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Homology Weekly: Clypeus

Friday, May 22nd, 2009 | Ants, Comparative Anatomy, Homology Weekly, Morphology
<i>Tetraponera aethiops</i> worker showing the location of the clypeus in green (Scanning Electron Micrograph, Roberto Keller/AMNH)

Tetraponera aethiops worker showing the location of the clypeus in green (Scanning Electron Micrograph, Roberto Keller/AMNH)

When looking at an arthropod from our vertebrate perspective it is easy to forget that we are looking right at the animal’s skeleton. While our own vertebrate skeleton consists of a series of internal compact pieces with sponge-like cores that support an external layer of muscles and entrails (all nicely wrapped in skin), the reverse is true for arthropods. The arthropod skeleton consists of a series of external plates and hollow tubes that form enclosed spaces within which the internal musculature system attaches1. One consequence of this peculiar body architecture is that most of what we see on the outer surface of this exoskeleton is but a reflection of what is going on on the inside– minute external pits correspond to places where the cuticle folds in to form internal pillars, and innocent looking shallow furrows on the surface are large internal walls where powerful muscles originate. A simple examination of the exoskeleton, therefore, can tell us a lot about particular functions and consequently about an insect’s behavior.

The clypeus (in green) on the turtle ant <i>Procryptocerus</i>, with a characteristic brush on its anterior border (Scanning Electron Micrograph, Roberto Keller/AMNH).

The clypeus (in green) on the turtle ant Procryptocerus, with a characteristic brush on its anterior border (Scanning Electron Micrograph, Roberto Keller/AMNH).

A good example of this is provided by the clypeus in ants and its wide diversity of forms across the different species in the family. The clypeus corresponds to an unpaired skeletal plate lying right at the center of an insect face. It is normally located lower in the head just in front to where the antennae are inserted, but in many ant groups it quite commonly extends in between the antennal sockets. The anterior border of the clypeus is involved in two important articulations relating to the movement of the mouthparts. The central part forms a wide hinge with the mouth’s “lid” or labrum, allowing the latter to move forward and backwards to open and close the preoral cavity where the intricate ant tongue is stored when retracted (the actual opening of the mouth lies internally at the back-end of this preoral cavity). The sides of the clypeal border, on the other hand, form deep cavities where the anterior condyle of each mandible articulate.

Those articulations occur externally. But what is going on the inside of the clypeus? The inner surface on the clypeus provides attachment to a set of muscles that originate right at the anterodorsal section of a special elastic chamber located just before the mouth known as cibarium. When these muscles contract the cibarium expands producing a suction action. It is basically the sucking pump of the insect, and the bigger the clypeus the bigger the pump muscles and the larger the sucking force. You may have probably noticed the big goofy snout in cicadas; well it is nothing but the hypertrophied clypeus attesting to the large sucking pump of these dedicated suckers. Ants never reach such extremes, but the clypeus can be quite large in some groups.

Clypeus (in green) on a <i>Onychomyrmex doddi</i> worker. Species in this genus display a convergent army ant like behavior (Scanning Electron Micrograph, Roberto Keller/AMNH)

Clypeus (in green) on a Onychomyrmex doddi worker. Species in this genus display a convergent army ant like behavior (Scanning Electron Micrograph, Roberto Keller/AMNH)

In clades of chiefly predatory ants, like amblyoponines, the clypeus is never large and has become rather reduced in the more specialized genera like Apomyrma and Onychomyrmex. The same pattern occurs more or less among ponerines.

The large clypeus (in green) on a <i>Formica fusca</i> worker (Scanning Electron Micrograph, Roberto Keller/AMNH).

The large clypeus (in green) on a Formica fusca worker (left antenna removed. Scanning Electron Micrograph, Roberto Keller/AMNH).

Oh, but formicines and dolichoderines, those ants are such big suckers. Those are the ants you will most commonly see wandering between flowers looking for nectar and tending aphids for honeydew (that is, they suck ass big time2). Myrmecines ants have large clypeus in general, and it is not surprising to see a correlation between tending other insects and having a well developed clypeus in genera like Crematogaster.

The clypeus (in green, maybe) in a Neotropical army ant <i>Labidus coecus</i> worker (is there, I swear. Scanning Electron Micrograph, Roberto Keller/AMNH)

The clypeus (in green, maybe) in a Neotropical army ant Labidus coecus worker (the clypeus is there, I swear. Left antenna removed. Scanning Electron Micrograph, Roberto Keller/AMNH)

Now army ants, the ultimate specialized predators of the insect world, they are not suckers at all. All clades can be easily characterized by having almost no clypeus, so that the antennal sockets seem to fall off their heads forward.

The swollen clypeus (in green) on an <i>Acanthoponera minor</i> worker (Scanning Electron Micrograph, Roberto Keller/AMNH)

The swollen clypeus (in green) on an Acanthoponera minor worker (left antenna removed. Scanning Electron Micrograph, Roberto Keller/AMNH)

One genus that intriges me is Acanthoponera. Species in this genus have a very large and swollen clypeus for what you will expect given the group’s phylogenetic position in between other major clades of ants. I don’t think much is known about the biology of this genus other than it is a nocturnal ant. But I bet you this ant is sucking around something.

Notes

  1. The only enclosed cavity  formed by the skeleton in vertebrates is the cranium, but there are no muscles inside it. ↩
  2. Sorry, just couldn’t resist. ↩
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Tags: Acanthoponera, Cibarium, Clypeus, Exoskeleton, Formica fusca, Labrum, Onychomyrmex, Tetraponera aethiops

6 Comments to Homology Weekly: Clypeus

1
Ants on the Internet « Myrmecos Blog
May 25, 2009

[…] Roberto Keller explains the clypeus. […]

2
Citing blogs on scientific papers | Archetype
May 27, 2009

[…] R. A. (2009) Homology Weekly: Clypeus. [Weblog.] Archetype. May 22. (http://blog-rkp.kellerperez.com/2009/05/homology-weekly-clypeus/). May 27 […]

3
Mike from Ottawa
June 11, 2009

“minute external pits correspond to places where the cuticle folds in to form internal pillars, and innocent looking shallow furrows on the surface are large internal walls where powerful muscles originate”

I’d been vaguely aware that surface features reflected internal musculature, from my interest in trilobites, but the way that is put gives it a concretely visual sense I hadn’t had before. Are there any pics around that show the external and internal aspects of the same piece of exoskeleton?

4
Mike from Ottawa
June 11, 2009

Oh, and I meant to also mention that visual sense of the internal form is my ‘Wow’ moment of the week.

5
Roberto Keller
June 12, 2009

Mike – Thank you for the comments. I don’t have at hand images showing both the external and internal aspect of a skeletal feature, but I’ll make a post about these pits and try to complement with illustrations.

As to how to visualize what’s going on internally one only needs to think about the exoskeleton in terms of support rather than armor, as it is natural to do when looking at an arthropod. Support comes first, protection is only secondary.

6
Homology Weekly: Tentorial Pits | Archetype
June 22, 2009

[…] through them? Are they use for breeding? The answer is more mundane than that. As I mentioned in an earlier post, most of what one sees in the outer surface of the arthropod’s exoskeleton does not have an […]

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