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COMP. 7
LIBRARY

FEB 23 1973

OL:

HARVAR
OD
UNIVERC, TY:

POSTILLA

PEABODY MUSEUM
YALE UNIVERSITY

NUMBER 155 29 MARCH 1972

A NEW TILLODONT FROM THE EOCENE
UPPER WILLWOOD FORMATION

OF WYOMING

KENNETH D. ROSE

POSTILLA

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A NEW TILLODONT FROM THE EOCENE

UPPER WILLWOOD FORMATION OF WYOMING

KENNETH D. ROSE

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

(Received November 19, 1971)

ABSTRACT

A left mandible of a new tillodont from the Upper Willwood, Early Eocene
of Buffalo Basin, Wyoming, is described. It represents a new genus and
species, Megalesthonyx hopsoni. Included as parts of the type specimen are
an upper incisor and several bones of the forefeet. Also referred to this
species are a lower premolar, an upper premolar and two upper molars.

The new specimen is intermediate between Esthonyx and Trogosus in time
and in many morphologic characters. Sufficient evidence is lacking to prove
that Megalesthonyx was ancestral to Trogosus, but most features now known
suggest that it was. The transitional state of this form supports the recognition
of a single family, Esthonychidae, for these strange mammals. Two sub-
families are observed. The Tillodontia are regarded as a distinct order, contra
Van Valen (1963), on the basis of extreme dental specializations.

POSTILLA 155: 13P. 29 MARCH 1972

2 POSTILLA 155
INTRODUCTION

Tillodonts have long been known as a small but distinctive mammalian group |
with enigmatic affinities. Yale expeditions to the Early Eocene deposits of |
the Bighorn Basin of Wyoming during the past decade have resulted in the |
discovery of many new and significant specimens. Among these are a lower _
jaw and three upper teeth representing a new kind of tillodont, found as-
sociated with remains of the perissodactyl Lambdotherium. Study indicates
that the new form is in many ways intermediate between the Early Eocene
genus Esthonyx and the Middle Eocene trogosines.

Our understanding of the taxonomic relationships of the tillodonts is still
somewhat confused. The new genus described here helps to bridge the fairly
wide anatomical gap between the dental and mandibular structures of
Esthonyx and Trogosus. Nevertheless, certain dental features discussed below
still justify the placement of these two genera in separate subfamilies.

ABBREVIATIONS
Abbreviations used in this paper are as follows:
AMNH American Museum of Natural History, New York, New York |

YPM Peabody Museum of Natural History, Yale University, New
Haven, Connecticut

SYSTEMATICS

ORDER TILLODONTIA Marsh, 1875
FAMILY ESTHONYCHIDAE Cope, 1883
SUBFAMILY ESTHONYCHINAE Zittel and Schlosser, 1911

Megalesthonyx,! new genus

TYPE. Megalesthonyx hopsoni, new species.
KNOWN DISTRIBUTION. Early Eocene, Upper Willwood Formation, Bighorn |
Basin, Wyoming.

DIAGNOSIS. Considerably larger than species of Esthonyx (about 40 to 50%
larger than E. grangeri, largest known species of Esthonyx), but slightly

smaller than species of Trogosus. Lower dental formula 3.1.3.3. Incisors of |

1Referring to the large size and the resemblance to Esthonyx.

ooo

A NEW TILLODONT 3

same morphology and relative proportions as those in Esthonyx. Canine
much reduced relative to that of Esthonyx. P. small, unicuspid, but double-
rooted. Short diastemata separating I; from C, C from Ps, and P, from P3;
the last-mentioned diastema is the longest. Talonid of P, reduced relative
to that of Esthonyx. Metastylids on the lower molars somewhat reduced
relative to those of Esthonyx. Cristid obliqua originates from protocristid
(see Szalay, 1969) more lingually (closer to metaconid) than in Esthonyx;
in this feature the molars resemble those of Trogosus. Jaw deepest beneath
M3. Robustness of mandible comparable to the condition in Esthonyx, but
not so robust as in Trogosus. Symphysis fused, robust, but relatively short, ex-
tending posteriorly to a point beneath the midpoint of P,. Upper molars
characterized by presence of prominent mesostyle, pronounced antero-
internal cingulum, and small beads or fold of enamel in trigon basin.

Megalesthonyx hopsoni,? new species

TYPE. YPM 18767. Collected by James Meade and Joseph Alpert in June,
1962. Left mandible (lacking ascending ramus) with Ij, C, Pou,
M;.3, and alveolus for I3; with symphysial region including right I, and
alveoli for right I, and C (see Figs. 1 and 2 and Table 1). Associated upper
left I?. Associated bones of the forefeet including left metacarpal I, right
metacarpal IV, proximal ends of two more metacarpals and distal ends of
four additional metacarpals, two complete proximal phalanges, fragments of
three more proximal phalanges, proximal end of one medial phalanx, one
complete distal phalanx, proximal end of another distal phalanx, and several
indeterminate fragments.

HYPODIGM. Type specimen (YPM 18767); right P,; (YPM 27334); two
upper cheek teeth (YPM 17594); and an upper molar (YPM 27333).

LOCALITY AND HORIZON. YPM Locality 33, NE %4, SE %4 Sec. 22, T.49 N.,
R.98 W., Buffalo Basin of the Bighorn Basin, Wyoming. Early Eocene,
Upper Willwood Formation.

DIAGNOSIS. Only known species of the genus.

DESCRIPTION. This is the largest esthonychine known, considerably larger
than Esthonyx grangeri Simpson, 1937, a Clark Fork form, or E. acutidens
Cope, 1881, a contemporary of Megalesthonyx.

The three incisors in each ramus are of the same morphology as those of
Esthonyx. They are only slightly curved and not so laterally compressed as

*Named for Dr. James A. Hopson who, while at Yale, studied the type specimen and kindly
forwarded his notes to me.

4 POSTILLA 155

in Trogosus. They are not gliriform and show no indication of growing from
persistent pulp. The root of Ip extends to a point below the anterior part of
P,. This compares favorably with Esthonyx, but contrasts with Trogosus, in
which the rootless I, extends at least to a point below P, and possibly further.
The extent of the enamel approximates an intermediate condition between
Esthonyx, in which enamel covers most of the mesial and distal sides of the
incisors, as well as the labial face, and Trogosus, in which enamel extends
only slightly beyond the labial side onto the mesial and distal sides. As in
Esthonyx, the enamel extends slightly further distally than medially. The
relative size of I, to I, is close to that in Esthonyx, not displaying the much
greater size difference seen in Trogosus. Although I, is not present in the
type of M. hopsoni, its alveolus indicates that it was somewhat smaller than
I,.

A short diastema separates the canine from I;. Contrary to the condition
in Esthonyx, the canine and most anterior premolar are greatly reduced.
The canine is still relatively high but not so procumbent as in Esthonyx,
inclining forward only about 15° from the vertical. The enamel is confined
to the crown portion and is worn away on the lingual wear facet. In
Esthonyx, C is about the same size or even larger than Ip. The condition in
Megalesthonyx appears to be approaching that in Trogosus, where the canine
has effectively lost its significance.

P, is separated from C by a short diastema. Although the tooth is greatly
reduced, as in Trogosus, it remains two-rooted, as in Esthonyx. This feature
is fairly clear from external examination of the type, but was confirmed in
X rays of the specimen. Both roots of Ps are almost directly in line with the
tooth row, contrary to the condition in Esthonyx, where the anterior root
may be situated labially up to 45° from the line of the tooth row. P» bears
a single anteroposteriorly extended cusp.

The largest diastema separates P3; from Py». (P3-M3 are closely packed.)
Although the mandible is fractured at this point, it is still possible to discern
a slight rise in the level of the tooth row at the anterior root of Ps, as in
Trogosus. P3 is little different from that in Esthonyx. A prominent anterior
cusp is followed by a low talonid basin; the talonid cusps cannot easily be
distinguished on the talonid crest.

P, differs from P4 of Esthonyx in the somewhat reduced talonid (approach-
ing the condition in Trogosus), but this tooth is still nearly molariform. A
short, low fold of enamel extends posteriorly from the metaconid but does
not bear a distinct metastylid cusp.

The molar series does not vary greatly, except in size, among tillodonts.
A consistent character is the presence of a metastylid lower than and poster-
ior to the metaconid. In Megalesthonyx, the metastylid is distinct only on
M,, and is represented only by a short crest posterior to the metaconid on
M, and Ms. In Mz this is no more distinct than the similar development on
P,. The talonid cusps are joined by a continuous crest extending from the
protocristid through to the entoconid. In all the molariform teeth, the cristid

A NEW TILLODONT 5

obliqua portion of the crest originates more lingually than in Esthonyx, from
a point nearing the metaconid.

The ramus is rather shallower and less robust than in Trogosus, re-
sembling Esthonyx in this respect. The symphysis, though well fused and
robust, is the shortest in any tillodont observed, extending back only to a
point below the middle of Ps. In Esthonyx the symphysis usually extends
to a point below the contact of P,; and P,, whereas in Trogosus it extends
back to a point beneath the anterior part of M,. In the later Bridger Eocene
genus Tillodon the symphysis may extend posteriorly slightly farther. The
mental foramen in the type of Megalesthonyx is a single opening situated
beneath P., but this character is very variable in tillodonts.

TABLE 1. MEASUREMENTS (IN MILLIMETERS) OF TYPE SPECIMEN
OF Megalesthonyx hopsoni, YPM 18767

I,, greatest diameter at alveolus 6.2
I,, | greatest diameter at alveolus 11.0
I,, diameter of alveolus 4.0
G; greatest diameter at alveolus 5.8
P,, anteroposterior (mesiodistal) diameter 5.0
labiolingual diameter 3) 72

P,, anteroposterior diameter 10.4
labiolingual diameter 6.3

P,, anteroposterior diameter ES)
greatest labiolingual diameter 9.0

M,, anteroposterior diameter 125
greatest labiolingual diameter 10.0

M,, anteroposterior diameter 16.2
greatest labiolingual diameter Li 572
M., anteroposterior diameter 21.5a
greatest labiolingual diameter 10.4
Depth of mandible at posterior root of M, 31.0
Depth of mandible at posterior root of P, 293
Left I?: buccolingual diameter at base of crown 12.6
mesiodistal diameter at base of crown 10.4

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a = approximate

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‘adAy “ds ‘u ‘tuosdoy xfuoyjsajpsapy “| “1a

POSTILLA 155

A NEW TILLODONT

FIG. 2. Megalesthonyx hopsoni, n. sp., type, YPM 18767, occlusal view
(stereophotograph, 1).

8 POSTILLA 155

Only a single upper tooth is preserved in the type; it is left I?. The
structure, relative size, and extent of enamel in this tooth resemble more
closely I? of Esthonyx than that of Trogosus, but in many details the
tooth is intermediate between the two. The tooth (and root) curves through
an arc of nearly 90° and is therefore more curved than in Esthonyx, though
not to such a degree as in Trogosus. In cross-section at the base of the crown
it is roughly triangular, broad and flattened, or even slightly concave lingual-
ly, but rather laterally compressed and rounded labially. The root is not
tapered but remains approximately the same diameter as at the base of the
crown. Enamel is confined to the crown of the tooth, as in Esthonyx (but
unlike Trogosus), covering the entire distal (lateral) side and most of the
labial surface. On the labial surface, enamel may have extended slightly
below the gum line. The enamel on the lingual face of I? has been completely
worn off in this specimen. Enamel extends only onto the labial half of the
mesial side. A longitudinal bulge runs from the tip of the root to a point
about halfway up the crown of the tooth.

Although the end of the root of this I? is not totally closed, this condition
may be due to the young age of the individual. The tooth was not persistently
growing in the sense that it was in Trogosus. On the other hand, this I?
may represent a transitional condition in which the tooth kept growing, and
the root remained open, for a longer period of time than in Esthonyx. The
fact that Trogosus evolved a persistently growing I* suggests that selection
favored those individuals in which enamel extended far down on the labial
surface of the incisors (eventually covering the whole tooth, which became
“rootless”), and in which the incisors grew continually through life. The
tendency for a shift toward the trogosine condition may have been present
in Megalesthonyx.

Also belonging to the type specimen are several bones of the forefeet,
consisting of all or part of eight metacarpals, all or part of five proximal
phalanges, the proximal end of a medial phalanx, and two terminal phalanges
(claws). Although the detail of these elements is obscured by a fine iron-
stone veneer, their general structure is approximately intermediate between
those of Esthonyx and those of Trogosus. The metacarpals and proximal
phalanges are more robust than in Esthonyx but still relatively longer and
narrower than in Trogosus. The constriction of the shaft of the metacarpals
just distal to the base (proximal end) is not as pronounced as in Trogosus
but is more evident than in Esthonyx. The two complete metapodials are
left metacarpal I and right metacarpal IV. The proximal ends are close in
structure to those of previously known tillodont specimens, especially AMNH
17008, the type of Trogosus grangeri Gazin. In metacarpal I the base is a
broad, transversely concave surface for articulation with the trapezium. As
in Trogosus, the medial side of the proximal extremity projects much further
proximally than does the lateral side. In metacarpal IV, the proximal end is
somewhat convex dorsoventrally and very slightly concave transversely. A
proximal end of a metacarpal, exhibiting a deep transverse concavity, is

a) ee

A NEW TILLODONT 9

probably left metacarpal IJ. Another specimen reveals a gently convex prox-
imal facet of trapezoidal shape; it most likely represents left metacarpal III.

The proximal phalanges are like those in previously known tillodont
specimens. The length is about the same is in Trogosus, but the diameter
of the shaft and dimensions of the proximal end are smaller than in Trogosus.

The claws are long, curved, and laterally compressed. They are nearly
as long as in some specimens of Trogosus but seem to be slightly more
gracile than the majority of Trogosus claws. The proximal articulation is
narrower dorsally than ventrally, but the transverse diameter varies con-
siderably in the two claws preserved in the type. The bulbous palmar process
for attachment of the tendon of the flexor profundus digitorum is quite
prominent.

Three upper cheek teeth in the Yale collection are here referred to
Megalesthonyx hopsoni (Table 2). The teeth [a molar and premolar, YPM
17594, and a molar, YPM 27333 (Fig. 3)] are not associated with the type
specimen but are from a nearby locality, YPM locality 3, NE 4, NW %4
Sec. 26, T.49 N., R.98 W., which is of the same stratigraphic level as the
site of the type.

In size and morphology these three teeth could readily occlude with the
lower jaw of M. hopsoni, but in detail are unlike upper teeth of any other
known tillodont species.

The premolar (right P*) exhibits a prominent primary cusp followed
posteriorly by a smaller crestlike cusp (tritocone of Gazin and others). The
enamel at the base of the primary cusp is somewhat crenulated. A basal
anteroexternal cingulum gives rise to a strong parastyle, and a somewhat
weaker but longer posteroexternal cingulum terminates at a well-developed
metastyle. The lingual cusp (deuterocone of Gazin and others) is prominent,
but the specimen is damaged and it is impossible to determine if an internal
cingulum or hypocone was present.

The molars are quadrate, characterized by a widely flaring hypoconal
crest and a prominent mesostyle. This hypoconal crest is as wide as that
observed in any other tillodont molars. The mesostyle, on the other hand,
is totally unknown in any other tillodont. In the molar of YPM 17594 (a
left M! or M?), metastyle and parastyle are both well developed, the former
perhaps slightly more so. The external cingulum in this tooth bears several
smaller, lower cuspules, subsidiary to the parastyle and metastyle. A short,
low anterior cingulum is present lingually. The trigon basin exhibits small
beads of enamel, resembling the enamel folds seen in some Trogosus molars,
though not so well developed. This feature has not been found in any speci-
men of Esthonyx. In YPM 27333 (left M*?), the external cingulum is less
apparent and there is no metastyle, which suggest that this may be M?. The
anteroexternal region of the tooth is missing, so the parastylar development
cannot be determined; however, there are indications that the parastyle was
prominent. The anterointernal cingulum is long and pronounced, consider-
ably more so than in YPM 17594. A small fold of enamel present in the

10 POSTILLA 155

FIG. 3. Upper teeth of Megalesthonyx hopsoni, n. sp. (stereophotographs,
x1). A. YPM 17594, left molar. B. YPM 17594, right P®?. C. YPM 27333,
left molar (M3?).

trigon basin approximates more closely than does YPM 17594 the condition
found in Trogosus.

PHYLETIC POSITION OF Megalesthonyx hopsoni

Megalesthonyx hopsoni is assigned to the subfamily Esthonychinae primarily
on the basis of the morphology of the incisors. It is contemporary with the
latest species of Esthonyx and just precedes the first known occurrence of
Trogosus.

It is generally accepted that Trogosus was derived from Esthonyx, and
there is as yet no evidence to contradict this view. Intermediates have not
previously been known, however, but Megalesthonyx is intermediate strati-
graphically and morphologically. The most significant morphologic features
are the extent of enamel on I, and I?, the open root of this tooth (possibly
due to the age of the individual, as noted above), reduction of the canine
and Py (while P. remains two-rooted) and of the talonid of P,, and the
presence of enamel folds in the trigon basin of the upper molars. The ab-

|
|

A NEW TILLODONT I

TABLE 2. MEASUREMENTS (IN MILLIMETERS) OF UPPER TEETH

YPM 17594, premolar: right P3
gratest anteroposterior (mesiodistal) diameter 14.2
greatest labiolingual diameter 15.5

YPM 17594, molar: left M? or M!
greatest anteroposterior diameter 15.6
greatest labiolingual diameter AA leA?

YPM 27333, molar: left M3?
greatest anteroposterior diameter 14.5
greatest labiolingual diameter 21.4a

a = approximate

solute size is intermediate. The degree of reduction of C and Py», and the
presence of diastemata closely approximate Trogosus.

There are, however, at least two problems in regarding Megalesthonyx
hopsoni as a transitional form between Esthonyx and Trogosus. The incisors
still basically reflect the plan seen in Esthonyx, with only subtle hints of a
shift to the trogosine condition. The second and more important point con-
cerns the prominent mesostyle present in the upper molars of Megalesthonyx
hopsoni, but absent in its ancestor Esthonyx and supposed descendant
Trogosus. It seems most unlikely, though not impossible, that this structure
would develop to such an extent in a rather short time and be lost completely
in an equally brief period. Also notable is the prominence of the antero-
internal cingulum in the upper molars. In YPM 27333, this cingulum is as
fully developed as in any Esthonyx specimen known to me. On the other
hand, this structure is greatly reduced or absent in Trogosus.

These considerations suggest that Megalesthonyx hopsoni itself may not
be the intermediate species, but that some as yet unknown species of the
genus, or perhaps some other closely related form, was directly ancestral to
the trogosines. In any event, it is highly probable that Megalesthonyx is very
close to the ancestor-descendant line between Esthonyx and Trogosus.

A NOTE ON TILLODONT TAXONOMY

The tillodonts have frequently been accorded ordinal rank. Van Valen
(1963) revised their status to suborder and transferred them to the Condy-
larthra. I hesitate to follow this allocation, for it overburdens the already
diverse order Condylarthra, while obscuring the extreme specialization
achieved by Middle Eocene tillodonts. Thus it seems more useful at present
to retain ordinal status for the Tillodontia. On the other hand, I agree with
Van Valen’s conclusion that the order was derived from the Arctocyonidae.

12 POSTILLA 155

Most authors have distinguished at least two subgroups of tillodonts. In
the most recent study of the order, Gazin (1953) grouped all tillodonts in
a single family, Esthonychidae Cope, 1883, which he divided into two sub-
families, Esthonychinae and Trogosinae. This classification has been re-
examined during the course of this study and it seems appropriate to
maintain it here. The subfamily Esthonychinae, including Esthonyx and
Megalesthonyx, is characterized by the presence of large but rooted second
incisors. The Trogosinae have large gliriform second incisors which grow
from persistent pulp. Included in this subfamily are Trogosus, Tillodon, and
Kuanchanius, the last from the Middle Eocene of Shantung Province,
China (Chow, 1963). Adapidium (Young, 1937) also from China, is known
from posterior dentition only and cannot at present be assigned definitely to
either subfamily.

There has been some dispute as to which family name should be applied.
Esthonychidae, observed by Gazin (1953), is the most appropriate name,
for the other two family names should be regarded as invalid. Anchippodonti-
dae Gill, 1872, is undoubtedly the earliest named tillodont family, but it is
based on a genus of indeterminate type (nomen dubium), Anchippodus,
which is probably a trogosine. The family name Tillotheriidae should like-
wise be rejected, in the interest of stability, as it is based on the invalid genus
Tillotherium. (Tillotherium hyracoides Marsh has since been referred to the
genus Trogosus. Marsh later named Tillotherium fodiens, which is clearly
of different generic affinities; Gazin (1953) proposed the genus Tillodon for
this form. Tillotherium, therefore, has been used for animals of two different
genera and must be regarded as invalid). Although the International Com-
mission of Zoological Nomenclature has not issued an opinion for this case
(1.e., family names based on totally invalid genera, not genera merely reduced
to junior synonymy), it seems in the interest of stability to use the name
Esthonychidae rather than any other proposed name.

The view that the tillodonts represent a single family is strengthened by
Megalesthonyx hopsoni, which has been shown to be roughly intermediate
between Esthonyx and Trogosus. Although future evidence may prove cther-
wise, it still seems appropriate to maintain two subfamilies, in recognition
of the adaptive shift evident in the gliriform incisors of the trogosines.

ACKNOWLEDGMENTS

I have profited greatly from many discussions with Dr. Malcolm C. McKenna,
Dr. Elwyn L. Simons, Thomas M. Bown, John G. Fleagle, and Dr. James A.
Hopson. I am grateful to them also for reading the manuscript and offering
helpful suggestions. I thank also Dr. C. L. Gazin for reviewing the manu-
script. Dr. Hopson generously provided me with notes he prepared concern-
ing the type mandible. Dr. Simons (Peabody Museum of Natural History),
Dr. McKenna (American Museum of Natural History) and Dr. G. L. Jepsen

A NEW TILLODONT i

(Princeton University Museum) kindly permitted access to specimens under
their care.

Joseph Piper of the Hospital of St. Raphael, New Haven, made X rays
of the type mandible. The photographs are by A. H. Coleman. The manu-
script was typed by Louise Holtzinger.

Field research resulting in the collection of the specimens described above
was supported in part by grant G-23701 from the National Science Founda-
tion. Grants from the Office of the Dean of Yale College and the Connecticut
Research Commission are gratefully acknowledged.

LITERATURE CITED

Chow, Minchen. 1963. Tillodont materials from Eocene of Shantung and Honan.
Vertebrata PalAsiatica 7: 97-104.

Cope, E. D. 1881. On the Vertebrata of the Wind River Eocene beds of Wyoming.
Bull. U.S. Geol. & Geogr. Terr. 6: 183-202.

1883. On the mutual relations of the bunotherian Mammalia. Proc. Acad.
Nat. Sci. Philadelphia: 77-83.

Gazin, C. L. 1953. The Tillodontia—an early Tertiary order of mammals. Smith-
sonian Misc. Colln. 121(10): 110 p.

1962. A further study of the lower Eocene mammalian faunas of south-
western Wyoming. Smithsonian Misc. Colln. 144(1): 98 p.

Gill, Theodore. 1872. Arrangement of the families of mammals with analytical
tables. Smithsonian Misc. Colln. 11(1): iv, 98 p.

Marsh, O. C. 1875. New order of Eocene mammals. Amer. J. Sci. (3)9: 221.

Simpson, G. G. 1937. Notes on the Clark Fork, upper Paleocene, fauna. Amer.
Mus. Novitates no. 954: 24 p.

Szalay, F. S. 1969. Mixodectidae, Microsyopidae, and the insectivore-primate
transition. Bull. Amer. Mus. Nat. Hist. 140: 193-330.

Van Valen, Leigh. 1963. The origin and status of the mammalian order Tillo-
dontia. J. Mammal. 44: 364-373.

Young, C. C. 1937. An early Tertiary vertebrate fauna from Yuanchii. Bull. Geol.
Soc. China 17: 413-438.

Zittel, K. A. and M. Schlosser. 1911. Grundziige der Palaontologie. R. Olden-
bourg, Munich and Berlin.

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SMENCLATURE
LLUSTRATIONS

FOOTNOTES
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REFERENCES
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COPYRIGHT

INFORMATION FOR AUTHORS

The Publications Committee of the Peabody Museum of Natural
History reviews and approves manuscripts for publication. Papers
will be published in approximately the order in which they are
accepted; delays may result if manuscript or illustrations are not in
proper form. To facilitate review, the original and one carbon or
xerox copy of the typescript and figures should be submitted. The
author should keep a copy.

Authors of biological papers should follow the Style Manual for
Biological Journals, Second Edition (Amer. Inst. Biol. Sci.). Authors
of paleontological manuscripts may choose to follow the Sugges-
tions to Authors of the Reports of the U.S. Geological Survey,
Fifth Edition (U.S. Govt. Printing Office).

Maximum size is 80 printed pages including illustrations (= about
100 manuscript pages including illustrations). Manuscripts must be
typewritten, with wide margins, on one side of good quality 814 x 11”
paper. Double space everything. Do not underline anything except
genera and species. The editors reserve the right to adjust style and
form for conformity.

Should be precise and short. Title should include pertinent key
words which will facilitate computerized listings. Names of new
taxa are not to be given in the title.

The paper must begin with an abstract. Authors must submit com-
pleted BioAbstract forms; these can be obtained from the Postilla
editors in advance of submission of the manuscripts.

Follow the International Codes of Zoological and Botanical Nomen-
clature.

Must be planned for reducton to 414 x 7” (to allow for running
head and two-line caption). If illustration must go sideways on
page, reduction should be to 4 x 714”. All illustrations should be
called “Figures” and numbered in arabic, with letters for parts
within one page. It is the author’s responsibility to see that illustra-
tions are properly lettered and mounted. Captions should be typed
double-spaced on a separate page.

Should not be used, with rare exceptions. If unavoidable, type
double-spaced on a separate page.

Should be numbered in arabic. Each must be typed on a separate
page. Horizontal rules should be drawn lightly in pencil; vertical
rules must not be used. Tables are expensive to set and correct;
cost may be lowered and errors prevented if author submits tables
typed with electric typewriter for photographic reproduction.

The style manuals mentioned above must be followed for form and
for abbreviations of periodicals. Double space.

Each author receives 50 free copies of his Postilla. Additional copies
may be ordered at cost by author when he returns galley proof.
All copies have covers.

Author receives galley proof and manuscript for checking printer’s
errors, but extensive revision cannot be made on the galley proof.
Corrected galley proof and manuscript must be returned to editors
within seven days.

Any issue of Postilla will be copyrighted by Peabody Museum of
Natural History only if its author specifically requests it.

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