Petri dish meat coming to the dinner table
Samples of in-vitro meat shown earlier this week at the University of Maastricht, where scientists are cooking up news ways to feed us.
First lab-grown burger to cost $345,000 to produce, but could be sustainable option in near future
"Cultured meat" - burgers or sausages grown in laboratory Petri dishes rather than made from slaughtered livestock - could be the answer that feeds the world, saves the environment and spares the lives of millions of animals, they say.
Granted, it may take a while to catch on. And it won't be cheap.
The first lab-grown hamburger will cost about $345,000 to produce, according to Mark Post, a vascular biologist at the University of Maastricht in the Netherlands, who hopes to unveil such a delicacy soon.
Experts say the meat's potential for saving animals' lives, land, water, energy and the planet itself could be enormous.
"The first one will be a proof of concept, just to show it's possible," Post said from his Maastricht lab. "I believe I can do this in the coming year."
It may sound and look like some kind of imitation, but in-vitro or cultured meat is a real animal flesh product, just one that has never been part of a complete, living animal - quite different from imitation meat or meat substitutes aimed at vegetarians and made from vegetable proteins like soy.
Using stem cells harvested from leftover animal material from slaughterhouses, Post nurtures them with a feed concocted of sugars, amino acids, lipids, minerals and all other nutrients they need to grow in the right way.
So far he has produced whitish pale muscle-like strips, each of them around 2.5 cm long, less than a centimetre wide and so thin as to be almost seethrough.
Pack enough of these together - probably around 3,000 of them in layers - throw in a few strips of lab-grown fat, and you have the world's first "cultured meat" burger, he says.
"This first one will be grown in an academic lab, by highly trained academic staff," he said. "It's handmade and it's time and labour-intensive, that's why it's so expensive to produce."
Not to mention a little unappetizing. Since Post's in-vitro meat contains no blood, it lacks colour. At the moment, it looks a bit like the flesh of scallops, he says.
Like all muscle, these labgrown strips also need to be exercised so they can grow and strengthen rather than waste away. To do this Post exploits the muscles' natural tendency to contract and stretches them between Velcro tabs in the Petri dish to provide resistance and help them build up strength.
Supporters of the idea of man-made meat, such as Stellan Welin, a bioethicist at Linköping University in Sweden, say this is no less appealing than mass-producing livestock in factory farms where growth hormones and antibiotics are commonly used to boost yields and profits.
And conventional meat production is also notoriously inefficient. For every 15 grams of edible meat, you need to feed the animals on around 100 grams of vegetable protein, an increasingly unsustainable equation.
All this means finding new ways of producing meat is essential if we are to feed the enormous and ever-growing demand for it across the world, Welin told Reuters in an interview.
"Of course you could do it by being vegetarian or eating less meat," he said. "But the trends don't seem to be going that way. With cultured meat we can be more conservative - people can still eat meat, but without causing so much damage."
According to the World Health Organization, annual meat production is projected to increase from 218 million tonnes in 1997-1999 to 376 million tonnes by 2030, and demand from a growing world population is seen rising further beyond that.
"Current livestock meat production is just not sustainable," says Post. "Not from an ecological point of view, and neither from a volume point of view. Right now we are using more than 50 per cent of all our agricultural land for livestock.
"It's simple maths. We have to come up with alternatives."
According to a 2006 report by the UN Food and Agriculture Organization, industrialized agriculture contributes on a "massive scale" to climate change, air pollution, land degradation, energy use, deforestation and biodiversity decline.
The report, entitled Livestock's Long Shadow, said the meat industry contributes about 18 per cent of global greenhouse-gas emissions, and this proportion is expected to grow as consumers in fastdeveloping countries like China and India eat more meat.
Hanna Tuomisto, who conducted a study into the relative environmental impacts of various types of meat, including lamb, pork, beef and cultured meat, said the lab-grown stuff has by far the least effect on the environment.
Her analysis, published in the Environmental Science and Technology journal earlier this year, found that growing our favourite meats in-vitro would use 35 to 60 per cent less energy, emit 80 to 95 per cent less greenhouse gas and use around 98 per cent less land than conventionally produced animal meat.
"We are not saying that we could, or would necessarily want to, replace conventional meat with its cultured counterpart right now," Tuomisto, who led the research at Oxford University's Wildlife Conservation Research Unit, said in a telephone interview.
But she said cultured meat "could be part of the solution to feeding the world's growing population and at the same time cutting emissions and saving both energy and water."
While experts in the field agree that within several years, it may be possible to produce in-vitro meat in a processed form - like sausages or chicken nuggets - producing more animal-like products such as pork chops or steaks could be a lot more complex and may take many more years to develop.
Post, who is financed by an anonymous private funder keen to see the Dutch scientist succeed, hopes to hand the world its first man-made hamburger by August or September next year, but for the moment he admits what he has grown is a long way from a mouth-watering meal.
He hasn't yet sampled his own creation, but reviews from others are not great. A Russian TV reporter who came to his lab tried one of the strips and was unimpressed.
"It's not very tasty yet," Post said. "That's not a trivial thing and it needs to be worked on."
But with the right amounts and right types of fat, perhaps a little lab-grown blood to give it colour and iron, Post is confident he can make his Petri dish meat look and taste as good as the real thing.
He also hopes the ability to tweak and change things will mean scientists will ultimately be able to make meat healthier - with less saturated and more polyunsaturated fat, for example, or more nutrients.
"The idea is that since we are now producing it in the lab, we can play with all these variables and we can eventually hopefully turn it in a way that produces healthier meat," he said. "Whereas in a cow or a pig, you have very limited variables to play with."
The Next McRIB ?