The fields of animal breeding, genetics, and genomics are transforming our approaches to livestock production and conservation. By leveraging advanced genetic technologies, we can achieve precise selection, enhancing productivity, disease resistance, and overall animal welfare. In livestock production, the advent of genomic selection has augmented traditional breeding methods. By analyzing genetic markers linked to desirable traits, breeders can make more informed decisions, accelerating improvements in traits like milk yield in dairy cattle, growth rate in poultry, and meat quality in swine. This genomic approach boosts efficiency and ensures the sustainability of breeding programs by maintaining genetic diversity.
One of the most significant advancements in livestock genomics is genomic selection. This technique involves scanning the genomes of animals to identify genetic variations linked to economically important traits. By incorporating this genetic information into breeding programs, farmers can select animals with the most favorable genetic profiles, resulting in more efficient and effective breeding strategies. For example, in dairy cattle, genomic selection has led to significant improvements in milk yield, fertility, and udder health, ultimately boosting farm profitability and reducing the environmental footprint of dairy production.
Advances in CRISPR technology and other gene-editing tools hold the promise of addressing genetic diseases and enhancing specific traits in both domesticated and wild animal populations. Through the integration of advanced genetic technologies, we are now able to achieve unprecedented precision in selective breeding, leading to enhanced productivity, disease resistance, and overall animal welfare.
We welcome Original Research Articles, Reviews, Mini-Reviews, Systematic Reviews, Perspectives, Commentaries, Data notes, and technical notes, but are not limited to the following:
• Exploring the potential of gene-editing technologies to introduce beneficial traits and eliminate genetic defects in livestock.
• Investigating genetic markers associated with high milk yield and improved milk quality to develop more efficient breeding strategies.
• Utilizing genomic information to enhance traits such as growth rate, egg production, and disease resistance in poultry breeds.
• Analyzing the genomic differences and similarities across various livestock species to understand evolutionary adaptations and inform cross-species breeding strategies.
Keywords:
Animal Breeding, Livestock Genomics, Modern Agriculture Poultry
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
The fields of animal breeding, genetics, and genomics are transforming our approaches to livestock production and conservation. By leveraging advanced genetic technologies, we can achieve precise selection, enhancing productivity, disease resistance, and overall animal welfare. In livestock production, the advent of genomic selection has augmented traditional breeding methods. By analyzing genetic markers linked to desirable traits, breeders can make more informed decisions, accelerating improvements in traits like milk yield in dairy cattle, growth rate in poultry, and meat quality in swine. This genomic approach boosts efficiency and ensures the sustainability of breeding programs by maintaining genetic diversity.
One of the most significant advancements in livestock genomics is genomic selection. This technique involves scanning the genomes of animals to identify genetic variations linked to economically important traits. By incorporating this genetic information into breeding programs, farmers can select animals with the most favorable genetic profiles, resulting in more efficient and effective breeding strategies. For example, in dairy cattle, genomic selection has led to significant improvements in milk yield, fertility, and udder health, ultimately boosting farm profitability and reducing the environmental footprint of dairy production.
Advances in CRISPR technology and other gene-editing tools hold the promise of addressing genetic diseases and enhancing specific traits in both domesticated and wild animal populations. Through the integration of advanced genetic technologies, we are now able to achieve unprecedented precision in selective breeding, leading to enhanced productivity, disease resistance, and overall animal welfare.
We welcome Original Research Articles, Reviews, Mini-Reviews, Systematic Reviews, Perspectives, Commentaries, Data notes, and technical notes, but are not limited to the following:
• Exploring the potential of gene-editing technologies to introduce beneficial traits and eliminate genetic defects in livestock.
• Investigating genetic markers associated with high milk yield and improved milk quality to develop more efficient breeding strategies.
• Utilizing genomic information to enhance traits such as growth rate, egg production, and disease resistance in poultry breeds.
• Analyzing the genomic differences and similarities across various livestock species to understand evolutionary adaptations and inform cross-species breeding strategies.
Keywords:
Animal Breeding, Livestock Genomics, Modern Agriculture Poultry
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.