sci. 78: 1584-1590
  • Wright S (1922). Coefficients of Inbreeding and Relationships. The American Naturalist 56:330-338
There are 21 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Makaleler
Authors

Ayşe Övgü Şen 0000-0002-6342-3436

Prof.dr. Numan Akman 0000-0003-1537-8332

Publication Date April 25, 2022
Submission Date August 20, 2020
Acceptance Date April 14, 2021
Published in Issue Year 2022 Volume: 28 Issue: 2

Cite

APA Şen, A. Ö., & Akman, P. N. (2022). Inbreeding in Holstein Friesian Cattle Population in Turkey. Journal of Agricultural Sciences, 28(2), 217-222. https://doi.org/10.15832/ankutbd.783056

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