Population structure and genomic inbreeding in nine Swiss dairy cattle populations

doi:10.1186/s12711-017-0358-6

. 2017 Nov 7;49(1):83.

doi: 10.1186/s12711-017-0358-6.

Population structure and genomic inbreeding in nine Swiss dairy cattle populations

Heidi Signer-Hasler¹, Alexander Burren², Markus Neuditschko³, Mirjam Frischknecht^{2

4}, Dorian Garrick⁵, Christian Stricker⁶, Birgit Gredler⁴, Beat Bapst⁴, Christine Flury²

Affiliations

¹ School of Agricultural, Forest and Food Sciences, Bern University of Applied Sciences, Zollikofen, Switzerland. heidi.signer@bfh.ch.
² School of Agricultural, Forest and Food Sciences, Bern University of Applied Sciences, Zollikofen, Switzerland.
³ Agroscope, Swiss National Stud Farm, Avenches, Switzerland.
⁴ Qualitas AG, Zug, Switzerland.
⁵ Massey University, Hamilton, New Zealand.
⁶ agn Genetics, Davos, Switzerland.

PMID: 29115934
PMCID: PMC5674839
DOI: 10.1186/s12711-017-0358-6

Population structure and genomic inbreeding in nine Swiss dairy cattle populations

Heidi Signer-Hasler et al. Genet Sel Evol. 2017.

. 2017 Nov 7;49(1):83.

doi: 10.1186/s12711-017-0358-6.

Authors

Heidi Signer-Hasler¹, Alexander Burren², Markus Neuditschko³, Mirjam Frischknecht^{2

4}, Dorian Garrick⁵, Christian Stricker⁶, Birgit Gredler⁴, Beat Bapst⁴, Christine Flury²

Affiliations

¹ School of Agricultural, Forest and Food Sciences, Bern University of Applied Sciences, Zollikofen, Switzerland. heidi.signer@bfh.ch.
² School of Agricultural, Forest and Food Sciences, Bern University of Applied Sciences, Zollikofen, Switzerland.
³ Agroscope, Swiss National Stud Farm, Avenches, Switzerland.
⁴ Qualitas AG, Zug, Switzerland.
⁵ Massey University, Hamilton, New Zealand.
⁶ agn Genetics, Davos, Switzerland.

PMID: 29115934
PMCID: PMC5674839
DOI: 10.1186/s12711-017-0358-6

Abstract

Background: Domestication, breed formation and intensive selection have resulted in divergent cattle breeds that likely exhibit their own genomic signatures. In this study, we used genotypes from 27,612 autosomal single nucleotide polymorphisms to characterize population structure based on 9214 sires representing nine Swiss dairy cattle populations: Brown Swiss (BS), Braunvieh (BV), Original Braunvieh (OB), Holstein (HO), Red Holstein (RH), Swiss Fleckvieh (SF), Simmental (SI), Eringer (ER) and Evolèner (EV). Genomic inbreeding (F _ROH) and signatures of selection were determined by calculating runs of homozygosity (ROH). The results build the basis for a better understanding of the genetic development of Swiss dairy cattle populations and highlight differences between the original populations (i.e. OB, SI, ER and EV) and those that have become more popular in Switzerland as currently reflected by their larger populations (i.e. BS, BV, HO, RH and SF).

Results: The levels of genetic diversity were highest and lowest in the SF and BS breeds, respectively. Based on F _ST values, we conclude that, among all pairwise comparisons, BS and HO (0.156) differ more than the other pairs of populations. The original Swiss cattle populations OB, SI, ER, and EV are clearly genetically separated from the Swiss cattle populations that are now more common and represented by larger numbers of cows. Mean levels of F _ROH ranged from 0.027 (ER) to 0.091 (BS). Three of the original Swiss cattle populations, ER (F _ROH: 0.027), OB (F _ROH: 0.029), and SI (F _ROH: 0.039), showed low levels of genomic inbreeding, whereas it was much higher in EV (F _ROH: 0.074). Private signatures of selection for the original Swiss cattle populations are reported for BTA4, 5, 11 and 26.

Conclusions: The low levels of genomic inbreeding observed in the original Swiss cattle populations ER, OB and SI compared to the other breeds are explained by a lesser use of artificial insemination and greater use of natural service. Natural service results in more sires having progeny at each generation and thus this breeding practice is likely the major reason for the remarkable levels of genetic diversity retained within these populations. The fact that the EV population is regionally restricted and its small census size of herd-book cows explain its high level of genomic inbreeding.

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Figures

**Fig. 1**
MDS-plot of dimension 1 versus dimension 2

**Fig. 2**
Regression of F _PED on F _ROH for all 9214 individuals. Multiple R-squared: 0.49. Red line is regression line (F _ROH = 0.016 + 0.830 * F _PED)

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References

1. FAO . The second report on the state of the world’s animal genetic resources for food and agriculture. Rome: FAO; 2015.
1. Lenstra JA, Groeneveld LF, Eding H, Kantanen J, Williams JL, Taberlet P, et al. Molecular tools and analytical approaches for the characterization of farm animal genetic diversity. Anim Genet. 2012;43:483–502. doi: 10.1111/j.1365-2052.2011.02309.x. - DOI - PubMed
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1. Melka MG, Schenkel FS. Analysis of genetic diversity in Brown Swiss, Jersey and Holstein populations using genome-wide single nucleotide polymorphism markers. BMC Res Notes. 2012;5:161. doi: 10.1186/1756-0500-5-161. - DOI - PMC - PubMed
1. Mancini G, Gargani M, Chillemi G, Nicolazzi EL, Marsan PA, Valentini A, et al. Signatures of selection in five Italian cattle breeds detected by a 54 K SNP panel. Mol Biol Rep. 2014;41:957–965. doi: 10.1007/s11033-013-2940-5. - DOI - PMC - PubMed

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[1] FAO . The second report on the state of the world’s animal genetic resources for food and agriculture. Rome: FAO; 2015.

[2] FAO . The second report on the state of the world’s animal genetic resources for food and agriculture. Rome: FAO; 2015.

[3] Lenstra JA, Groeneveld LF, Eding H, Kantanen J, Williams JL, Taberlet P, et al. Molecular tools and analytical approaches for the characterization of farm animal genetic diversity. Anim Genet. 2012;43:483–502. doi: 10.1111/j.1365-2052.2011.02309.x. - DOI - PubMed

[4] Lenstra JA, Groeneveld LF, Eding H, Kantanen J, Williams JL, Taberlet P, et al. Molecular tools and analytical approaches for the characterization of farm animal genetic diversity. Anim Genet. 2012;43:483–502. doi: 10.1111/j.1365-2052.2011.02309.x. - DOI - PubMed

[5] Decker JE, McKay SD, Rolf MM, Kim J, Molina Alcala A, Sonstegard TS, et al. Worldwide patterns of ancestry, divergence, and admixture in domesticated cattle. PLoS Genet. 2014;10:e1004254. doi: 10.1371/journal.pgen.1004254. - DOI - PMC - PubMed

[6] Decker JE, McKay SD, Rolf MM, Kim J, Molina Alcala A, Sonstegard TS, et al. Worldwide patterns of ancestry, divergence, and admixture in domesticated cattle. PLoS Genet. 2014;10:e1004254. doi: 10.1371/journal.pgen.1004254. - DOI - PMC - PubMed

[7] Melka MG, Schenkel FS. Analysis of genetic diversity in Brown Swiss, Jersey and Holstein populations using genome-wide single nucleotide polymorphism markers. BMC Res Notes. 2012;5:161. doi: 10.1186/1756-0500-5-161. - DOI - PMC - PubMed

[8] Melka MG, Schenkel FS. Analysis of genetic diversity in Brown Swiss, Jersey and Holstein populations using genome-wide single nucleotide polymorphism markers. BMC Res Notes. 2012;5:161. doi: 10.1186/1756-0500-5-161. - DOI - PMC - PubMed

[9] Mancini G, Gargani M, Chillemi G, Nicolazzi EL, Marsan PA, Valentini A, et al. Signatures of selection in five Italian cattle breeds detected by a 54 K SNP panel. Mol Biol Rep. 2014;41:957–965. doi: 10.1007/s11033-013-2940-5. - DOI - PMC - PubMed

[10] Mancini G, Gargani M, Chillemi G, Nicolazzi EL, Marsan PA, Valentini A, et al. Signatures of selection in five Italian cattle breeds detected by a 54 K SNP panel. Mol Biol Rep. 2014;41:957–965. doi: 10.1007/s11033-013-2940-5. - DOI - PMC - PubMed

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Population structure and genomic inbreeding in nine Swiss dairy cattle populations

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Population structure and genomic inbreeding in nine Swiss dairy cattle populations

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