REAL Science Odyssey Life Science/Biology

Ideas and Activities for REAL Science Odyssey Life Science and Biology
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Anatomy Crafts for Kids
Learning about Human Anatomy provides children with ample opportunity to get hands-on in the classroom. Children of all ages enjoy learning about their bodies and the amazing intricacies that make them work. The design of mankind is such a beautiful reflection of our creator and provides us with insight into the inner-workings of life down …
Paramecium Parlor Comics
Scary campfire stories for DNA #LifeScience
Blogger
It Began In Camp 4: Media Resources for RSO Life Science Level 1
What is blood made of?
What is blood made of: A hands-on science demonstration http://www.icanteachmychild.com/2014/06/what-is-blood-made-of/
Fabulous Food Chains: Crash Course Kids #7.1
Crash Course Kids: Fabulous Food Chains! #LifeScience
Four Fossil Sharks That Are Cooler Than Megalodon
Four Fossil Sharks That Are Cooler Than Megalodon
Vimeo AI-Powered Video Platform
An INCREDIBLE video showing photosynthesis at the molecular level. Wow!
Gardening: 25 Kids Activities
Gardening 25 Kids Activities via Lessons Learnt Journal http://lessonslearntjournal.com/gardening-25-kids-activities/ #LifeScience
How Mendel's pea plants helped us understand genetics - Hortensia Jiménez Díaz
Let's take a closer look at what we have in common:
2.1M views · 8.9K reactions | Run, Octopus, Run! | Octopuses crawl, swim, squeeze, jet... but have you ever seen an octopus run before? #CephalopodWeek | By Science Friday | [MUSIC PLAYING] SPEAKER 1: They can crawl. They can squeeze and hide. They can even use jet propulsion. And just when you think that octopuses couldn't get any more versatile, they up and walk away. [MUSIC PLAYING] And while it's utterly absurd to look at, once we stop laughing, maybe we should ask why would one of the most agile creatures in the ocean choose to scamper. Backwards. That momentous question captured the attention of Dr. Chrissy Huffard, a Senior Researcher at the Monterey Bay Research Institute, whose graduate studies at UC Berkeley focused on cephalopod behavior. DR. CHRISSY HUFFARD: Generally, I try to understand how octopuses survive in their everyday lives, avoid being eaten, find mates, and find prey. SPEAKER 1: Documenting the survival strategies of octopuses isn't easy. You've got to be willing to spend a lot of time on remote tropical beaches. DR. CHRISSY HUFFARD: My job is a lot of fun. I wake up at dawn every morning, get in the water, and get out for a brief snack at low tide, and then get back in until sunset. SPEAKER 1: It's hard work, but somebody's got to do it. DR. CHRISSY HUFFARD: Unlike other octopus studies that had been done, I was actually able to follow individuals all day long on snorkel. SPEAKER 1: Particularly, the cryptic algae octopus. DR. CHRISSY HUFFARD: The algae octopus tends to come out during times of day and tides, and in certain habitats that mean they tend to clump in the wild. And there are lots of individuals that use the same area and prefer that same area. So they're bumping into each other, mating, fighting, competing for similar resources. And I could watch this happen in real time and pretending I wasn't there. SPEAKER 1: Although on occasions, her subjects realized they were being observed. DR. CHRISSY HUFFARD: I am assuming that they considered me a predator in those cases. Octopus's main defense is not to be seen in the first place. That's their best chance of not being eaten. SPEAKER 1: And if all else fails, they can just jet away. SPEAKER 1: And in that shape, camouflage isn't even a possibility. SPEAKER 1: It was in one of these defensive moments that Dr. Huffard witnessed an entirely novel attempted escape. DR. CHRISSY HUFFARD: I was working with a film crew for a documentary series called the Shape of Life. It was easy to get them to act defensively when you're chasing them with a camera, and we got footage of the coconut octopus walking on two arms. Oh, it was hysterical to see. We laughed and our masks filled up a little bit with water. Then later I saw the behavior in the algae octopus. We again laughed at how hysterical it looked, but also we understood the biomechanic significance of it. Octopuses have very strong arms even though they don't have bones. They have three bands of muscles that oppose against each other. And the volume of those muscles and their arms stays constant as it changes shape. That's called a hydrostatic skeleton. That allows them to use the internal pressure of their arms for support. SPEAKER 1: But just because an octopus is physiologically capable of walking backwards, doesn't make it the best form of escape. Or does it? DR. CHRISSY HUFFARD: When octopuses jet to escape a predator, there's so much internal pressure that's built up inside of their mantle cavity, or inside of their body sac, that it actually stops their hearts briefly. SPEAKER 1: Going into cardiac arrest while swimming away in a panic, probably isn't ideal. DR. CHRISSY HUFFARD: Walking backward allows them to use two of their arms for locomotion and six of their arms for camouflage or to otherwise make their shape seem unrecognizable. SPEAKER 1: And while only a few species thus far have been documented fleeing on foot or rather arms, Dr. Huffard believes that this escape plan isn't a difficult trick to pull off. DR. CHRISSY HUFFARD: Just the way we don't have to stop and think move left leg, move right leg, it's a type of motion called feed forward movement, where it's almost automatic once it gets going. And I think it was part of their normal locomotion repertoire of how they can move around. SPEAKER 1: Yet another method for these skittish invertebrates to show off having no backbone. For Science Friday, I'm Luke Groskin.
Octopuses crawl, swim, squeeze, jet... but have you ever seen an octopus run before?
Eight (or More) Reasons to be Amazed by the Octopus
Take a look at its outlook on life. #‎CephalopodWeek
Colorful Cephalopods: Science Today | biology | Our kind of "hypnotizing light show"—behold the biology of cephalopods' color-shifts: calacade.my/1PyTlUU. | By California Academy of Sciences | Facebook
Our kind of "hypnotizing light show"—behold the biology of cephalopods' color-shifts: www.youtube.com/watch?v=BuqMxA7CCks.