Ancient fish fossil rewrites story of how modern fish evolved
Researchers have identified the largest known Silurian-era fish, revealing new clues about how modern bony fish developed their key anatomical features. The discovery could reshape scientific understanding of vertebrate evolution and inform biotechnology applications that rely on studying natural design principles in biological structures.
Originaltitel: Largest Silurian fish illuminates the origin of osteichthyan characters
<p>Osteichthyans (bony fishes and tetrapods) encompass 98% of modern vertebrate species. However, our understanding of the sequence of character evolution among stem osteichthyans has been substantially limited by the fragmentary nature of known stem osteichthyan fossils<sup>1,2,3,4</sup>. Here we investigate newly discovered articulated head and trunk material of <em>Megamastax amblyodus</em><sup>5</sup>, which yields previously unseen morphological details of a Silurian stem osteichthyan. <em>Megamastax</em>—previously interpreted as a lobe-finned fish<sup>5</sup>—exhibits distinct osteichthyan traits in the dermatocranium, such as resorptive tooth shedding and the presence of extrascapular bones. However, the arrangement of its dorsal aortae is reminiscent of crown-group chondrichthyans. The premaxilla with extensive palatal lamina and the elongated post-hypophyseal region of the braincase recall the condition in maxillate placoderms<sup>6,7,8</sup>. Crucially, the discovery of an inner dental arcade of discrete tooth cushions on individual attachment bases aligns <em>Megamastax</em> with the fragmentary genera <em>Lophosteus</em> and <em>Andreolepis</em><sup>2,3,4</sup>, corroborating the previous interpretation of isolated tooth cushions as part of the jaw dentition<sup>3,9</sup> and verifying their identity as stem osteichthyans. Phylogenetic analysis places <em>Megamastax</em> within the osteichthyan stem, near the osteichthyan crown-group node, and provides a framework for exploring the sequence of character acquisition along the osteichthyan stem. Together, these new findings help to bridge the morphological gap between stem gnathostomes and modern osteichthyans, offering insights into the sequence of early evolutionary steps that shaped the osteichthyan lineage.</p>