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HARVARD |
UNIVERSITY

POSTILLA

PEABODY MUSEUM
YALE UNIVERSITY

NUMBER 157 19 JULY 1972

NEW EVIDENCE ON THE EVOLUTION OF
THE PAIRED FINS OF RHIPIDISTIA AND THE
ORIGIN OF THE TETRAPOD LIMB, WITH
DESCRIPTION OF A NEW GENUS OF
OSTEOLEPIDAE

KEITH STEWART THOMSON

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NEW EVIDENCE ON THE EVOLUTION OF THE PAIRED FINS OF
RHIPIDISTIA AND THE ORIGIN OF THE TETRAPOD LIMB, WITH
DESCRIPTION OF A NEW GENUS OF OSTEOLEPIDAE

KEITH STEWART THOMSON

Department of Biology and Peabody Museum of Natural History
Yale University, New Haven, Connecticut 06520

(Received April 25, 1972)

ABSTRACT

A specimen of Sterropterygion brandei, gen. et sp. nov., a rhipidistian from
the Upper Devonian of Pennsylvania, shows for the first time the detailed
internal structure of the pectoral and pelvic fins and girdles in a member of
the Family Osteolepidae. The structure conforms to the general pattern once
thought to be directly antecedent to that of tetrapods but which now must
also be considered an ancient feature of rhipidistian fishes. It is contended
that the known Rhipidistia could not support their own weight during ter-
restrial locomotion through fin action alone and a scheme of evolution is
proposed according to which the paired fins of osteolepids and tristicopterids
evolved with a dual function: in locomotion and support of lung ventilation.

POSTILLA 157: 7p. 19 JULY 1972

2 POSTILLA 157
INTRODUCTION

In studies of the fish-tetrapod transition, great attention has been paid to the
paired fins and girdles of the ancestral group of fishes — the Devonian Rhip-
idistia. Andrews and Westoll (1970a,b) have recently summarized our
knowledge of the postcranial skeleton of Rhipidistia and contributed greatly
to our understanding of the early evolution of the pentadactyl limb. How-
ever, all such studies have had to depend heavily upon a single fish — the
lowermost Upper Devonian Eusthenopteron foordi Whiteaves (Family
Tristicopteridae, in the classification used by Thomson, 1969) and com-
parative materials have been scarce. The recent discovery of a well-preserved
member of the rhipidistian Family Osteolepidae (Figs. 1-5), showing for
the first time both the pectoral and pelvic fins, with girdles, provides an im-
portant source of new data.

The specimen with which the present notice is concerned was collected by
Mr. Scott Brande at a highway cut outcropping of an Upper Devonian forma-
tion in Lycoming County, Pennsylvania. The present preliminary account will
be followed at a later date by a full description and analysis. The new
osteolepid fish represents a new genus and species. A brief taxonomic
diagnosis is necessary.

CLASS OSTEICHTHYES
ORDER CROSSOPTERYGII
FAMILY OSTEOLEPIDAE

Genus Sterropterygion nov.

TYPE SPECIES. Sterropterygion brandei Thomson, nov.

PRELIMINARY DIAGNOSIS. Rhipidistian with dermal bones and rhomboid
scales bearing complete external covering of enameloid and dentine typical
of the Osteolepidae. Estimated total length 380 mm. First dorsal fin inserted
slightly behind the level of the pelvic insertion, and second dorsal in front of,
or level with, the anal. Number of dorsolateral scale rows in front of first

FIG. 1. Reconstruction of the general features of Sterropterygion brandei gen. et
sp. nov., Holotype.

PAIRED FIN EVOLUTION 3

dorsal, second dorsal and pelvic fins: 41, 53, 50 respectively. Tenth dorso-
lateral scale row with 6 scales above and 5 below the lateral line scale.
Dorsomedian scale row count: anterior division 41 + 1, median division 6;
length of anterior division approximately 4.7 times longer than the estimated
length of the ethmoidal division of the skull roof.

HORIZON AND LOCALITY. The Upper Devonian Susquehanna Group, probably
Catskill Formation, of Northern Lycoming County, Pennsylvania.

DERIVATIO NOMINIS: from the Greek for “‘firm-—fin.”

Sterropterygion brandei sp. nov.
HOLOTYPE and sole known specimen: YPM 6721, incomplete fish.
DIAGNOSIS AND OCCURRENCE. As for the genus above.

DERIVATIO NOMINIS: after the discoverer, Mr. Scott Brande.

DISCUSSION

The right pectoral fin of Sterropterygion brandei (Fig. 4) is almost complete.
The internal fin skeleton consists of a stout humerus with a large entepicon-
dyle, a long thin radius, and a short ulna supporting four more distal
elements. The ventral surface of the humerus is marked by a prominent row
of projections marking the insertion of the ventral flexor musculature and M.
pectoralis. The dorsal side bears only moderately developed processes for the
insertion of the deltoid muscles. The pectoral fin differs from that of
Eusthenopteron in that the lobed part occupies just slightly less than half (as
opposed to approximately one third) the total length of the fin. In the in-
ternal skeleton, the new fish is unique in its short and broad humerus with
a massive entepicondylar platform, the specialization of the ventral humeral
ridge into a series of large discrete processes for muscle insertion, the slender
and elongate radius, and the great breadth of the postaxial elements articu-
lated with the ulna.

The pelvic structures of Sterropterygion brandei are shown in Figure 5.
The internal fin skeleton differs from that of Eusthenopteron in being broader
and shorter, particularly in the distal elements. The pelvic fin lobe occupies
half the total length of the fin (as opposed to one third in Eusthenopteron).
The osteolepid pelvic girdle previously has been completely unknown; that
of Sterropterygion brandei consists of a pair of arch-shaped elements with
long anterior iliac processes coming close together in the midline. It is similar
to that of Eusthenopteron, differing only in the slightly greater breadth of the
dorsal public process.

4 POSTILLA 157

The discovery of Sterropterygion brandei reveals the remarkable fact that
there are no fundamental points of difference in pectoral or pelvic structure
between two families of Rhipidistia, the Osteolepidae and Tristicopteridae,
that have been distinct since least the Middle Devonian. (This confirms the
observation of Andrews and Westoll, 1970b, based on fragmentary pectoral
material of the Carboniferous osteolepid Megalichthys.) Moreover, there is
evidence that the osteolepids range back to the Lower Devonian (undescribed
material from China reported to be in the process of description, several
years ago, by Mi-man Chang). From the earliest fossil record of the
Rhipidistia there seem to have been two distinct patterns of paired fin
development. The holoptychoids (Porolepidae and Holoptychidae) had a
monoseriate pattern similar to that of lungfish and coelacanths and it is
extremely unlikely that they gave rise to any tetrapods (Schultze, 1970).
The biseriate condition seen in osteolepids and tristicopterids is equally
ancient and must be considered a primitive, rather than derived, character in
these lines. Thus, the biseriate condition of the paired fins, which shows great
similarity to that of the Amphibia in the proximal elements (but not the
distal elements) must be primarily an adaption for life in water. It is not a
specialization of the immediate tetrapod ancestors and it is extremely unlikely
that this condition evolved in response to selection involving specific factors
of semiterrestrial existence.

The following interpretation of the evolution of the tetrapod limb is sug-
gested by this new evidence. The paired fins of Rhipidistia seem to be adapted
primarily for slow swimming movements, much as in the modern lobe-finned
chondrostean Polypterus. Presumably, at an early point in their history, the
Rhipidistia began to make excursions overland. The possible environmental
and adaptive contents have been reviewed by Thomson (1969) and Andrews
and Westoll (1970a). But it is extremely doubtful that the pectoral and pelvic
limbs were sufficiently developed that these fish could “walk,” that is, move
through the actions of the paired fins alone. Furthermore, in all known
Rhipidistia there was a large fin web that would have been a severe
hindrance to attempts at rapid terrestrial movement, primarily by means of
limb movements with the fin sharply flexed ventrally to raise the trunk from
the ground.

It has been pointed out previously (Thomson, 1969) that, in their ex-
perimental movements overland, the prime new mechanical problem facing
the lobe-finned fishes was not locomotion but jung ventilation. Locomotion
was always possible by lateral body undulation, but lung ventilation required
that the anterior trunk (at least) be raised up so that the weight of the body
did not crush the lungs. While the pectoral limbs of Rhipidistia do not seem
to have been strong enough to contribute greatly to active terrestrial locomo-
tion, they were probably strong enough to lift up the anterior trunk when
the animal was at rest. Thus the paired limbs of Rhipidistia may have been
subject to two separate selective pressures. First, the fins were used as
relatively immobile props in terrestrial locomotion. The mode of progression

PAIRED FIN EVOLUTION 5)

was based on the normal sinuous movement of the body, but the trunk
musculature could also apply force around the fixed point where each paired
fin touched the ground. In this way a lever effect was produced and also the
opposite fin was raised off the ground as it was being swung forward. Any
addition to this action that could be made by the muscles and skeleton of
the fins themselves would be favored. Since this type of locomotion involves
a net raising of the trunk, lung ventilation would be facilitated. When the
fish was at rest, however, the only means for raising the anterior trunk would
be through the direct action of the fins themselves. This would require con-
siderably less strength and mobility than a similar action during active
locomotion and perhaps was possible from an early stage in rhipidistian
evolution. Any increase in this capacity would be favored, but it is worth
noting that the latter function applies more to the pectoral than pelvic fins
and this may be a partial explanation of their differential development toward
the pentadactyl condition.

Only significantly later (Late Devonian) came reduction of the fin web
and further modification of the internal fin skeleton (including development
of the carpus and tarsus) allowing greater mobility and more extensive
weight support. The robust development of the paired fins in Sterropterygion
brandei may indicate that it belongs to an advanced stage in this sequence,
but it remains essentially a fish and one must expect that the final stages will
be found in animals that were more amphibian than piscine in overall
organization.

ACKNOWLEDGMENTS

I am deeply grateful to Mr. Scott Brande for his careful collection of the fish
and its donation to the Peabody Museum of Natural History. Professor Z. D.
Bowen, University of Rochester, also recognized the importance of the
specimen and kindly brought it to my attention. The study would not have
been possible without the extraordinarily delicate and painstaking preparation
by Mr. Peter Whybrow. The photographs were taken by Mr. A. H. Coleman
and the study supported by National Science Foundation Grant GB 28823 X.

LITERATURE CITED

Andrews, S. M. and T. S. Westoll. 1970a. The postcranial skeleton of Eusthen-
opteron foordi Whiteaves. Trans. Roy. Soc. Edinb. 68: 207-329.
1970b. The postcranial skeleton of rhipidistian fishes excluding Eusthen-
opteron. Trans. Roy. Soc. Edinb. 68: 391-489.
Schultze, H-P. 1970. Folded teeth and the monophyletic origin of tetrapods.
Novitates 2408: 1-10.
Thomson, K. S. 1969. The biology of lobe-finned fishes. Biol. Rev. 44: 91-154.

6 POSTILLA 157

FIG. 2. General view of the right flank of Sterropterygion brandei gen. et sp. nov.,
Holotype. «0.55.

FIG. 3. Detail of the right pectoral fin of Sterropterygion brandei gen. et sp. nov.,
Holotype. x 1.2.

PAIRED FIN EVOLUTION q/

FIG. 4. The pectoral fin of Sterropterygion brandei gen. et sp. nov., Holotype.
Scales removed to show internal elements, ventral. x 1.0.

Mii | i

METRICIICM — 2! [i as

FIG. 5. The pelvic fin and girdle of Sterropterygion brandei gen. et sp. nov., Holo-
type. Prepared specimen showing both girdles and the left pelvic fin. x 1.0.

ale i _ =

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