Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattle
ABSTRACT: Genetic enhancement of feed efficiency can improve the economic sustainability and environmental responsibility of dairy farming. Although genetic selection holds promise for improving feed efficiency across the lifespan of dairy cows, comprehensive data spanning whole lactations or even a...
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Elsevier
2025-02-01
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| Series: | Journal of Dairy Science |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S0022030224013523 |
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| author | R.B. Stephansen J. Lassen V.M. Thorup B.G. Poulsen J. Jensen G. Sahana O.F. Christensen |
| author_facet | R.B. Stephansen J. Lassen V.M. Thorup B.G. Poulsen J. Jensen G. Sahana O.F. Christensen |
| author_sort | R.B. Stephansen |
| collection | DOAJ |
| description | ABSTRACT: Genetic enhancement of feed efficiency can improve the economic sustainability and environmental responsibility of dairy farming. Although genetic selection holds promise for improving feed efficiency across the lifespan of dairy cows, comprehensive data spanning whole lactations or even a productive lifetime are currently limited. To address this, we used production data and data from a camera-based feed intake and BW recording system, along with records of production, feed intake, and weight on Holstein cows from a research herd. We aimed to estimate variance components for a multivariate, multiparity model of production, feed intake, and BW data to calculate genetic residual feed intake (gRFI) for each of the Nordic breeds (Holstein, Jersey, and Red Dairy Cattle). Our approach included investigating a new definition of energy balance (EBbody) calculated from changes in body reserves, serving as an energy sink in gRFI. The data in our analysis consisted of 4,751 Holstein cows (7,851 lactations), 2,068 Jersey cows (3,486 lactations), and 3,235 Red Dairy Cattle cows (5,419 lactations). We used Gibbs sampling to estimate posterior means and SD for all model parameters. Our findings revealed moderate lactation-wise heritability of gRFI (0.15–0.38) across all breeds and parities. Moreover, gRFI genetic correlations varied (−0.2 to 0.4) between early- and mid- to late-lactation stages across all breeds, and for lactation-wise gRFI, there were moderately high genetic correlations (0.39–0.59) between primi- and multiparous lactations across the 3 breeds. Those results suggest the importance of recording phenotypes in most time periods within and across lactations. Our analysis indicated that improving gRFI with one genetic SD unit corresponded to a 2% to 3% gain in net return profit per cow-year, with no or minimal impact on production and body reserve management. We demonstrated the feasibility of incorporating EBbody into gRFI. Comparing gRFI calculated with EBbody or changes in BW as an energy sink trait for body reserve management were highly genetically correlated (>0.95). This result shows that the choice of the energy sink trait for body reserve management in gRFI will yield limited reranking among cows and sires when based on BW records only. However, EBbody offers an opportunity to incorporate BCS information without increasing the number of genetic parameters to be estimated, but it relies on parameters estimated in experimental settings. In conclusion, our study demonstrates the feasibility of developing a model for gRFI over most of the productive lifetime of dairy cattle, offering significant economic benefits without compromising productivity or body reserve management. Moving forward, comprehensive recording schemes covering whole lactations and productive lifetimes are advantageous for accurate selection indices of gRFI. |
| format | Article |
| id | doaj-art-02f8b9fd0e3e478ca70cdb5622677666 |
| institution | Kabale University |
| issn | 0022-0302 |
| language | English |
| publishDate | 2025-02-01 |
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| series | Journal of Dairy Science |
| spelling | doaj-art-02f8b9fd0e3e478ca70cdb56226776662025-01-23T05:25:21ZengElsevierJournal of Dairy Science0022-03022025-02-01108217571777Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattleR.B. Stephansen0J. Lassen1V.M. Thorup2B.G. Poulsen3J. Jensen4G. Sahana5O.F. Christensen6Center for Quantitative Genetics and Genomics, Aarhus University, 8000 Aarhus C, Denmark; Corresponding authorCenter for Quantitative Genetics and Genomics, Aarhus University, 8000 Aarhus C, Denmark; Viking Genetics, Assentoft, 8960 Randers, DenmarkDepartment of Animal and Veterinary Sciences, AU Viborg – Research Centre Foulum, Aarhus University, 8830 Tjele, DenmarkCenter for Quantitative Genetics and Genomics, Aarhus University, 8000 Aarhus C, DenmarkCenter for Quantitative Genetics and Genomics, Aarhus University, 8000 Aarhus C, DenmarkCenter for Quantitative Genetics and Genomics, Aarhus University, 8000 Aarhus C, DenmarkCenter for Quantitative Genetics and Genomics, Aarhus University, 8000 Aarhus C, DenmarkABSTRACT: Genetic enhancement of feed efficiency can improve the economic sustainability and environmental responsibility of dairy farming. Although genetic selection holds promise for improving feed efficiency across the lifespan of dairy cows, comprehensive data spanning whole lactations or even a productive lifetime are currently limited. To address this, we used production data and data from a camera-based feed intake and BW recording system, along with records of production, feed intake, and weight on Holstein cows from a research herd. We aimed to estimate variance components for a multivariate, multiparity model of production, feed intake, and BW data to calculate genetic residual feed intake (gRFI) for each of the Nordic breeds (Holstein, Jersey, and Red Dairy Cattle). Our approach included investigating a new definition of energy balance (EBbody) calculated from changes in body reserves, serving as an energy sink in gRFI. The data in our analysis consisted of 4,751 Holstein cows (7,851 lactations), 2,068 Jersey cows (3,486 lactations), and 3,235 Red Dairy Cattle cows (5,419 lactations). We used Gibbs sampling to estimate posterior means and SD for all model parameters. Our findings revealed moderate lactation-wise heritability of gRFI (0.15–0.38) across all breeds and parities. Moreover, gRFI genetic correlations varied (−0.2 to 0.4) between early- and mid- to late-lactation stages across all breeds, and for lactation-wise gRFI, there were moderately high genetic correlations (0.39–0.59) between primi- and multiparous lactations across the 3 breeds. Those results suggest the importance of recording phenotypes in most time periods within and across lactations. Our analysis indicated that improving gRFI with one genetic SD unit corresponded to a 2% to 3% gain in net return profit per cow-year, with no or minimal impact on production and body reserve management. We demonstrated the feasibility of incorporating EBbody into gRFI. Comparing gRFI calculated with EBbody or changes in BW as an energy sink trait for body reserve management were highly genetically correlated (>0.95). This result shows that the choice of the energy sink trait for body reserve management in gRFI will yield limited reranking among cows and sires when based on BW records only. However, EBbody offers an opportunity to incorporate BCS information without increasing the number of genetic parameters to be estimated, but it relies on parameters estimated in experimental settings. In conclusion, our study demonstrates the feasibility of developing a model for gRFI over most of the productive lifetime of dairy cattle, offering significant economic benefits without compromising productivity or body reserve management. Moving forward, comprehensive recording schemes covering whole lactations and productive lifetimes are advantageous for accurate selection indices of gRFI.http://www.sciencedirect.com/science/article/pii/S0022030224013523feed efficiencymultivariate analysisgenetic residual feed intakeproductive lifetime efficiency |
| spellingShingle | R.B. Stephansen J. Lassen V.M. Thorup B.G. Poulsen J. Jensen G. Sahana O.F. Christensen Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattle Journal of Dairy Science feed efficiency multivariate analysis genetic residual feed intake productive lifetime efficiency |
| title | Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattle |
| title_full | Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattle |
| title_fullStr | Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattle |
| title_full_unstemmed | Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattle |
| title_short | Modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in Nordic dairy cattle |
| title_sort | modeling feed efficiency over productive lifetime and integrating a submodel for body reserve management in nordic dairy cattle |
| topic | feed efficiency multivariate analysis genetic residual feed intake productive lifetime efficiency |
| url | http://www.sciencedirect.com/science/article/pii/S0022030224013523 |
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