Tag Archives: sahara

Photos show Portugal and Spain in flames.

In parts of the United Kingdom Monday morning, people woke up to a blood-red sun — a phenomenon seen around the globe this year.

The color was caused by smoke that blew in from wildfires across Portugal and Spain. Hurricane Ophelia deepened the reddish hue by dragging up dust from the Sahara.

Red skies have haunted the western U.S. recently as wildfires burned in Montana and ash rained down in Seattle. This month in Northern California, 20,000 people evacuated from massive wildfires under a red-orange sky.

Anadolu Agency / Contributor / Getty Images

On the other side of the world, wildfires burned in Siberia all summer long, covering the sun with enormous clouds of smoke and ash.

REUTERS/Ilya Naymushin

To understand why this happens, you need to know a bit of optics. Sun rays contain light from the whole visible spectrum. As the sun’s white light beams into the atmosphere, it collides with molecules that diffuse some of the wavelengths. On a normal day, short wavelength colors, like purple and blue, are filtered out, making the sun look yellow.

But high concentrations of light-scattering molecules in the air (like smoke particles from a wildfire) crowd out more of those short-wavelength colors, leaving behind that hellish red color.

Since climate change makes wildfires worse, we’ll be seeing a lot more of it.

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Photos show Portugal and Spain in flames.

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Congress might allow drilling in the Arctic National Wildlife Refuge.

In parts of the United Kingdom Monday morning, people woke up to a blood-red sun — a phenomenon seen around the globe this year.

The color was caused by smoke that blew in from wildfires across Portugal and Spain. Hurricane Ophelia deepened the reddish hue by dragging up dust from the Sahara.

Red skies have haunted the western U.S. recently as wildfires burned in Montana and ash rained down in Seattle. This month in Northern California, 20,000 people evacuated from massive wildfires under a red-orange sky.

Anadolu Agency / Contributor / Getty Images

On the other side of the world, wildfires burned in Siberia all summer long, covering the sun with enormous clouds of smoke and ash.

REUTERS/Ilya Naymushin

To understand why this happens, you need to know a bit of optics. Sun rays contain light from the whole visible spectrum. As the sun’s white light beams into the atmosphere, it collides with molecules that diffuse some of the wavelengths. On a normal day, short wavelength colors, like purple and blue, are filtered out, making the sun look yellow.

But high concentrations of light-scattering molecules in the air (like smoke particles from a wildfire) crowd out more of those short-wavelength colors, leaving behind that hellish red color.

Since climate change makes wildfires worse, we’ll be seeing a lot more of it.

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Congress might allow drilling in the Arctic National Wildlife Refuge.

Posted in alo, Anchor, FF, G & F, GE, LAI, Northeastern, ONA, PUR, The Atlantic, Uncategorized, Wiley | Tagged , , , , , , , , , , | Comments Off on Congress might allow drilling in the Arctic National Wildlife Refuge.

Could we make tennis rackets out of atmospheric CO2? Science says yes

Could we make tennis rackets out of atmospheric CO2? Science says yes

By on 19 Aug 2015commentsShare

You know the old saying: “When life gives you atmospheric CO2, capture it, turn it into carbon fiber, and build cool stuff with it.” No? That’s OK — I just made it up, but let the record show that if this does become an old saying, you heard it here first.

Researchers at George Washington University have figured out a way to transform everyone’s favorite greenhouse gas into the super-strong and lightweight wonder material known as carbon fiber. As MIT Technology Review reports, carbon fiber (and especially carbon nanofiber) has become somewhat of a darling material among engineers, who are using it in all kinds of things: airplanes, cars, tennis rackets, wind turbines. Unfortunately, carbon fiber can be pretty expensive to make, which is why chemist Stuart Licht and his colleagues at GWU are actually killing two birds with one stone. Their technology both sucks CO2 out of the atmosphere and makes cheaper carbon fiber.

According to Technology Review, Licht and his team estimate that with their technology, the amount of atmospheric CO2 could return to pre-industrial levels within ten years — and that’s even if we don’t significantly slow our emissions in the interim. All they’d need is an area about 10 percent the size of the Sahara Desert in order to capture and convert enough CO2 — a process that involves dissolving the CO2 into molten carbonate.

Which raises the question: How big is the Sahara Desert?

An in-depth Grist investigation revealed that the Sahara Desert covers about 3.5 million square miles. Further calculations showed that about 10 percent of that is 350,000 square miles. Converting to more familiar U.S. territory units, that comes out to more than two Californias. And for those of you in the center of the universe otherwise known as Manhattan, that’s more than 10,000 times the size of your slowly sinking island.

In conclusion, ten percent of the Sahara is a pretty damn big area. Scaling up laboratory experiments like this is always a time-consuming and precarious proposition, so while this technology seems promising, it’s certainly no silver bullet for climate change.

And if this CO2-to-carbon fiber process does prove useful in some capacity, we should all listen to what our old friend Andrew Maynard over at Risk Bites has to say about the health risks of this amazing (but potentially hazardous) wonder material:

Source:
Turning Atmospheric CO2 into Strong, Lightweight Carbon Fibers

, MIT Technology Review.

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Oceans 15


This chef built her reputation on seafood. How’s she feeling about the ocean now?Seattle chef Renee Erickson weighs in on the world’s changing waters, and how they might change her menu.


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How catching big waves helped turn this pro surfer into a conservationistRamon Navarro first came to the sea with his fisherman rather, found his own place on it as a surfer, and now fights to protect the coastline he loves.


What seafood is OK to eat, anyway? Ask an expertWhen it comes to sustainable seafood, you could say director of Seafood Watch Jennifer Dianto Kemmerly is the ultimate arbiter of taste.

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Could we make tennis rackets out of atmospheric CO2? Science says yes

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The Most Isolated Tree in the World Was Killed by a (Probably Drunk) Driver

The Tree of Ténéré, circa 1961. Photo: Michel Mazeau

For around 300 years, the Tree of Ténéré was fabled to be the most isolated tree on the planet. The acacia was the only tree for 250 miles in Niger’s Sahara desert, and was used as a landmark by travelers and caravans passing through the hostile terrain. The tree sprouted when the desert was a slightly more hospitable place, and for years was the sole testament to a once-greener Sahara.

In the 1930s, the tree was featured on official maps for European military campaigners, and a French ethnologist Henri Lhote called it, ”an Acacia with a degenerative trunk, sick or ill in aspect.” But he noted, as well, that “nevertheless, the tree has nice green leaves, and some yellow flowers.” The hardy tree, a nearby well showed, had reached its roots more than 100 feet underground to drink from the water table.

But then, in 1973, the centuries-old survivor met its match. A guy ran the tree over with his truck. The Libyan driver was “following a roadway that traced the old caravan route, collided with the tree, snapping its trunk,” TreeHugger reports. The driver’s name never surfaced, but rumors abound that he was drunk at the moment that he plowed into the only obstacle for miles—the tree.

Today, the tree’s dried trunk rests in the Niger National Museum, and a spindly metal sculpture has been erected in the place it once stood. The loneliest tree in the world is now this sad spruce on New Zealand’s subantarctic Campbell Island.

More from Smithsonian.com:

Things Are Looking Up for Niger’s Wild Giraffes
Born Into Bondage

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The Most Isolated Tree in the World Was Killed by a (Probably Drunk) Driver

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