PZ Myers. 2005 Oct 20. Pycnogonid tagmosis and echoes of the Cambrian. <http://pharyngula.org/index/weblog/pycnogonid_tagmosis/>. Accessed 2008 Aug 29.

Posted on M00o93H7pQ09L8X1t49cHY01Z5j4TT91fGfr on Thursday, October 20, 2005

Pycnogonid tagmosis and echoes of the Cambrian

I'm going to introduce you to either a fascinating question or a throbbing headache in evolution, depending on how interested you are in peculiar details of arthropod anatomy (Mrs Tilton may have just perked up, but the rest of you may resume napping). The issue is tagmosis.

The evolutionary foundation for the organization of many animal body plans is segmental—we are made of rings of similar stuff, repeated over and over again along our body length. That's sufficient to make a creature like a tapeworm or a leech (well, almost—leeches have sophisticated specializations), but there are further steps involved in making a fly or a spider or a human. There is an arrangement of positional information along the length of an animal, so one segment can recognize whether it is near the head or the tail, and the acquisition of new patterns of gene expression based on that positional information that cause the development of specialized structures in different segments. That process of specializing segments is called tagmosis. It's how a fly forms mouthparts in head segments, legs and wings in thoracic segments, and no limbs at all in abdominal segments.

The relationships between segments and how they are specialized are key features in identifying patterns of descent in the arthropod clade. An analysis of those elements in an obscure group, the pycnogonids, has uncovered a surprising relationship—they seem to be related to well known Cambrian organism. You'll have to read through to the end to discover what it is.

Tagmosis isn't such a difficult concept so far. Add to the specializations the idea that segments can be reduced and lost (maybe) and more commonly fused with adjacent segments, though, and it starts to get messy when you look at an organism and try to puzzle out what segment is what. You may look at an adult fly's head and see a smooth and relatively seamless dome, but that structure is assembled embryonically from six segments.

I think.

One other property of tagmosis is that analyzing it triggers the most passionate, heated, long-running arguments. I write "six segments", and could say more about the identity of each of those segments, and somewhere there is an arthropod taxonomist and embryologist who will wax wroth and prepare a lightning bolt with which to smite me low. Let me just say outright that I am not an expert in arthropod anatomy, and everything I write here about the details is provisional and subject to correction by real experts. I'm just going to recite the rough pattern as many of us understand it, and I'm sure that anyone with knowledge much deeper than mine will happily enlighten and correct me. Please don't kill me. I have to finish paying my childrens' tuition.

Anyway, the general pattern of segment organization in an insect's head is that the first segment forms something called the acron, the second has the antennae, the third the mouth, the fourth the mandibles, and the fifth the maxillae, and the sixth the labium. Look at the weird tangle of dangly bits in the bottom half of a grasshopper's face for instance, and what you see are highly modified limbs all scrunched together.

That's what insects are like. What about other arthropods? This is where it gets interesting. There are different specializations, different patterns of organization, in different arthropod groups. These differences would be useful cues to sort out their evolutionary histories, since modifications of the head and brain and feeding structures are rather fundamental to the organisms' life styles, if only we were confident of the homologies. Here, for instance, is a table of arthropod segment and appendage identities, taken from Raff's Shape of Life^{(amzn/b&n/abe/pwll)}.

That's Raff's consolidation of observations from several sources, so again, please don't kill me if you favor a different set of homologies. It's an example.

Resolving the homologies here would help us understand how these groups are related to one another. It's a tricky business (especially with all those ferocious taxonomists taking pot-shots at you), but the way to get at the answers is straightforward: hard work. Examining a wide array of organisms. And using new tools to see deeper into the tissues and molecules of these highly modified head segments.

So here's an example of exactly those strategies. It's a study of a rather obscure group of organisms, the pycnogonids or sea spiders. They're an ancient group of bizarre arthropods (here's a photo of a 425 million year old sea spider; it's very fun, a color stereopair. Cross your eyes and see it in 3 dimensions!) that have long been considered a sister group to the chelicerates, which includes spiders and horseshoe crabs and scorpions. They have a thin stalk of a body and long spindly limbs, and on their heads they have a prominent pair of appendages called chelifores. These appendages have long been thought to be homologous to the chelicerae, or "fangs", of spiders, but at the same time there have been enough doubts that no one was quite confident enough to call them chelicerae, so chelifores they are. If they are homologous to chelicerae, though, that would help confirm that the pycnogonids are closely related to spiders. If they aren't homologous, there's going to be a bit of a scramble as the arthropod family tree gets reorganized.

Here's a drawing of a larval (left) and adult (right) pycnogonid. As you might know, one way to probe the origins of a structure is to look embryonically and examine the relationships in a relatively simple, unelaborated form.

a, The three appendages of the protonymphon larva (shown) correspond to the cephalic appendages of the adult pycnogonid. b, The adult male cares for embryos until hatching (Nymphon rubrum).

A couple of charming facts about pycnogonid child-rearing: It's the father who's in charge of tending to the embryos, and my favorite detail of all, the larvae consist of just the primitive head of the animal—no thorax, no abdomen, no legs. Just a head. The appendages in the drawing on the left are all the head appendages, and only later as it matures does the larva sprout a body. I think that is so cute.

The question is whether those big chelifores are homologous to spider chelicerae. How would we figure that out? In the table up above, you can see that spider chelicerae form on the second head segment…so we want to see to which segment the chelifores belong.

One way to work that out is to identify the neuromeres that innervate it. The insect brain is made up of lobes or ganglia called neuromeres associated with each segment, that extend nerves into the appendages also associated with that segment. In adults, these ganglia tend to run together and fuse, making their relationships harder to sort out, but their positions in the embryo are much clearer. The neuromere in segment 1 is called the protocerebrum, that in segment 2 is the deuterocerebrum, and the one in segment 3 is the tritocerebrum. If the pycnogonid chelifore is homologous to a spider chelicera, it should be innervated in the same way, by nerves from the deuterocerebrum in segment 2.

The answer is illustrated in the complicated figure below. The photograph is of immunostained neurons in the larval head, which are grouped into ganglia. The diagram in the top half labels the clumps of cells; in orange is PR, the protocerebrum, and two pairs of small nodes below, labeled A2G and A3G respectively, are the deutero- and tritocerebrum. Can you tell which ganglion has nerves (in red) running into the chelifores (LCH and RCH)?

a, Diagram of the protonymphon seen from an oblique posteriolateral view based on reconstructions from confocal stacks (b–f). The CNS consists of four pairs of ganglia connected by commissures across the midline. The oesophagus runs through the proboscis between the left (LCH) and right (RCH) chelifore, and ends incompletely at the posterior ganglia (PG). The first neuromere is the protocerebrum, consisting of anteriolateral cheliforal ganglia (CG) connected by a prominent supraoesophageal protocerebral commissure (PR), and ocular nerves (ON). b, High magnification of the protocerebrum stained for tubulin (red) and serotonin (green) showing the cheliforal ganglion (arrows) and bifurcating ocular nerves (b, arrowheads). Circumoesophageal connectives run posteriorly from the PR, leading to the second (A2G) and third (A3G) ganglia that innervate the second and third appendages (c). c, High magnification (α-tubulin, grey scale) of A2G and A3G and the fibrous appendicular commissures conecting the ganglia across the innervated oesophagus (O). d, Depth-coded image (α-tubulin): colours range from warm (red) indicating dorsal, to cooler (blue) indicating ventral. e, Transverse optical section (α-tubulin, grey scale) showing the circumoral shape of the protonymphon 'neuropil ring' in relation to the oesophagus (O); the anterior bifurcating cheliforal nerves (arrowheads) target the cheliforal ganglia at the top of the ring. f, Same view of the CNS as in e, stained for serotonin (green). Immunoreactivity is visible in the cheliforal ganglia (arrows), along the circumoesophageal connectives, the suboesophageal appendicular commissure, and separately in the posterior ganglia (PG). Note background staining in the tripartite luminal surface of the oesophagus (O). Scale bars, 25 µm.

Yep. The chelifores are not innervated by the deuterocerebrum, so this piece of evidence suggests that they are not homologous to chelicerae. They are innervated by the protocerebrum. They are something different. They seem to be homologous to certain other organs found in ancient stem-group arthropods known from the Cambrian, Kerygmachela and Leanchoilia and the best known of them all, Anomalocaris, all of which had a large structure on the front of their heads called the great appendage, which as near as can be distinguished in the fossil material, is part of segment 1 and was probably innervated by the protocerebrum.

I think it's really cool that a distant cousin and descendant of Anomalocaris is still doddering about in the ocean depths.

As I mentioned above, this observation does shake up the arthropod family tree a bit. Below are two different cladograms. The right side is the current view, with the Pycnogonida and Chelicerata as sister clades, more closely related to each other than to the Mandibulata, insects and crustaceans. This view assumes chelicerae and chelifores are homologous structures. On the left side is the cladogram if they are not homologous, and the chelifore is instead homologous to the great appendage of the stem arthropods. That would mean the Pycnogonida are linked to the base of the arthropod tree, and are the most primitive branch of that distinguished group.

The tree to the left reflects the Cormogonida hypothesis, with Pycnogonida as sister group to remaining extant arthropods. The tree to the right reflects the classical hypothesis of pycnogonids as sister group to chelicerates.

With pycnogonids as the surviving member of the most basal arthropods, we can also infer something about the organization of the ancestral arthropod's head and brain.

…our results support previous models of head evolution that predict that the original arthropod bore an acronless four-segmented head, encapsulating a tripartite circumoral brain rotated in an axial position, reminiscent of that found in onychoporans, nematodes and other cycloneuralians.

That's one of the beautiful things about evolutionary biology. The data fit together so well, and every new observation brings us a clearer picture of our planet's evolutionary history. We can still see echoes of the ancient world in the molecules of life.

Maxmen A, Browne WE, Martindale MQ, Giribet G (2005) Neuroanatomy of sea spiders implies an appendicular origin of the protocerebral segment. Nature 437(7062):1144-8.

1. The beloved term "Turdblossom" for Karl Rove is said to have come from GW Bush senior. Sr. had no respect for Rove dating back to when GW Junior was in the TNG and school. Rove was his Chaperone and was detailed to keep Jr. out of trouble for his drinking, etc so says the Austin Chronicle. Rove was asked to leave three universities in Texas not graduating from any. Rove started a mailing service and in doing so came in touch with Repub players that wanted his mailing list which were quite substantial. Long story made short is that Bush Senior barely allowed Rove to be in his presence at the same time. There is a good story on http://www.wesupportthevets.com about these people.
   #: Posted by Wesupportthevets  on  10/20  at  10:08 PM
2. Anomalocaris has a living cousin? Cool!
   
   Growing for a while with no body, just a head? Even cooler!
   #: Posted by coturnix  on  10/20  at  11:16 PM
3. Ooohhh, those naughty priapulida!
   
   Hahaha, my submit word is agnostic.
   #: Posted by  on  10/20  at  11:36 PM
4. Spiders, tagmosis, pycnogonids, Anomalocaris... who wouldn't perk up?
   
   The Head Baby is very cool, by the way; reminds me of a terrible old joke.
   #: Posted by Mrs Tilton  on  10/21  at  01:53 AM
5. Note that the Anomalocaris home page has moved to http://www.trilobites.info/anohome.html
   #: Posted by  on  10/21  at  01:59 AM
6. what's the relevance of the posting on rove?!
   
   please delete it, PZ.
   #: Posted by  on  10/21  at  02:00 AM
7. I guessed (ie minimally deduced) anomalocaris correctly! However, doing the actual work of acquiring the evolutionary evidence is the important thing in the long term, as no-one much other than me is likely to be interested in my guess (however well-informed it might be).
   
   NB In your Raff's table you have two footnote d indicators whereas the bottom one should be to footnote f.
   #: Posted by  on  10/21  at  05:09 AM
8. Jonathan Wells and Paul Nelson have a piece entitled "Homology: A Concept in Crisis" (again with the melodramatic language: "crisis"; "Waterloo"--whatever).
   
   Far from being in crisis, however, homology is alive and well, as illustrated by such lively and passionate debates as this one. And the beauty of the intricate connections within the network of life, past and present, that homologies shed light on--I genuinely don't understand why anyone would settle for third-rate philosophizing instead.
   #: Posted by Raven  on  10/21  at  05:17 AM
9. So the prediction is that future molecular studies will reproduce the tree on the left?
   #: Posted by Arun  on  10/21  at  06:54 AM
10. Yes. There's also an accompanying summary by Budd and Telford that suggests an additional test: they make a prediction about the position of the anterior boundary of expression of the Hox gene deformed in pycnogonids if the story told by the pattern of neuronal innervation is accurate.
    #: Posted by PZ Myers  on  10/21  at  07:15 AM
11. Mrs. Tilton, is the punchline of the joke, "It's even worse than that, the baby is blind?"
    #: Posted by Ed Cone  on  10/21  at  07:18 AM
12. No Ed, but that's another great old bad joke. Here's the one I was thinking of:
    
    Guy is in the hospital waiting room, pacing back-and-forth, ashtrays filled to overflowing. (This is in the old days, you see.)
    
    Then an ashen-faced doctor and nurse come in, holding something tightly wrapped in a swaddling cloth.
    
    'You have a son. But I'm afraid we have terrible news.... he's deformed.' And they unwrap the baby to reveal that it is nothing but an ear.
    
    The father and mother are devastated at first, but they determine to love their son and give him as normal and happy a life as possible. And indeed, the boy does remarkably well considering that he is but an ear. He is bright and well-adjusted and friendly and, though it takes a bit of time for them to stop staring, the neighbours soon grow to hold him in great esteem.
    
    On the boy's 21st birthday, his father takes him out for his first beer. 'Well, you're an adult today, son. Happy birthday, and cheers!' Of course, the father needs to help his son by pouring the beer into his ear-canal.
    
    No sooner has he done so when POOF! a second ear sprouts from the first one. Stunned but intrigued, the father orders a second beer and pours it into the ear. POOF! Suddenly, the son has two eyes between his ears. One more beer and POOF!, he has an entire head.
    
    Able to speak for the first time, the son says, 'Hey dad, this is great! Hurry, go get me another beer!'
    
    The father holds the glass to his son's lips. Lunk lunk lunk, down the hatch it goes. This time the effect is even more amazing then before. POOF! POOF! POOF! In turn, arms, a torso and legs sprout from the boy. He and his father are overjoyed.
    
    But then something terrible happens. POOF! POOF! POOF! POOF! POOF! POOF! As quickly as they had grown, all the new body parts disappear. In seconds the son is reduced to his original ear and then, with one final POOF!, even that is gone.
    
    The barman looks on sadly and remarks, 'He should have quit while he was ahead'.
    #: Posted by Mrs Tilton  on  10/21  at  07:46 AM
13. Rats, I was hoping it was turn out to be trilobites it was related to. They're cool.
    
    But Anomalocaris is pretty cool, too.
    #: Posted by  on  10/21  at  07:56 AM
14. Mrs.Tilton: That's funny. I was thinking of the same joke that Ed was thinking of. Yours is better.
    #: Posted by coturnix  on  10/21  at  08:00 AM
15. coturnix, do you have Ed's joke in Serbian too, or is that strain of humor particularly American?
    #: Posted by Raven  on  10/21  at  08:33 AM
16. I've only heard it in Serbian
    #: Posted by coturnix  on  10/21  at  08:41 AM
17. Where else to stick a body plan but in the head?
    #: Posted by  on  10/21  at  09:50 AM
18. Yup, it's all in the head....
    #: Posted by coturnix  on  10/21  at  10:42 AM

19. One other property of tagmosis is that analyzing it triggers the most passionate, heated, long-running arguments. I write "six segments", and could say more about the identity of each of those segments, and somewhere there is an arthropod taxonomist and embryologist who will wax wroth and prepare a lightning bolt with which to smite me low. Let me just say outright that I am not an expert in arthropod anatomy, and everything I write here about the details is provisional and subject to correction by real experts.

    
    
    Hah! Biologists cannot even agree on the number of segments involved in this extremely implausible theory of development, but they claim it arrogantly as a fact. Shouldn't scientists explore the competing possibility of an intelligent manufacturer?
    #: Posted by  on  10/21  at  10:59 AM
20. Somewhere in there, there's a joke about biologists not being able to count to 10.
    
    My favorite science joke is about how physicists are always talking about how physics is the most exhalted of the scientific disciplines, on account of it being about getting to the nature of reality. A chemist said in reply, "well, we all know that chemistry is the part of physics that's too hard for physicists to understand."
    #: Posted by  on  10/21  at  02:40 PM
21. If pycnogonids quit while they were a head, would that be neoteny?
    #: Posted by  on  10/21  at  02:53 PM
22. Um, coturnix, whatever the origin of the Pycnogonids is, all arthropods are descended from the stem arthropod (the common ancestor) and they're all cousins of Anomalocaris. The presumed argument (PZ should correct me) is that they're less altered than, for instance, a decapod.
    #: Posted by Carl  on  10/21  at  07:30 PM

23. Biologists cannot even agree on...

    
    
    Standard creationist line!
    
    Let's get this into your head (pay close attention!): "Science is an ongoing debate; a search for truth using only the evidence available."
    It's an attempt to discern the picture in a jigsaw puzzle using only a fraction of the pieces. Under these conditions, different people will see different images. AND they will change their minds as new pieces are found.
    
    The difference between science and religion is this: two scientific factions who disagree on an interpretation will each go find MORE INFORMATION until one (or both!!) is shown to be wrong. Then they'll have a couple of beers together, discuss the implications of their new understanding, and move on to the next problem.
    
    Debate and disagreement are essential to science.
    
    Two religious factions who disagree will each form their own church.
    
    Debate and disagreement are anathema to religion.
    
    .....................
    
    Emo Phillips says it best:
    

    I was walking across a bridge one day, and I saw a man standing on the edge, about to jump off. So I ran over and said "Stop! don't do it!" "Why shouldn't I?" he said. I said, "Well, there's so much to live for!" He said, "Like what?" I said, "Well...are you religious or atheist?" He said, "Religious." I said, "Me too! Are you christian or buddhist?" He said, "Christian." I said, "Me too! Are you catholic or protestant?" He said, "Protestant." I said, "Me too! Are you episcopalian or baptist?" He said, "Baptist!" I said,"Wow! Me too! Are you baptist church of god or baptist church of the lord?" He said, "Baptist church of god!" I said, "Me too! Are you original baptist church of god, or are you reformed baptist church of god?" He said,"Reformed Baptist church of god!" I said, "Me too! Are you reformed baptist church of god, reformation of 1879, or reformed baptist church of god, reformation of 1915?" He said, "Reformed baptist church of god, reformation of 1915!" I said, "Die, heretic scum", and pushed him off. -- Emo Phillips

    #: Posted by  on  10/21  at  10:48 PM
24. Since the subject is tagmosis, a certain professor used to emphasize in class that much of the data on the segmental body organization was derived from studies of tapeworms (and leeches). "Now, you may think tapeworms are repugnant critters, but we evolutionary biologists are quite fond of them. And it is not unheard of that the tapeworms also become deeply attached to us."
    
    (No, the joke is not old. There are no old jokes, only old people.)
    #: Posted by  on  10/22  at  05:36 AM
25. Speaking of old jokes, jaimito, I thought I had a tapeworm once, but it turned out to be only a fluke.
    #: Posted by Raven  on  10/22  at  07:18 AM
26. Big Bear in Heavens! Flukes are horrible, Star-gate type hermaphroditic parasites. I would never host them, if only for moral reasons. But you must be kidding and the Flukes reference is to the makers of The Atom Bomb.
    #: Posted by  on  10/22  at  09:04 AM

27. you must be kidding

    
    
    yes, fortunately.
    
    

    and the Flukes reference is to the makers of The Atom Bomb

    
    
    not exactly. "just a fluke" or "only a fluke" is an expression meaning "only by chance", or a "random one-off". only a parasitology geek would pun on that unrelated meaning of "fluke" to tie it to the invertebrate parasite meaning, and I heard that one from one of my parasitology geek friends.
    
    hey, jaimito, I did say "old joke", not "good joke".
    #: Posted by Raven  on  10/22  at  09:45 AM
28. It was good for me, thank you.
    
    It was educational too; now I have a new parasite tucked under my brainpan.
    #: Posted by  on  10/22  at  10:33 AM
29. i would like to know the differences between tagmosis in crustaceans insects and arachnids.
    #: Posted by  on  11/07  at  04:02 AM
30. i would like to know the differences between tagmosis in crustaceans insects and arachnids.
    #: Posted by  on  11/07  at  04:02 AM