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The Sahara Desert Used to Be...Green?!
The Sahara Desert Used to Be...Green?!
Earth’s climate has shifted dramatically over billions of years—transforming even the lush Sahara into a desert. But did early humans impact the environment and cause these changes to take place?
Think about the following questions as you watch the video
What are the different features of the Sahara desert today?
What do ancient petroglyphs and fossils tell us about the climate and landscape of the Sahara region before it became a desert?
How long of a period was the Sahara region greener and wetter than today?
How might an increase in pastoralism have caused the climate of the Sahara region to become drier?
Where did many early humans migrate around 7,000 to 5,000 years ago after the Sahara became a desert?
: Today, the Sahara is famous for being hot, dry,
: and covered with sand. But what's now a dry, desolate landscape was once lush and
: green, and the home of complex early human societies. So, what happened?
: These days, the Sahara is very clearly a desert — a type of biome that gets very little rainfall,
: usually less than twenty inches a year. In the Sahara's case, that's closer to only three.
: And spanning over three million square miles in Northern Africa, it's the largest hot desert
: on Earth. The Sahara's name comes from the word Sahra, which literally means "desert" in Arabic.
: Its landscape is covered in rocky plateaus, gravel plains, and ergs, which are those iconic broad,
: flat expanses of land covered with wind-swept sand. There's also the occasional oasis basin —
: a fertile area in a desert where freshwater is available. The Sahara is the way it is
: mainly thanks to its climate. The lack of moisture in the air keeps things really hot during the day
: and really cold at night. It could be 100 degrees Fahrenheit by mid-morning, only to plummet to 25 degrees Fahrenheit once it's
: time to sleep. All of which means it's really hard for anything to grow and thrive in the Sahara, so
: there's not a lot of vegetation aside from shrubs and hardy grasses. But we know it hasn't always
: been this way. Ancient petroglyphs, or rock carvings, show evidence of a green Sahara,
: complete with animals you'd find in a savanna; think elephants and giraffes. And the area's
: geography shows plenty of fossils, seashells, and buried channels — all indicating that where we
: now see endless oceans of sand, there used to be wetlands, vegetation, and big bodies of water like
: lakes. And those lush grasses and plentiful lakes make sense when you look at the precipitation
: patterns of the era. Scientists can use natural archives that record climate information —
: things like leaf waxes or sediment core from lakes — to determine that 10,000 years ago, the
: world's most iconic desert used to get plenty of rain. They've also found evidence in something the
: Sahara has a lot of: dust. When wind blows over a lush, vegetated area, it doesn't pull up very
: much dust, because that soil is held down by water and plant roots. But with an arid, barren climate,
: there's nothing holding the soil in place, so more is blown away by wind. And looking at dust
: sediments that have built up across the Sahara over thousands of years, scientists have found
: that the wind sweeps away about five times more dust today than it did millennia ago.
: Scientists refer to this most recent era of the wetter, greener Sahara, beginning around
: 11,000 years ago, as the African Humid Period. And it supported not only vast plant life,
: but people, as nomadic, hunter-gatherers called the region home. But then, around 3,000 BCE,
: things started to change for a bunch of reasons scientists are only starting to understand.
: Some of those reasons are totally natural environmental shifts. The truth is, the
: a bit unstable. Scientists are still working out
: the exact causes for why this is, but the gist is that as Earth wobbles slightly on its axis,
: thanks to the gravitational pulls from the Sun and the Moon, the angle of the solar radiation
: penetrating our atmosphere shifts too. Because of Northern Africa's location and size, the
: leading to periods of increased rainfall...every
: 20,000 years or so. But some people don't think those natural shifts tell the whole story. Some
: research suggests that in only one to two hundred years, Northern Africa began drying out more quickly,
: morphing into the more familiar ocean of sand we know today — much faster than can be attributed to
: a garden variety axis wobble. The answer lies in something we're all pretty familiar with,
: humans. And while human populations in the
: Sahara's lush biome at the time, they also may have contributed to its downfall. Sediment shows
: that the Sahara began drying out around the same time as humans increasingly took up pastoralism,
: or the practice of keeping domesticated animals. And domesticated goats and cattle grazing on all
: the greenery might have been just enough to push the already shifting environment over the edge.
: That makes sense; these days, we know that overgrazing can kill off grasses and other greenery,
: leading to dryness as an environment loses a critical source of moisture. So,
: as pastoralism cropped up across the region, it's possible it caused that dryness to accelerate.
: Of course, this isn't necessarily a one-way street, and there are other factors to consider,
: too. After all, less rain might have decreased wild plant life,
: encouraging humans to increase their reliance on their domesticated herds, speeding the cycle up.
: The whole thing is kind of a case of which came first, the chicken or the egg, or in this case,
: the goat herd or the dry, arid desert. And as the climate of the Sahara shifted, the population
: began shifting with it. Entire communities disappeared, like the people of the Takarkori,
: a remote region in what is now Libya. According to DNA taken from recently discovered skeletons,
: this community was isolated and genetically distinct, able to live off the lush Saharan
: landscape of the time. But as the green Sahara disappeared, the Takarkori community disappeared
: along with it. Other populations had to adapt for survival — and for many, that meant picking up and
: moving elsewhere. There's evidence that between 7,000 and 5,000 years ago, people began leaving
: the burgeoning desert behind, instead joining pre-existing settlements along the Nile River,
: a more permanent source of water; coinciding with the beginning of Egypt's golden age.
: Our planet and its climate have changed many times in Earth's 4.5-billion-year history,
: and the world's most iconic desert is one example of just how catastrophic
: climate change can be for human societies. Like the people of the ancient Sahara,
: today we find ourselves struggling to adapt to a changing climate, interwoven
: with our own human actions. And our behavior now could mean the difference