Sheep Milk: Milk composition

How does seasonality, ewe lactation status, farm of origin, and breed affect the composition of New Zealand sheep milk? How do those properties affect the nutritional value and processing, storage and product qualities?

What makes New Zealand's sheep milk unique?

New Zealand sheep milk contains higher levels of health-beneficial lipids and fatty acids than European sheep milk or cow milk and microbiological testing shows that New Zealand sheep milk is safe.

Although differences in milk composition between species have been known for a long time, prior to the start of this research programme there was no data available on the detailed composition of New Zealand sheep milk. We did not know:

Whether the composition of New Zealand sheep milk was different to that of milk from other countries
If/how much the composition and flavour changed throughout the milking season
How much the composition varied between different New Zealand producers
If the composition and flavour changed upon processing and storage, and if so, how?

Aim

This project looks to:

Determine the effect of processing on nutritional profile, compositional targets and product characteristics.
Characterise compositional targets at an individual level, including effect of breed, lactation stage, age, seasonality, farm of origin and farm practice effects.

Method

We investigated the following attributes:

Milk product	Production	Manufacturing
Mineral composition Micronutrient composition Milk sugars Milk lipids/fats Milk proteins Casein micelle and fat globule sizes Microbiological status	Effect of season Effect of stage of lactation Effect of feeding systems	Cold storage requirements Heat stability Spray drying Heat treatments

This collaborative project collected milk from all our industry partners.

Results

The research found:

NZ sheep milk generally contains more protein (notably leucine, valine and isoleucine) fat (especially beneficial lipids such as medium-chain triacylglycerols and polyunsaturated fatty acids and phospholipids), carbohydrates, minerals (e.g. Calcium, Potassium and Magnesium) and certain vitamins than New Zealand cows’ milk.
Microbial analysis demonstrated that our harvesting and storage protocols in New Zealand are providing a safe product for consumers.
Sheep milk pH remained stable for nine days when stored at 2 or 4⁰C. Using the lower temperature prolonged storage by up to four days. However, storing at 2⁰C is preferable to retain high-quality protein and heat stability.
Spray drying at low temperatures produces a product more desirable for reconstitution for drinking.
Pasteurisation can be done quickly at temperatures of 75⁰C, though sheep milk may need to be diluted achieve this.
Sheep milk powder had lower levels of the compounds associated with strong flavor (volatile fatty acids) and lower odour activity values compared to goat milk powder, suggesting a milder flavour of sheep compared to goat milk. Higher amounts of volatile fatty acids were measured in the spring (start of the lactation season) compared to autumn (end of the season) which may be due to variation in the composition of the pasture between early and late season.

Conclusion

The high total solids of sheep milk offer technological advantages of higher cheese yield and higher density of nutrients in a variety of sheep milk products. These high solids can interfere with processing options such as pasteurisation. Storage conditions are also critical for further processing of sheep milk. New Zealand sheep milk, from pasture-fed systems has a mild flavor. Further heat treatments have provided an extended shelf-life product of high drinking value.