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Tuesday, January 28, 2014

Brittle Star Diversity! How many are there and where do they live?


Happy New Year! I'm slowly getting caught up with life and finally have time for something meaty!

So, first for 2014 an overview on brittle star (aka ophiuroid) diversity! How many? Where do they live? I wrote a parallel post for starfish last year. You can see it here. 

As with the article on starfish, this one is based on a recent PLOS One paper which is freely available for download here It was written by the three TITANS of brittle stars! Sabine Stohr at the Swedish Museum, Tim O'Hara at the Victoria Museum in Melbourne Australia and Ben Thuy at the University of Göttingen, in Göttingen, Germany. The data from their paper is based on the World Ophiuroidea Database. 

So, one quick bit of clarification. This article is about brittle stars aka ophiuroids. NOT starfish. Starfish are a different (albeit closely related) group of echinoderms. I provided a brief overview of how to tell apart brittle stars from starfish here.   Note however, that you'll often hear people refer to them as "brittle starfish" or some such thing. Nope. "brittle stars" is good and fine.

Note also that some common names refer to different KINDS of ophiuroids. "Brittle stars" tends to refer to the more conventional types of ophiuroids, such as the ones here and like those above.
On the other hand,  "basket stars" tend to be highly branched and with lots of fleshy arms. These sometimes also get called "serpent stars" if they have only 5 arms.
So terminology is pretty straight forward. Brittle stars AND Basket stars are BOTH different types of ophiuroids (technically.. members of the Class Ophiuroidea).

1. How many species of brittle stars are there??
Answer: As of the 2013 paper there were 2,064 recognized species of brittle stars known in the world. I know for a fact that there have been many more described since then. So, by the end of 2014, I'm guessing we will see closer to 2,075 or even 2,090 species!

In terms of species, brittle stars are by far the MOST diverse of all the living echinoderms. Sea stars follow up in 2nd place (n=~1900 species), followed by the sea cucumbers (Holothuroidea, n=~1250), then sea urchins and sand dollars (n=~950 species) and finally, the living crinoids (n=~600 species).

This has never been a big surprise to invertebrate zoologists. Brittle stars live EVERYWHERE. Under rocks, in the mud, on corals, under corals.. even ON JELLYFISH.

2. How many different KINDS of brittle stars are there? 
Fig. from Stohr et al. 
A more accurate question might be "How many families of brittle stars are there?" This basically represents how many kinds of basic body plans or GROUPS of brittle stars are there? A smattering of the different kinds of brittle stars is represented above.

Here is the table from Stohr et al's paper...

There are 270 genera in 16 different families. So, there's a fair diversity of body plans within the Ophiuroidea but not as much as say, in starfish (which have 370 genera broken up into 36 families). So the bulk of diversity in brittle stars appears to be at the species level. That sounds consistent with their apparent overall strategy of diversification into whatever habitat or niche seems to make itself available, given how many places on the marine bottoms they can be found. There's a high number of species that avails itself of ecological niches.

But more on that below...

3 Which groups of brittle stars are the most diverse??


The MOST diverse of brittle star families? The Amphiuridae! An example shown above, courtesy of the wonderous Arthur Anker!  As of 2013, there were 467 accepted species.

Amphiurids are burrowers and diggers. They find their way into mud, sand, any kind of loose sediment that they can shelter in and under. Once dug in, they throw their arms up through the sediment and out into the water to "fish" for organic particles and other food..  As shown here...


Although amphiurid brittle stars vary in size, many of them are tiny, tiny little critters that fit easily into cracks, crevices and nooks in rocks or other underwater habitat. They live EVERYWHERE.

And the 2nd place winnah??? The Ophiuridae, with 344 species
Ophiurids truly are diverse. They live in the deep-sea, in the shallow tropics, and in temperate waters. There's a LOT of them and often times they are very abundant, often comprising a HUGE amount of biomass where they are found.

We know a fair amount about them, but considering how MANY of them there are? WE probably don't know enough. For example, we didn't know until the 1990s that Ophiura (below) could display some rather vicious predatory behavior...



3. Where do brittle stars live?

Stohr and colleagues have very nicely mapped out the number of species by different biogeographic zones around the world. Their breakdown as follows:

831 species! HIGHEST diversity is in the tropical Indo-Pacific. 
400 species! North Pacific! The temperate/cold-water band including North America and Asia.
350 species! The South Pacific-the temperate water zones around Australia, New Zealand and etc.
333 species! The West Atlantic.
319 species! The Indian Ocean! Examples of new species from the Indian Ocean? Here. 
237 species! The North Atlantic
199 species! South Africa
183 species! East Pacific
123 species! Antarctic
120 species! South America
  73 species! Arctic

What's MOST interesting about these? When one looks at the species diversity by depth, the MOST diverse areas? the Indo-Pacific, South and North Pacific?  A significant amount, sometimes more than 50% of the diversity of these faunas is from the deep-sea (>200 meters!).

Tim O'Hara has been working on the zonation and patterns in deep-sea ophiuroids for quite awhile. Here is an example of some of his work...

5. How long have brittle stars been around??


Most sensible scientists would agree that ophiuroids and asteroids diverged at some point in the Paleozoic with modern-looking brittle stars appearing sometime in the mid to late Paleozoic, some 440-485 million years ago or so.  So, yes. Brittle stars have a very old lineage as do most echinoderms. Older than dinosaurs and certainly older than humans.

But most "good" fossils of brittle stars are largely observed in Mesozoic rocks. There are actually quite a lot of brittle star fossils out there but many of them were identified using pretty substandard taxonomy by geologists using out of date identification concepts (long story)..
And so, long story short, only now are we actually assessing fossils and looking at their real significance in the history of marine invertebrates.

Author Ben Thuy for example, has been able to take the skeletal elements from living brittle stars and compare them with fossil skeletal elements, discovering the presence of deep-sea faunas in the Cretaceous and in younger rocks..

For people who appreciate brittle stars, we live in good times. We have three active brittle star workers, including that ever so rare beast... a brittle star paleontologist!   And we now even have a new Japanese worker who specializes on basket and serpent stars

How long will it be until that 2,064 hits 3000?

Wednesday, January 22, 2014

Worms & Snails that Live On/In Sea Cucumbers!

There's something about sea cucumbers which seems to make them attractive as hosts for various other animals.
Some sea cucumbers got clams that live in their throat...
The sea cucumber anal region seems to be popular as a place to live as crabs and of course, pearlfish find good homes there..

This week.. More animals that have made sea cucumbers hosts to their lives!!

Worms!
This scale worm above was identified as Gastrolepidia clavigera, living on its host sea cucumber (apparently Bohadschia graeffei). Image by Arne Kuilman.

This one by Theresa Legler, shows another polynoid worm, but it looks like a different genus/species...

Another similar looking polynoid. Image by Kevin Lee.

This one, by Ben Naden,  seems to be taking advantage of the rough skin texture...


Snails! Most of the snails shown here appear to be members of the Eulimidae, which are a diverse group of snails, which has apparently adapted a parasitic lifestyle. Many of them live on echinoderms. I review some of them here.  

Eulimids basically feed on their hosts. They have a proboscis which is inserted into the bodywall and used to suck out precious bodily fluids and other nutrients!

Here's a neat pic by Eunice Khoo showing several embedded in the epidermis.


A different kind of snail, Melanella sp. living on the sea cucumber Thelenota ananais.


Images below by "wj", what looks to be another set of eulimid snails, feeding on the sea cucumber Colochirus.



and let us not forget that eulimid snails (in this case-the genus StilapexALSO inhabit deep-sea sea cucumbers... (from the sea pig post)
(from the New Zealand R/V Tangaroa weekly log, photo cred-Stefano Schiaparelli, NZ IPY-CAML) 
What makes Sea Cucumbers such desirable housing?  While there's no immediately clear data on the topic, it seems to be important that sea cucumbers are all composed of a soft, edible yet durable, tissue. So, maybe a good house that these protects and feeds?

Wednesday, January 15, 2014

Stunning Photos of Marine Invertebrates from Australia

This week I am travelling and distracted.. so here are some gorgeous marine invertebrates from Australia! Pics from "Billunder" on Flickr! (which you can go see for yourself here)
Enjoy!

Blue Pycnogonid! (sea spider)


Another pycnogonid with eggs!


Purple Pycnogonid!


An amazing Ceratosoma nudibranch

and another..

Hydroid! 

A blindingly colorful Asterodiscides ("firebrick star")


The papulae (gills) from the arm of Plectaster decanus aka the "mosaic star"

Tuesday, January 7, 2014

Classic Echinoderm & Starfish Taxonomy Monographs Available Online via the Biodiversity Heritage Library!


I love libraries.

But for some reason, people NEVER know enough about them. Case in point-one of the most amazing but, I think, underutilized resources available for people studying taxonomy and biodiversity: The Biodiversity Heritage Library!    (and note the button for donations!)

What are they?  You can certainly go and read all about them at their Wiki here.   But simply put, they are a massive digital, online archive of OPEN ACCESS (that's the academic word for "free") taxonomic, naturalist and other literature which pre-dates copyright, or is by definition freely available to everyone (such as federal government materials) and has been made available via the Internet to ANYONE who wants it.  

This helps a LOT of people who are looking for VERY old and RARE taxonomic monographs which might ONLY be available from either a handful of Natural History Museum libraries OR a very expensive used book dealer.

For example, let's take the work of starfish taxonomist, Walter K. Fisher former director of Stanford University's Hopkins Marine Station "back in the day" during Ed Ricketts time (circa 1930s)....


He was a GIANT in the taxonomy of starfishes. And published more genera and species of starfish than ANYONE. Not an exaggeration. He published 566 taxonomic names, including 312 species which are still accepted today. These include almost ALL of the deep-sea starfishes from Hawaii, the Philippines, the Celebes and many more in the North Pacific.


Prior to the BHL, these books were vintage. 1906. 1911. 1919. It took me many, an hour scrubbing tanks and hauling boxes to get the 200 bucks it cost me to buy my first copy of Fisher's "Asteroidea of the North Pacific".  Now, thanks to the BHL, you can get it as a freely available download!

But what's the catch? Well, the thing is they kind of did too good a job! There is SO much material available that actually finding the stuff that is useful for certain people requires a bit of navigation and experience. Some monographs are part of other series that weren't distinguished. So herein, I make it easy for the interested starfish taxonomy student....    Here's a bunch of his big monograph/books (click to go):

The North Pacific Asteroidea Monographs
Fisher 1911-Asteroidea of the North Pacific. Pt. 1. Phanerozonia and Spinulosa

Fisher 1928-Asteroidea of the North Pacific. Pt. 2. Forcipulata 

Fisher 1930-Asteroidea of the North Pacific. Pt. 3. Forcipulata (concluded) 

The Starfishes of the Hawaiian Islands. 1906. (I cheated on this one-its from NOAA)

Starfishes of the Philippines. 1919. 

The HMS Discovery Antarctic monograph. 1940. 

Here are a BUNCH more Starfish Taxonomy Monographs as pdf for everyone via the BHL...

1.  Here are the starfish collected by the HMS Challenger!
The Text pt. 1 
and the PLATES
2. Deep-Sea & other Starfish Taxonomy from the Siboga Expedition? What is the Siboga Expedition? This. 



Unforunately, the BHL only scans things in the public domain, so items prior to 1923. This means that the Oreasteridae chapters aren't available (1935, 1936)


4. Edmond Perrier's 1891 Monograph of Cape Horn? You GOT IT. 

5. The classic Starfishes of Japan by Seitaro Goto, 1914. Go here. 

6. Deep-Sea Starfishes from the Tropical East Pacific (Mexico, Baja California, etc.) . Ludwig 1905. Go here. 



Bonus!