High Yielder But Low Impact: Genetics For the Perfect Cow

Tools monitoring cow burps, behaviour and milk are ways to identify the most effective cows, benefiting farm economies and the environment.
calendar icon 7 April 2015
clock icon 3 minute read
Aarhus University

Researchers at the Danish Centre for Food and Agriculture are developing such gadgets, which can make serious inroads into farm profitability, says the Aarhus University team. 

Cow feed makes up 70 per cent of the variable costs in dairy production, so even small improvements will have a large effect on the economy.

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10 per cent of energy emitted by a cow is through methane-rich burps, says Aarhus

It is not as yet possible to measure feed uptake on individual cows in commercial dairy herds, but a number of other traits are being measured from which this could be deduced.

Scientists at Aarhus University are currently participating in a new project on the development and implementation of a tool for the selection of cows that make more efficient use of the feed and are more eco-friendly. In addition to this tool, the project will implement and expand the knowledge of the concept on commercial farms.

The project is a collaboration between Aarhus University, the private company VikingGenetics (project leaders), SEGES (formerly the Knowledge Centre for Agriculture), RYK and FOSS. It is precisely the combination of research, commerce and consultancy that will pave the way for the development, implementation and dissemination of the new way of selecting the best cows.

Belches Blood and Milk

Feed conversion can be improved by using genetic selection, but it is difficult and expensive to measure feed efficiency directly under practical conditions and on a large scale.

Accurate measurements of the feed intake of cows is only possible at research facilities and on smaller scales. But you can approach the measurement of feed intake in cows from another angle by measuring the properties that have a correlation with feed intake and by combining data on the hereditability of traits and their mutual hereditary contexts, explains Senior Researcher Jan. Lassen from the Department of Molecular Biology and Genetics, Aarhus University.

The properties – the so-called indicators – that can give an idea about feed conversion are the cow’s respiration; in other words, her belches, milk and blood profiles, and the cow's behaviour and activity. These properties are hereditary and can be measured accurately and on a larger scale, and in some cases a range of information about heritability and correlations are already available in databases.

For example, we know that up to 10 percent of the energy that a cow discharges is emitted as methane-rich burps. How much methane a cow burps is controlled by both genetics and the environment. Selection for lower emission of methane will also lead to the selection of cows with a higher feed use efficiency or produce cows that have more energy for other things, such as production.

When you can select for cows that have a lower feed consumption, without reducing their milk yield, you automatically select for cows that emit less methane – and this benefits the environment, because methane is a potent greenhouse gas that has a large effect on the climate.

Good Commercial Potential

In addition to developing a genetic selection tool that makes it possible to select for climate-friendly and economic cows, the project participants will develop new biometric methods that can handle this type of data and quantify the economic value of the trait and thus the added value for the farmer.

Properties that have a connection to feed efficiency and greenhouse gas emissions are currently not a direct part of the breeding work in dairy farming. Our results therefore have great potential to strengthen demand for the Nordic dairy cattle breeds when farmers are looking for cows with a high total economic performance, says Jan Lassen.

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