澳门六合彩资料库

The Promise of Alternative Proteins

Can We Meet the Global Demand for Meat?

Inside a 澳门六合彩资料库 Davis engineering lab, tiny round pellets swirl in a brown liquid inside a 5-liter glass tank. The tank, a bioreactor, is brewing edible fungi high in protein and designed to look and taste like meat. 

In another lab on campus, a liquid nitrogen tank nicknamed 鈥渃ryocow鈥 holds frozen vials of cow muscle stem cells. Scientists hope to one day turn these cells into lab-grown meat, creating the burgers of the future. 

 

 

Researchers with the , or iCAMP, at 澳门六合彩资料库 Davis are leading projects like these to meet the world鈥檚 growing demand for meat in environmentally sustainable ways. Their goal is to identify alternative proteins that can be brought to market on a large scale. These proteins could come from fungi, plants, cultivated meat, or even innovative hybrids that combine conventional meat with alternative proteins. 

Alternative protein as boba
Professor Ruihong Zhang in the Department of Biological and Agricultural Engineering is brewing the next generation of mycofood 鈥 food made from fungi in bioreactors. This example is a replacement for the tapioca balls in boba tea.

The world鈥檚 demand for meat is expected to increase by at least 25%, and as much as 100%, by 2050, driven by a rising global population and an increasing appetite for meat in developing countries. 

鈥淢eeting that demand is not likely to happen just by growing more animals,鈥 said David Block, director of iCAMP.

Producing meat also contributes significantly to global greenhouse gas emissions. But for alternative proteins to be widely accepted by consumers, scientists and marketers need to overcome significant challenges. 

澳门六合彩资料库 Davis is well positioned to provide the technology and knowledge needed to advance alternative proteins because of its interdisciplinary teams of researchers from the animal and food sciences, biological sciences, agricultural and chemical engineering and sensory sciences. 

iCAMP brings those researchers together with industry experts and food innovators.

Researchers look at edible fungi made into products like boba and caviar
Researchers at 澳门六合彩资料库 Davis have created small balls of edible fungi that can be processed into products like boba and lab-grown caviar. Pictured are biological and agricultural engineering doctoral student Lin Cao and project lead and Professor Ruihong Zhang, Department of Biological and Agricultural Engineering. (Jael Mackendorf/澳门六合彩资料库 Davis)

Mycofood: fungi of the future

Professor Ruihong Zhang in the Department of Biological and Agricultural Engineering is brewing the next generation of mycofood 鈥 food made from fungi in bioreactors. 

She鈥檚 creating high-protein pellets from mycelium, the thread-like, branching parts of fungi. The fungi take on the color, flavor and nutrients of whatever they鈥檙e fed in the bioreactor. Zhang has fed them almond and walnut hulls, pistachio shells, carrots, tomatoes, red beets and even the byproducts of cheese-making.

鈥淭he fungi pellets will absorb bioactive compounds like antioxidants from almond hulls as well as the brown color,鈥 Zhang said. 鈥淚f fed tomato pomace, they鈥檒l have a reddish brown color.鈥

The pellets can be transformed into all sorts of food. Zhang first used them to replace the tapioca balls in boba tea. She鈥檚 also made jerky from them. Dried pellets can also be ground into a powder to mix in other foods. 

Zhang said she believes mycofoods, especially those made with agricultural byproducts like almond hulls, are more sustainable than animal or plant proteins. 

鈥淭hey鈥檙e a low cost, highly nutritious source of protein with a low carbon footprint,鈥 Zhang said. 

Her team鈥檚 work led to a that鈥檚 now making fungal-based caviar, modeled after sturgeon roe. Optimized Foods uses the mycelium pellets to provide the structure of the roe and cultivated caviar, grown in a lab using sturgeon stem cells. 

Alternative protein meat product
A steak from the Better Meat Co. of West Sacramento made from Rhiza mycoprotein, a protein made from a fungus. (Better Meat Co.)
Alternative protein meat product tacos
These tacos from the Better Meat Co. were made from 100 percent Rhiza mycoprotein, a protein made from a fungus. (Better Meat Co.)

Mycoproteins and hybrid food

Making mycoproteins more widely available is the next step for companies already producing food from fungi. The Better Meat Co. of West Sacramento makes a mycelium protein called Rhiza. The company sells dehydrated white cubes of Rhiza to food producers to blend in plant-based foods or animal meat. Rhiza can also be eaten on its own. 

鈥淲e know it鈥檚 not going to be possible to make everyone stop eating meat,鈥 said Doni Curkendall, Better Meat鈥檚 executive vice president of business operations. 鈥淏ut we think you can make a small change, and for us, that means creating hybrid products.鈥

Hybrid products are growing in popularity, appealing to flexitarians, or part-time vegetarians. shows most people who eat plant-based meat alternatives also eat animal meat. 

Rhiza mycoprotein is made by feeding fungi starchy foods through fermentation. This produces long fibers of mycelium, which are then drained or dehydrated, creating a product that has a meat-like structure and chewiness.

Currently, Better Meat produces Rhiza in a pilot plant. Curkendall hopes 澳门六合彩资料库 Davis鈥 iCAMP can help them scale up to commercial production. 

鈥湴拿帕喜首柿峡 Davis has the expertise,鈥 she said. 鈥淭hey have the facilities and people that can help us continue to do our research and continue to grow in this space.鈥

Curkendall envisions a time when Sacramento 鈥 known for being the farm-to-fork capital of California 鈥 will also be known as the fermentor-to-fork capital.

Student in a lab over steaming equipment
Madison Stewart, a graduate student researcher with the College of Biological Sciences, pulls out a nitrogen storage cylinder that holds vials of adult bovine muscle stem cells, which can be used as the starting material for cultivated meat. (Gregory Urquiaga/澳门六合彩资料库 Davis)

Meat grown in a lab

Cultivated meat, or meat grown in a lab using animal stem cells, is the latest alternative protein. The U.S. Department of Agriculture approved its sale nationally in 2023, but it may not be available in grocery stores for years. 

鈥淲e see cows grazing on grass and turning it into high-quality protein 鈥 meat,鈥 said Anna Denicol, associate professor in the Department of Animal Science at 澳门六合彩资料库 Davis. 鈥淚n the lab, we鈥檙e trying to replicate something that nature took thousands of years to perfect.鈥

Denicol is one of two 澳门六合彩资料库 Davis professors developing cow stem cells lines for cultivated beef. To make cultivated meat, cow stem cells are fed the right nutrients to help them grow and multiply. The cells also must differentiate into muscle cells, fat cells and connective tissue needed to make meat.

Scientists can use adult cow stem cells, but the problem with these cells is that they don鈥檛 duplicate forever, said Lucas Smith, assistant professor in the 澳门六合彩资料库 Davis Department of Neurobiology, Physiology and Behavior.

鈥淭he challenge is to expand them to greater degrees than you typically would in the body and then have them efficiently create muscle in a different environment,鈥 Smith said.

Researchers can also use embryonic stem cells, which can replicate indefinitely in the right conditions. However, getting these cells to become the muscle, fat and connective tissue is much harder and takes longer. 

The cultivated meat industry uses expensive, complex ingredients to keep cells alive, in a process borrowed from the biopharmaceutical industry. But food needs to be produced much more cheaply than pharmaceuticals. Also, the cells would need to grow in 250,000-liter fermentation tanks. 

鈥淭he reality is that no one in the world has ever grown animal cells using more than a 25,000-liter fermentation tank. It鈥檚 still an open question whether it will work,鈥 said Block, who is also a professor in the departments of chemical engineering and viticulture and enology.

澳门六合彩资料库 Davis researchers, along with iCAMP and industry partners, are hoping to meet this challenge. Block said he remains hopeful that technological innovations could lead to widespread commercialization of cultivated meat. 

鈥淚t鈥檚 probably 10 to 15 years away from being in all the supermarkets all across the country, but I am very optimistic that we鈥檒l get there.鈥

Man stands next to fermentation tanks
David Block is the director of Integrative Center for Alternative Meat and Protein, or iCAMP. (Karin Higgins/澳门六合彩资料库 Davis)

Making meat substitutes taste like meat

Even with all the research and new technology, people might still be hesitant to buy alternative proteins. One big reason is the cost. Even the plant-based proteins on the market now are often more expensive than products made from cows, pigs or chickens. 

Another challenge is making these alternatives have the taste, texture and mouthfeel of real meat. Soy and pea, the main ingredients in many plant-based proteins, can have off flavors that need to be masked, Block noted. They also need fat to give them the right mouthfeel and flavor. 

But Block said part of the research mission of iCAMP is to determine what鈥檚 critical for consumers to buy these products. 

鈥淭here is no projection that we鈥檙e going to need less meat,鈥 Block said. 鈥淚 would expect conventional animal agriculture may stay the same or even grow but these other methods of producing meat need to fill that supply gap.鈥

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