|
Register | Sign In |
|
QuickSearch
Thread ▼ Details |
|
Thread Info
|
|
|
Author | Topic: Interesting development at the base of the animal tree (Re: comb jellies) | |||||||||||||||||||||||
Chiroptera Inactive Member |
A recent genetic study seems to show that the comb jellies (a phylum which look like a simpler version of jelly fish) was the first taxon to split from the main animal tree.
This is surprising in a way; since sponges are the simplest extant animals, it was assumed that Porifera was the first to branch off, the complexity of the rest of the animal kingdom being assumed to be due to the complexity of the common ancestor. But if Ctenophora did branch off first, there are a couple of intriguing possibilities: either the last common ancestor of extant animals was already relatively complex and sponges then evolved to be simpler, or Ctenophora and the non-sponge animals represent two branches that evolved complexity independently. Fascinating stuff. I got this from Theology Web, where there has already been a bit of a discussion. Edited by Adminnemooseus, : Added the "(Re: comb jellies)" to the topic title. Speaking personally, I find few things more awesome than contemplating this vast and majestic process of evolution, the ebb and flow of successive biotas through geological time. Creationists and others who cannot for ideological or religious reasons accept the fact of evolution miss out a great deal, and are left with a claustrophobic little universe in which nothing happens and nothing changes. -- M. Alan Kazlev
|
|||||||||||||||||||||||
Dr Jack Member Posts: 3514 From: Immigrant in the land of Deutsch Joined: Member Rating: 8.3 |
A quote from the paper (which by the way, interesting stuff):
quote: Emphasis mine.
|
|||||||||||||||||||||||
Blue Jay Member (Idle past 2724 days) Posts: 2843 From: You couldn't pronounce it with your mouthparts Joined: |
This is the title of the Theology Web article:
quote: And, from then on, they intepret everything as two-faced pandering for the great religion of evolutionism. It's frustrating to hear this sort of nonsense. Anybody who knows the slightest thing about the ToE should realize that the complexity of a modern animal does not necessitate its ancestor to be complex.
quote: It didn't start as complex, it evolved into complexity just like all other complex animals, but it did so separately. Sorry, I had to make sure there was an answer to that: I couldn't just like sit. I'm Thylacosmilus. Darwin loves you.
|
|||||||||||||||||||||||
Adminnemooseus Administrator Posts: 3976 Joined: |
Thread moved here from the Links and Information forum.
|
|||||||||||||||||||||||
randman  Suspended Member (Idle past 4925 days) Posts: 6367 Joined: |
Actually, the evidence (assuming evo assumptions) is surprisingly that the theoritical common metazoan ancestor had about the same number of genes as we do, and in fact, "many animal lineages" evolved through "a massive loss of genes" according to one paper (I'd link but the article isn't allowed here).
So there really is no support for the idea:
It didn't start as complex, it evolved into complexity at least genetically. Edited by randman, : No reason given.
|
|||||||||||||||||||||||
Chiroptera Inactive Member |
It didn't start as complex, it evolved into complexity just like all other complex animals, but it did so separately. It is possible that the last common ancestor of the animal kingdom did have a degree of complexity, and that the sponges did evolve to become simpler. Such things have happened -- look at the tunicates, which are essentially simplified chordates. Either two branches evolved to be complex independently, or the clade started relatively complex and one branch evolved to become less complex. Both scenarios have two events, so I think that (just looking at relative complexity) both are equally parsimonius. If you look at the tree developed by this group:
you'll see something interesting. Sponges and true jellyfish compose a single taxon. Now that is something that surprises me (perhaps for no greater reason than I don't know much about the early branchings of the animal tree). Speaking personally, I find few things more awesome than contemplating this vast and majestic process of evolution, the ebb and flow of successive biotas through geological time. Creationists and others who cannot for ideological or religious reasons accept the fact of evolution miss out a great deal, and are left with a claustrophobic little universe in which nothing happens and nothing changes. -- M. Alan Kazlev
|
|||||||||||||||||||||||
LucyTheApe Inactive Member |
A recent genetic study seems to show that the comb jellies (a phylum which look like a simpler version of jelly fish) was the first taxon to split from the main animal tree. Does this mean that I can head back up the trees?
|
|||||||||||||||||||||||
Dr Jack Member Posts: 3514 From: Immigrant in the land of Deutsch Joined: Member Rating: 8.3 |
you'll see something interesting. Sponges and true jellyfish compose a single taxon. Now that is something that surprises me (perhaps for no greater reason than I don't know much about the early branchings of the animal tree). Hmm... if I understand the way this tree was constructed correctly, that's not a necessary interpretation, what it actually shows is that the Bilatera are most closely related to each other than they are to either sponges and true jellyfish, and that sponges and true jellyfish are more closely related to Bilatera that they are to Ctenophora. This is not particularly surprising as Bilatera has long been recognised as a grouping (a subregnum, in some classifications).
|
|||||||||||||||||||||||
Chiroptera Inactive Member |
Hi, Mr. Jack.
Actually, a little bit more can be said. I have composed a graphicthat shows two scenarios, both of which imply that the members of Bilateria are more closely related to each other than they are to any other group, and that sponges (Porifera) and jellyfish (Cnidaria) are both more closely related to Bilateria than either are to comb jellies (Ctenophora):
Thanks to ImageShack for Free Image Hosting However, there is a subtle difference: in scenario 1, jellyfish are more closely related to Bilateria than to sponges, while in scenario 2 jellyfish and sponges are more closely related to each other than either are to Bilateria. According to the graphic that I have already posted, the authors of the paper chose scenario 2 as their preferred scenario; you'll see that members of Porifera and Cnidaria share a common node that is not shared with the other groups. Now, I haven't read the paper yet (I haven't yet made it to the library -- I'm also going to see whether I can scam a copy of the paper for free before I resign myself to paying for it), so it is possible that in the paper the authors caution that their data doesn't rule out scenario 1 (or a third scenario where Porifera is more closely related to Bilateria than they are to Cnidaria). I'm just going by the graphic. So, according to this scenario, there was a hypothetical ancestor, A, to all extant animals. A then split into two reproductively isolated populations, one of which evolved into the comb jellies, and the other which evolved into B'. B' then split into two isolated populations, one of which evolved into the ancestor of the Bilateria, and the other which evolved into D. Finally, D was the ancestor of sponges and jellyfish. Speaking personally, I find few things more awesome than contemplating this vast and majestic process of evolution, the ebb and flow of successive biotas through geological time. Creationists and others who cannot for ideological or religious reasons accept the fact of evolution miss out a great deal, and are left with a claustrophobic little universe in which nothing happens and nothing changes. -- M. Alan Kazlev
|
|||||||||||||||||||||||
Dr Jack Member Posts: 3514 From: Immigrant in the land of Deutsch Joined: Member Rating: 8.3 |
Well, no, I don't think so.
In your graphics you have shown essentially equal genetic differences between the branch points. As I understand it the method used in the paper (which I have read - one of the great joys of doing on Open University course is I get free online access to pretty much every journal out there - but cannot claim to have understood all of) cannot distinguish between your scenario 2, and a situation like scenario 1 but where the common ancestor of Cnidaria and Bilatera is close to the common ancestor of all three and the Common ancestor of Bilatera is more distant. This is particularly true as there are many Bilatera analysed and only one representative for Cnidaria and Porifera.
|
|||||||||||||||||||||||
Chiroptera Inactive Member |
In your graphics you have shown essentially equal genetic differences between the branch points. Actually, my graphics show no information whatsoever about the absolute genetic differences, and were intended to show only the relative timing of the splits. I didn't realize that the convention in molecular biology is to include information about genetic differences visually in the cladogram. Evidently, I was misled by cladograms prepared by paleontologists (and molecular biologists preparing materials for popular consumption), which seem to use more or less regularly spaced nodes. Next time I prepare a simplified cladogram I will explicitly state that no implications about absolute differences or absolute dates are intended. Thanks for the clarification. Edited by Chiroptera, : No reason given. Speaking personally, I find few things more awesome than contemplating this vast and majestic process of evolution, the ebb and flow of successive biotas through geological time. Creationists and others who cannot for ideological or religious reasons accept the fact of evolution miss out a great deal, and are left with a claustrophobic little universe in which nothing happens and nothing changes. -- M. Alan Kazlev
|
|||||||||||||||||||||||
platypus Member (Idle past 5780 days) Posts: 139 Joined: |
quote: Actually, the complexity refered to in the article is visual complexity, posessing a nervous system, mouth, and anus in particular. It is general unknown how genetic complexity relates to visual complexity. A longer genome does not necessarily mean you get something that looks more complex. Even thoush Ctenophores (comb jellies) have a nervous system like higher animals, that nervous system could have evolved from a different set of genes, after the split from the main animal line. So as the paper says, there is not enough evidnce one way or another (yet).
|
|||||||||||||||||||||||
Dr Jack Member Posts: 3514 From: Immigrant in the land of Deutsch Joined: Member Rating: 8.3 |
Hmm... yes, I was wrong to assume you'd intended to imply relative differences from the spacing in the graph; while I have seen such, it's not the usual standard. My bad, not yours.
However, leaving that aside, do you think my conclusion regarding the implications of their data is correct? That they cannot distinguish between two seperations close together, a seperation followed by a fork?
|
|
|
Do Nothing Button
Copyright 2001-2023 by EvC Forum, All Rights Reserved
Version 4.2
Innovative software from Qwixotic © 2024