It takes a whole lot of resources and unkind practices to make the dairy foods we enjoy today.

We dream of a world with a thriving and sustainable food system that is kind to people, animals and the planet.

How we do it

We harness the power of microbes to create real dairy proteins, fats, and flavors through precision fermentation.

We then utilize traditional cheesemaking techniques to turn them into cheese that tastes, stretches, and melts just as you’d expect.

 

Production method

The manufacturing of farmhouse cheese involves the concentration of the solids in the milk, by removal of the whey or liquid portion, followed by the shaping of the solid particles (or curd) by placing them into moulds. This is done by adding an ingredient called rennet to the milk, which sets it. This is then cut into cubes. The curds and whey are separated by straining or pressing. The cheese, depending on the variety, is then left to mature.

Manufacturing requirements:

  • A suitable premises, which conforms to the health regulations;
  • a stainless steel vessel where milk can be converted into cheese;
  • a moulding/pressing area where the curds are formed into their final shape;
  • a brine tank to salt the cheese (not a requirement for all cheeses);
  • a ripening room where the cheese is held under defined conditions of temperature and humidity;
  • a packaging area where the cheese is weighed and packed prior to distribution; and,
  • a cold room to store the packaged cheese.

 

Milk: good-quality milk, free from antibiotics and with a low somatic cell count, should be used to make cheese.

Ripened milk: the addition of lactic acid (starter) bacteria to the milk starts the fermentation process, where lactose (milk sugar) is converted into lactic acid, which lowers the pH and helps to assist the coagulation process. After inoculation with a starter bacteria, the milk is usually held for 40-60 minutes at a temperature of 28-30°C (higher for some Swiss-style cheeses). This ensures the bacteria are active and the development of acidity has begun. Note: mould may also be added at this stage for blue and white mould cheeses.

Coagulum: enzyme coagulation is brought about by the addition of rennet, which contains an enzyme called chymosin, can be either vegetarian or of animal origin.

Curd treatment: after coagulation, the firm curd is cut into small cubes. This increases the available area for whey to be released. This release of whey (syneresis) is further driven by a cooking stage, where the curds and whey are heated gradually. This causes the protein to shrink and also helps to increase the activity of the starter bacteria. When the curds have reached the desired acidity and moisture, the whey is drained off. After whey drainage, the curd handling varies from cheese to cheese. The curds are then salted, either directly in the vat (e.g., Cheddar) or after pressing (e.g., Gouda). Curds and whey are heated and stirred. 

Place curds in moulds: they are then pressed to give the final shape, usually circular or rectangular. 

Ripening: with the exception of fresh cheese, most cheeses are ripened or matured for weeks or months at specific temperatures and levels of humidity. During ripening, the salt moves through the cheese adding to the flavour and preventing the excess growth of bacteria. The starter bacteria release enzymes, which degrade the fat and protein, resulting in flavour development.

Packaging: cheeses are packed in many different ways. Some are waxed with a paraffin wax, others are coated with a plastic layer, and others are wrapped in foil or parchment. The function of the packaging is to protect and preserve the product en route to the consumer.

Equipment: Sourcing cheese equipment can be arduous and it is best to take advice when investing. Companies such as Rademaker and C. v’ant Riet Dairies in Holland, Jaap Jongia in the UK, and Asta Eismann in Germany have a great deal of experience. A 500L cheese vat will return 55kg of hard cheese. Over 40 weeks, this will use 20,000 litres of milk, resulting in 2,200kg of cheese. These figures relate to production on a one day per week basis. 

If production is increased to three days per week, you will use 60,000 litres of milk, giving 6,600kg of hard cheese, with costs and returns as follows:

Getting the milk onto shelves

Last year, Land O’Lakes partnered with innovative startup Plus.ai to deliver 40,000 pounds of butter 2,800 miles. Did we mention that the truck drove itself? It was the first coast-to-coast commercial freight trip made by a self-driving truck, traveling from Tulare, California, to Quakertown, Pennsylvania, in less than three days. The driving system offered the tech to do it safely, including cutting-edge sensors, deep learning algorithms and simultaneous location and mapping (SLAM) technologies.
While that is an exciting twist on transportation, it’s the everyday, over-the-road truckers whose praises we’re singing this month.
Drivers are an integral part of the process, arriving on farm to collect the milk, delivering it for processing and then transporting the finished products to stores and customers across the country.