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This weird plant might be the future of Alaskan agriculture

This weird plant might be the future of Alaskan agriculture

By on 12 May 2015commentsShare

Alaska, the Last Frontier, is not known for its balmy climate or productive agricultural scene. But one new plant on the scene might be shaking up the state:

“I tried killing it—you can’t kill it. That’s my kind of plant,” says [Al] Poindexter. “It can go weeks without water. Moose don’t eat it, rabbits don’t eat it, weather doesn’t seem to bother it. It’s a real easy plant to grow.”

This is Rhodiola rosea—golden root, rose root—a succulent that was used for centuries as folk medicine and once considered something of a Soviet military secret. Decades ago, the Soviets realized that Rhodiola could boost energy and help manage stress. These days, a small group of Alaskan farmers are hoping that it could enter the pantheon of plants (coffee, chocolate, coca) whose powers people take seriously—and, along the way, become Alaska’s most valuable crop

The plant has been known in scientific circles since the 18th century, when Carl Linnaeus named it. Soviet scientists tried to keep it under wraps during the Cold War, using it to  buck up their soldiers and athletes, even the cosmonauts. And while I don’t know what a Rhodiola bar would taste like, nor whether it would help me climb flights of stairs without huffing, I do know that fitting the crop to its climate sounds pretty sensible.

“It’s actually an environment that the plant wants to grow in, as opposed to everything else we grow in Alaska,” says Stephen Brown, a professor and district agriculture agent at the University of Alaska-Fairbanks. “It’ll grow in the Arctic and sub-Arctic. It wants our long days. It’s already coming up out of the ground—and the ground’s still frozen.”

It might not be the Fertile Crescent when it comes to corn and potatoes, but south-central Alaska just might be the cradle of the coming Rhodiola renaissance.

Source:
THE SOVIET MILITARY SECRET THAT COULD BECOME ALASKA’S MOST VALUABLE CROP

, Atlas Obscura.

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Originally posted here – 

This weird plant might be the future of Alaskan agriculture

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How a Massive Environmental Crisis Led to the Invention of Cheese

Mother Jones

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A version of this article was originally published on Gastropod.

This is the story you’ll often hear about how humans discovered cheese: One hot day 9,000 years ago, a nomad was on his travels and brought along some milk in an animal stomach—a sort of proto-thermos—to have something to drink at the end of the day. But when he arrived, he discovered that the rennet in the stomach lining had curdled the milk, creating the first cheese.

But there’s a major problem with that story, as University of Vermont cheese scientist and historian Paul Kindstedt explained on the latest episode of Gastropod—a podcast that explores food through the lens of science and history. The nomads living in the Fertile Crescent of the Middle East in 7000 B.C. would have been lactose-intolerant. A nomad on the road wouldn’t have wanted to drink milk; it would have left him in severe gastro-intestinal distress.

Kindstedt, author of the book Cheese and Culture, explained that about a thousand years before traces of cheese-making show up in the archaeological record, humans began growing crops. Those early fields of wheat and other grains attracted local wild sheep and goats, which provide milk for their young. Human babies are also perfectly adapted for milk. Early humans quickly made the connection and began dairying—but for the first thousand years, toddlers and babies were the only ones consuming the milk. Human adults were uniformly lactose-intolerant, says Kindstedt. What’s more, he told us that “we know from some exciting archaeo-genetic and genomic modeling that the capacity to tolerate lactose into adulthood didn’t develop until about 5500 B.C.”—which is at least a thousand years after the development of cheese.

It took another recent advance to figure out the origins of cheese: Kindstedt says that only recently have scientists been able to analyze the chemical traces on pottery from thousands of years ago in order to find milk fat in the higher concentrations that indicate it was used to hold cheese or butter, rather than plain milk.

Using this new research, Kinstead explains, we now know that the real dawn of cheese came about 8,500 years ago, with two simultaneous developments in human history. First, by then, over-intensive agricultural practices had depleted the soil, leading to the first human-created environmental disaster. As a result, Neolithic humans began herding goats and sheep more intensely, as those animals could survive on marginal lands unfit for crops. And secondly, humans invented pottery: the original practical milk-collection containers.

In the warm environment of the Fertile Crescent region, Kinstedt explained, any milk not used immediately and instead left to stand in those newly invented containers “would have very quickly, in a matter of hours, coagulated due to the heat and the natural lactic acid bacteria in the milk. And at some point, probably some adventurous adult tried some of the solid material and found that they could tolerate it a lot more of it than they could milk.” That’s because about 80 percent of the lactose drains off with the whey, leaving a digestible and, likely, rather delicious fresh cheese.

With the discovery of cheese, suddenly those early humans could add dairy to their diets. Cheese made an entirely new source of nutrients and calories available for adults, and, as a result, dairying took off in a major way. What this meant, says Kindstedt, is that “children and newborns would be exposed to milk frequently, which ultimately through random mutations selected for children who could tolerate lactose later into adulthood.”

In a very short time, at least in terms of human evolution—perhaps only a few thousand years—that mutation spread throughout the population of the Fertile Crescent. As those herders migrated to Europe and beyond, they carried this genetic mutation with them. According to Kindstedt, “It’s an absolutely stunning example of a genetic selection occurring in an unbelievably short period of time in human development. It’s really a wonder of the world, and it changed Western civilization forever.”

To learn more about what those first cheeses tasted like—and how we got from there to Velveeta—listen to Gastropod’sSay Cheese!” episode:

Gastropod is a podcast about the science and history of food. Each episode looks at the hidden history and surprising science behind a different food and/or farming-related topic—from aquaculture to ancient feasts, from cutlery to chili peppers, and from microbes to Malbec. It’s hosted by Cynthia Graber, an award-winning science reporter, and Nicola Twilley, author of the popular blog Edible Geography. You can subscribe via iTunes, email, Stitcher, or RSS for a new episode every two weeks.

Originally posted here: 

How a Massive Environmental Crisis Led to the Invention of Cheese

Posted in alo, Anchor, aquaculture, ATTRA, FF, G & F, GE, LAI, LG, ONA, Radius, Thermos, Ultima, Uncategorized, Venta, Vintage | Tagged , , , , , , , , , , | Comments Off on How a Massive Environmental Crisis Led to the Invention of Cheese