In a new Journal of Dairy Science® study, researchers have increased the quantity and quality of the available data on genetic traits related to feed efficiency and methane emissions.
Philadelphia, April 18, 2024 – Dairy herds of the future will need to be able to adapt to changing environmental conditions, while also feeding the world efficiently and with the lowest possible emissions footprint. An international initiative, The Resilient Dairy Genome Project, is bringing together a large-scale, interdisciplinary team to develop genomic tools to help dairy farmers achieve this goal. In the project's key paper, out now in the Journal of Dairy Science, the team outlines the creation of a standardized international genetic and phenotypic database and the crucial first step toward developing the genomic tools needed for tomorrow’s resilient, healthy, and productive herds.
Two main components of this resilient herd of the future are feed efficiency—or the ability of an animal to produce more milk with less feed—as well as the amount of methane produced by the cow along the way. Increasing efficiency and decreasing methane emissions can not only maximize producers’ profitability but also reduce the dairy sector’s overall environmental impact. Selecting for these traits means having reliable data on genotypes—the gene underlying the traits—as well as phenotypes—the observable characteristics of the trait resulting from the interaction of the genotype with the cow’s environment.
The lead investigator of the study—and the leader of the project as a whole—Christine Baes, PhD, of the Centre for Genetic Improvement of Livestock, Department of Animal Biosciences, University of Guelph, Guelph, Ontario, Canada, explains, “our ability to generate internationally impactful genomic tools for resilient dairy cows requires us to first to have a global grasp of genotypes and high-quality phenotypes.” Baes and her team set out to not only gather this massive dataset but to develop strategies for managing and standardizing the data. No small feat considering the quantity of data and the differences in how they’re recorded, measurement technology used, diversity of genotyping, management practices, and nutrition across countries.
The project’s database currently includes information from seven countries—Australia, Canada, Denmark, Germany, Spain, Switzerland, and the United States—that contribute data 3 times per year. The information includes pedigree, calving, production, feed efficiency, environmental emissions, genotype, and milk mid-infrared spectral files all merged to provide a shared global database.
This initial study focused on Holstein dairy cows and the team worked to understand the various methods for data collection, including pedigree tracing and genotyping. Imputation techniques were used to ensure uniformity across all genotyped animals. “As of March 2024,” explained Baes, “the database contains 1,508,751 dry matter intake records from 18,648 cows and 33,723 methane records from 4,500 cows and continues to grow as countries upload new data.”
Caption: The collaboration in the Resilience Dairy Genome Project has enhanced the international effort to develop genetic solutions for more resource-efficient and environmentally friendly dairy cows (Credit: iStock.com/ mkarco).
“Our analysis revealed a high level of genetic similarity among Holstein populations across different countries, suggesting significant genetic exchange, which will prove beneficial as we work toward tools for cross-country genomic prediction,” outlined Baes.
Despite this, the team was quick to point out areas for further research. “There were variations in the phenotypes for feed intake and methane emissions among countries, highlighting the need for additional uniformity evaluations before further analyses,” said Baes.
Overall, this international collaboration and data exchange has improved the actual progress toward the launch of feed efficiency evaluations across many project partners, while the increase in data on methane emissions has paved the way for the development of new evaluations for this important trait. Canada launched the world’s first genomic evaluation for methane efficiency last year in the precursor Efficient Dairy Genome Project to this new body of work. Through this process, genetic solutions can contribute in the future to the selection of dairy cows that are more resource-efficient and have a lower environmental burden.
Notes for editors
The article is “The Resilient Dairy Genome Project—A general overview of methods and objectives related to feed efficiency and methane emissions,” by Nienke van Staaveren, Hinayah Rojas de Oliveira, Kerry Houlahan,Tatiane C. S. Chud, Gerson A. Oliveira Jr., Dagnachew Hailemariam, Gerrit Kistemaker, Filippo Miglior, Graham Plastow, Flavio S. Schenkel, Ronaldo Cerri, Marc Andre Sirard, Paul Stothard, Jennie Pryce, Adrien Butty, Patrick Stratz, Emhimad A. E. Abdalla, Dierck Segelke, Eckhard Stamer, Georg Thaller, Jan Lassen, Coralia Ines V. Manzanilla-Pech, Rasmus B. Stephansen, Noureddine Charfeddine, Aser García-Rodríguez, Oscar González-Recio, Javier López-Paredes, Ransom Baldwin, Javier Burchard, Kristen L. Parker Gaddis, James E. Koltes, Francisco Peñagaricano, José Eduardo P. Santos, Robert J. Tempelman, Michael VandeHaar, Kent Weigel, Heather White, and Christine F. Baes (https://doi.org/10.3168/jds.2022-22951). It appears in the Journal of Dairy Science, volume 107, issue 3 (March 2024), published by the American Dairy Science Association and Elsevier.
The article is openly available at https://www.journalofdairyscience.org/article/S0022-0302(23)00617-3/fulltext and the PDF version is available at https://www.journalofdairyscience.org/action/show Pdf?pii=S0022-0302%2823%2900617-3.
Full text of this article is also available to credentialed journalists upon request; contact Eileen Leahy at +1 732 406 1313 or jdsmedia@elsevier.com. Journalists wishing to interview the authors should contact the corresponding author, Christine Baes, PhD, Centre for Genetic Improvement of Livestock, Department of Animal Biosciences, University of Guelph, Guelph, ON and Lactanet at cbaes@uoguelph.ca.
About the Journal of Dairy Science
The Journal of Dairy Science® (JDS), an official journal of the American Dairy Science Association® (ADSA), is co-published by Elsevier and ADSA. It is the leading general dairy research journal in the world. JDS readers represent education, industry, and government agencies in more than 70 countries, with interests in biochemistry, breeding, economics, engineering, environment, food science, genetics, microbiology, nutrition, pathology, physiology, processing, public health, quality assurance, and sanitation. JDS has a 2022 Journal Impact Factor of 3.5 and five-year Journal Impact Factor of 4.2 according to Journal Citation Reports™ (Source: Clarivate™ 2023). www.journalofdairyscience.org
About the American Dairy Science Association (ADSA®)
The American Dairy Science Association (ADSA) is an international organization of educators, scientists, and industry representatives who are committed to advancing the dairy industry and keenly aware of the vital role the dairy sciences play in fulfilling the economic, nutritive, and health requirements of the world’s population. It provides leadership in scientific and technical support to sustain and grow the global dairy industry through generation, dissemination, and exchange of information and services. Together, ADSA members have discovered new methods and technologies that have revolutionized the dairy industry.www.adsa.org
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