If you have ever watched the ants in an ant farm, you have probably noticed ants sitting around seemingly doing nothing. This leads to the question: are the ants sleeping?
Whether or not social insects sleep is a question that has gotten some definitive work in the bees. In fact, there are bees that are affectionately called “sleeper bees” for their behavior of resting on plants in clusters over night.
For example, these long-horned bees of the tribe Eucerini (named for the long antennae present on males), are often seen resting in clusters on plant stems. Other bees and even wasps have been known to “sleep” over night in flowers.
Recently, Klein et al. conducted an experiment on sleep in honey bees. They showed that depriving worker honey bees of sleep during the night, using a magnetic device, actually effects their ability to perform waggle dances the next day. Discover Magazine has an article with a brief video of sleepy bees dancing, shown here (with a sponsor ad at the end).
What about ants? Do ants sleep?
Many myrmecologists have noticed that a certain portion of ants in laboratory colonies spend a lot of time doing nothing. Blaine Cole (1986) reported that workers of the ant Leptothorax allardycei spent up to 55% of their time resting, which he called quiescent. Nigel Franks’ group writes that Leptothorax acervorum workers in the nest are inactive for 72% of the time and and foragers 15% of the time (Franks et al. 1990) and that Temnothorax albipennis workers are inactive about the same percentage of time in small colonies (44%) as in large colonies (46%) (Dornhous et. al. 2009).
None of these scientists have actually gone as far as to say these ants are sleeping though.
Deby Cassill in 2009 broke with tradition and calls certain periods of rest in ants “sleep.” Working with fire ants, she videotaped ants in an artificial nest. She created an artificial colony with three queens, 30 workers and 30 larvae. Checking the posture and position of the antennae, she concluded that queens sleep 90 times per day for 6 minutes per nap, whereas workers dosed 250 times per day for roughly one minute at a time. You can see a video of the set-up at the BBC Earth News.
Cassill even went as far as to label Rapid Antennal Movements (RAM) as the invertebrate equivalent to Rapid Eye Movement (REM) sleep in vertebrates. Her conclusion: yes, ants sleep.
Are we ready to agree?
1. What do you think about the studies that observe ants spend a lot of time doing nothing?
My thoughts: One thing that is immediately apparent in contrasting the honey bee studies with the ant experiments is that an artificial honey bee hive is much more “natural” than a laboratory ant nest. In a demonstration hive the bees usually have access to outside foraging, they have comb, they are going about their business as usual.The ants, on the other hand, have no soil to move, no myrmecophiles to interact with, no predators, no opportunity to move brood to optimal locations, etc. etc. It seems evident that greatly reducing the number of available tasks at hand limits the conclusions that can be made about the behaviors observed.
2. Can ants, or even insects, sleep?
My thoughts: Seems like a reasonable idea, especially looking at the honey bee study.
3. What do you think of the “power nap” finding with fire ants?
My thoughts: Having spent some time filming ants, I know that they are sensitive to vibrations we humans do not even notice, such as the laboratory incubators coming on and off in the room next door. I don’t have a copy of the paper yet. Does anyone know whether Cassill placed her artificial nests in such a way to minimize artificial disturbances, for example, placed them on vibration dampening pads? If not, it seems possible that something was disturbing those ants to keep them awake more often than usual.
What do you think?
Barrett A. Klein, Arno Klein, Margaret K. Wray, Ulrich G. Mueller, and Thomas D. Seeley. 2010. Sleep deprivation impairs precision of waggle dance signaling in honey bees. Proceedings of the National Academy of Sciences (PNAS). 107 (52): 22705-22709.
Deby L. Cassill, Skye Brown, Devon Swick and George Yanev. (2009), Polyphasic wake/sleep episodes in the fire ant, Solenopsis invicta.Journal of Insect Behavior. 22 (4): 313-323.
Cole B. (1986). The social behavior of Leptothorax allardycei (Hymenoptera,
Formicidae): time budgets and the evolution of worker reproduction. Behav Ecol Sociobiol. 18:165–173.
Anna Dornhaus, Jo-Anne Holley and Nigel R. Franks. (2009). Larger colonies do not have more specialized workers in the ant Temnothorax albipennis. Behavioral Ecology. 20 (5): 922-929. (full text available online free)
Nigel R. Franks, Steve Bryant, Richard Griffiths and Lia Hemerik. (1990). Synchronization of the behaviour within nests of the ant Leptothorax acervorum (fabricius)—I. Discovering the phenomenon and its relation to the level of starvation. Bulletin of Mathematical Biology. 52( 5): 597-612.
I got a question from another entomologist this week: Do fire ants tend aphids?
At first this seemed straightforward enough. Sure they do. It’s mentioned in the literature (see below). Although I couldn’t recall ever seeing our local Solenopsis xyloni tending aphids, we don’t get all that many aphids here.
Delving a bit deeper, I decided to see if I could find an image of fire ants tending aphids. Our local Arizona Cooperative Extension did me proud, in their article A Fire Ant Smorgasboard.
Except, of course, I’m pretty sure those aren’t fire ants. Aren’t they acrobat ants (Crematogaster)?
Well, at least they aren’t the only ones to mistake another ant for fire ants. Over at 6Legs2Many she has a whole post full of “Things that are not fire ants.” Too fun.
On a more serious note, I suspect because fire ants have underground foraging tunnels, they may “tend” to specialize on root-feeding homoptera.
Thomas Rossiter Barnum (2008) Recruitment to and defense of aphids by fire ants and native ants and an estimate of their trophis positions using stable isotopes. M.S. Thesis, Auburn University.
Ian Kaplan and Micky D. Eubanks. (2005). Aphids alter the community-wide impact of fire ants. Ecology, 86(6): 1640–1649
You have probably heard all about the relationship of ants and peony flower buds.
Peonies (Paeonia sp.)are small perennial shrubs that produce large, lovely flowers in the spring. The flower buds produce nectar via extrafloral nectaries, which attract ants. The ants chase off potential herbivores until the buds open. A simple story, yet an entire garden mythology has grown up around it. You can do an Internet search for “peony ants” and find a wealth of funny, and at times sad, myths.
But there may be another piece of the story that is rarely mentioned.
Do you know what this plant structure is? (Quit looking at the ant :-))
Since I already mentioned peonies, you can probably guess it is the fruit of a peony. Inside each of those three “pods” are rows of seeds completing development.
As this is not a bud, what is an ant doing there? Take a look at the next few photographs and see what you think.
Do you see the fly?
Has anyone seen this before? Do you know if the extrafloral nectaries are still active? Are ants just poor botanists?
If you want to find out more, try:
B L Bentley. (1977). Extrafloral Nectaries and Protection by Pugnacious Bodyguards. Annual Review of Ecology and Systematics, Vol. 8: 407 -427.