The Beef Farmers of Ontario (BFO) has announced a call for full research proposals. Funding decisions are targeted to be completed in early November 2016. Submission deadline: September 16, 2016 at 4pm EST **Deadline extended to September 23.**
For more details, visit the BFO website:?http://www.ontariobeef.com/research/process-timelines.aspx
Update: Missed the webinar? Find the recording and check for future webinars on our Webinars page: /e8f/resources/webinars.cfm
Join this free webinar to better understand the economics of choosing to pregnancy check and whether it is more profitable for your operation to cull cows in the fall or spring.
Thursday, September 15 at 7:00 pm MT
- 6:00pm in BC
- 7:00pm in AB and SK
- 8:00pm in MB
- 9:00pm in ON and QC
- 10:00pm in NS, NB and PEI?
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This year’s topics include common production practices, practical winter feeding, and tips on managing forages. View and?register for upcoming?webinars on our webinars page.?You’ll?also find recordings of all of our past webinars there.
August 18, 2016 – The Canadian Beef Cattle Research, Market Development and Promotion Agency (the Agency), in partnership with Canfax Research Services is pleased to release a study evaluating the economic benefits from the Canadian Beef Cattle Check-Off.
The study, prepared by Dr. James Rude and Dr. Ellen Goddard, is an update on the 2010 Cranfield Study which had reported results ahead of the 2010 merge of the Beef Information Centre, Canadian Beef Export Federation and the National Check-Off Agency.
The new study reports that on average from 2011/12 to 2013/14, every check-off dollar invested in national research and marketing activities resulted in a benefit cost ratio of 14:1 or $14 of benefit for Canadian cattle producers. This is up from the $9 average between 2005 and 2008. In addition, the average benefit Continue reading
This article written by Dr. Reynold Bergen, BCRC Science Director, originally appeared in the August 2016 issue of Canadian Cattlemen magazine and is reprinted on the BCRC Blog with permission of the publisher.
Lameness is the second most costly feedlot health issue after bovne respiratory disease. Aside from treatment and death losses, lame cattle eat less, grow less, convert feed to gain less efficiently, and are more prone to transport injuries. Lameness is also a significant animal welfare concern and has been incorporated into some on-farm welfare audit systems.
There are many different types and causes of lameness, ranging from genetics (e.g. conformation), nutrition (e.g. founder), the environment (e.g. frostbite), injuries and infection (e.g. footrot, hairy heel wart). Some may have several causes, like toe tip necrosis syndrome (TTNS).
This syndrome always affects the Continue reading
Calgary, AB – Respected nationally and internationally for his work on antimicrobial resistance, beef cattle nutrition, silage science, greenhouse gas emissions, E. coli O157:H7 and prion science, Dr. Tim McAllister was formally recognized tonight by the Canadian beef industry.
L to R: Beef Cattle Research Council science director Reynold Bergen, Tim McAllister, council chair and manager of Namaka Farms Ltd, Bryan Thiessen, and Darren Bevans, a BCRC council member and general manager of Deseret Ranches of Alberta.
Presented with the 2016 Canadian Beef Industry Award for Outstanding Research and Innovation at the inaugural Canadian Beef Industry Conference, he was honored by hundreds of producers and industry stakeholders, including many past and present colleagues and students.
Dr. McAllister is a Principal Research Scientist at the Agriculture and Agri-Food Canada Lethbridge Research and Development Centre.?He also holds adjunct appointments at six universities in Canada, as well as universities in China and Ghana. He has made phenomenal contributions to advancements in the competitiveness and sustainability of the Canadian beef industry through his passion and dedication to progressive science, and exceptional collaboration, leadership and communication with industry, as well as governments around the world.
His research is helping beef producers in Canada remain as Continue reading
Early this year, the BCRC Blog highlighted a study titled “Greenhouse gas emissions of Canadian beef production in 1981 as compared with 2011” that documented results of an ongoing Beef Science Cluster project. This paper documented how Canada’s beef industry was able to reduce the amount of greenhouse gas generated in producing one kilogram of Canadian beef dropped by 15 per cent between 1981 and 2011.
This reduction was largely?the result of ongoing improvements in production and feed efficiencies, crop yields and management strategies. These, in turn, can be very directly traced back to research and innovation.
This story quickly became the subject of over 50 agricultural and popular press interviews and articles in Canada in the first few weeks following its release. The research team also presented these results at over a dozen producer meetings in B.C., Alberta, Saskatchewan, Manitoba and Ontario.
We’ve recently learned that this research is also? Continue reading
Genomics studies the structure, function, evolution and mapping of DNA and genomes. It deals with the complete set of genes and genetic material found in a cell or organism.
Genomic technologies draw both producer interest and research investment in the beef industry. Seedstock selection is one common application, but genomics has found widespread adoption in forage and feed grain breeding, diagnostic tests, vaccine development, source attribution for food safety recalls and other uses.
DNA is the genetic code that determines how an organism grows, what it looks like, and how it performs in a specific environment. Found in all living things, DNA gets passed from one generation to the next, allowing these organisms to maintain or improve their ability to survive and thrive.
DNA is a long chain, with each link of the chain containing a pair of four small molecules, known as base pairs. These molecules are abbreviated by the letters A, T, G, and C. This long chain is then coiled tightly into chomosomes. All cells in an organism contain a complete copy of that organism’s full genetic code.
Each cell has specialized machinery that reads the DNA code three letters at a time. These three-letter codes instruct the cellular machinery to start reading at a specific point. From that point, the base pairs code for specific amino acids, then finally a three-letter code instructs the cellular machinery to stop reading.
Click to continue reading about the use of genomic tests in beef cattle, including cautions…?