Brittle Stars Have TEETH! What do they use them for?

Brittle stars are everywhere. They are the most speciose of all the living echinoderms with over 2000 species (probably MUCH more than that!).

At this moment in time, for studying brittle stars we live in a privileged time because we have several new workers who have taken to studying the various and weird lives of brittle stars!

One distinctive feature of brittle stars that researchers that study morphology have always known about are the unusual jaws present on the mouth of brittle stars. These jaws vary between individual groups of  brittle stars. Its one of the fundamental ways that brittle star taxonomists tell them apart.

These jaws are superficially similar to the ones we see in other animals in that some of them have "teeth" (called oral papillae) and other features which distinguish them.

But other than their usefulness in telling them apart, what function do these "teeth" serve?

A recent open access paper by Karin Boos, an author at the 7th European Echinoderm Conference held in 2010 (available here) addresses and discusses how the jaws might function relative to the feeding biology of two European brittle star species.

First off, Boos reviewed the feeding modes of two species with fairly distinct jaws and teeth.

One of the studied organisms, Ophiothrix fragilis is covered with many needle-like and bristling spines...
Images below by Hsacdirk


In life, they hold their arms up into the water and are almost always observed in this position in order to obtain food from water currents. Ophiothrix is a filter feeder.

They gather up food on their arms, which is then moved to the mouth via tube feet.


The other species studied was Ophiura albida which is more of a generalist. A sort of opportunistic feeder. Sometimes scavenging on dead animals but sometimes feeding on other smaller animals.

Each species has a different life mode and presumably the morphology, i.e., the teeth of each species reflects how each individual species lives.

Image by Danielguip

A brittle star from a completely different group (ie. family) and with a very different set of choppers! Here is Boos' Figure 1 which shows the two "teeth" types side by side. Ophiothrix on the left vs. Ophiura on the right.

Figure 1 from Boos 2013

1. Predator? Or generalist? type jaw/teeth in Ophiura.
Boos takes some pretty nice profile images (her Figure 2) of the papillae (=the "teeth") that allow her to infer some function.

top of pic is the oral surface, bottom is top or aboral. Fig. 2d-3

Boos argued that these teeth are in fact "predaceous (=predatory) dental equipment". Note how all of the "teeth" (=the papillae) were pointy. These, Boos argues, are used in gripping or spearing captured prey before ingestion.

It doesn't take much to take this consideration seriously. Here is some classic video from Neptune Canada showing what looks like Ophiura sp. fighting it out with another individual over some food.


and don't forget this blog about "brittlestars of death" as we saw Ophiura sarsii attacking mobile prey! (vertebrates even!)

Other related members also have jaws/teeth that sort of look like this. Maybe more of these are more predatory than we thought?

2. Ophiothrix-Sharp teeth! 

Ophiothrix (and related genera of brittle stars) occur widely in temperate AND especially in tropical waters. They can be quite striking and colorful..

Image by Arthur Anker

thanks to Wild Singapore!

Feeding in Ophiothrix is nicely shown in this video. Food caught on the spines, is moved by tube feet along the arm to the mouth, where the food ball, called a bolus is devoured.

Ophiothrix and indeed ALL members of the Ophiothricidae are well-known in the taxonomic literature for having these unusually striking types of teeth.

Here's a close up!  Usually with a very comb-like appearance... MANY papillae (ie teeth) on each "jaw"

From imaging these teeth in profile, Boos notes that the "teeth" are arrowhead shaped and pretty sharp but also pretty wide.

Boos states that this combination of "sharp" and "wide" serves to cut up and crush the bolus of food as it enters the mouth. Boos argues that the teeth would also be effective for devouring diatoms and/or grabbing parts of or complete  invertebrates in addition to big chunks of scavenged flesh.

And onwards? 
There are LOTS more brittle stars where that came from...  As I had indicated earlier, the "jaws" and "teeth" have been used heavily to classify and identify brittle stars but none were really good at understanding function...

Boos's efforts are a start. Interpretation of these structures has been surprisingly unseen in the literature. 

This for example, is an ophiacanthid from the Atlantic..

                                  

 Has a jaw similar to that of Ophiothrix....kinda.

And this euryalid ophiuroid (aka a serpent star)

Further data from observations of actual feeding and perhaps even closer observations with x-rays and measurements of brittle star biophysics may give us more insight into how brittle stars feed!

Sea Star/Starfish Close Ups!

Image by Alexander Semenov

Bonjour to everyone! At the moment I am continuing my research in Paris at the Museum national d'Historie naturelle! Here are a bunch of my prior posts about studying at this incredible place!

I'll be blogging more on this shortly but in the meantime, here are some neat close ups of various starfish species!

Solaster endeca (Pacific Northwest/N. Atlantic) click here to see what the animal looks like

Image by Alexander Semenov

Crossaster papposus (Pacific Northwest/N. Atlantic) click here to see what the animal looks like

Image by Alexander Semenov

Plectaster decanus (Australia) Click here to see what the animal looks like

Image by Weedy Seadragon

Gomophia gomophia (Okinawa, Japan) click here to see what this animal looks like

Image by Okinawa Nature Photography

Nardoa sp. from the Indo-Pacific

Image by sbailliez

Echinaster callosus from the Indo-Pacific 

Images by Optical Allusion

The sand star Astropecten aranaciacus (temperate Europe, Mediterranean) click here to see it!
Note the star-shaped pillars are called paxillae. In theory they protect the papulae (aka the gills) from burial)

Image by fabbricmare

From Mediaster aequalis (west coast of N. America) a similar bunch of structures called tabula or tabular plates.. Click here to see it!

From an Australian relative of Mediaster called Nectria ocellata with some enlarged tabulae. It looks like this.

Image by ~aquaplane

 Close up surface texture of the Indo-Pacific Archaster typicus. Learn more about it here!

ANAL CONES! Diadematid sea urchin mysteries!

Echinothrix from Lembeh Strait Photo (above) by Efdixon

Another day when pictures say more than words!  What is an anal cone???

The anal cone is the weird, prominent bulb-shaped bit (its white in the species below) that is sitting on the top of the test (i.e., the body) in sea urchins of the family Diadematidae, which are well-known for their big long sharp spines....

But what function does it serve?? 
The Anal cone seemingly falls into the "poorly understood" category but I did find some explanations..

Ailsa Clark from Echinoderms of the Seychelles (pg. 84)  

Another peculiarity of this family is that there is an elongated anal cone or sac which is commonly inflated like a small balloon in the centre of the upper side. This may gently roll around its attachment and is believed to have a respiratory function".

Hendler et al. (1995) in the book Sea Stars, Sea Urchins, and Allies, Echinoderms of Florida and the Caribbean note in the tropical Atlantic Astropyga magnifica

As in Diadema antillarum, the anal cone enables the animal to eject feces away from the body.

So here's a diversity of anal cones from various diadematid urchins! If they are for ejecting feces then these are some of the most aesthetically pleasing feces ejecting structures that I've seen among animals!

I believe this is Echinothrix from Hawaii

Photo above by JLambus

Astropyga from Sulawasi (photo below by pauldub)



Astropyga from Indonesia

Photo above by PacificKlaus

Another by PacificKlaus. Looks to be Echinothrix? from Okinawa, Japan


Astropyga from Lembeh, Indonesia

Photo above by Christian Loader

Another by Christian Loader. Maybe Echinothrix from Lembeh,

From Echinotrhix calamaris from Papua New Guinea. Photo below by jabaezam

Diadema? from tropical Atlantic

Photo above by marcsdad50

Echinothrix from Sulawasi (photo below by fisheyedave aka David Cropp)

Echinothrix? from Lembeh Strait (Photo by Ruary James Allan)

Here's one from Diadema (the Philippines). Photo below by maxette

Mouth to Mouth! A Close up look at the mouth armor of tropical sea stars!

Photo by Geoff Spiby (the cushion star Halityle)

Today I thought it would be cool to gather up close ups of various starfish and offer a perspective that most folks don't usually see.
Colorful and beautiful. Yes!  But also, functional. A lot of the mouth you see below were photographs of sea stars from the tropical Pacific and Indian Oceans.  The tropics are a tough place for some animals with many crabs and fish always willing to take a peck of tissue or a tube foot for dinner.

A great many of the sea stars in these areas come with protection- a LOT of it. Spines and armor adorn the soft, vulnerable areas of these sea stars. Those spines on the tube foot grooves you see below can actually interlace and close up the grooves to protect the vulnerable tube feet from being pecked at by fish, crustaceans or what-have you...

Here's another shot of Halityle from another angle. Plus you can see the tiny shrimp!

Photo by Shaun-in-Munich

From a "cushion star" probably Halityle.. (note the shrimp!)

Photo by Tanaka Juuyoh

This is from the more common "cushion star" (and why common names are so unhelpful) Cucltia novaeguineae

And another...

Both of the above photos by Nick Hobgood

Here's more Culcita goodness!

Photo by Michael Rys

From Fromia sp. Note how all of the spines interlace and protect the tube foot groove

Photo by Adam Broadbent

From an oreasterid (not sure which)-note how all of the large spines completely block the tube foot grooves and mouth

From an oreasterid(?) or something close to it. Note the very prominent white-colored spade-shaped oral plates that project into the mouth. The whitish furrow spines are thought to close over the tube feet groove under adverse conditions.

Another oreasterid that I'm unsure of the species-probably Pentaceraster. A nice perspective. Notice the tiny Periclemenes commensal shrimp!

Photo by Tahiticed

The colorful underside of what looks like the goniasterid Stellaster aequestris..

Here's a tropical goniasterid that lives in the deep-sea Atlantic-A weird animal called Gilbertaster that I worked on a few years ago.. See all of those elongate "lip" like things?  Bivalve pedicellariae! See here for some more on pedicellariae.

Could these be for further defense?

BUT notice what happens when we look at some starfish species that live in cooler water settings where the predators are a little different.. We see more soft-bodied taxa and different kinds of mouth armaments...

In contrast-here's a cold-water starfish the sun star Solaster

Photo by Melanogaster

Note that in a cold-temperate water starfish such as Asterias you can see a LOT more tube feet and soft tissue exposed and hanging out than in starfish you see in the tropics..