ICHTYOSTEGA AS A TRANSITIONAL FOSSIL
by Lenny Flank
(c) 1995
The creationists are fond of stating that there are "no transitionals in the fossil record". One of the best fossil transitionals, however, is that of Icthyostega, which combines the traits of both fishes and amphibians, and represents the transition between aquatic and terrestrial vertebrate life.
Terrestrial vertebrates are a decendent of a class of ancient fishes called "lobe-finned fish", or Crossopterygians. In particular, the freshwater family of Crossopterygians known as the Rhipidistians have a number of unique traits in common with terrestrial vertebrates. The freshwater Rhipidistians appear to have been the direct ancestors of the earliest land vertebrates, while the other Crossopterygians went on to become specialized as deep-sea marine fishes. (Because deep-sea animals are rarely fossilized, there is not a trace of the Crossopterygians in the fossil record after the end of the Cretaceous period, about 65 million years ago. Nevertheless, we know that the Crossopterygians became more and more specialized for a deep-sea life because in 1939 a living Crossopterygian, the ceolacanth Lattimeria, was dredged up from a deep sea trench off the coast of Africa.)
Among the unique characteristics which appeared in the Rhipidistian fishes were a skull bone pattern which closely matches that of the earliest-known amphibians. In the Rhipidistian fish Osteolepis, there are two bones at the roof of the skull which correspond to the parietal bones in terrestrial vertebrates, and between them is an opening for the pineal gland or "third eye", which in terrestrial animals serves as a light indicator to calibrate the internal clock.
The Rhipidistians are also characterized by two moveable joints extending across the skull, one in the roof of the mouth and another at the base of the braincase. These joints allowed the fish to increase its gape and swallow large objects.
By far the most important feature of the Rhipidistians, however, was their lobed fins, which consisted of two pairs of fleshy projections with a rayed fin at the ends. Each lobe contained a number of bones and muscles which allowed the fin to be moved, and which allowed the fish to propell itself along the river bottom (somewhat similar to the modern "walking catfish"). The Rhipidistian lobe fin was most highly developed in the later species, including Eusthenopteron. Eusthenopteron differed from most other Rhipidistians in having a number of bony projections from its vertebral bones, which gave increased protection to the spinal cord.
In the upper Devonian period, some 375 million years ago, the earliest known terrestrial vertebrate appeared, called Icthyostega. Icthyostega had well-developed limbs with five toes, just as all other land vertebrates. The Icthyostega limbs had a skeletal structure consisting of a single large upper bone (called the humerus in the front limbs and the femur in the rear) and two long bones in the lower limb (called the radius and ulna in the front limbs, and the tibia and fibula in the rear limbs). The digits and "wrists" are made up of a large number of smaller bones. This pattern is also found in every other terrestrial animal. The fleshy lobe fins of the Rhipidistian fishes have an identical bone structure, which corresponds one to one with the limb skeletons of Icthyostega and other terrestrial vertebrates.
In addition to its five-fingered limbs and other obvious amphibian characteristics, however, Icthyostega still possessed a number of characteristics which were unique to its Rhipidistian fish ancestors. The most apparent of these was a large rayed fin, like a fish's, along the rear edges of the tail. The bony fin supports found in Icthyostega are identical to those found in the Rhipidistian tail fins, and are not found in any other group of amphibians Icthyostega also retained small scales in its skin, a trait which is characteristic of the Rhipidistian fishes but not of amphibians, which have smooth, un-scaled skin.
Several characteristics of the Icthyostegan skull were also shared with the Rhipidistians. The Rhipidistians, like most fish, had a number of bones in the skull known as the operculars, subopercularsand preoperculars, which supported the gill covers which protected the fish's gills. Icthyostega has no gill covers, and has lost the opercular and subopercular bones of its fish ancestors, but still retains the pre-operculars, somewhat reduced in size, in precisely the same position they appear in the Rhipidistians. The moveable joint at the base of the Rhipidistian braincase was still present in Icthyostega, but the joint in the roof of the mouth was fused and immoveable. Icthyostega also retained the pineal opening in the skull which characterizes amphibians (and which was also present in the Rhipidistians).
Another characteristic of the Rhipidistian skull was the arrangement of the nostrils. In all amphibians, the internal nostrils are separated from the external openings in the skull by a wide bar of bone. In Icthyostega, the internal nares are very close to the external nostrils, and are separated by only a thin bone, as they are in the Rhipidistians. Icthyostega also had a small rostrolateral bone between the nostrils, which is found in the Rhipidistian fishes but not in any other amphibian skull.
The vertebral bones of Icthyostega were also nearly identical with those of the Rhipidistian fishes. Although each vertebral bone possessed a bony projection or "process", the vertebra were loose and were not tightly connected to each other as they are in all other terrestrial animals. Since terrestrial animals need a strong solid backbone in order to support the weight of the body against gravity, this suggests that, despite the five-fingered limbs, Icthyostega had still not become efficient at terrestrial locomotion and probably spent most of its time in the water (as would be expected from a fish-amphibian transition), using its limbs to push itself around on the river bottom. This is confirmed by the presence in the Icthyostega skeleton of canals for the lateral line organ used by fish to sense vibrations in the water.
Icthyostega and its later descendents belonged to a group of amphibians known as Labrynthodonts, or "labrynth-tooth", a name which comes from the characteristic in-folding of the dental covering, which forms a complicated maze-like pattern. This unique trait is shared by only two group of animals--the Labrynthodont amphibians and the Crossopterygian fishes.
Thus, the Icthyostega fossils demonstrate clearly an animal that had a number of traits which were unique to two entirely separate groups of animals. The amphibian-like traits of Icthyostega--the pentadactyl limbs and the pelvic and pectoral girdles--mark Icthyostega as the earliest known vertebrate capable of walking on land, while the fish-like traits--the scales, the preopercular bones, the bony rayed fins, the arrangement of the nostrils, and the loosely-connected vertebral column--mark it as very primitive and fishlike, with a curious blend of transitional features between fishes and amphibians. The creationists are at a complete loss to explain all of the traits which are unique to both Rhipidistian fishes and Icthyostega.