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冲出泥盆纪

《冲出泥盆纪》-述评《最古老的完整保存的硬骨鱼揭示原始有颌类的特征组合》

Michael I. Coates评述文章译文

一条罕见的完整保存的古鱼进一步揭示,对于现生脊椎动物起源的探索需要冲出泥盆纪(鱼类时代),踏入更老的年代。

通常说来,现生生物类群的最早化石记录往往是零碎的,这些破碎材料常常导致它们在分类上极具争议。就“硬骨鱼类”而言,硬骨鱼类是脊椎动物的一个分支,包括从比目鱼到人类的所有脊椎动物。完整的硬骨鱼类化石记录最早追溯到距今约4亿年的下泥盆统。早期硬骨鱼类的演化历史因为化石材料的缺乏(仅有零散的牙齿与鳞片的报道)显得混乱。在某些情况下,零碎的材料被组合在一起研究,它们中的一些具有出人意料的特征组合。在本期杂志的469页,朱敏等为这段了解得并不多的脊椎动物演化历史提供了一条活灵活现的古鱼。至关紧要的是,这条鱼代表着人类遥远祖先的一个分支,它不但罕见地被完整保存下来,而且出人意料的古老。
   
那么它是一条什么样的鱼呢?对脊椎动物的多样性做一下概括将有助于回答这个问题。在现生的5万1千多种脊椎动物中,99.9%是有颌的:它们统称有颌类。有颌类包括硬骨鱼类以及软骨鱼类。软骨鱼类(鲨鱼、鳐、银鲛)仅占有颌类物种数的2%,其余98%的有颌类都属于硬骨鱼类。在硬骨鱼类中,大约一半是辐鳍鱼类,剩余的统称肉鳍鱼类。辐鳍鱼类包括从斑马鱼到多鳍鱼的大约2万8千个种。现生的肉鳍鱼类中鱼类仅有肺鱼的3个属以及空棘鱼的1个属。陆生的四足动物占了肉鳍鱼类的绝大部分。

迄今为止,这些现生有颌类主要类群的起源可以追溯到泥盆纪,距今约3.59-4.16亿年。这一时期又被称为鱼类时代。确切的软骨鱼类化石出现在大约4-4.05亿年前的地层中,但是,我们并不知道它属于软骨鱼类的现生类群(冠群),还是代表软骨鱼类祖先类群的一个旁支(干群)。对于硬骨鱼类来说,尽管其最确切的化石证据来自早泥盆世,属于硬骨鱼类冠群,但是在晚志留世(距今约4.16-4.23亿年)地层已经发现了不太肯定的硬骨鱼类化石碎片。

这个故事并没有结束,有颌类的起源问题还涉及另外两个在地质历史上出现得更早并业已灭绝的类群:盾皮鱼类和棘鱼类。重要的是,最近的系统发育分析开始揭示早期脊椎动物新的演化关系:棘鱼类与盾皮鱼类作为有颌类的单系类群受到质疑;特别是棘鱼类,它们在软骨鱼类与硬骨鱼类的干群中出现。显而易见,现生有颌类类群的起源并非在泥盆纪时发生,原始硬骨鱼类与软骨鱼类的分化应该出现得更早。

在此背景下,朱敏等命名并描述了早期硬骨鱼类的一新属种——梦幻鬼鱼。梦幻鬼鱼发现于中国南方距今约4.18亿年前的石灰岩中,长约1尺,展示了一个小型肉鳍鱼的解剖学特征。鬼鱼作为肉鳍鱼这一事实充分证明了有颌类冠群一系列的分支事件在志留纪末之前便已发生。

和其它化石一样,鬼鱼兼具原始和进步的性状。它提供了完整的解剖学信息,证实了之前复原的另一早期硬骨鱼——斑鳞鱼拥有出人意料的特征组合是正确的。由于斑鳞鱼仅有一些零散的材料,研究者对这种奇异的特征组合心存疑虑,但是鬼鱼的出现证实这些特征组合是完全可信的。和斑鳞鱼及许多其它的肉鳍鱼类(包括拉蒂迈鱼,现生空棘鱼)一样,鬼鱼的脑颅也分为前后两个部分。与斑鳞鱼一样,鬼鱼的颊部骨骼与早期的辐鳍鱼类相似。鬼鱼的肩带在胸鳍之前具有一个棘刺,这与斑鳞鱼和许多其它的早期有颌类一致(包括至少一种软骨鱼)。此外,鬼鱼的背鳍棘刺和其前方具有棘刺的骨板很可能也是原始特征。上述特征在早期有颌类中广泛分布,而它们却同时出现鬼鱼身上,使得我们首次观察到了肉鳍鱼类一系列重要鉴别特征的演化顺序。

朱敏等构建的进化树推进了对早期硬骨鱼类和有颌类的系统发育关系的研究。目前对于非硬骨鱼类的分支格局仍然存在很多不确定性,鬼鱼的加入没有改变早期硬骨鱼类的基本系统发育关系。不过,它支持了近年来有关肉鳍鱼类演化格局的假说。

最后,鬼鱼作为毫无争议的肉鳍鱼这一结论有什么意义呢?总体上看,早期化石由于不完整或者缺少充足的分类依据,其作为进化分歧事件的最近时间校正点被认为是不可靠的。鬼鱼则是一个例外,因为它为脊椎动物进化的一个重大分歧事件(辐鳍鱼类与肉鳍鱼类的分化)提供了一个新的确凿无疑的最早化石参考点。鬼鱼的发现将有颌类进化的一系列重大分歧事件从泥盆纪推回到志留纪,同时指示早期脊椎动物进化的这段历史仍疑云密布。

新构建的有颌类演化树表明早期肉鳍鱼类、辐鳍鱼类和软骨鱼类应该在志留纪就已经出现。但是它们都在哪里呢?现生有颌鱼类的根在志留纪,然而,这些鱼类在目前所绘出的志留纪生态复原图中是缺失的。鬼鱼的发现,将会掀起新一轮的野外考察热潮,并让我们以新的视角重新观察已有的泥盆纪之前的化石材料。
2009-4-3 02:25 PM#1
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Beyond the Age of Fishes

Michael I. Coates

Discovery of an unusually intact and ancient fossil fish provides further evidence that the search for modern vertebrate origins requires breaking out of the Devonian and into the preceding period.

As a rule, the earliest fossils of living groups tend to be scrappy, and such fragments lend themselves to contentious interpretations. For ‘bony fishes’, Osteichthyes — the division of vertebrates that includes everything from humans to halibut — the record of articulated fossils peters out within the Lower Devonian1, some 400 million years ago. Earlier stretches of osteichthyan history are littered with fossil detritus, such as isolated teeth and scales. In certain instances, bits and pieces have been reassembled into conjectural species2–4, some of which have surprising combinations of anatomical features2. On page 469 of this issue, Zhu et al.5 introduce a fresh — albeit long-dead — fish into this poorly resolved patch of vertebrate evolution. Crucially, this piscine offshoot of our own distant past is both unusually intact and exceptionally old.

So what kind of fish is it? A summary of vertebrate diversity helps to make sense of the answer. Of the 51,000 or more living species of vertebrates, 99.9% have jaws: these are the gnathostomes. Gnathostomes include the bony Osteichthyes and the cartilaginous Chondrichthyes. Chondrichthyes (sharks, rays and chimaeras) account for only 2% of gnathostome species, the Osteichthyes accounting for the other 98%. Around half of the Osteichthyes are Actinopterygii, or ‘ray-finned fishes’, and half are Sarcopterygii, or ‘lobe-finned fishes’. Actinopterygians include some 28,000 species, from zebrafish to bichirs, and living sarcopterygian fishes are limited to three genera of lungfishes and one coelacanth. Land-dwelling tetrapods constitute the remaining majority of sarcopterygians.

Thus far, the origins of these major divisions of today’s gnathostomes can be traced back to the Devonian, between 416 million and 359 million years ago, the Age of Fishes. Fossils that are clearly chondrichthyan are known from around 400 million to 405 million years ago6, but we have little idea as to whether these belong within the living radiation, the ‘crown group’, or represent side branches of their common ancestry, the ‘stem group’. As for osteichthyans, although it is agreed that fossils from the earliest Devonian2,7 belong within the crown, osteichthyan fragments of less-certain affinity are also known from the Late Silurian3, 423 million to 416 million years ago.

But there’s more to this story, because the question of gnathostome origins also involves a pair of extinct groups of gnathostomes known to appear earlier in the geological record, the placoderms and acanthodians1. Importantly, recent analyses8 have begun to reveal new relationships between early vertebrates, in which acanthodians and placoderms are scattered among the early divisions of gnathostome evolution; acanthodians, in particular, are cropping up on chondrichthyan and osteichthyan stem groups. The straightforward message is that the origin of modern gnathostomes is not a Devonian phenomenon, after all. The basal divergence between osteichthyans and chondrichthyans occurred somewhat earlier.

This, then, is the context within which to place Guiyu oneiros, the new species of early osteichthyan named and described by Zhu et al.5. Preserved in 418-million-year-old limestone in what is now southern China, the fossils of Guiyu show the skeletal anatomy of a small sarcopterygian, around 33 centimetres long. The very fact that Guiyu can be identified as a sarcopterygian provides further and arguably clinching evidence that a whole series of major branching events within the gnathostome crown group must have taken place well before the end of the Silurian.

Like any other fossil, Guiyu is a mixture of primitive and advanced features. With regard to its anatomical completeness, Guiyu provides exceptional corroboration for the decidedly odd reconstruction of the early osteichthyan genus, Psarolepis2. Cobbled together from a disparate set of fossils, the incongruent suite of features9 displayed by Psarolepis has been viewed with caution. Now, it turns out to be thoroughly plausible. Like Psarolepis and other sarcopterygian fishes (including Latimeria, the living coelacanth), the braincase of Guiyu is divided into separate front and rear units. Like Psarolepis, the cheek bones resemble those of early actinopterygians. Like Psarolepis and many other early gnathostomes1, including at least one chondrichthyan6, the shoulder girdle bears a spine in front of the pectoral fin. Similarly, the dorsal-fin spine and anterior spinebearing plate of Guiyu are probably primitive. These are all widespread features of early gnathostomes, and seeing such characteristics in Guiyu provides a first glimpse of the sequential order of anatomical changes that resulted in the standard set of sarcopterygian traits.

The evolutionary tree proposed by Zhu et al.5 (see Fig. 5 on page 473) adds to a growing set of analyses of early osteichthyan and gnathostome interrelationships8,10. Uncertainties still surround the branching pattern of non-osteichthyans, but the addition of Guiyu to the cast of early fishes does not change the basic pattern of interrelationships among early osteichthyans. Instead, it adds support to notable consistencies in the emerging pattern of sarcopterygian evolution, including the clustering of some of the earliest-known examples to form an as-yet unnamed group.

Finally, what does the conclusion that Guiyu is unequivocally sarcopterygian imply? On the whole, early fossils are thought to be unreliable as minimum-date markers of evolutionary branching events11, because they are less complete and/or lack the full anatomical signature of the group to which they are assigned. Guiyu might be an exception that proves the rule, for it provides a new and exceptionally reliable earliest fossil marker for a major split in vertebrate evolution. By pushing a whole series of branching points in gnathostome evolution out of the Devonian and into the Silurian, the discovery of Guiyu also signals that a significant part of early vertebrate evolution is unknown (Fig. 1).

The new shape of the gnathostome tree shows that early sarcopterygians, as well as Actinopterygians and chondrichthyans, ought to be turning up in Silurian sediments. But where are they? Modern fish groups have Silurian roots, but these fishes are consistently absent from existing scenarios of Silurian life. The discovery of Guiyu should provoke a rash of new fieldwork and a fresh look at existing collections of pre-Devonian fossils.

Michael I. Coates is in the Department of Organismal Biology and Anatomy, University of Chicago, Chicago, Illinois 60637, USA.

1. Janvier, P. Early Vertebrates (Oxford Univ. Press, 1996).
2. Zhu, M. et al. Nature 397, 607–610 (1999).
3. Botella, H. et al. Nature 448, 583–586 (2007).
4. Basden, A. M. & Young, G. C. J. Vert. Paleontol. 21, 754–766 (2001).
5. Zhu, M. et al. Nature 458, 469–474 (2009).
6. Miller, R. F. et al. Nature 425, 501–504 (2003).
7. Zhu, M. et al. Nature 441, 77–80 (2006).
8. Brazeau, M. D. Nature 457, 305–308 (2009).
9. Ahlberg, P. E. Nature 397, 564–565 (1999).
10. Friedman, M. J. Syst. Palaeontol. 5, 289–343 (2007).
11. Donoghue, P. C. J. & Benton, M. J. Trends Ecol. Evol. 22, 424–431 (2007).

[ 本帖最後由 小拉 於 2009-4-3 02:32 PM 編輯 ]


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2009-4-3 02:25 PM#2
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論文下載了!很讚



2009-4-4 04:30 PM#3
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2009-4-5 09:28 PM#4
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梦幻鬼鱼看到某些報導說到是最早脊椎動物
2009-4-6 04:04 PM#5
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感謝你的論文and翻譯



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2009-4-8 02:02 PM#6
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QUOTE:
原帖由 hunter-hunted 於 2009-4-6 04:04 PM 發表
梦幻鬼鱼看到某些報導說到是最早脊椎動物
梦幻鬼鱼并非最早的脊椎动物(最早的脊椎动物应该是海口鱼或者云南鱼一类,发现于寒武纪澄江动物群)。梦幻鬼鱼属于早期硬骨鱼类,在系统发育上处于肉鳍鱼类的基干位置。
2009-4-10 12:54 PM#7
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QUOTE:
原帖由 小拉 於 2009-4-10 12:54 PM 發表



梦幻鬼鱼并非最早的脊椎动物(最早的脊椎动物应该是海口鱼或者云南鱼一类,发现于寒武纪澄江动物群)。梦幻鬼鱼属于早期硬骨鱼类,在系统 ...
Yes, or 昆明鱼或




2009-4-10 04:58 PM#8
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