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Science

Move over, Paul Rudd these microscopic videos are more vivid than the latest Marvel movie

These award-winning videos take us deep into the heart of the microscopic, opening a door to a world to which we are seldom privy.

From tardigrades to cells, scientists help us see an invisible world

The image is filled with red and blue colours, with round water droplets.
Droplets of dew are seen on a butterfly's wing under a microscope at 5x magnification. A time-lapse video of the droplets evaporating came in second place in Nikon's Small World in Motion Competition. (Jay McClellan)

It's not every day we get to see the tiny worldthat exists beyond our vision, but that's what the Nikon Small World in Motion competition is all about.

This is the 14th year of the competition, where past winners revealed extraordinary insights intothings like thestomach contents of a termite, human cells fusing and dying during a COVID-19 infection and dying melanoma cells. The videos do not have to be taken with a Nikon product.

This year, the competition drew more than 300 videos from roughly 40 countries.

This year's winners seemed to have upped the antefor the competition. Here are the top five.

5th place: A baby tardigrade riding a nematode

In this fifth-place video, Quinten Geldhof from Winthrop, Mass., captured a tardigrade riding the back of a nematode, a type of microscopic worm.

Fifth-place winner of Small World in Motion

9 days ago
Duration 0:16
A baby tardigrade riding a nematode.

Tardigrades, sometimes referred to as "water bears," are incredible organisms.

They measure roughly one millimetre in length andhave four pairs of legs, each of which contain four to eight pairs of claws. They can be found around the world in almost any type of environment. In fact, they are considered to be one of the most resilient species around, surviving without oxygen,water, in boiling alcohol, low pressure, high pressureand many more environments. They've even survived the harsh radiation of space.

Under dry conditions, they will curl up into a ball called a tun, with their metabolism slowing to less than 0.01 per cent of normal.

Interestingly, nematodes and tardigrades have been known to eat one another. It's unclear who hadthe advantage in this micro rodeo.

4th place: Friction transition in a microtubule-based active liquid crystal (say what?)

That title is a bit of a head-scratcher to anyone who's not a biologist.

Microtubulesare major components of the cytoskeleton,a system of filaments or fibres that make up eukaryoticcells, which are found in animals,fungus, plants and protists (single-celled organisms).

Ignasi Vlez Ceron, Francesc Sagus and Jordi Igns-Mullofrom the University of Barcelona captured this video, which shows these microtubules moved by something called kinesin motors. These motors essentially help tell proteins where to go in cells. Because the material has both order and activity, it is considered an active liquid crystal, hence the name of this video.

Fourth-place winner of Small World in Motion

9 days ago
Duration 0:09
Friction transition in a microtubule-based active liquid crystal.

The movement almost seems artistic, but what we're seeing is the change in textures produced by friction within the system. Because of this friction, the material is constricted, and we watch as the microtubules adapt and reorganize.

3rd place: An oligodendrocyte precursor cell in the spinal cord of a zebrafish

Let's be honest: "oligodendrocyte precursor" is a mouthful, and also what the heck is it?

Canadian Samantha Yammine, also known as Science Sam, is a trained biologist, neuroscientist and science communicator. She also served as one of the six judges in the competition.

Third-place winner of Small World in Motion

9 days ago
Duration 0:13
An oligodendrocyte precursor cell in the spinal cord of a zebrafish.

That mouthful is a type of cell, she explains.

"Essentially, if you think of the nerves in our bodies, they're kind of like wires. And then if you look at your charger for your laptop, or even the wire on your headphones, it's surrounded in rubber to protect the wires," she said. "Our nerves also have that. They're surrounded with a fatty substance called an oligodendrocyte, and that just helps the nerves to conduct signals more efficiently."

Dr. Jiaxing Li from Portland, Ore., captured this at 20x magnification in the spinal cord of a zebrafish.

2nd place: Water droplets evaporating from the wing scales of a peacock butterfly

Admittedly, this looks like an AI-generated video. But it's not.

Second-place winner Jay McClellan of Saranac, Mich., has made many of these videos before using an extensive set-up. He's also taken microscopic videos of other butterflies.

Second-place winner of Small World in Motion

9 days ago
Duration 0:25
Water droplets evaporating from the wing scales of a peacock butterfly (Aglais io).

McClellan has been fascinated with the microscopic since he was a boy. The retired electrical engineer and software developer useshis skills to turn what he sees under a microscope into art.

In order to capture the amazing process of evaporation, he mounted the wing of a specimen on an aluminum card so that he could hold it down and move it around.

"It's about 300 individual images for each finished frame of the final video," McClellan told CBC News. "Soeach frame that you see is actually a stack of 300 raw images, each with a tiny sliver in focus."

Over the years he's collected a lot of data engaging inthis amazing hobby.

"Some of my videos that I've made use many terabytes of raw footage," he said. "I have a server with 128 terabytes of hard disk space, and it's full."

1st place:Mitotic waves in the embryo of a fruit fly

In this video by Bruno Vellutini from the Max Planck Institute of Molecular Cell Biology and Genetics in Dresden, Germany, we see mitosis, or cell division, taking place in a fruit fly embryo.

"All the little dots, those are different cells, and you're getting divisions of the genetic material so that you can make lots of copies and build the entire blueprint of the embryo," Yammine said.

"In fruit flies, you're having them going all at once, which is why it's so cool. They're completely synchronous. So you can see all of them are like, boom, boom, boom. And that's happening about every eight minutes, which is really fast, and why this is such an exciting organism to study."

First-place winner of Small World in Motion

9 days ago
Duration 0:31
Mitotic waves in the embryo of a fruit fly (Drosophila melanogaster).

Vellutini is a zoologist with a background in evolutionary and developmental biology, whoseresearch aims at better understanding how embryos develop from a single cell. Whathe's captured in his video is alsolinked to processes that can go wrong, which can lead to the development of cancer and other diseases, mainly if the process is disrupted.

"Fruit fly embryos are in our homes, developing in our kitchens and our trash bins ...undergoing the same processes as shown in the video," he said in a statement."I believe the video is particularly impactful because it shows us how these fascinating cellular and tissue dynamics are happening every day, all around us even in the most mundane living beings."

Yamminesaidthis competition is a perfect merger of art and science.

"Art and science are inseparable. They go hand in hand," she said. "It's through science and art where you are inspired to stop and pause and think about how even the smallest thing around you that you're not even noticing is filled with things to be curious and awed [about]."

You can find the winners and honourable mentions online at Nikon's Small World in Motion Competition.

Corrections

  • A previous version of this story included a photo caption that stated the video was taken at 20x magnification. In fact, it was 5x.
    Sep 18, 2024 11:25 AM ET

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