BBC’s Attenborough’s Life That Glows is an absolutely gorgeous look at the mysterious creatures around the world that have bioluminescent powers. It details the lives of fireflies, glow worms, fungi, fish, squid, plankton, and other creatures, and shows how they use their glow-in-the-dark abilities.
Remember Sea Monkeys? Remember how disappointed you were when you found out they weren’t really humanoid organisms, but boring old brine shrimp? Now there’s a nifty alternative: the Dino Sphere, a decorative glass sphere that houses thousands of plankton. Swirl the sphere a little at night, and those plankton will…
Oh the things we learn when we skim through forensic medicine textbooks for a living. Apparently, there is a phenomenon called “postmortem luminescence.” And it should make zombie movies both less and more frightening.
Human bodies emit photons. What's more, they do so in a pattern that repeats itself every day. Find out why you're shooting light from your face, at regular intervals.
Well, they'll only eat you if you're a tasty insect. A few years ago, wildlife photographer Jeff Cremer was traipsing about the Peruvian rainforest when he noticed some glowing green dots scattered in the dirt. He returned to investigate with some entomologists.
Artisanal ice cream sometimes contains unusual ingredients, like foie gras, blue cheese, or horseradish, but Lick Me I'm Delicious' latest ice cream innovation contains jellyfish protein, not for its flavor, but for its luminescent properties.
Photographer Yume Cyan has been recasting the fireflies around Nagoya City, Japan, as fairy lights in a series of long-exposure photos. The momentary flashing of each bug becomes part of a bioluminescent trail it winds through the trees.
There are certain times when the woods begin to glow. Sometimes they glow so much that people call the Park Service and ask them to send a hazmat team. What they're actually seeing is foxfire. And although we know how it happens, we don't know exactly why.
The above picture shows the first photo of the famous Milky Seas Effect. It's a luminescence that turns thousand-mile patches of ocean a glowing milky blue.
Measuring only about a foot and a half long, the lanternshark may seem distinctly less impressive than its larger shark cousins. But this diminutive fish has mastered the art of bioluminescence, concealing themselves from prey while challenging any potential predators.
Unfortunately, those properties are deadly. These are the jack-o-lantern mushrooms, and their gills have a faint, but beautiful, bioluminescence. The mushrooms are intriguing in theory, but they're lethal when it comes to actual practice.
If you're an aquatic mammal, how do you hunt in the darkest seas, where light can't penetrate? Dolphins have it easy with their echolocation, but what about the other animals with much more limited senses? They chase after critters that provide their own light.
No really, look. The resemblance is uncanny. Right down to the little bandolier.
Scientists from Syracuse University have found a way to mimic the bioluminescent qualities of fireflies, a development that could lead to products with multicolor strings of light that don't require electricity or batteries to glow.
You might think a stomach that lights up would be a liability when you're trying to avoid getting eaten — but the glowing bellies of tiny sharks are helpful in camouflaging them from predators lurking below, researchers say.
Really, one of the key issues with sushi is that it doesn't glow under black light. To solve that problem, the Center for Genomic Gastronomy is using genetically modified fishies from the pet store to create tasty treats that will be perfect for your next rave.explores the use of biotechnology in human food…
This awesome photo is of a newly discovered deep sea worm, Swima fulgida. Measuring just over an inch long, this little guy lives 9,000 feet underwater and escapes predators by flinging homemade "bombs" at its enemies.
Scientists at UC San Diego have made a bioluminescent bacterial billboard. They call it a "living neon sign composed of millions of bacterial cells that periodically fluoresce in unison like blinking light bulbs." Making it all work "involved attaching a fluorescent protein to the biological clocks of the bacteria,…
Many bacteria found at the bottom of the ocean glow in the dark thanks to light generated by their internal chemical reactions. This makes it easier for fish to see and eat them — which is exactly what the bacteria want.
On the beaches of Southern California, a phytoplankton called Lingulodinium polyedrum is responsible for a spate of red tide. Massive algal blooms like this make the water ruddy during the day, but disrupting the microorganisms at night results in bursts of electric blue bioluminescence. Says Scripps Institution of…