They don't have brains, or even anything more than a rudimentary nervous system, but jellyfish apparently do have bedtimes.
New research finds that jellyfish enter a sleep-like state. If the study, published today (Sept. 21) in the journal Current Biology, is confirmed by future studies, jellyfish are the first-ever animals with no central nervous system to have been observed sleeping. That finding could bolster the theory that sleep is an emergent property of neurons — in other words, sleep might be something that nerve cells connected in a network just do, even without complex organization.
"The real novelty of what we've shown is that this animal that is almost as far away, evolutionarily, from humans and higher animals as you can go, also seems to have this conserved behavioral state" of sleep, said study co-author Claire Bedbrook, a doctoral student in bioengineering at the California Institute of Technology. [See Adorable Photos of Animals Sleeping]
Ravi Nath, a Caltech graduate student and a co-author of the new study, typically studies this sleep-like state in C. elegans. He and his lab adviser, Paul Sternberg, wondered if they could find evidence of sleep in even simpler animals. Jellyfish came to mind, Nath told Live Science.
Another Caltech graduate student, Michael Abrams, happened to be cultivating jellyfish in the lab of biologist Lea Goentoro at the same time for an entirely unrelated project. He noticed that one genus, Cassiopea, or the upside-down jellyfish, seemed to become less active at night. Cassiopea spends the vast majority of its time sitting upside down on the ocean or tank floor, pulsing its bell about once a second, Abrams told Live Science. This sedentary behavior makes the upside-down jellyfish an easy animal to track behaviorally.
Cassiopea jellyfish, known as upside-down jellyfish for their preferred position, appear to sleep at night. (Image credit: Caltech)To measure activity, the researchers counted the rate of the bell's pulsation in 23 jellyfish for six straight days and nights. They found that the rate dropped by 32 percent at night, going from about 1,155 pulses per 20 minutes during the day to 781 pulses per 20 minutes at night. When the researchers put a little midnight snack in the water column, the jellies perked up and started pulsing at daytime rates, indicating that this quiescent period was easily reversible.
But were the jellyfish less responsive than usual? To find out, the researchers put the jellyfish into small containers made of PVC pipe with a mesh bottom. They raised the jellies gently up from the bottom of the tank, then rapidly yanked the container downward, leaving the jellyfish suspended in the water.
Cassiopea jellies prefer sitting to swimming, so the suspended jellies pulsed their way down to the tank floor. But they did so much faster during the day, starting to pulse by 2 seconds after losing their resting surface, than they did at night, when it took them about 6 seconds to start pulsing — almost as if they were groggily shaking off sleep before they could react.
Next, the researchers tested whether the sleepy behavior in jellyfish was under homeostatic control. Put more simply, the question was: Would jellies act tired the next day if they were deprived of their quiescence at night? To find out, the researchers blew gentle pulses of water at the jellies for 10 seconds every 20 minutes. They found that when they disturbed the jellyfish this way during the last 6 hours of the night, the jellyfish showed a 12 percent decline in pulsing in the first 4 hours of the next day, as if they were having trouble waking up. When the researchers continued the disturbances all night, the jellyfish were 17 percent less active over the entire next day. After a full night without any disturbances, the jellyfish returned to normal activity levels the following day.
"If this is something that is conserved in what we observe in other invertebrates, vertebrates or humans, then what is the common denominator?" Bedbrook said. "What do they all have in common that could be the reason these animals go through this sleep state?"
The next step, Nath said, might be to use electrodes to track the activity of the jellyfish's neurons during the sleep-like state.
"We'd love to see whether there are other species of jellyfish that also sleep," Bedbrook added. "We would also like to see whether or not sponges, the next level down, sleep." Sponges don't have nervous systems at all, though they do possess some of the rudimentary genes and proteins found in other animals' nervous systems.
Original article on Live Science.