NEW ZEALAND SOILS ARE LOW IN SELENIUM

Selenium is an essential trace element for ruminants and required for growth, fertility and the prevention of mastitis and calf scours. However, selenium deficiency is prevalent in soils around the country. This presents an issue every farm manager would benefit from understanding better. A new generation of organic selenium supplementation (called Excential Selenium 4000) will be introduced into New Zealand this year. It’s an exciting development, providing a significant improvement to previous options for selenium supplementation on the farm. But first we need to understand the relevance and impact of selenium deficiency.

WHY IS SELENIUM IMPORTANT?

Specific enzymes (selenoproteins) require the incorporation of selenium to ensure their activity in the animal. These enzymes reduce the presence of oxide radicals (produced during normal metabolic activity and elevated during stressful periods) that cause cell damage and subsequent malfunction of tissues. Protection against these harmful by-products is especially important in high-energy demanding cells such as heart, muscle and mammary gland cells.

Unfortunately, there is often a selenium deficiency in animals due to limited uptake from the diet. These deficiencies can be pronounced in ruminants grazing on pastures grown on selenium-deficient soils, such as here in NZ. Resulting challenges may include suboptimal milk production and fertility, mastitis and premature, weak calves. In places with severe selenium deficiency calves have poor growth rates, difficulties standing, and sudden deaths can occur. To prevent this, it is important to provide additional selenium via the diet and assess regularly the selenium status of the herd by analysing blood and milk.

SELENIUM DEFICIENCY – A NUTRITIONAL SOLUTION

Selenium can be added to the diet in either inorganic or organic forms. The advantage of using organic selenium over inorganic sources (e.g. sodium selenite or selenate) is its ability to be incorporated directly into animal proteins. This incorporated selenium (in the form of L-Selenomethionine) acts as a storage depot of selenium inside the animal. L-Selenomethionine is the only selenium compound that can be directly, without conversion, built into animal structural proteins (i.e. muscle and liver). This ensures optimal selenium supply, even during stressful periods (e.g. calving, lactation, heat) when selenium intake is required most by the animal.