刺鮫是早已滅絕的化石魚,,接近軟骨魚和硬骨魚的分叉點,。它們的形態(tài)學研究有可能揭示關于有顎類脊椎動物早期演化的很多秘密,。問題是人們對它們的解剖特征很不了解,,它們大部分都局限于Acanthodes,,這是生活在二疊紀的一種可能沒有代表性的屬,,處在刺鮫歷史的晚期,。
現(xiàn)在,Martin Brazeau介紹了對Ptomacanthus的腦殼首次所做的詳細描述,,它是生活在早泥盆紀刺鮫鼎盛時期的一種刺鮫,,距今大約4.15億年前。這些結果表明,,刺鮫可能不是一個自然的類群:Ptomacanthus要么是鯊魚的一個非常早的近親,,要么接近所有現(xiàn)代有顎類脊椎動物的共同祖先。(生物谷Bioon.com)
生物谷推薦原始出處:
Nature 457, 305-308 (15 January 2009) | doi:10.1038/nature07436
The braincase and jaws of a Devonian 'acanthodian' and modern gnathostome origins
Martin D. Brazeau1
Subdepartment of Evolutionary Organismal Biology, Department of Physiology and Developmental Biology, Evolutionary Biology Centre, Uppsala University, Norbyv?gen 18A, SE-752 36 Uppsala, Sweden
Modern gnathostomes (jawed vertebrates) emerged in the early Palaeozoic era1, but this event remains unclear owing to a scant early fossil record. The exclusively Palaeozoic 'acanthodians' are possibly the earliest2, 3 gnathostome group and exhibit a mosaic of shark- and bony fish-like characters that has long given them prominence in discussions of early gnathostome evolution1. Their relationships with modern gnathostomes have remained mysterious, partly because their un-mineralized endoskeletons rarely fossilized. Here I present the first-known braincase of an Early Devonian (approximately 418–412 Myr bp) acanthodian, Ptomacanthus anglicus 4, and re-evaluate the interrelationships of basal gnathostomes. Acanthodian braincases have previously been represented by a single genus, Acanthodes 5, which occurs more than 100 million years later in the fossil record. The braincase of Ptomacanthus differs radically from the osteichthyan-like braincase of Acanthodes 5 in exhibiting several plesiomorphic features shared with placoderms6, 7 and some early chondrichthyans8, 9. Most striking is its extremely short sphenoid region and its jaw suspension, which displays features intermediate between some Palaeozoic chondrichthyans and osteichthyans. Phylogenetic analysis resolves Ptomacanthus as either the most basal chondrichthyan or as the sister group of all living gnathostomes. These new data alter earlier conceptions of basal gnathostome phylogeny and thus help to provide a more detailed picture of the acquisition of early gnathostome characters.