These tiny, pudgy animals are no longer than one millimeter. Tardigrades, which live in water or in the film of water on plants like lichen or moss, can be found all over the world in some of the most extreme environments, from icy mountains and polar regions to the balmy equator and the depths of the sea.
They have eight legs with claws at the end, a brain and central nervous system, and something sucker-like called a pharynx behind their mouth that can pierce food.
And they could outlive us by 10 billion years, according to a recent study
from Oxford University.
It's because they would be largely unaffected by things that could potentially spell doom for Earth and human life in the future, like asteroids, supernovae or gamma ray bursts. As long as the world's oceans don't boil away, tardigrades will live on.
But even if tardigrades have to go without water, it isn't a sacrifice. They've been through worse and come back to life. And no matter what inquiring scientists put them through in the name of science, tardigrade life finds a way.
"In recent years humans have been pretty mean to them: drying them out slowly and quickly, freezing them solid, autoclaving them, exposing them to the vacuum of space and cosmic rays, irradiating them," said Mark Blaxter, professor at the University of Edinburgh's Institute of Evolutionary Biology. "I am sure someone has put them under extreme pressure, maybe even tried really bad music at high volumes, or biting insults.
"When they are dry, they are not really alive. If 'life' is defined as there being biochemistry going on, then a dried up tardigrade is 'not alive,' as without water there is no biochemistry."
The difference is, tardigrades can be revived, come back to life and reproduce after being frozen for 30 years -- and humans can't. Japanese scientists did this in 2016 by defrosting and soaking moss containing tardigrades in water.
But it's a misconception that tardigrades can come back to life after longer amounts of time.
"Usually people had heard of some ancient moss in a herbarium being accidentally soaked one day and tardigrades crawling out [after 100 years]," Blaxter said. "I have searched for the origin of this story, and am sorry to say it seems to be a scientific myth.
"We have some Ramazzottius we keep dried up in Edinburgh and check each year: We are now at year four, and last month we got hundreds of wriggling tardigrades coming back to life in half a gram of the dried-up algae."
Where tardigrades fit in
Blaxter and his fellow researchers used new genomes of tardigrade DNA to better understand where they may fall on the tree of life. Because they are so small, tardigrades haven't exactly left behind any fossils to help secure where they belong.
They have been considered to be most closely related to arthropods like insects and spiders because tardigrades have four pairs of legs. But they are also similar to nematodes like roundworms. All three are linked by the fact that they moult, or shed their skin several times during their lives.
Nematodes and tardigrades are similar because they're missing the same thing -- certain genes that other animals need to survive. Nose-to-tail animals, including everything from flies to humans, have HOX genes that help coordinate their formation, Blaxter said. Insects have 10 different kinds of them. Nematodes and tardigrades have only five.
But even DNA can be deceptive, and only time and more research will tell if Blaxter and his fellow researchers are right about the relationship between nematodes and tardigrades, which is why they want to further refine this in the future.
The researchers were intrigued by something else -- how tardigrades withstand the loss of water, the environment they live in. Most animals have genes that help their bodies respond to stress by carrying away certain cells. Tardigrades and nematodes don't have them. After all, tardigrades don't need to be losing cells when they're under duress, like drying out.
Instead, tardigrades turn on certain genes to replace the water loss in their cells with proteins that essentially preserve their structure until water is returned. Other proteins appear to protect DNA from damage, like the kind they would sustain from radiation.
But not all tardigrades are the same. There are nearly a thousand species of them, and they adapt to survive in different ways.