Your search keyword '"Baes C"' showing total 22 results

1. Novel genetic parameters for genetic residual feed intake in dairy cattle using time series data from multiple parities and countries in North America and Europe

Author

Stephansen, R.B., Martin, P., Manzanilla-Pech, C.I.V., Gredler-Grandl, B., Sahana, G., Madsen, P., Weigel, K., Tempelman, R.J., Peñagaricano, F., Parker Gaddis, K.L., White, H.M., Santos, J.E.P., Koltes, J.E., Schenkel, F., Hailemariam, D., Plastow, G., Abdalla, E., VandeHaar, M., Veerkamp, R.F., Baes, C., Lassen, J., Stephansen, R.B., Martin, P., Manzanilla-Pech, C.I.V., Gredler-Grandl, B., Sahana, G., Madsen, P., Weigel, K., Tempelman, R.J., Peñagaricano, F., Parker Gaddis, K.L., White, H.M., Santos, J.E.P., Koltes, J.E., Schenkel, F., Hailemariam, D., Plastow, G., Abdalla, E., VandeHaar, M., Veerkamp, R.F., Baes, C., and Lassen, J.

Abstract

Residual feed intake is viewed as an important trait in breeding programs that could be used to enhance genetic progress in feed efficiency. In particular, improving feed efficiency could improve both economic and environmental sustainability in the dairy cattle industry. However, data remain sparse, limiting the development of reliable genomic evaluations across lactation and parity for residual feed intake. Here, we estimated novel genetic parameters for genetic residual feed intake (gRFI) across the first, second, and third parity, using a random regression model. Research data on the measured feed intake, milk production, and body weight of 7,379 cows (271,080 records) from 6 countries in 2 continents were shared through the Horizon 2020 project Genomic Management Tools to Optimise Resilience and Efficiency, and the Resilient Dairy Genome Project. The countries included Canada (1,053 cows with 47,130 weekly records), Denmark (1,045 cows with 72,760 weekly records), France (329 cows with 16,888 weekly records), Germany (938 cows with 32,614 weekly records), the Netherlands (2,051 cows with 57,830 weekly records), and United States (1,963 cows with 43,858 weekly records). Each trait had variance components estimated from first to third parity, using a random regression model across countries. Genetic residual feed intake was found to be heritable in all 3 parities, with first parity being predominant (range: 22–34%). Genetic residual feed intake was highly correlated across parities for mid- to late lactation; however, genetic correlation across parities was lower during early lactation, especially when comparing first and third parity. We estimated a genetic correlation of 0.77 ± 0.37 between North America and Europe for dry matter intake at first parity. Published literature on genetic correlations between high input countries/continents for dry matter intake support a high genetic correlation for dry matter intake. In conclusion, our results demonstrate the fea

Published

2023

2. Novel genetic parameters to improve gRFI in dairy cattle using big data from multiple lactations and countries

Author

Stephansen, R.B., Martin, P., Gredler-Grandl, B., Manzanilla Pech, C.I.V., Sahana, G., Ducrocq, V., Baes, C., Schenkel, F., Veerkamp, R.F., Lassen, J., Stephansen, R.B., Martin, P., Gredler-Grandl, B., Manzanilla Pech, C.I.V., Sahana, G., Ducrocq, V., Baes, C., Schenkel, F., Veerkamp, R.F., and Lassen, J.

Abstract

To optimize breeding for feed efficiency, dry matter intake data from 3,967 Holstein cows with 131,234 weekly records from Denmark, France, The Netherlands, and Canada were combined. A random regression model was fitted to 1st and 2nd parity data for dry matter intake, energy corrected milk and body weight. Results showed that genetic residual feed intake is heritable in both parities, with an average heritability of 0.21. Genetic correlations across lactation and parities showed moderate to high estimates between mid and late lactation within parity. Early lactation had low genetic correlation with mid and late lactation. The genetic correlations between parities were around zero at all lactation stages. These findings show the importance of data collection and modelling at all lactation stages and parities.

Published

2022

3. Opinion paper: COVID-19 and the livestock sector

Author

Ani, A. O., Baes, C., Chemineau, P., Gauly, M., Jiménez-Flores, R., Kashiwazaki, N., Kegley, E. B., Kembe, M. A, Loh, T. C., Maiwashe, A., Medina-Villacìs, M., Rosati, A., Ani, A. O., Baes, C., Chemineau, P., Gauly, M., Jiménez-Flores, R., Kashiwazaki, N., Kegley, E. B., Kembe, M. A, Loh, T. C., Maiwashe, A., Medina-Villacìs, M., and Rosati, A.

Abstract

Pandemics are a recurring theme in human history, with evidence from the beginning of civilization up to the current Corona virus disease 2019 (COVID-19) pandemic. The genotype of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) virus that has paralyzed the entire world since early 2020 is most closely related to a coronavirus from bats, eventually passed via Pangolins, although is not identical (Zhu et al., 2020). One of the most accredited hypotheses is that the virus first infected a human at or near a wet market in Wuhan, in the Hubei region of China; this city was the epicenter of the outbreak. In spite of some dis-information which circulates in the social media, it is clear that the virus originates in the over-exploitation of a wildlife at risk of transmission of diseases to humans and, moreover, in danger of extinction. In spite of the very numerous alerts which have been given in the past about the risk of a major outbreak coming from bats which host a high number of SARS viruses, the uncontrolled use of wildlife as a source of meat, bones, scales, blood, horns, hair and many other tissues has never ceased. These products, coming from poaching of endangered and not farmed species, feed both un-official and official markets of food or/and pharmacopeia. We should clearly affirm here that these processes should stop in a near future as they are not only destroying biodiversity but also producing pandemics which have major socio-economical consequences.

Published

2021

4. Opinion paper: COVID-19 and the livestock sector

Author

Ani, A. O., Baes, C., Chemineau, P., Gauly, M., Jiménez-Flores, R., Kashiwazaki, N., Kegley, E. B., Kembe, M. A, Loh, T. C., Maiwashe, A., Medina-Villacìs, M., Rosati, A., Ani, A. O., Baes, C., Chemineau, P., Gauly, M., Jiménez-Flores, R., Kashiwazaki, N., Kegley, E. B., Kembe, M. A, Loh, T. C., Maiwashe, A., Medina-Villacìs, M., and Rosati, A.

Abstract

Pandemics are a recurring theme in human history, with evidence from the beginning of civilization up to the current Corona virus disease 2019 (COVID-19) pandemic. The genotype of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) virus that has paralyzed the entire world since early 2020 is most closely related to a coronavirus from bats, eventually passed via Pangolins, although is not identical (Zhu et al., 2020). One of the most accredited hypotheses is that the virus first infected a human at or near a wet market in Wuhan, in the Hubei region of China; this city was the epicenter of the outbreak. In spite of some dis-information which circulates in the social media, it is clear that the virus originates in the over-exploitation of a wildlife at risk of transmission of diseases to humans and, moreover, in danger of extinction. In spite of the very numerous alerts which have been given in the past about the risk of a major outbreak coming from bats which host a high number of SARS viruses, the uncontrolled use of wildlife as a source of meat, bones, scales, blood, horns, hair and many other tissues has never ceased. These products, coming from poaching of endangered and not farmed species, feed both un-official and official markets of food or/and pharmacopeia. We should clearly affirm here that these processes should stop in a near future as they are not only destroying biodiversity but also producing pandemics which have major socio-economical consequences.

Published

2021

5. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

6. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

7. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

8. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

9. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

10. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

11. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

12. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

13. Genetic and genomic analysis of hyperthelia in Brown Swiss cattle

Author

Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., Seefried, F.R., Butty, A.M., Frischknecht, M., Gredler, B., Baes, C., Neuenschwander, S., Moll, J., Bieber, A., and Seefried, F.R.

Abstract

Supernumerary teats (SNT) are any abnormal teats found on a calf in addition to the usual and functional 4 teats. The presence of SNT has also been termed “hyperthelia” since the end of the 19th century. Supernumerary teats can act as an incubator for bacteria, infecting the whole udder, and can interfere with the positioning of the milking machine, and consequently, have economic relevance. Different types of SNT are observed at different positions on the udder. Caudal teats are in the rear, ramal teats are attached to another teat, and intercalary teats are found between 2 regular teats. Not all teats are equally developed; some are completely functional but most are rudimentary and not attached to any mammary gland tissue. Recently, different studies showed the poly/oligogenic character of these malformations in cattle as well as in other mammalian species. The objective of this study was to analyze the genetic architecture and incidence of hyperthelia in Swiss Brown Swiss cattle using both traditional genetic evaluation as well as imputed whole genome sequence variant information. First, phenotypes collected over the last 20 yr were used together with pedigree information for estimation of genetic variance. Second, breeding values of Brown Swiss bulls were estimated applying the BLUP algorithm. The BLUP-EBV were deregressed and used as phenotypes in genome-wide association studies. The gene LGR5 on chromosome 5 was identified as a candidate for the presence of SNT. Using alternative trait coding, genomic regions on chromosome 17 and 20 were also identified as being involved in the development of SNT with their own supernumerary mammary gland tissue. Implementing knowledge gained in this study as a routine application allows a more accurate evaluation of the trait and reduction of SNT prevalence in the Swiss Brown Swiss cattle population.

Published

2017

14. Efficiency of different selection strategies against boar taint in pigs

Author

Haberland, A. M., Luther, H., Hofer, A., Tholen, E., Simianer, H., Lind, B., Baes, C., Haberland, A. M., Luther, H., Hofer, A., Tholen, E., Simianer, H., Lind, B., and Baes, C.

Abstract

The breeding scheme of a Swiss sire line was modeled to compare different target traits and information sources for selection against boar taint. The impact of selection against boar taint on production traits was assessed for different economic weights of boar taint compounds. Genetic gain and breeding costs were evaluated using ZPlan+, a software based on selection index theory, gene flow method and economic modeling. Scenario I reflected the currently practiced breeding strategy as a reference scenario without selection against boar taint. Scenario II incorporated selection against the chemical compounds of boar taint, androstenone (AND), skatole (SKA) and indole (IND) with economic weights of −2.74, −1.69 and −0.99 Euro per unit of the log transformed trait, respectively. As information sources, biopsy-based performance testing of live boars (BPT) was compared with genomic selection (GS) and a combination of both. Scenario III included selection against the subjectively assessed human nose score (HNS) of boar taint. Information sources were either station testing of full and half sibs of the selection candidate or GS against HNS of boar taint compounds. In scenario I, annual genetic gain of log-transformed AND (SKA; IND) was 0.06 (0.09; 0.02) Euro, which was because of favorable genetic correlations with lean meat percentage and meat surface. In scenario II, genetic gain increased to 0.28 (0.20; 0.09) Euro per year when conducting BPT. Compared with BPT, genetic gain was smaller with GS. A combination of BPT and GS only marginally increased annual genetic gain, whereas variable costs per selection candidate augmented from 230 Euro (BPT) to 330 Euro (GS) or 380 Euro (both). The potential of GS was found to be higher when selecting against HNS, which has a low heritability. Annual genetic gain from GS was higher than from station testing of 4 full sibs and 76 half sibs with one or two measurements. The most effective strategy to reduce HNS was selecting against ch

Published

2017

15. Effect of Cows in the Reference Population: First Results in Swiss Brown Swiss

Author

Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., Gredler, B., Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., and Gredler, B.

Abstract

The effect of including 1,236 cows in the current reference population of Swiss Brown Swiss cattle on the accuracy of genomic breeding values was studied. The accuracy of genomic predictions based on reference populations consisting of bulls only and bulls and cows was compared. The gain in accuracy was very small or not existing at all. Reasons could be that the number of cows was too small for a reference population consisting of 4,085 bulls and that the cows and bulls were too closely related. Nevertheless, genotyping cows and subsequent inclusion in the reference population should be accelerated.

Published

2013

16. Effect of Cows in the Reference Population: First Results in Swiss Brown Swiss

Author

Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., Gredler, B., Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., and Gredler, B.

Abstract

The effect of including 1,236 cows in the current reference population of Swiss Brown Swiss cattle on the accuracy of genomic breeding values was studied. The accuracy of genomic predictions based on reference populations consisting of bulls only and bulls and cows was compared. The gain in accuracy was very small or not existing at all. Reasons could be that the number of cows was too small for a reference population consisting of 4,085 bulls and that the cows and bulls were too closely related. Nevertheless, genotyping cows and subsequent inclusion in the reference population should be accelerated.

Published

2013

17. Effect of Cows in the Reference Population: First Results in Swiss Brown Swiss

Author

Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., Gredler, B., Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., and Gredler, B.

Abstract

The effect of including 1,236 cows in the current reference population of Swiss Brown Swiss cattle on the accuracy of genomic breeding values was studied. The accuracy of genomic predictions based on reference populations consisting of bulls only and bulls and cows was compared. The gain in accuracy was very small or not existing at all. Reasons could be that the number of cows was too small for a reference population consisting of 4,085 bulls and that the cows and bulls were too closely related. Nevertheless, genotyping cows and subsequent inclusion in the reference population should be accelerated.

Published

2013

18. Effect of Cows in the Reference Population: First Results in Swiss Brown Swiss

Author

Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., Gredler, B., Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., and Gredler, B.

Abstract

The effect of including 1,236 cows in the current reference population of Swiss Brown Swiss cattle on the accuracy of genomic breeding values was studied. The accuracy of genomic predictions based on reference populations consisting of bulls only and bulls and cows was compared. The gain in accuracy was very small or not existing at all. Reasons could be that the number of cows was too small for a reference population consisting of 4,085 bulls and that the cows and bulls were too closely related. Nevertheless, genotyping cows and subsequent inclusion in the reference population should be accelerated.

Published

2013

19. Effect of Cows in the Reference Population: First Results in Swiss Brown Swiss

Author

Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., Gredler, B., Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., and Gredler, B.

Abstract

The effect of including 1,236 cows in the current reference population of Swiss Brown Swiss cattle on the accuracy of genomic breeding values was studied. The accuracy of genomic predictions based on reference populations consisting of bulls only and bulls and cows was compared. The gain in accuracy was very small or not existing at all. Reasons could be that the number of cows was too small for a reference population consisting of 4,085 bulls and that the cows and bulls were too closely related. Nevertheless, genotyping cows and subsequent inclusion in the reference population should be accelerated.

Published

2013

20. Effect of Cows in the Reference Population: First Results in Swiss Brown Swiss

Author

Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., Gredler, B., Bapst, B., Baes, C., Seefried, F.R., Bieber, A., Simianer, H., and Gredler, B.

Abstract

The effect of including 1,236 cows in the current reference population of Swiss Brown Swiss cattle on the accuracy of genomic breeding values was studied. The accuracy of genomic predictions based on reference populations consisting of bulls only and bulls and cows was compared. The gain in accuracy was very small or not existing at all. Reasons could be that the number of cows was too small for a reference population consisting of 4,085 bulls and that the cows and bulls were too closely related. Nevertheless, genotyping cows and subsequent inclusion in the reference population should be accelerated.

Published

2013

21. A performance test for boar taint compounds in live boars

Author

Baes, C., Mattei, S., Luther, H., Ampuero, S., Sidler, X., Bee, G., Spring, P., Hofer, A., Baes, C., Mattei, S., Luther, H., Ampuero, S., Sidler, X., Bee, G., Spring, P., and Hofer, A.

Abstract

Genetically reducing boar taint using low-taint lines is considered the most sustainable and economic long-term alternative to surgical castration of male pigs. Owing to the high heritability of the main boar taint components (androstenone, skatole and indole), breeding is an excellent tool for reducing the number of tainted carcasses. To incorporate boar taint into breeding programmes, standardized performance testing is required. The objective of this study was to develop and formally present a performance test for the main boar taint compounds on live breeding candidates. First, a standardized performance test for boar taint was established. A biopsy device was developed to extract small tissue samples (200 to 300 mg) from breeding candidates. Quantification of boar taint components from these small samples using specialized chemical extraction methods proved accurate and repeatable (r = 0.938). Following establishment of the method, biopsy samples of 516 live boars (100 to 130 kg live weight) were collected in the second step. Various mixed linear models were tested for each boar taint compound; models were ranked in terms of their information content. Pedigree information of 2245 ancestors of biopsied animals was included, and genetic parameters were estimated using univariate and multivariate models. Androstenone (in μg/g liquid fat (LF): mean = 0.578, σ = 0.527), skatole (in μg/g LF: mean = 0.033, σ = 0.002) and indole (in μg/g LF: mean = 0.032, σ = 0.002) levels obtained by biopsy were plausible. Heritability estimates for androstenone calculated with univariate (0.453) and multivariate (0.452) analyses were comparable to those in the literature. Heritabilities for skatole (0.495) and indole (0.550) were higher than that for androstenone. Genetic and phenotypic correlations were similar to those published previously. Our results show that data on boar taint compounds from small adipose samples obtained by biopsy provide similar genetic parameters as that des

22. Efficiency of different selection strategies against boar taint in pigs

Author

Haberland, A. M., Luther, H., Hofer, A., Tholen, E., Simianer, H., Lind, B., Baes, C., Haberland, A. M., Luther, H., Hofer, A., Tholen, E., Simianer, H., Lind, B., and Baes, C.

Abstract

The breeding scheme of a Swiss sire line was modeled to compare different target traits and information sources for selection against boar taint. The impact of selection against boar taint on production traits was assessed for different economic weights of boar taint compounds. Genetic gain and breeding costs were evaluated using ZPlan+, a software based on selection index theory, gene flow method and economic modeling. Scenario I reflected the currently practiced breeding strategy as a reference scenario without selection against boar taint. Scenario II incorporated selection against the chemical compounds of boar taint, androstenone (AND), skatole (SKA) and indole (IND) with economic weights of −2.74, −1.69 and −0.99 Euro per unit of the log transformed trait, respectively. As information sources, biopsy-based performance testing of live boars (BPT) was compared with genomic selection (GS) and a combination of both. Scenario III included selection against the subjectively assessed human nose score (HNS) of boar taint. Information sources were either station testing of full and half sibs of the selection candidate or GS against HNS of boar taint compounds. In scenario I, annual genetic gain of log-transformed AND (SKA; IND) was 0.06 (0.09; 0.02) Euro, which was because of favorable genetic correlations with lean meat percentage and meat surface. In scenario II, genetic gain increased to 0.28 (0.20; 0.09) Euro per year when conducting BPT. Compared with BPT, genetic gain was smaller with GS. A combination of BPT and GS only marginally increased annual genetic gain, whereas variable costs per selection candidate augmented from 230 Euro (BPT) to 330 Euro (GS) or 380 Euro (both). The potential of GS was found to be higher when selecting against HNS, which has a low heritability. Annual genetic gain from GS was higher than from station testing of 4 full sibs and 76 half sibs with one or two measurements. The most effective strategy to reduce HNS was selecting against ch