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JUN 10 1969

POSTILLA

PEABODY MUSEUM
YALE UNIVERSITY

NUMBER 128. 25 FEB. 1969

A NEW THEROPOD DINOSAUR
FROM THE LOWER CRETACEOUS
OF MONTANA

JOHN H. OSTROM

POSTILLA

Published by the Peabody Museum of Natural History, Yale University

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A NEW THEROPOD DINOSAUR FROM THE
LOWER CRETACEOUS OF MONTANA

JOHN H. OSTROM

Peabody Museum of Natural History and Department of
Geology and Geophysics, Yale University

ABSTRACT

Deinonychus antirrhopus, a new genus and species of theropod
dinosaur is described from the Cloverly Formation (Lower Cre-
taceous) of southern Montana. The species is characterized by a
highly specialized pes bearing a very large, trenchant claw on digit
II, a highly raptorial manus with a very mobile carpus, and a
specialized caudal series with extremely long prezygapophyseal
and chevron rods. The new species is closely related to Dromaeo-
saurus albertensis, which features similar specialization of the
second pedal digit, and is referred to the family Dromaeosauridae
(—Dromaeosaurinae Matthew and Brown, 1922). Other species
with comparable pes structure that may be referred to this family
are Stenonychosaurus inequalis, Velociraptor mongoliensis and
Saurornithoides mongoliensis.

POSTILLA 128: 17 p. 25 FEBRUARY 1969.

2 POSTILLA

INTRODUCTION

Late in August, 1964, Grant E. Meyer of the Peabody Museum
staff and I discovered some fragmentary fossil remains of the
species herein described in exposures of the Cloverly Formation
(Early Cretaceous) near Bridger, Montana. Extensive quarrying
operations during the next two summers recovered more than
1000 bones representing at least three individuals. This collection
is the basis of a detailed analysis of the osteology, adaptations and
affinities of this remarkable new dinosaurian species (Ostrom, in
press).

During the course of the above study, this material was made
available to Drs. Edwin H. Colbert of the American Museum of
Natural History and Dale A. Russell of the National Museum of
Canada, who were collaborating on a new study of Dromaeosaurus
albertensis (Matthew and Brown, 1922) from the Oldman Forma-
tion of Alberta. This was particularly appropriate because it was
evident to each of us that Dromaeosaurus was more closely
related to the present species than to any other currently recog-
nized taxon, and any new analysis of Dromaeosaurus would be
incomplete without reference to and comparison with the new Yale
specimens. At that time it was believed that my detailed analysis
establishing this new species would be published well in advance
of the study by Colbert and Russell. However, at this writing
(December, 1968) a serious possibility exists that such cannot be
accomplished. Accordingly, the present brief description of the
new species is submitted in order that the name will be available.

Abbreviations used are as follows: AMNH — American Mu-
seum of Natural History; YPM — Peabody Museum, Yale Uni-
versity.

SYSTEMATICS

CLASS REPTILIA
ORDER SAURISCHIA
Suborder Theropoda Marsh, 1881
Family Dromaeosauridae (—Dromaeosaurinae Matthew
and Brown, 1922)

DEFINITION: Small to moderate-sized theropods, lightly built and
bipedal in posture. Fore limb not reduced. Manus long and slender

A NEW THEROPOD DINOSAUR 3

with three functional digits. Digit III moderately divergent and
carpus highly specialized with asymmetrical ginglymus on radiale.
Hind limb long, pes of moderate length and functionally didacty]l.
Digit Il modified as an offensive or predatory weapon with large,
trenchant claw. Digits III and IV subequal and normal, digits I and
V reduced. Eight to 9 cervical vertebrae, 13 to 14 dorsals and 3
to 4 sacrals. Caudal series of Deinonychus highly modified by
extremely long prezygapophyseal and chevron processes which
rendered the tail virtually inflexible throughout most of its length.
Comparable caudal modifications are presumed, but not known, in
other taxa referred to the family.

DISTRIBUTION: Late Aptian to Late Campanian or Early Maestrich-
tian, western interior of North America and central Mongolia.

Deinonychus, new genus
TYPE SPECIES: Deinonychus antirrhopus, new species.
DISTRIBUTION: Late Aptian, south central Montana.
DIAGNOSIS: Same as for the species, given below.

ETYMOLOGY: Deinos (Greek), terrible, and onyx (Greek; mascu-
line), claw or talon.

Deinonychus antirrhopus, new species
TYPE: YPM 5205, a complete left pes and an incomplete right pes.

HYPODIGM: YPM 5201, 5202, and 5203, three series of articulated
caudal vertebrae.

YPM 5204, part of the atlas, the axis, fourth and fifth cervicals
and the fourth, sixth, seventh and ninth dorsals.

YPM 5206, nearly complete left and right manus.

YPM 5210, an incomplete skull and jaws (vomers, left and right
quadratojugals, both squamosals, a left articular, left and right
pterygoids, a right ectopterygoid, right surangular, left jugal, right
angular, left dentary, and numerous teeth), the atlas, axis and

4 POSTILLA

seventh cervical, the first and tenth dorsals and an anterior (3rd
or 4th) caudal.

YPM 5232, consists of the right maxilla, right and left nasals,
right and left dentary, right and left (incomplete) premaxillae,
right and left jugals, right squamosal, both postorbitals, right
lachrymal, right and left articulars, left palatine, left angular and
right quadratojugal.

YPM 5207, 5208, 5209, 5211-5231, 5233-5265, various
isolated and fragmentary elements.

AMNH 3015, an incomplete skeleton, lacking the skull and
jaws.

AMNH 3037, fragmentary bones from the manus and pes.

HORIZON: Cloverly Formation, lower part of Unit VII (upper
part of Himes member of Moberly, 1960) and upper part of Unit
V (=Little Sheep mudstone member of Moberly, 1960), ranging
from 50 to 100 feet below the Sykes Mountain Formation. (Units
V and VII are defined in my report on the stratigraphy and pale-
ontology of the Cloverly Formation [Ostrom, MS]).

LOCALITIES: YPM 64-75 —NE % Sec. 17, T.7 S., R.24 E.,
Carbon County, Montana. AMNH 31-7 —NW 1% Sec. 33, T.4
S., R.29 E., Big Horn County, Montana. AMNH 32-8 — NE 4%
Sec. 32, T.4 S., R.29 E., Big Horn County, Montana.

DIAGNOSIS: A small, bipedal theropod with moderately large head,
moderately long and well developed hind limbs, fore limbs not
reduced, manus long and slender. Pes of medium length with four
digits, the fifth represented by a vestigial metatarsal. Digital
formula of the pes 2-3-4-5-0. Digits II and IV equal in length
and normal, digit II specialized and bearing a very large, trenchant
and strongly recurved ungual, I reduced and directed backward.
Pes functionally didactyl (III and IV). Distal end of metatarsal
II deeply grooved, metatarsal IIJ not greatly compressed proxi-
mally. Articular facets of II developed to permit unusual exten-
sion but very little flexion between first and second phalanges.
Manus with three very long digits (formula 2-3-4), digits IV and
V lost. Metacarpal I short and irregular in shape. Metacarpal
III long, slender and divergent from I. Carpus consists of radiale

A NEW THEROPOD DINOSAUR 5

and ulnare only. Radiale with well defined asymmetrical ginglymus
proximally for articulation with radius. Humerus and radius-ulna
not reduced. Skull with large, circular orbit and three antorbital
fenestrae. Supraorbital rugosities on postorbital and lachrymal.
Preorbital bar slender, in weak contact with thin, plate-like jugal.
Quadratojugal very small, T-shaped and apparently not in contact
with squamosal. Nasals long, narrow and unfused. Inferior pre-
maxillary process forms lower margin of external naris. Pterygoid
very long and slender, ectopterygoid complex and pocketed ven-
trally. Palatines expanded with subsidiary palatine fenestrae
medially. Fifteen maxillary teeth, 4 asymmetrical, sub-incisiform,
premaxillary teeth, 16 sub-isodont dentary teeth. All teeth with
anterior and posterior serrations; denticles of posterior serrations
nearly twice as large as denticles of anterior serrations on all teeth.
Twenty-two or 23 presacral vertebrae, 3 or 4 sacrals and approxi-
mately 40 caudals. Cervical vertebrae of moderate length, massive,
platycoelous and sharply angled. Dorsals short and platycoelous
to amphiplatyan with well developed hyposphene-hypantrum and
bearing short, stout neural spines. All presacrals with small but
deep pleurocoels. Caudal vertebrae long and platycoelous. All
caudals except the first 8 or 9 bear extremely long (up to 10 seg-
ments), rod-like, prezygapophyseal processes. Chevrons also
elongated into long, paired, double, bony rods extending forward
beneath the preceding 8 or 9 segments. Ischium with triangular
obturator process. Pubis (if correctly identified) short and greatly
expanded into a sub-circular, scoop-shaped element with a distinct
obturator foramen.

ETYMOLOGY: antirrhopus (Greek; masculine), counterbalancing,
in reference to the unusual adaptation of the caudal vertebrae.

DISCUSSION

The above diagnosis is based on the hypodigm and not on the type
alone. The fossil remains recovered from the Yale site were
closely associated, but largely disarticulated. The most notable
exceptions are the three articulated caudal series (YPM 5201,
5202 and 5203), a complete left pes and a fragmentary right pes
(YPM 5205), and a nearly complete left manus (YPM 5206).
Because more than one individual is represented, it is impossible

6 POSTILLA

to establish definite individual associations of the disarticulated
elements. Accordingly, the collections from this site have been
catalogued as more than 50 separate entries, although in fact they
may represent as few as three individuals. There is no doubt
in my mind that these remains belong to a single species and I
have thus based my diagnosis on the entire Yale sample, plus two
fragmentary specimens in the American Museum collections
(AMNH 3015 and 3037).

The most distinctive features of Deinonychus are the pes, carpus,
manus and caudal vertebrae. Each of these structures indicate an
animal of great agility and speed and a highly predaceous mode
of life.

The pes is basically tridactyl in design (although a reduced
hallux and a remnant of metatarsal V are present), but the foot
functioned as a didactyl structure in locomotion (Fig. 1). The
weight-bearing axis of the foot has been shifted from the normal
theropod position at digit III to a position between digits HI and
IV. Metatarsal IV is distinctly shorter than III, but digits III and
IV are equal in length, reflecting the fact that the weight was
borne equally by these two digits.

The second digit is highly specialized for a non-locomotory, pre-
datory function and quite probably did not contact the ground
at all under normal circumstances. The ungual of the second digit
is more than twice the size of the other unguals and is very strongly
recurved and trenchant in contrast to the straighter and broader
form of unguals III and IV (Fig. 2). Associated with this unusual
sickle-like claw of digit II are several other peculiar specializations
of the second digit. The distal joint is a very deeply grooved
ginglymus that permitted considerable flexion of the ungual (note
the very deep, parallel-sided articular facet of the ungual in Fig.
2a), but little extension. The joint between the proximal and
penultimate phalanges, on the other hand, permitted no flexion,
but allowed excessive (90° or more) extension (note the proximal
“heel” or projection of the distal phalanx and the unusual eleva-
tion of the distal facet of the proximal phalanx in Fig. 3). This
appears to be a unique adaptation for elevation of the sickle-like
claw above the ground, perhaps to prevent its damage during
normal locomotion. This joint, like the distal articulation, is an
unusually deeply grooved ginglymus (Fig. 3).

A NEW THEROPOD DINOSAUR 7

The distal end of metatarsal II is also unusual in that it is
deeply grooved, forming an asymmetrical ginglymus that had not
been recognized before in any other theropod. It is evident from
the deeply grooved form of all three joints that the second pedal
digit of Deinonychus was adapted for flexion and extension in a
narrowly restricted plane, and this seems to have been related to
the unusual size and recurved, trenchant form of the claw.

The manus is of the usual tridactyl form characteristic of most
theropod species. It differs from most, however, in its unusual
length and the relative size and trenchant, raptorial form of the
unguals (Figs 4 and 5). Digit HI is unusual in its slender form
and the fact that it apparently could be deflected away from the
other digits, although it probably was not opposable in the usual
sense.

The carpus consists of only two elements, ulnare and radiale;
these were highly modified to produce precisely limited abduction-
adduction and supination-pronation. The proximal facet of the
radiale is a strongly asymmetrical ginglymus that permitted per-
haps as much as 100° of abduction-adduction, and during the
final phases of abduction approximately 35 to 45° of supination
(Fig. 6). The proximal facet of the much smaller ulnare is a
simple oval concavity that could have permitted rotation of the
carpus and manus about the ulna long axis, as well as adduction-
abduction or flexion and extension. These highly sophisticated
movements of the wrist are entirely consistent with the raptorial
design of the manus.

The caudal vertebrae of Deinonychus are remarkable in the
extreme modification of the chevrons and prezygapophyses (Figs.
7 and 8). Posterior to the ninth or tenth caudal the chevrons are
not blade-like ventral processes, but are flat, wedge-shaped ele-
ments pointing caudally. The anterolateral corners of these
wedges are drawn out into long, double rods reaching lengths
of eight to ten segments. These rods, ranging from approximately
2 mm to less than 0.2 mm in diameter, are preserved in bundles
lying lateral to the lower half of the caudal centra. The prezy-
gapophyses are correspondingly elongated into double rods extend-
ing forward as much as 10 segments. These are identical in size,
shape and surface texture to the chevron rods and occupy a com-
parable position lateral to the neural arches. Both structures are

8 POSTILLA

present on all distal caudals; only the first eight or nine caudals
lacked them. Both rod types probably developed by ossification of
tendons associated with flexor and extensor muscles of the tail
and appear to have been an adaptation for controlled stiffening of
the tail. This feature seems best explained as an adaptation for
balancing, a critical faculty in an obligatory biped.

I have placed Deinonychus in the Dromaeosauridae because of
the almost identical form of the pes of Deinonychus and Dromaeo-
saurus. The latter is described in detail by Colbert and Russell
(in press), and is not discussed further here. Other taxa that
appear to be closely allied with Deinonychus on the basis of pes
structure are: Stfenonychosaurus inequalis Sternberg (1932),
Velociraptor mongoliensis Osborn (1924), and Saurornithoides
mongoliensis Osborn (1924). Accordingly, these are referred to
the Dromaeosauridae. Further discussion of these assignments is
included in my study of the osteology of Deinonychus that is now
in press.

ACKNOWLEDGMENTS

I am grateful to Drs. Edwin H. Colbert and Dale A. Russell for
many hours of stimulating discussion about Deinonychus and its
allies. I also thank Dr. Colbert for permission to include the
two American Museum specimens in this study and for providing
Barnum Brown’s field records pertaining to these specimens. The
photographs were taken by A. H. Coleman and the manuscript
was typed by Louise Holtzinger.

The discovery and collection of the Yale Deinonychus material
was possible only because of grants from the National Science
Foundation (GB-1015 and GB-3638), which are gratefully
acknowledged.

LITERATURE CITED

Colbert, Edwin H., and Dale A. Russell. [In press]. The small Cretaceous
dinosaur, Dromaeosaurus. Amer. Mus. Novitates.

Marsh, Othniel C. 1881. Principal characters of American Jurassic dino-
saurs. Pt. V. Amer. Jour. Sci., Ser. 3, 21: 417-423.

Matthew, William D., and Barnum Brown. 1922. The family Deinodontidae,
with notice of a new genus from the Cretaceous of Alberta. Bull.
Amer. Mus. Nat. Hist. 46: 367-385.

Moberly, Ralph, Jr. 1960. Morrison, Cloverly and Sykes Mountain For-
mations, northern Bighorn Basin, Wyoming and Montana. Bull.
Geol. Soc. Amer. 71: 1137-1176.

A NEW THEROPOD DINOSAUR g

Osborn, Henry Fairfield. 1924. Three new Theropoda, Protoceratops zone,
central Mongolia. Amer. Mus. Novitates, no. 144: 1-12.

Ostrom, John H. [In press]. Osteology of Deinonychus antirrhopus, an
unusual theropod from the Lower Cretaceous of Montana. Bull. Pea-
body Mus. Nat. Hist.

[MS] [Stratigraphy and paleontology of the Cloverly Forma-
tion (Lower Cretaceous) of the Bighorn Basin area, Wyoming and
Montana. |

Sternberg, Charles M. 1932. Two new theropod dinosaurs from the Belly
River Formation of Alberta. Canadian Field Naturalist 46: 99-105.

10

FIG.

Al

POSTILLA

Left pes of Deinonychus antirrhopus, YPM 5205 (type).

A NEW THEROPOD DINOSAUR 11

FIG. 2. Unguals of digits II (A) and II (B), left pes of Deinonychus
antirrhopus (YPM 5205), in medial (right) and proximal (left) views.
Notice the very long, narrow, parallel-sided articular facet of ungual II.

12 POSTILLA

FIG. 3. Phalanges of digits I and III, left pes of Deinonychus antirrhopus
(YPM 5205), in medial (above) and dorsal (below) views. Penultimate
phalanx is on the right in all series, adjacent (proximal) phalanx is at left.
Notice the prominent ventroproximal expansion or heel (h) of the distal
phalanx of Il, and the unusual elevation (e) of the distal facet of the
adjacent phalanx. Together these restricted flexion, but permitted extreme
extension (as shown in Fig. 1). Compare these features with those of the
equivalent phalanges of digit III. Notice also in the dorsal views the
deeper grooves of the ginglymoid facets of the second phalanges compared
with the phalanges of III.

A NEW THEROPOD DINOSAUR 13

Oo 2 2 8 2 Ch at 9h ns ate Bo
——
cm

ric. 4. Left manus of Deinonychus antirrhopus (YPM 5206) in palmar
view.

14

POSTILLA

on 2 S)euen4 BG. Fo te i
SE ee J
cm

FIG. 5. Left manus of Deinonychus antirrhopus (YPM 5206) in medial
view. Notice the unusual size and raptorial form of the unguals.

A NEW THEROPOD DINOSAUR 15

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FIG. 6. Proximal (A) and distal (B) views of the right carpals of
Deinonychus antirrhopus (YPM 5228). Notice the asymmetrical ginglymus
on the proximal surface of the radiale. The distal surfaces show distinct
facets for metacarpals I and II on the radiale and a sharply curved facet for
Ill on the ulnare. Abbreviations: R — facet for radius; U — facet for ulna;
I. I, 111 — facets for metacarpals.

POSTILLA

16

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