Improving ventilation for the dairy herd
Housing conditions can have a significant impact on dairy cow productivity, health and welfare. It can affect yields and farm profitability, which will also have a negative effect on the farm carbon footprint.
Inadequate ventilation is a significant risk factor for the dairy herd, contributing to a range of conditions such as pneumonia, mastitis and digital dermatitis.
It’s worth taking a look at housing and considering if any improvements could be made to increase air flow and ventilation, benefitting herd health and productivity.
Housing conditions and health
Milking cows produce a lot of heat that has to be dissipated. This is done by evaporating moisture from their lungs when breathing out and as sweat through their skin (above 20 degrees). These actions increase the humidity of the surrounding air. However as air humidity increases, the effectiveness of cooling is reduced. Therefore this air must be removed and replaced with clean fresh air. Removing this stale air also reduces the risk of disease spread through the shed - in a poorly ventilated environment, pathogens can survive for relatively long periods because of the more humid conditions. This damp air also causes the humidity of cubicle beds and floors to increase. This can lead to increased cases of digital dermatitis and mastitis. Small alterations to sheds can help to make a massive difference to airflow and subsequent animal health and welfare.
Cows perform optimally at 5oC and begin to experience heat stress at 200C, presuming low humidity. Heat stress can become a real issue for herds housed year round. The problem is made worse in that hot days tend to have little or no wind to help drive air through the shed. The use of fans can help to move air through the shed and are especially important in the collecting yard. On hot days cows should not be kept tight e.g. with backing gates, but instead allow them to have space to reduce heat transfer between cows. In extreme circumstances a sprinkler system could be used, however this is not without additional problems as it could further increase the humidity of the shed. Clipping cattle bare can help them to expel more heat.
Achieving good ventilation
Air inlets from the side of the shed are vital for ventilation. The side of a shed should be as open as possible to maximise airflow, however options should be in place for wet and extreme weather e.g. roll up curtains. Excessive wind can cause draughts which cows find unpleasant. This is particularly important in cold weather, as cows will begin to use energy to maintain body temperature below -5oC. Other buildings nearby can obstruct airflow into the shed so carefully consider the site of any new builds in relation to existing sheds.
Air outlet is also particularly important. An open ridge along the shed helps to remove stale air. This air rises due to the heat of the animals, creating the ‘stack effect’. The wind passing over the ridge creates a vacuum helping to draw the warm air out the top and draws in fresh air from lower down. The shed should not smell of dung, the air should be fresh.
The stocking rate of a shed can have a big impact in the success of the ventilation. If the shed is overcrowded then airflow may not be sufficient to move the stale air created by these cows. However in large sheds, lower stocking rates can be an issue. With a reduced number of cows the stack effect can fail in getting the stale air out of the top of the shed. In this case fans may be required to force the air out.
Related Practical Guides
- WTNZ - How do we reduce emissions from dairy?
- WTNZ - Improving fertility in the dairy herd
- WTNZ - Improving feed conversion efficiency and reducing waste in the dairy herd
- Comparing grazing methods
- What can your dairy cows tell you?
- Improving dairy productivity - feed and water intakes
- Dairy heifer rearing
- Benefits from carbon footprinting on the dairy farm