Take a journey through some of the coolest parts of our blue planet in this voyage around our beautiful poles with this 10 hour loop.
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#OurBluePlanet is a digital collaboration between BBC Earth and Ocean X Media with featured media from both companies. Join the conversation over on Twitter @OurBluePlanet.

Ocean X Media are a team of scientists, explorers and filmmakers driven to discover what lies beneath the waves and to document untold ocean stories. You can find out more here: http://www.oceanx.org

Watch more videos from BBC Earth:
Planet Earth http://bit.ly/PlanetEarthPlaylist
Blue Planet http://bit.ly/BluePlanetPlaylist
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Planet Dinosaur http://bit.ly/PlanetDinoPlaylist

About BBC Earth:
The world is an amazing place full of stories, beauty and natural wonder. Explore the official BBC Earth YouTube channel and meet the animals and wildlife of your planet. Here you'll find 50 years worth of astounding, entertaining, thought-provoking and educational natural history documentaries. Dramatic, rare and wild nature doesn't get more exciting than this. Subscribe to be the first to view new animal documentary videos. You can also become part of the BBC Earth community on Facebook, Twitter and Instagram. Here you'll find the best natural history content from the web, exclusive videos and images and a thriving, vibrant community.

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This is a channel from BBC Studios who help fund new BBC programmes.

Check out BBC Earth on BBC online - http://www.bbc.com/earth/world
John Hurts tells the stories of the biggest, deadliest and weirdest Dinosaurs ever to walk the Earth. Massive carnivorous hunter Spinosaurus hunts the giant fresh water fish Onchopristis.

Planet Dinosaur tells the stories of the biggest, deadliest and weirdest creatures ever to walk the Earth, using the latest fossil evidence and immersive computer graphics. Narrated by John Hurt.

Visit http://www.bbcearth.com for all the latest animal news and wildlife videos
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Subscribe to BBC Earth: http://bit.ly/ydxvrP
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Latest BBC Earth videos: http://bit.ly/y1wtbi

Just for plane buffs. re-edited footage
From the "Quartet" album Produced by Sir George Martin. If you search for original footage Sky fighters (les chevaliers du ciel). Try this one also https://www.youtube.com/watch?v=dRn_NJI_Q-Q its a WW2 P-40 on my channel.

Ultravox perform Sleepwalk on Top of the Pops, 1980.
HD broadcast of SD content.

What do you do if you are a tiny caddisfly larva growing up in a torrent of water and debris? Simple. You build a shelter out of carefully selected pebbles and some homespun waterproof tape.

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe and meet extraordinary new friends. Explore big scientific mysteries by going incredibly small.

* NEW VIDEOS EVERY OTHER TUESDAY! *

We already mimic them to make fly-fishing lures. But now scientists believe copycatting one tiny insect could hold promise for repairing human tissues and setting bones.

Instead of stitches and screws, doctors may soon call on the next generation of medical adhesives — glues and tape — to patch us up internally.

The inspiration? Caddisflies, a type of stream-dwelling, fish-baiting insects that live in creeks all across the United States.

As a larva, the caddisfly constructs a tiny tube-like house for itself, called a case, entirely underwater, using pebbles and its incredible homespun tape as the mortar.

Thanks to the qualities of this amazing silk, the case not only holds up when submerged, it is strong enough to protect the caddisfly’s soft lower body amid forces many times its body weight.

Any tape, including this one, has two basic components: the flat ribbon, or backing, and the layer of sticky stuff, or the glue. From the materials science standpoint, caddisfly tape is extraordinary in both departments.

Caddisfly silk biomimicry is only in its infancy, but one day, a similar compound might be used inside the body, which is another watery environment, to mend soft tissues and even repair hard ones, such as teeth and bone.

In the streambed, or brook, the caddisfly’s case eventually becomes a cocoon. Like its land-based cousins, the butterflies and moths, from whom it diverged 250 millions years ago, the caddisfly larva undergoes a metamorphosis. It seals up its case with a so-called “hat stone” and emerges months later as a winged adult.

--- Where do caddisflies live?

Caddisflies are most common in shallow, cold, turbulent streams, where the water is highly oxygenated.

--- What do caddisflies eat?

Caddisflies are herbivores, they eat decaying plant matter and algae on the rocks in the streams where they live.

--- What is so special about caddisfly silk?

Engineers are interested in two attributes of caddisfly silk. First of all, it can bond to something, such as a pebble, underwater, which no glue people have made can replicate. Second its “viscoelastic” properties allow to it harmlessly absorb physical forces. When stretched, it doesn’t snap back like a rubber band. It returns to its original shape slowly and safely. It's an engineering marvel.

---+ Read the entire article on KQED Science:

https://ww2.kqed.org/science/2....016/08/09/sticky-str

---+ For more information:

Troutnut.com
http://www.troutnut.com/hatch/....12/Insect-Trichopter

---+ More Great Deep Look episodes:

This Vibrating Bumblebee Unlocks a Flower's Hidden Treasure
https://www.youtube.com/watch?v=SZrTndD1H10

These Carnivorous Worms Catch Bugs by Mimicking the Night Sky
https://www.youtube.com/watch?v=vLb0iuTVzW0

---+ See some great videos and documentaries from the PBS Digital Studios!

It's Okay to Be Smart: Venom: Nature’s Killer Cocktails
https://www.youtube.com/watch?v=Qd92MuVZXik

Gross Science: Sea Turtles Get Herpes, Too
https://www.youtube.com/watch?v=bpqP9bUUInI

---+ Follow KQED Science:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is also supported by HopeLab, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Smart Family Foundation and the members of KQED.
#deeplook

Planarians are tiny googly-eyed flatworms with an uncanny ability: They can regrow their entire bodies, even a new head. So how do they do it?

You can learn more about CuriosityStream at https://curiositystream.com/deeplook
Support Deep Look on Patreon!! https://www.patreon.com/deeplook

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. Explore big scientific mysteries by going incredibly small.

Nelson Hall wants you to know that the googly-eyed flatworm he just sliced into four pieces is going to be OK.

Three of the flatworm’s four pieces have started to wriggle away from each other and its head is moving in circles under Hall’s microscope. “The head will just go off and do its own thing,” said Hall, a doctoral student of bioengineering at Stanford University.

But in three weeks, the head, as well as the other pieces, will each have grown into a complete flatworm just like the one Hall sliced up, dark brown and about a half-inch long.

Hall and researchers around the world are hard at work trying to understand how these flatworms, called planarians, use powerful stem cells to regenerate their entire bodies, an ability humans can only dream of.

Animals like starfish, salamanders and crabs can regrow a tail or a leg. Planarians, on the other hand, can regrow their entire bodies – even their heads, which only a few animals can do.

---What is the difference between healing and regeneration?
When we suffer a severe injury, the best we can hope for is that our wounds will heal. “Healing is more like closing the wound and cleaning debris. It’s too short of a process to have tissue replacement,” said Hall. “Regeneration is replacing the tissue that was lost.”

---What are pluripotent stem cells?
If planarians can regrow body parts, why can’t we? Key to planarians’ regenerative ability are powerful cells called pluripotent stem cells, which make up one-fifth of their bodies and can grow into every new body part. Humans only have pluripotent stem cells during the embryonic stage, before birth. After that, we mostly lose our ability to sprout new organs.

“We have a couple of tissues that can regenerate, like the liver, the outer layers of the skin and the inner layers of the intestine, and the bone marrow,” said Dr. Stephen Badylak, Deputy Director of the McGowan Institute for Regenerative Medicine at the University of Pittsburgh. “But the way we heal most tissues is by forming scar tissue.”

Scientists hope that studying planarians could lead to treatments for humans in which our stem cells could be coaxed one day to regrow severed limbs or sick organs.

---How to grow a fingertip.
Doctors are limited in what they can currently do to help people who lose a limb or part of one. Badylak, who doesn’t study planarians, has developed a treatment at the University of Pittsburgh that helps patients regrow their fingertips after an accident.

He applies a powder made of animal collagen and substances that stimulate cells to grow, to help form a scaffold that attracts stem cells from the parts of the nail that weren’t cut off. The stem cells regrow the fingertip, which isn’t identical to the one that was cut off, but is functional.

---+ Read the entire article on KQED Science:
https://www.kqed.org/science/1....933246/want-a-whole-

---+ For more information:
Regeneration in Nature: Francesc Cebrià’s blog on animal regeneration: https://regenerationinnature.wordpress.com

---+ More great Deep Look episodes:

Daddy Longlegs Risk Life ... and Especially Limb ... to Survive
https://www.youtube.com/watch?v=tjDmH8zhp6o

Take Two Leeches and Call Me in the Morning
https://www.youtube.com/watch?v=O-0SFWPLaII

These Fighting Fruit Flies Are Superheroes of Brain Science
https://www.youtube.com/watch?v=yvd3X1N0jUU

---+ See some great videos and documentaries from PBS Digital Studios!

Reactions: Why Tardigrades are Some of the Most Hardcore Critters on the Planet
https://www.youtube.com/watch?v=dEW1_Pba3z4

It’s Okay to Be Smart: Is Height All In Our Genes?
https://www.youtube.com/watch?v=0cuO5OSDMbw

---+ Follow KQED Science:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios. Deep Look is a project of KQED Science, which is also supported by the National Science Foundation, the Templeton Religion Trust, the Templeton World Charity Foundation, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Fuhs Family Foundation and the members of KQED.

#deeplook #planaria #flatworm

Support Deep Look on Patreon! https://www.patreon.com/deeplook

A baby hairworm hitches a ride inside a cricket, feasting on its fat until the coiled-up parasite is ready to burst out. Then it hijacks the cricket's mind and compels it to head to water for a gruesome little swim.

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK is an ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Explore big scientific mysteries by going incredibly small.

If you’re out on a hike and look down at a puddle, you might spot a long, brown spaghetti-shaped creature whipping around madly in a figure 8.

It’s a hairworm – also known as a horsehair worm or Gordian worm – and researchers have described 350 species around the world. Good news: It isn’t interested in infecting or attacking humans. But if you had happened on the puddle a few hours earlier, you might have witnessed a gruesome spectacle – the hairworm wriggling out of a cricket’s body, pushing its way out like the baby monster in the movie “Alien.”

How a hairworm ends up in a puddle, or another water source such as a stream, hot tub or a pet’s water dish, is a complex story. A young hairworm finds its way into a cricket or similar insect like a beetle or grasshopper, and once it’s grown into an adult, the parasite takes over its host’s brain to hitch a ride to the water.

As a result of the infection, crickets stop growing and reproducing. Male crickets infected by hairworms even lose their chirp, said Ben Hanelt, a biologist at the University of New Mexico who studies hairworms.

--- What *is* a hair worm?
A hair worm or hairworm – pick your spelling – is a nematomorph. Nematomorpha are a group of parasites. They’re long, thin worms that can grow to be several meters long inside their host.

--- Can humans be infected by hair worms?
There are reports of humans and cats and dogs being infected by hair worms, but hair worms aren’t after us or our pets because they can’t grow inside us, said Hanelt. They can only grow inside a host like a cricket or a related insect.

“What happens is that a dog, a cat, a human will ingest an adult (hair worm) somehow,” said Hanelt. “Could a cricket crawl in your sandwich before you take a bite? I don’t know. None of the studies that are out there talk about that. What they have been reported to do is to cause in many people intestinal distress.”

--- How do hair worms control crickets’ minds?
Scientists don’t understand the precise mechanism yet, but they believe that hairworms either boost chemicals in the crickets’ brains or pump chemicals into their brains.

---+ Read the entire article on KQED Science:
https://www.kqed.org/science/1....937775/these-hairwor

---+ For more information:

Hairworm Biodiversity Survey: http://www.nematomorpha.net

---+ More great Deep Look episodes:

Jerusalem Crickets Only Date Drummers
https://www.youtube.com/watch?v=mHbwC-AIyTE

How Mosquitoes Use Six Needles to Suck Your Blood
https://www.youtube.com/watch?v=rD8SmacBUcU

Identical Snowflakes? Scientist Ruins Winter For Everyone
https://www.youtube.com/watch?v=Gojddrb70N8

---+ Follow KQED Science:

Instagram: https://www.instagram.com/kqedscience/
Twitter: https://www.twitter.com/kqedscience
KQED Science on kqed.org: http://www.kqed.org/science
Facebook Watch: https://www.facebook.com/DeepLookPBS/
Patreon: https://www.patreon.com/deeplook

---+ Shoutout!
?Congratulations ? to Sushant Mendon who won our GIF CHALLENGE over at the Deep Look Community Tab: https://www.youtube.com/user/K....QEDDeepLook/communit

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios. Deep Look is a project of KQED Science, which is also supported by the National Science Foundation, the Templeton Religion Trust, the Templeton World Charity Foundation, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Fuhs Family Foundation and the members of KQED. #deeplook #hairworms #wildlife

It's not vanity. For cats, staying clean is a matter of life and death. And their tongue, specially equipped for the job, is just one of the things that makes cats such successful predators.

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe. Explore big scientific mysteries by going incredibly small.

* NEW VIDEOS EVERY OTHER TUESDAY! *

Even after thousands of years sharing our homes, cats still remain mysterious. For one thing, they spend an inordinate amount of time grooming themselves, up to half of their waking hours.

But all of that primping isn’t about vanity. For ambush predators like cats, staying clean is a matter of life and death.

In this episode of Deep Look we get up close and personal with these fastidious felines. By looking closely at cat tongues, research at MIT and Georgia Tech reveals clues to cats’ predatory prowess and finds inspiration for new technologies.

--- Why do cat’s tongues feel like sandpaper?
Cats’ tongues are covered in little spines called “papillae” that look like tiny hooks. Cats use their tongues to groom and the spines do a great job of detangling knots.

--- Why do cats spend so much time grooming?
Cat’s spend much of their day cleaning themselves- up to half of their waking hours! Cats are ambush predators and they need to stay clean in order to remain hidden from their prey. Prey species tend to be on the lookout for danger, and one whiff of the wrong odor can give the cat away.

--- Why do cats drink with their tongues?
Like most other mammals that are predators, cats have wide mouths to help them sink their teeth deep into their prey. The large opening on the sides of their mouth helps them get a better bite, but it makes it hard for them to create suction in order to drink. Instead they use their tongue to draw water up from the surface into a column. They then bite the column to get the water. They usually lap about four times per second.

---+ Read the entire article on KQED Science:
https://ww2.kqed.org/science/2....017/02/28/why-does-y

---+ For more information:
How Cats Lap: Water Uptake by Felis catus
http://science.sciencemag.org/....content/330/6008/123

---+ More Great Deep Look episodes:

If Your Hands Could Smell, You’d Be an Octopus | Deep Look
https://www.youtube.com/watch?v=XXMxihOh8ps

Archerfish Says..."I Spit in Your Face!" | Deep Look
https://www.youtube.com/watch?v=gN81dtxilhE

Roly Polies Came From the Sea to Conquer the Earth | Deep Look
https://www.youtube.com/watch?v=sj8pFX9SOXE


---+ See some great videos and documentaries from the PBS Digital Studios!

Pigeon Story: How the Rock Dove Became the Sky Rat | It’s OK to be Smart
https://www.youtube.com/watch?v=L8Y7Q1eja-E

Everything is Trying to Kill You
https://www.youtube.com/watch?v=LB8SqTwT93E

---+ Follow KQED Science:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is also supported by HopeLab, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Smart Family Foundation and the members of KQED.
#deeplook

Pill bugs. Doodle bugs. Potato bugs. Wood Shrimp. Whatever you call them, there’s something less creepy about these critters than other insects. Maybe it’s because they’re not insects at all.

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe. Explore big scientific mysteries by going incredibly small.

* NEW VIDEOS EVERY OTHER TUESDAY! *

With winter rains, Bay Area pill bugs are out in force. Fortunately, they’re one of our most beloved “bugs.” Pill bugs. Doodle bugs. Potato bugs. Wood Shrimp. Whatever you call them, there’s something less creepy about these critters than other insects. Maybe it’s because they’re not insects at all.

Pill bugs are more closely related to a shrimp and lobsters than crickets or butterflies. Their ancestors lived in the sea, but ancient pill bugs crawled out millions of years ago to carve a life for themselves on dry land.

You can see the evidence if you take a close look at them, so that’s exactly what we did for this episode of Deep Look, an ultra-high definition wildlife video series produced by KQED and PBS DIgital Studios.

“Kids love them,” said Jonathan Wright, a professor of biology at Pomona College who studies the charismatic creepy-crawlies. After all, who hasn’t delighted as a youth in annoying a pill bug until it defensively curls up into a little armored ball?

Some adventurous foragers even eat pill bugs. Their flavor is said to resemble other crustaceans, earning pill bugs the moniker “wood shrimp”.

“I personally haven’t tasted one,” said Wright, “but I’ve spoken to people that have. They didn’t get a particularly high approval rating. Pill bugs have a lot of soil in their gut.”

They may not be ready to replace shrimp as an appetizer, but according to Wright, the evidence of the pill bug’s evolutionary lineage lies underneath its shell.

--- What are pill bugs related to?

Pill bugs are terrestrial crustaceans. They’re more closely related to marine creatures like lobsters and shrimp than crickets or other insects.

--- If pill bugs have gills, can they survive underwater?

Most pill bugs will drown within a few hours if submerged because their pleopod gills have become better at removing oxygen from air and less good at removing oxygen from water

--- Why do pill bugs roll into a ball?

Pill bugs roll into a ball to protect themselves from potential predators. They will also roll up, a process called conglobation, to keep from drying out if they don’t have access to enough moisture.

--- What do pill bugs eat?

Pill bugs mostly eat decaying plant matter but also consume fungus, algae and lichens.

---+ Read the entire article on KQED Science:

https://ww2.kqed.org/science/2....017/01/17/roly-polie

---+ For more information:

Respiratory physiology of the Oniscidea: Aerobic capacity and the significance of pleopodal lungs. Jonathan C. Wright and Kevin Ting


---+ More Great Deep Look episodes:

The Double-Crossing Ants to Whom Friendship Means Nothing
https://www.youtube.com/watch?v=fguo3HvWjb0

The Snail-Smashing, Fish-Spearing, Eye-Popping Mantis Shrimp
https://www.youtube.com/watch?v=Lm1ChtK9QDU

These Termites Turn Your House into a Palace of Poop
https://www.youtube.com/watch?v=DYPQ1Tjp0ew&t=83s

---+ See some great videos and documentaries from the PBS Digital Studios!

A Venus Flytrap Works Just Like Your Brain | Brain Craft
https://www.youtube.com/watch?v=s0prAxQTuAA

What are antibubbles? | Physics Girl
https://www.youtube.com/watch?v=w5UMyck8D64

---+ Follow KQED Science:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is also supported by HopeLab, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Smart Family Foundation and the members of KQED.
#deeplook #pillbug #isopod

We've all heard that each and every snowflake is unique. But in a lab in sunny southern California, a physicist has learned to control the way snowflakes grow. Can he really make twins?

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe. Explore big scientific mysteries by going incredibly small.

* NEW VIDEOS EVERY OTHER TUESDAY! *

California's historic drought is finally over thanks largely to a relentless parade of powerful storms that have brought the Sierra Nevada snowpack to the highest level in six years, and guaranteed skiing into June. All that snow spurs an age-old question -- is every snowflake really unique?

“It’s one of these questions that’s been around forever,” said Ken Libbrecht, a professor of physics at the California Institute of Technology in Pasadena. “I think we all learn it in elementary school, the old saying that no two snowflakes are alike.”

--- How do snowflakes form?
Snow crystals form when humid air is cooled to the point that molecules of water vapor start sticking to each other. In the clouds, crystals usually start forming around a tiny microscopic dust particle, but if the water vapor gets cooled quickly enough the crystals can form spontaneously out of water molecules alone. Over time, more water molecules stick to the crystal until it gets heavy enough to fall.

--- Why do snowflakes have six arms?
Each water molecule is each made out of one oxygen atom and two hydrogen atoms. As vapor, the water molecules bounce around slamming into each other. As the vapor cools, the hydrogen atom of one molecule forms a bond with the oxygen of another water molecule. This is called a hydrogen bond. These bonds make the water molecules stick together in the shape of a hexagonal ring. As the crystal grows, more molecules join fitting within that same repeating pattern called a crystal array. The crystal keeps the hexagonal symmetry as it grows.

--- Is every snowflake unique?
Snowflakes develop into different shapes depending on the humidity and temperature conditions they experience at different times during their growth. In nature, snowflakes don’t travel together. Instead, each takes it’s own path through the clouds experiencing different conditions at different times. Since each crystal takes a different path, they each turn out slightly differently. Growing snow crystals in laboratory is a whole other story.

---+ Read the entire article on KQED Science:
https://ww2.kqed.org/science/2....017/04/11/identical-

---+ For more information:

Ken Libbrecht’s online guide to snowflakes, snow crystals and other ice phenomena.
http://snowcrystals.com/

---+ More Great Deep Look episodes:
Can A Thousand Tiny Swarming Robots Outsmart Nature? | Deep Look
https://www.youtube.com/watch?v=dDsmbwOrHJs
What Gives the Morpho Butterfly Its Magnificent Blue? | Deep Look
https://www.youtube.com/watch?v=29Ts7CsJDpg&list=PLdKlciEDdCQDxBs0SZgTMqhszst1jqZhp&index=48
The Amazing Life of Sand | Deep Look
https://www.youtube.com/watch?v=VkrQ9QuKprE&list=PLdKlciEDdCQDxBs0SZgTMqhszst1jqZhp&index=51
The Hidden Perils of Permafrost | Deep Look
https://www.youtube.com/watch?v=wxABO84gol8

---+ See some great videos and documentaries from the PBS Digital Studios!
The Science of Snowflakes | It’s OK to be Smart
https://www.youtube.com/watch?v=fUot7XSX8uA
An Infinite Number of Words for Snow | PBS Idea Channel
https://www.youtube.com/watch?v=CX6i2M4AoZw
Is an Ice Age Coming? | Space Time | PBS Digital Studios
https://www.youtube.com/watch?v=ztninkgZ0ws

---+ Follow KQED Science:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is also supported by HopeLab, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Smart Family Foundation and the members of KQED.
#deeplook

Ants don’t eat leaves. They use them to grow white tufts of nutritious fungus to feed their offspring. Their success as farmers has made leafcutter ants into fungus tycoons, complete with their own underground cities and huge half-inch soldiers to patrol them.

DEEP LOOK: a new ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe and meet extraordinary new friends. Explore big scientific mysteries by going incredibly small.

What do ants eat?

Though leafcutter ants drink the sap in leaves for energy, they don’t eat them. Instead, they use them to grow something else. Leafcutters use leaf pieces to feed a fungus that grows in white tufts in their nests. The ants eat the fungus and feed it to their brood.

How old are ants?

To give you an idea, while humans have farmed for around 12,000 years, ants have been doing it for 60 million.

How many ants are there in the world?

If you bundled together all the ants in the world, there would be more of them than people – they’re the dominant biomass, says Brian Fisher, chair of the Department of Entomology at the California Academy of Sciences, in San Francisco. This is because all 30,000 species of ants are social. They have many ways of making a living.

How strong are ants?

Leafcutter ants haul leaf pieces through fields or forests to their underground nests. For a human, this feat would be the equivalent of carrying more than 600 pounds between our teeth.

Why are ants important to the soil?

The activity of ants aerates the soil, making it easier for water and oxygen to get through. They also contribute organic matter.

More great Deep Look episodes:

What Happens When You Put a Hummingbird in a Wind Tunnel?
https://www.youtube.com/watch?v=JyqY64ovjfY

Newt Sex: Buff Males! Writhing Females! Cannibalism!
https://www.youtube.com/watch?v=5m37QR_4XNY

Pygmy Seahorses: Masters of Camouflage
https://www.youtube.com/watch?v=Q3CtGoqz3ww

See also another great video from the PBS Digital Studios!

It's Okay to Be Smart: What's The Most Successful Species on Earth?
https://www.youtube.com/watch?v=fWc46NCnldo

And this one is also a favorite:

How to get Ants to carry a sign - Smarter Every Day 92
https://www.youtube.com/watch?v=-ZZzcw9ifDQ

Read an extended article on how leafcutter ants grow a fungus from leaf pieces:

http://ww2.kqed.org/science/20....15/06/11/where-are-t

If you’re in the San Francisco Bay Area, you can see live leafcutters at the Oakland Zoo or the California Academy of Sciences, in San Francisco.

http://www.oaklandzoo.org
http://www.calacademy.org

The compact book “The Leafcutter Ants: Civilization by Instinct,” by Bert Hölldobler and Edward O. Wilson, has detailed black and white drawings, photos and a fascinating description of the mating habits of leafcutter ant queens. The queen accumulates all the sperm she’ll need for her entire reproductive life during a single mating frenzy. After that, males are no longer necessary: Leafcutter colonies are made up entirely of female ants.

KQED Science: http://ww2.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is supported by HopeLab, The David B. Gold Foundation; S. D. Bechtel, Jr. Foundation; The Dirk and Charlene Kabcenell Foundation; The Vadasz Family Foundation; Smart Family Foundation and the members of KQED.
#deeplook

Humans aren’t the only creatures that get frustrated. Squirrels do too. One researcher wants to know, could there be an evolutionary benefit to losing your cool?

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DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe and meet extraordinary new friends. Explore big scientific mysteries by going incredibly small.

* NEW VIDEOS EVERY OTHER TUESDAY! *

YouTube viewers are well-acquainted with the squirrel genre: Thousands of videos that show squirrels going to great lengths to extract seeds from bird feeders (https://www.youtube.com/watch?v=FgDa_cpgHWs), or the old favorite, squirrels stuffing their cheeks (https://www.youtube.com/watch?v=_15UrPHkVQo).

Maybe squirrels are so popular because we see some of ourselves in them. This is part of what fueled Mikel Delgado’s interest in the fox squirrels she saw at the University of California, Berkeley. An animal behaviorist and doctoral student there, she likes to quote from Charles Darwin’s book “The Descent of Man, and Selection in Relation to Sex,” in which the English naturalist proposed that the differences between humans and other animals aren’t that clear-cut.

“It was controversial because people thought animals were machines and didn’t feel pain,” she said.

Inspired by Darwin, Delgado was intrigued by squirrels’ emotional worlds. The way to tell what they’re feeling, researchers have found, is to watch their tails. When threatened by a predator like a dog, a fox squirrel whips its tail in an s-shaped pattern that researchers call “flagging.”

Delgado wondered what else she could learn from watching squirrels flag their tails. For instance, do they get frustrated, the way that people do? So she devised an experiment to explore this question.

She taught some of the fox squirrels on campus to lift the lid of a plastic box to find a walnut inside. When the squirrel ate the nut, she dropped another one in. This way, she trained the squirrels to expect a walnut when they looked inside. This training was important because frustration is usually defined as not getting what you expect.

Then she replaced the walnut with corn – which squirrels don’t like as much – or left the box empty. These squirrels flagged their tails. For a third group, she locked the box. They flagged their tails the most. They got aggressive, a hallmark of frustration. And they bit, toppled and dragged the box, trying to open it.

That makes Delgado think that perhaps frustration has an evolutionary purpose, that it isn’t just for blowing off steam, but is instead a way to gather up energy to “brute-force” a solution.

--+ Is frustration an emotion?

“It’s a little bit controversial,” said Delgado. “It depends on who you talk to.”

Researchers don’t consider frustration one of the basic, or universal, emotions. In the 1960s, psychologist Paul Ekman identified six universal emotions: joy, anger, sadness, surprise, fear and disgust:

https://www.youtube.com/watch?v=-PFqzYoKkCc

Frustration is related to anger, but researchers don’t consider frustration a basic emotion. “There’s a question as to what exactly it is,” said Delgado. “Sometimes you see it described very specifically as a task: For example, when you expect a soda and you don’t get it from the vending machine. And sometimes you see it described as the response to the task.”

---+ Read the entire article on KQED Science:
https://ww2.kqed.org/science/2....016/09/20/watch-thes

---+ For more information:

The lab of Lucia Jacobs, where Mikel Delgado does her research: http://jacobs.berkeley.edu/

---+ More Great Deep Look episodes:

Can a New “Vaccine” Stem the Frog Apocalypse?
https://www.youtube.com/watch?v=-IXVcyCZVBg

These Crazy Cute Turtles Want Their Lake Back
https://www.youtube.com/watch?v=YTYFdpNpkMY

---+ See some great videos and documentaries from PBS Digital Studios!

BrainCraft: The Power of Sadness in Inside Out
https://www.youtube.com/watch?v=ST97BGCi3-w

PBS Idea Channel: 3 Fallacies For Election Season!
https://www.youtube.com/watch?v=REp4zCum3XY

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is also supported by HopeLab, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Smart Family Foundation and the members of KQED.
#deeplook #squirrel #squirrelbehavior

Peregrine falcons catch other birds mid-flight by diving at more than 200 mph. To do it, they need some high-precision gear: special eyesight, talons and aerodynamics that can't be beat.

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt
Please support us on Patreon! https://www.patreon.com/deeplook

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Explore big scientific mysteries by going incredibly small.

---

While known for being the world’s fastest bird–peregrines have been clocked at diving more than 200 miles per hour–these majestic birds were at risk for going extinct 50 years ago. Widespread use of pesticides such as DDT decimated native populations of peregrine falcons.

By 1970, California’s peregrine population had dwindled to only two known nesting pairs statewide. The federal government banned DDT in 1972. And successful restoration efforts spearheaded by organizations like The Peregrine Fund helped revive their numbers. By 1999, they were removed from the federal Endangered Species List. Recent surveys estimate that there are now 300 to 350 nesting pairs in California and more than 2400 pairs nationwide.

---+ Read the entire article on KQED Science:

https://www.kqed.org/science/1....944037/peregrine-fal

--- What’s the origin of the Peregrine Falcon's name?
Peregrine is Latin for "Peregrinus," which means “traveler” or “pilgrim.”

--- How many eyelids do raptors, or birds or prey, like peregrine falcons have?

They have three! Two eyelids are used for closing their eyes, while the third is used for blinking. It’s also called the nictitating membrane and helps to protect their eyes and keep them moist and clean. It’s semi-transparent, so they can actually still see through it when it’s closed.

--- Did you know they have a special bone to protect their eyes?

It’s called a sclerotic ring and helps support and secure their eyeballs within their skulls.

---+ For more information:
Visit The Peregrine Fund
https://www.peregrinefund.org/

---+ More Great Deep Look episodes:

Things With Wings: https://youtu.be/a68fIQzaDBY

---+ Shoutout!

---+ ?Congratulations ?to the following fans for coming up with the best emoji or ASCII tributes to this fine feathered bird in our community tab challenge:

Sandcastle •
ɐɯɹɐʞ ɐıuɐɯ
lieutenant giwaffe
Sectumsempra, b****!
Sweetle pie.3.

Go look at all the entries here!

https://www.youtube.com/channe....l/UC-3SbfTPJsL8fJAPK

---+ Thank you to our Top Patreon Supporters ($10+ per month)!

Allen, Aurora Mitchell, Beckie, Ben Espey, Bill Cass, Breanna Tarnawsky, Carl, Chris B Emrick, Chris Murphy, Cindy McGill, Companion Cube, Cory, Daisuke Goto, Daisy Trevino , Daniel Voisine, Daniel Weinstein, David Deshpande, Dean Skoglund, Edwin Rivas, Elizabeth Ann Ditz, Geidi Rodriguez, Gerardo Alfaro, Ivan Alexander, Jane Orbuch, JanetFromAnotherPlanet, Jason Buberel, Jeanne Sommer, Joao Ascensao, johanna reis, Johnnyonnyful, Joshua Murallon Robertson, Justin Bull, Kallie Moore, Karen Reynolds, Katherine Schick, Kendall Rasmussen, Kenia Villegas, Kristell Esquivel, KW, Kyle Fisher, Laurel Przybylski, Leonhardt Wille, Levi Cai, Louis O'Neill, Michael Mieczkowski, Michele Wong, monoirre, Nathan Padilla, Nathan Wright, Nicolette Ray, NoahCXXIII, Pamela Parker, PM Daeley, Ricardo Martinez, riceeater, Richard Shalumov, Rick Wong, Robert Amling, Robert Warner, Sayantan Dasgupta, Shelley Pearson Cranshaw, Shirley Washburn, Sonia Tanlimco, SueEllen McCann, Supernovabetty, Tea Torvinen, TierZoo, Titania Juang, Two Box Fish, WhatzGames, Willy Nursalim


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---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios. Deep Look is a project of KQED Science, which is also supported by the National Science Foundation, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Fuhs Family Foundation, Campaign 21 and the members of KQED.

#peregrinefalcon #bird #deeplook

Dragonflies might rule the skies, but their babies grow up underwater in a larva-eat-larva world. Luckily for them, they have a killer lip that snatches prey, Alien-style, at lightning speed.

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK: a new ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe and meet extraordinary new friends. Explore big scientific mysteries by going incredibly small.

* NEW VIDEOS EVERY OTHER TUESDAY! *

If adult dragonflies are known to be precise hunters, capable of turning on a dime and using their almost-360-degree vision to nab mosquitoes and flies in midair, their dragon-looking babies are even more fearsome.

Dragonflies and damselflies lay their eggs in water. After they hatch, their larvae, also known as nymphs, spend months or years underwater growing wings on their backs.

Without those versatile four wings that adults use to chase down prey, nymphs rely on a mouthpart they shoot out. It’s like a long, hinged arm that they keep folded under their head and it’s eerily similar to the snapping tongue-like protuberance the alien shoots out at Ripley in the sci-fi movie Aliens.

A nymph’s eyesight is almost as precise as an adult dragonfly’s and when they spot something they want to eat, they extrude this mouthpart, called a labium, to engulf, grab, or impale their next meal and draw it back to their mouth. Only dragonfly and damselfly nymphs have this special mouthpart.

“It’s like a built-in spear gun,” said Kathy Biggs, the author of guides to the dragonflies of California and the greater Southwest.

With their labium, nymphs can catch mosquito larvae, worms and even small fish and tadpoles.

“It’s obviously an adaptation to be a predator underwater, where it’s not easy to trap things,” said Dennis Paulson, a dragonfly biologist retired from the University of Puget Sound.

Also known among biologists as a “killer lip,” the labium comes in two versions. There’s the spork-shaped labium that scoops up prey, and a flat one with a pair of pincers on the end that can grab or impale aquatic insects.

-- How many years have dragonflies been around?

Dragonflies have been around for 320 million years, said Ed Jarzembowski, who studies fossil dragonflies at the Nanjing Institute of Geology and Paleontology. That means they were here before the dinosaurs.

-- How big did dragonflies used to be?

Prehistoric dragonflies had a wingspan of 0.7 meters (almost 28 inches). That’s the wingspan of a small hawk today.

---+ Read the entire article on KQED Science:

https://ww2.kqed.org/science/2....017/09/12/a-baby-dra

---+ For more information:

This web site, run by Kathy and David Biggs, has photos and descriptions of California dragonflies and damselflies and information on building a pond to attract the insects to your backyard: http://bigsnest.members.sonic.net/Pond/dragons/

The book "A Dazzle of Dragonflies," by Forrest Mitchell and James Lasswell, has good information on dragonfly nymphs.

---+ More great Deep Look episodes:

Why Is The Very Hungry Caterpillar So Dang Hungry?
https://www.youtube.com/watch?v=el_lPd2oFV4

This Mushroom Starts Killing You Before You Even Realize It
https://www.youtube.com/watch?v=bl9aCH2QaQY&t=57s

Daddy Longlegs Risk Life ... and Especially Limb ... to Survive
https://www.youtube.com/watch?v=tjDmH8zhp6o

This Is Why Water Striders Make Terrible Lifeguards
https://www.youtube.com/watch?v=E2unnSK7WTE

---+ See some great videos and documentaries from PBS Digital Studios!

PBS Eons: The Biggest Thing That Ever Flew
https://www.youtube.com/watch?v=scAp-fncp64

PBS Infinite Series: A Breakthrough in Higher Dimensional Spheres
https://www.youtube.com/watch?v=ciM6wigZK0w

---+ Follow KQED Science:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

---+ About KQED

KQED, an NPR and PBS affiliate based in San Francisco, serves the people of Northern California and beyond with a public-supported alternative to commercial media. Home to one of the most listened-to public radio stations in the nation, one of the highest-rated public television services and an award-winning education program, KQED is also a leader and innovator in interactive media and technology, taking people of all ages on journeys of exploration – exposing them to new people, places and ideas.

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is supported by HopeLab, The David B. Gold Foundation; S. D. Bechtel, Jr. Foundation; The Dirk and Charlene Kabcenell Foundation; The Vadasz Family Foundation; Smart Family Foundation and the members of KQED.
#deeplook #dragonflies #dragonflynymph

Earwigs are equipped with some pretty imposing pincers on their rear, and they're not afraid to use them. But when it comes to these appendages, size isn't everything.

You can learn more about CuriosityStream at https://curiositystream.com/deeplook.
SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Explore big scientific mysteries by going incredibly small.

Many animals seem to show a preference for symmetry in a potential mate. It can be a clue that the mate has the genes necessary to develop properly and thrive in an environment full of stresses and dangers.

But in some critters buck the trend. Like the earwig, a diminutive insect found on every continent except Antarctica.

Andrew ZInk, an associate professor of biology at San Francisco State University, has been looking at how symmetry affects earwigs success when it comes to social interactions.

He’s studying maritime earwigs, a larger and more powerful cousin to the common European earwig you might find in your backyard. Both creatures bear fearsome looking pincers on their backsides. And they aren’t afraid to use them to defend themselves. Zink knows all about that.

--- Do earwigs climb into your ear?
The quick answer is no. Earwigs are not interested in climbing into your ear to lay their eggs or otherwise. They’re no more likely than any other bug to accidentally find its way into you ear. The name earwig come from the old english words for ear and insect. It may have been named after the shape of the common European earwig’s wings, which when extended resemble a human ear.

--- Do earwigs pinch people?
Earwigs will use their pincers to defend themselves, but the pinch is typically not strong enough to be considered dangerous.

--- Do earwigs fly?
Male common European earwigs have wings and can fly to disperse and find mates. Females do not have wings or fly. Neither male nor female maritime earwigs have wings or fly.

--- What do earwigs eat?
Most earwigs are scavengers and omnivores. In addition to scavenging and eating plants, the common European earwigs also hunts small prey like aphids. Maritime earwigs are carnivorous hunting smaller arthropods like sand hoppers.

---+ Read the entire article on KQED Science:

https://ww2.kqed.org/science/2....018/06/26/what-do-ea

---+ For more information:

Biologists probe asymmetric warfare between earwigs
https://news.sfsu.edu/biologis....ts-probe-asymmetric-

Asymmetric Forceps Increase Fighting Success among Males of Similar size in the Maritime Earwig
https://onlinelibrary.wiley.co....m/doi/abs/10.1111/j.

Sexual selection by the seashore: the roles of body size and weaponry in mate choice and competition in the maritime earwig (Anisolabis maritima)
http://viyengar.clasit.org/wp-....content/uploads/2017

---+ More Great Deep Look episodes:

Watch These Cunning Snails Stab and Swallow Fish Whole | Deep Look
https://www.youtube.com/watch?v=jYMjLgPFSso

This Is Why Water Striders Make Terrible Lifeguards | Deep Look
https://www.youtube.com/watch?v=E2unnSK7WTE&t=19s

Take Two Leeches and Call Me in the Morning | Deep Look
https://www.youtube.com/watch?v=O-0SFWPLaII


---+ See some great videos and documentaries from PBS Digital Studios!

What the World’s Cutest Animal Can Teach Us About Saving Ourselves | Hot Mess
https://www.youtube.com/watch?v=IF8ym4g2SCU

The Deadpool Salamander | It's Okay To Be Smart
https://www.youtube.com/watch?v=uGutfyDOmu0

Why Do We Eat Artificial Flavors? | Origin Of Everything
https://www.youtube.com/watch?v=iNaJ31EV13U

---+ Follow KQED Science:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios. Deep Look is a project of KQED Science, which is supported by the Templeton Religion Trust and the Templeton World Charity Foundation, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Fuhs Family Foundation Fund and the members of KQED.
#deeplook #earwig #pincers

You may think that you've got the house to yourself, but chances are you have about 100 different types of animals living with you. Many of them are harmless, but a few can be dangerous in ways you wouldn't expect. New research explores exactly whom you share your home with and how they got there.

SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK: a new ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Get a new perspective on our place in the universe and meet extraordinary new friends. Explore big scientific mysteries by going incredibly small.

---+ About Dust Mites

With the warming weather it’s the season for spring cleaning. But before you reach for the broom and mop, take a moment to look at who else is sharing your home with you. The number of uninvited guests you find in your dustpan may surprise you.

A recent study published in the journal PeerJ took up the challenge of cataloging the large numbers of tiny animals that live in human dwellings. The researchers found that the average home contains roughly 100 different species of arthropods, including familiar types like flies, spiders and ants, but also some kinds that are less well known like gall wasps and book lice. And no matter how much human residents may clean, there will always be a considerable number of mini-roommates.

“Even as entomologists we were really surprised. We live in our houses all the time, so we thought we’d be more familiar with the kind of things we’d come across. There was a surprising level of biodiversity,” said Michelle Trautwein, assistant curator of entomology at the California Academy of Sciences in San Francisco.

---+ What are dust mites?

Dust mites are tiny animals, related to spiders, that are usually too small to be seen with the naked eye. They feed on dead skin that humans shed every day and their droppings may cause allergic reactions and may aggravate asthma, especially in children.

---+ How do you minimize dust mites?

It’s practically impossible to completely rid a home of dust mites, but frequent cleaning and removing carpeting can help. Wet cleaning like mopping helps keep from stirring up dust while cleaning. The most effective way to keep dust mite populations down is to keep the indoor humidity level low. Dust mites can only survive in humid environments.

---+ How do you see dust mites?

Dust mites are about .2mm long. You can see dust mites with a powerful magnifying glass, but you can get a better view by using a microscope.

Read the entire article on KQED Science:
http://ww2.kqed.org/science/20....16/04/05/meet-the-du


---+ More great DEEP LOOK episodes:

The Bombardier Beetle And Its Crazy Chemical Cannon
http://ww2.kqed.org/science/20....16/04/05/meet-the-du

Where Are the Ants Carrying All Those Leaves?
https://www.youtube.com/watch?v=-6oKJ5FGk24

Banana Slugs: Secret of the Slime
https://www.youtube.com/watch?v=mHvCQSGanJg

--- Super videos from the PBS Digital Studios Network!

It's Okay To Be Smart: How Do Bees Make Honey?
https://youtu.be/nZlEjDLJCmg

Gross Science: What's Living On Your Contact Lenses?
https://www.youtube.com/watch?v=wRMKzsU9zec

Gross Science: You Have Mites Living On Your Face
https://www.youtube.com/watch?v=oMmCWx8vySs

--- More content from KQED Science, Northern California's PBS and NPR affiliate:

KQED Science: http://www.kqed.org/science
Tumblr: http://kqedscience.tumblr.com
Twitter: https://www.twitter.com/kqedscience

Funding for Deep Look is provided in part by PBS Digital Studios and the John S. and James L. Knight Foundation. Deep Look is a project of KQED Science, which is also supported by HopeLab, the David B. Gold Foundation, the S. D. Bechtel, Jr. Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, the Smart Family Foundation and the members of KQED.
#deeplook

Kangaroo rats use their exceptional hearing and powerful hind legs to jump clear of rattlesnakes — or even deliver a stunning kick in the face.

Please join our community on Patreon! https://www.patreon.com/deeplook
SUBSCRIBE to Deep Look! http://goo.gl/8NwXqt

DEEP LOOK is a ultra-HD (4K) short video series created by KQED San Francisco and presented by PBS Digital Studios. See the unseen at the very edge of our visible world. Explore big scientific mysteries by going incredibly small.

---

As they forage, kangaroo rats need to continually scan the surrounding sandy environment for any predators – foxes, owls, and snakes – that could be anywhere. Once a well-camouflaged sidewinder rattlesnake strikes, aiming its venomous fangs at the furry seed-harvester, the kangaroo rat springs up, and away from the snake’s deadly bite, kicking its powerful hind legs at the snake’s face, and using its long tail to twist itself in mid-air away from the snake to safety.

Kangaroo have the uncanny ability to jump high at just the right moment. Biologists believe that this most likely comes from its keen hearing, which is 90 times more sensitive than human ears, allowing the rats to react in as little as 50 milliseconds.

In addition to their finely-tuned ears, the desert kangaroo rats’ highly-evolved musculature generates lots of force very quickly, resulting in jumps almost ten times their body height.

Muscles in kangaroo rats have a thick tendon, surrounded by large muscles, which translates directly to more power and a faster reaction time. With its powerful hind limbs, the kangaroo rat is also able to deliver a “black belt” kick to the jaw of the rattlesnake, sending the rattlesnake soaring to the ground, before landing away from the snake.

---+ Read the entire article on KQED Science:

https://www.kqed.org/science/1....957226/kangaroo-rats

--- Can a kangaroo rat survive without water in the desert?

The body of the kangaroo rat has evolved to be especially adapted to their harsh dry desert environments, so they are able to get all of their water from seeds they eat.

--- How high can a kangaroo rat jump?

Some kangaroo rats are able to jump as high as 9 feet, or approximately 10 times their body height.

--- Are kangaroo rats endangered?

There are 20 existing species of kangaroo rats. Six of these species are considered threatened. The two species featured in our episode, the Merriam’s kangaroo rat (Dipodomys merriami) and desert kangaroo rat (Dipodomys deserti) are not endangered, and relatively common in the desert areas they are found.

---+ For more amazing slow motion videos of kangaroo rats and rattlesnakes, visit our friends at: https://www.ninjarat.org/

---+ Shoutout!

?Congratulations ?to these fans on our YouTube community tab who identified the special parts in a kangaroo rats' skull that make their hearing so exceptional... the tympanic or auditory bullae:

Lights, Camera, Ants
Rohit Kumar Reddy Reddy
Eric Fung
Hotaru
otakuman706

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---+ About KQED

KQED, an NPR and PBS affiliate in San Francisco, CA, serves Northern California and beyond with a public-supported alternative to commercial TV, Radio and web media.

Funding for Deep Look is provided in part by PBS Digital Studios. Deep Look is a project of KQED Science, the largest science and environment reporting unit in California. KQED Science is supported by The National Science Foundation, the Dirk and Charlene Kabcenell Foundation, the Vadasz Family Foundation, the Gordon and Betty Moore Foundation, Campaign 21 and the members of KQED.

#kangaroorat #rattlesnake #deeplook

This is it! We're going out with a singing, dancing look at the Broadway Book Musical. Oklahoma! On the Town! Annie Get Your Gun! Also, just Annie! Today you'll learn about the development of the Broadway Book Musical in the late 19th and early 20th centuries, and get a sense of how the form developed through the Golden Age of Broadway.

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Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance in favor of fair use

Somos una comunidad especializada en rescatar material del recuerdo.

Puedes disfrutar nuestros contenidos en:
Nuestra Web: http://www.generacionretro.net
Nuestro Twitter: https://twitter.com/gretrocool
Nuestro Facebook: http://www.facebook.com/generacionretro.latino/

Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance in favor of fair use