'tilt

HARVARD UNIVERSITY

Library of the

Museum of

Comparative Zoology

0^ I MUS. CO MP. ZOOL.

«g / 1^% LIBRARY

OCCASIONAL PAPERS AUG 1 2 1Q74

of the HARVARD

MUSEUM OF NATURAL HISTORY

The University of Kansas
Lawrence, Kansas

NUMBER 29, PAGES 1-60 JULY 19, 1974

SYSTEMATIC RELATIONSHIPS OF NEOTROPICAL

HORNED FROGS, GENUS HEMIPHRACTUS

(ANURA: HYLIDAE)

By
Linda Trueb^

In the minds of all but the most resolute and devoted systematic
biologists, taxonomic study frequently is viewed as a necessary
tedium, economically dispatched so that one can move on to more
interesting aspects of the biology of an organism. However, occa-
sionally one chances upon an animal that because of its literary
antiquity, bizarre appearance and habits, and questionable rela-
tionships is of intrinsic interest. Such is the case of the extraordi-
nary horned frogs of the genus HemipJiractus. These Neotropical
frogs are denizens of undisturbed cloud forests, montane and low-
land tropical rainforests from Panama south to Bolivia. Mating
calls are unknown in the group, as are breeding congregations.
Solitary individuals are found perched on low vegetation in the
forest at night, and, only rarely, a fortunate collector has found a
female carrying eggs or young upon her back. Although these frogs
have been known for 150 years, onl\' about 200 preser\ed specimens
exist, and more than 50 percent of these ha\'e been obtained in the
course of extensive field work in Panama, Ecuador, and Peru within
the last eight years. The familial association of this genus has been
subject to constant debate since the first species was named in
1824. The morphological pecuHarities have been described, re-
described, and largely misinterpreted for an equal length of time.
And, \irtually nothing is known about the breeding biology, habits,
or population structure of these frogs. In view of the uniqueness

1 Adjunct Curator, Di\ision of Herpetolog>-, Museum of Natural History,
and Department of Systematics and Ecology, The Unixersity of Kansas.

2 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

and relative rarity of Hemiphracttis and the apparent restriction of
its species to the rapidly diminishing, undisturbed tropical forests,
I feel that it is appropriate to review the systematic status of these
unusual frogs. Hopefully, this constitutes only a preface to dis-
covery and subsequent study of other aspects of their biology.

The specific objectives of this study are threefold: (1) to define
the genus Hemiphractus and the various species that properly are
allocated to it; ( 2 ) to assess the intrageneric relationships and prob-
able phylogenetic history of the group; and (3) to discuss the
possible intergeneric relationships of this anuran genus. A historical
resume provides a synopsis of the taxonomic history of these frogs.
Morphological characters judged to be of systematic importance
are discussed in an analysis of characters. Finally, wdthin each
species account, I have included available information concerning
the habitat, habits, food, color in life, and reproduction.

MATERIALS AND METHODS

Specimens examined include 182 preserved frogs inclusive of the
type specimens of all nominal taxa except Hemiplir actus scutatus,
for which the type no longer exists. Osteological observations were
based on 13 dry skeletal preparations and one cleared and stained
specimen; these were supplemented by radiographs of three addi-
tional individuals. I have observed living individuals of all species
except Hemiphractus johnsoni and H. scutatus. Colored photo-
graphs were available for all species. Specimens are identified
throughout the text by their catalogue numbers preceded by the
appropriate museum abbreviation, as follows:

AMNH American Museum of Natural History

ANSP Academy of Natural Sciences of Philadelphia

AUM Auburn University Museum

BMNH British Museum (Natural History)

BYU Brigham Young University

CAS California Academy of Sciences

CAS-SU Stanford University Collection ( In California Academy of

Sciences)

FMNH Field Museum of Natural History

KU The University of Kansas Museum of Natural History

LACM Los Angeles County Museum of Natural History

MCZ Museum of Comparative Zoology, Harvard University

MNCN Museo Nacional de Ciencias Naturales, Madrid

NHRM Naturhistoriska Riksmuseet, Stockholm

UIMNH University of Illinois Museum of Natural History

UMMZ University of Michigan Museum of Zoology

USC-CRE University of Southern California — Costa Rica Expedition

USNM United States National Museum (=National Museum

of Natural History)

ZSM Zoologisches Sammlung Miinchen

Because Hemiphractus lack any ob\'ious, external secondary
sexual characteristics, the sexes of all adult and subadult specimens

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

Fig. I. Schematic dorsal and lateral views of skull of Hemiphractus scutatus
showing various cranial dimensions measured. Skull approximately natural size;
subtemporal fenestra indicated by hatching. Abbrexiations: HL, head length;
HW, head width; PP, posterior projection of paraoccipital process. See text
for explanation of subscript notations.

were determined by examining the gonads. As a result, frogs less
than 30 mm snoiit-vent length were classified as juveniles, whereas
those with poorly developed gonads and snout-\ent lengths less
than the observed ranges for sexually mature individuals (see
Table 2) were classified as subadults. Adult females were divided
into three classes depending upon the size of ovarian eggs which
varied from minute (less than 1 mm diameter) to moderate-sized
(between 1 and 3 mm diameter) to large (greater than 3 mm
diameter). In several individuals the oviducts were distended but
empty; usually such a female either had eggs or young associated
with her or showed evidence (depressions on the back) of having
recently carried young. When the information was available, date
(month) of specimen collection was plotted with respect to repro-
ductive state to determine what, if any, reproducti\'e cycles seem
to prevail. These data are summarized in the Remarks section of
each species account.

Although most measurements taken on these frogs are standard
and self-explanatory, a number of additional cranial dimensions
have been recorded that require brief explanation. These are
shown schematically in figure 1. Standard head length (HLi) was
measured from the angle of the jaw to the medial articulation of
the premaxillaries; unless otherwise noted, all references to head
length denote this measurement. Medial head length ( HLo ) repre-
sents the distance from the posteromedial articulation of the fronto-
parietals to the medial articulation of the premaxillaries anteriorly.
Lateral head length (HL3) is a measurement from the distal tip

4 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

of the paraoccipital process to the premaxillaries. The length of
the paraoccipital process projection (PP) beyond the angle of the
jaw was computed as follows: (HLo-HLi)/HLi. Standard head
width (HWi) represents the greatest head width measured across
the maxillary arch; unless otherwise noted, all references to head
width denote this measurement. The distance between the distal
tips of the paraoccipital processes is noted as HWo.

A number of new and/or special names or phrases are employed
in this paper to describe certain cranial features. The most impor-
tant of these and their definitions are listed below. Most, together
with the general structures of the hemiphractine skull, are illustiated
and labeled in figure 2.

1. Postorbital indentation. — (Fig. 2a); the emargination of the postero-
dorsal rim of the orliit.

2. Paraoccipital process. — (Fig. 2a, h, c); the posterior, projecting horns
composed of the squamosal and frontoparietal bones.

3. Otic margin. — (Fig. 2a); the lateral edge of the paraoccipital process
and the squamosal.

4. Subtemporal fenestra. — (Fig. 2a, c); the lateral fenestra bounded
anteriorly by the maxillary, dorsally by the squamosal and posteriorly
by the quadratojugal.

5. Supraorbital ridge. — (Fig. 2a); the bony frontoparietal ridge located
at or near the dorsal margin of the orbit and the lateral edge of the
frontoparietals; variable in presence, shape and length.

6. Preoccipital ridge. — (Fig. 8); transverse frontoparietal ridge lying
parallel to the occipital flange and uniting the posterior termini of the
supraorbital ridges.

7. Postorbital ridge. — (Fig. 2a); the bony frontoparietal ridge located
along the posteromedial margin of the postorbital indentation.

8. Zygomatic ridge. — (Fig. 2c); a bony ridge variable in degree of de-
velopment and extent; ridge is constituted by squamosal posteriorly
and maxillary anteriorly, and usually extends diagonally ventrad from
the posterior border of the ventral arm of the squamosal to the postero-
ventral margin of the orbit.

9. Canthus in section. — a phrase used to describe the configuration of the
snout-loreal region in transverse section; thus, the canthus may be
rounded {i.e., obtusely angular) or angular (i.e., acutely angular).

ACKNOWLEDGMENTS

I am grateful to the following persons for the loan of specimens
and/or provision of working space in their respective institutions:
F. Bernis, James E. Bohlke, James R. Dixon, Alice G. C. Grandison,
Walter Hellmich, W. Ronald Heyer, Alan E. Leviton, Hymen Marx,
Charles W. Myers, the late James A. Peters, Jay M. Savage, Doro-
thy M. Smith, Greta Vestergren, Charles F. Walker, Ernest E.
Williams, John W. Wright, and Richard G. Zweifel. Photographs
of living frogs and valuable field notes were generously provided
by Martha L. Crump, William E. Duellman, Charles W. Myers,
Catherine A. Toft, John E. Simmons and David B. Wake. Michael
E. Whitenton contributed many hours of xolunteer labor devoted

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

Maxillary
Canthal /

Premaxillary

Alary process
Prevomer

Nasal

Sphenethmoid

Supraorbital ridge
Frontoparietal
Subtemporal
fenestra

Postorbital
ndentction

Paraoccipital
process

Sphenethmoid

Cu I triform process
of parasphenoid

Pterygoid
Columella

Quadratojugal
Squamosal

Sphenethmoid
Maxillary

Occipital flange-
Frontoparietal-
Nasal-

Squamosal

Zygomatic ridge

Occipital condyle
Subtemporal fenesta
Pterygoid

Quadratojugal

Angular

Fig. 2. Skull of Hemiphractus prohoscideus (KU 124139, 9; ca.
X 1.5). Top: dorsal \iew. Middle: \entral view. Bottom: Lateral
view of skull and mandible. Dermal ornamentation not shown.

6 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

to measuring preserved specimens. The success of my own and my
colleagues' field work in Ecuador was significantly enhanced through
the provision of transportation by the Texaco Petroleum Company
and the hospitahty of Ing. Ildefonso Munoz B. of Santa Cecilia,
Ecuador. William E. Duellman, Alan E. Leviton and John D.
Lynch critically reviewed the manuscript. Juan Leon graciously
provided a Spanish translation of the Summary.

Although this manuscript is a result of my long-standing interest
in the systematics and biology of casque-headed hylids, I wish to
extend special thanks to George S. Myers and Alan E. Leviton who
share my interest in these peculiar frogs and who generously con-
tributed the unpublished results of their earlier investigations of
Hemiphractus. I gratefully acknowledge their generosity and the
impetus provided by both gentlemen towards the completion of
this contribution to an understanding of these enigmatic frogs.

HISTORICAL RESUME

Frogs of the genus Hemiphractus are among the most bizarre of
anurans. Taxonomically, they have been known since the first
species was described and illustrated by Spix in 1824. Because of
their extraordinary aspect and adventitious appearance in early
collections (namely those of Spix, Jimenez de la Espada, and
Moritz Wagner in the early to mid-19th Century), commentary on
this peculiar group of anurans occurred quite frequently in the
literature of the late 1800's and early 1900's. There was an early
proliferation of specific names associated with the genus, and a
spate of misinformation has been perpetuated throughout the litera-
ture of the past 150 years. In an attempt to clarify the history of
this genus, a review is presented below.

Spix (1824:28, Pi. IV, Fig. 2) described Rana scutata; perhaps
the most significant statement in his brief description is as follows,
''maxillae ensiformes, superior denticulafo, inferior non dentata,
apice intus suhaculeata." Gravenhorst (1825:920) proposed a new
leptodactylid genus, Stombus, and included three species in it —
Rana cornuta Linne, R. megastoma Spix, and R. scutata Spix. Sub-
sequently, Wagler (1828:735 and 743, PI. X, Figs. 1-5) provided a
short description and set of illustrations of the type specimen of
scutatus. As opposed to Spix's statement, Wagler contended that
the frog had mandibular teeth; on that basis he erected a new
genus, Hemiphractus. Furthermore, he proposed the substitute
name Hemiphractus spixii. Subsequently, Wagler (1830) gave a
more complete description of the type specimen, placing it in the
order "Ranae" within the family "R. phaneroglossaeT Only passing
mention was made of this single specimen of Hemiphractus in the
succeeding 32 years, and in several herpetological works of this
period, it was suggested that Hemiphractus was allied with lepto-

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 7

dactylids and, in particular, the genus Ceratophrys (e.g., see Du-
meril and Bibron, 1841:430, and Giinther, 1858:26).

The first substantial contribution to our knowledge of Hemi-
phractus is that of Peters ( 1862 ) . In this paper he proposed that
the genus was allied to "climbing" or "treefrogs." Peters (p. 146)
reinstated the specific name scut at us, which has priority over
Wagler's substitute name, spixii, and on the basis of his examination
of Spix's specimen, provided a detailed morphological account and
illustrations of the frog (pp. 146-149, PI. 1, Figs. 1-6). To my
knowledge, this is the last detailed published description of scutatus
that is based on examination of the type specimen, although Noble
(1926:18) briefly mentioned it. Presumably, the t\'pe, which was
housed in the zoological collections at Munich, was destroyed or
lost during World War II. Peters described and illustrated (1862:
149-152, PI. 2, Figs. 1-4) a second species, Hemiphractus fasciatus.
He provided (p. 145) the first adequate definition of Hemiphractus
and placed the genus within the family Hemiphractidae, which he
distinguished from other anuran families on the basis of the follow-
ing combination of characters: 1) absence of parotoid glands;
2) small transxerse processes of the sacral vertebrae; 3) presence
of teeth on the palatine bones; 4) presence of rudimentary inter-
digital \\ ebbing; 5) presence of a round, attached tongue; and 6)
presence of flattened digital tips. Significanth', Peters did not in-
clude the "presence of 'growing' teeth on the mandible" in his
definition of the family, but this character is included in the ge-
neric definition (p. 145) preceding that of the family.

In his paper on the structure and distribution of arciferous
Anura, Cope (1866:69) included the Hemiphractidae and Cystig-
nathidae (=Leptodact\'lidae) in the third of three "groups" of
arciferal frogs. The "group" was defined as ha\ing cylindrical
sacral diapophyses and procoelous vertebrae. The Hemiphractidae
was distinguished from the Cystignathidae by the presence of
mandibular teeth in the former and their absence in the latter. In
Cope's definition of the Hemiphractidae, he concluded (p. 88)
that, "It [the Hemiphractidae] is probably intermediate between
the Hylidae and Cystignathidae." Cope (1868:114) described a
third species of Hemiphractus, H. divaricatus, collected by Pro-
fessor James Orton from "Peru, Napo and Maranon rivers."

Jimenez de la Espada ( 1871 ) reported on his extensive collec-
tions from South America, including an account of Hemiphractus
scutatus and the description of a new genus, Ceratlujla. He dis-
tinguished (pp. 62 and 63) CeratJu/la from Hemiphractus in a
general way, noting that Hemiphractus was "toad-like," whereas
Cerathyla was "hylid-like." The latter conclusion probably was
based on the larger size of H. scutatus and the reduction of its
digital discs as contrasted with the smaller specimens with ex-

8 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

panded digital discs allocated to Cerotlujla. Both genera were
placed in the family Hemiphractidae, and the family within a "sec-
tion" entitled Hemiphractina ( Opisthoglossa Platydactyla: Ba-
trachia Salientia: Amphibia). In this paper (p. 64), four new
species were described and placed in the genus CerathijJa. These
are: 1) C. proboscidea from Sumaco, Ecuador, 2) C. bubahis from
Archidona, Ecuador, 3) C. pabnarum from San Jose de Moti, Ecua-
dor, and 4) C. braconnieri from Archidona, Ecuador.

Brocchi (1877) published a detailed osteological study of Hemi-
phractus scutatus. His osteological illustrations (Pi. 16) are plenti-
ful and accurate. Although Brocchi correctly stated that H. scutatus
possesses odontoids on the mandible instead of true teeth, he er-
roneously described the vertebrae as being opisthocoelous. Bou-
lenger (1882:451-455) maintained scutatus and divaricatus in the
genus Hemiphractus, and in an obvious error, cited Cerathi/la as
CeratohyJa. He distinguished the two genera on the basis of dilated
(Ceratohyla) versus non-dilated (Hemiphractus) digital discs.
Boulenger included braconnieri, pabnarum, bubahis, proboscidea,
and fasciata in the genus Ceratohyla. The family Hemiphractidae
(including three genera — Hemiphractus, Ceratohyla, and Amphodus
[=PhyUodytes]) was included in Boulenger's Series Arcifera
(suborder Phaneroglossa: order Ecaudata: class Batrachia).

Unfortunately the mistakes of Brocchi and Boulenger were
perpetuated and compounded by Gadow ( 1901 ) who recognized
hemiphractines as a subfamily, Hemiphractinae, and allied it with
the leptodactylids (p. xi; family Cystignathidae: suborder Phanero-
glossa: order Anura: subclass Lissamphibia: class Amphibia).
Gadow's Hemiphractinae contained three genera (Hemiphractus,
Ceratohyla, and Amphodus) and, among other things, was char-
acterized by 1 ) teeth on both jaws, the vomers, and palatine bones,
or on the palatines and parasphenoids in Amphodus, and 2) opis-
thocoelous vertebrae. He further stated (p. 210) that the skin
of the head is involved in cranial ossification in Hemiphractus.

Two additional species of Cerathyla were described in 1917.
The first, C. panamensis, was described by Stejneger (1917:31)
from Signal Loma on the north coast of Panama. The second,
C. johnsoni, was named by Noble (1917:789) from Santa Rita
Creek, Departamento Antioquia, Colombia. Miranda-Ribeiro (1926:
118) described Hemiphractus bouJenjieri from the Buckley col-
lection from "Ecuador." Finally, Noble (1926:18-19) synonymized
Cerathyla with Hemiphractus, noting that both genera are char-
acterized by procoelous vertebrae, sliglitly dilated sacral diapoph-
yses and broad, overlapping coracoid cartilages in the pectoral
girdle. Noble ( 1931 ) later recognized the subfamily Hemiphrac-
tinae (family Hylidae: suborder Procoela: order Salientia) within
which he included all hylids in which tlie females carry eggs on

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 9

their backs. This assemblage comprises Hemiphractus, Crypto-
hatraclnis, Gcisfrotlwca, and Amphignatliodon; parenthetically, it
should be noted that Amphignathodon does possess tiaie mandibular
teeth.

The most recent species to ha\'e been described in this group
is Ceratohijla cristata from the Rio Pastaza watershed in Ecuador
by Andersson (1945:18), who placed the genus in the family
Leptodactylidae. Contemporaneously, Myers and Carvalho (1945:
18-19) described a recently acquired individual of Hemiphractus
scutatus. In comparing the specimen ( Museu Nacional No. A842
from the state of Amazonas, Brasil) with Boulenger's (1882:452)
description of scutatus and that of Miranda-Ribeiro (1926:118) for
Hemiphractus houJengeri, they implicitly concluded that houlengeri
was not distinct from scutatus. FinalK', Myers and Carvalho (pp.
20-21) described a large female Hemiphractus, also from Amazonas,
Brasil. On the basis of comparison of this specimen with Bou-
lenger's (1882) account of ])uha}us and Noble's (1926) description
of joluisoni, they erroneously placed jolinsoni in the synonymy of
huhaJus and designated Cerathyla huhaJus Jimenez de la Espada
as the type species of the genus Cerathyla. The description of this
specimen ( Museu Nacional No. A841 ) and accompanying photo-
graphs (Figs. 17 and 18) clearly indicate that the indixidual is
identified correctly as Hemiphractus phnsoni and not Hemiphractus
huhalus.

Hemiphractus W'agler, 1828

Hc'i}ii])Jiiactus Wagler, 1828, column 713 [T\pe species. — HemipJiracttis spixii

Wagler, 1828 i=Rana scutata Spix, 1824) by monotypy]. Nohle, 1926:19

synonymy of Ceratliyla with Hemiphractus.
Ccrathijla Jimenez de la Espada, 1871:63 [Type species. — CcratlujJa huhalus

Jimenez de la Espada, by subsecjuent designation ( Myers and Carvalho,

1945:21)].
Ceratolujla Boulenger, 1882:453 [lapsus for Cerathyla].

Diagnostic definition. — 1) Skull extensively casqued, character-
ized by prominent, posterolaterally projecting paraoccipital proc-
esses; 2) dermal roofing bones exostosed in a reticulate and/or
tuberculate pattern of dermal sculpturing; .3) dermal roofing bones
not co-ossified; 4) maxillary, premaxillary, and prevomerine teeth
fang-like and curved inward when present; 5) palatine edentate,
bearing serrations; 6) mandible bearing odontoid serrations and a
pair of enlarged, fang-like odontoids in the area of the mandibular
symphysis; 7) cultriform process of parasphenoid o\erlapped an-
teriorly by prevomers; 8) arciferal pectoral girdle with minute
omosternum, small clavicles, broadly overlapping epicoracoid carti-
lages, and massive coracoid bones; 9) presacral vertebrae procoe-
lous, with enlarged neural spines which protrude dorsally in living
and preserved specimens; 10) ilium bearing distinct dorsal crest;

10 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

11) vocal sacs and vocal slits absent; 12) submentalis muscle ex-
tremely small and aiaphic; 13) intermandibularis muscle uniffer-
entiated, incompletely developed anteriorly, and bearing an exten-
sive median aponeurosis; 14) small, fleshy proboscis on terminus
of snout; 15) one or more prominent, fleshy tubercles on the eyelid;
16) tympanum large and vertically ovoid with its surface plane ori-
ented at a distinct angle to the longitudinal axis of the body; 17)
hands large with we]l-de\eloped, non-bifid subarticular tubercles,
ovoid, elevated thenar palmar tubercle and diffuse, cordiform outer
palmar tubercle; 18) fingers basally webbed or lacking webbing,
length from shortest to longest 2-1-4-3; 19) nuptial excrescence
absent; 20) toes basally to one-half webbed; 21) pupil horizontal;
22) palpebrum clear; 23) eggs carried on back of female where
young undergo direct development and are attached to dorsal skin
of female by means of gill structures.

Content. — As defined here, the genus Hetnipliractus contains
five known species (Table 1): H. fasciatus Peters, H. huhalus
(Jimenez de la Espada), H. prohoscideus (Jimenez de la Espada),
H. johnsoni ( Noble ) , and H. scutatus ( Spix ) .

Distribution. — Upper Amazon Basin of Colombia, western Brasil,
Ecuador, Peru, and Bolivia ascending the slopes of the Andes to
elevations of 1830 m; northern and eastern slopes of the Cordillera
Occidental and Cordillera Central of the Andes in northern Co-
lombia; Pacific slopes and lowlands of northwestern Ecuador,
Colombia, and eastern Panama; Caribbean slopes of western Pan-
ama ( to elevations of 1600 m ) .

ANALYSIS OF CHARACTERS

CraniuDi. — The cranial architecture of HemipJnactus is unique
and, in its own fashion, as strange as the better known pipids and
ceratophryine leptodactylids. The dermal roofing bones are ex-

Table L — Alphabetical Synonymy of the Species of Hemiphractus.

Trivial Name, Original Generic Name, Author, Date Current Name

houlengeri, Hemiphractus, Miranda-Rilieiro, 1926 H. sctttotus

hiaconnieri, Cciathijla, Jimenez de la Espada, 1871 H. huhalus

huhalus, Cerathyla, Jimenez de la Espada, 1871 H. huhalus

cristata, Ceratohijla, Andersson, 1945 H. prohoscideus

divaricatus, Hemiphractus, Cope, 1868 H. scutatus

fasciatus, Hemiphractus, Peters, 1862 H. fasciatus

johnsoui, Cerathyla, Noble, 1917 H. johusoni

})almarum, Cerathyla, Jimenez de la Espada, 1871 H. Jjuhalus

panamensis, Cerathyla, Stejneger, 1917 H. fasciatus

prohoscidea, Cerathyla, Jimenez de la Espada, 1871 H. prohoscideus

scutatus, Raua, Spix, 1824 H. scutatus

spixii, Hemiphractus, Wagler, 1828 H. scutatus

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 11

tensively casqued, so that in dorsal aspect the skulls appear to be
heavily armored triangular structures characterized by robust, pos-
terolaterally projecting paraoccipital processes (Fig. 2). The latter
processes are formed jointly by posterolateral growth of the fronto-
parietals and otic rami of the squamosals. Although the skulls are
casqued and ornately exostosed in a reticulate pattern (Figs. 8,
11, and 14), the dermal bones are not co-ossified with the covering
skin. In each species the neurocranium is solidly roofed. The
maxillaries are characterized by massive de\elopment of the pars
facialis both preorbitally and postorbitally (Fig. 2b). An analogous
lateral element has arisen from the quadratojugal in the temporal
region. The quadratojugal is characterized further by the presence
of one or t\vo bony tubercular projections posterolaterally. Denti-
tionally, most Hemiphractus are armed with fang-like, inwardly
curved maxillar\', premaxillary, and prevomerine teeth (Fig. 2b, c).
The premaxillary series is interrupted medially by a slight diastema
into which the mandibular odontoids fit when the mouth is closed.
When present, the prevomerine dentition is limited to one to three
teeth clustered on a low pedicle on the anterior part of the pre-
vomer; //. joJin.soni lacks prexomerine teeth. The mandible has
an exceedingl)- broad and massi\e articular surface. The angular
and dentary bones ha\e a well-developed, thin bony ridge bearing
a series of odontoid serrations (Fig. 2c). Anteromedially, there
are paired odontoid structures which are similar in size and con-
figuration to the maxillar\- teeth and distinctl\- larger than the other
mandibular odontoids. These large mandibular odontoids seem
to arise from the anteriormost end of the dentary bone. The den-
taries lie closely adjacent to one another; there is no indication of
mentomeckelian ossification.

A variety of other interesting osteological features is visible in
the ventral aspect of the skull (Figs. 2b, 9, 12, and 15). The pre-
vomers of the genus are attenuate structures which extend from
the level of the palatines to the anterior end of the maxillary. In
addition to the teeth described abo\e, each prevomer bears a
median, serrate ridge which extends from the level of the teeth,
posteriorly, to the terminus of the bone. The lateral wings of the
prevomers are reduced, forming only the anteromedial margin of
the choanae. The palatines are slender structures which are nar-
rowly separated medially and which bear series of irregular odon-
toid serrations. The parasphenoid has a noticeably long cultri-
form process which extends anteriorly between the palatines and
terminally is overlapped by, or juxtaposed to, the prevomers. The
cultriform process is smooth in all species except johnsoni (Fig. 15)
in which it usually bears an indistinct median keel. The most
dominant ventral element is the pterygoid bone. The anterior
ramus of this structure articulates with a massixe bony process of

12 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

the maxillary (herein referred to as the pterygoid process of the
maxillary) and extends posteriorly to the otic region of the neuro-
cranium. The medial ramus arises at this level. In ventral view,
only the ventral edge of the medial ramus is visible as it articulates
with the anterior edge of the parasphenoid ala. The medial ramus
consists of a diffuse, vertically oriented sheet of bone which faces
the anterior surface of the otic capsule and extends laterally from
the otic capsule forming a thin wall of bone. The bone attaches
to the expanded ventral ramus of the squamosal, thereby forming
a partition between the orbital and otic regions of the skull. The
posterior ramus of the pterygoid is notable for its massive articular
surface. With the exception of scutatus, which bears a series of
odontoids along the anterior, lingual margin of the anterior ramus
of the pterygoid, the pterygoids of Hemiphractus are edentate and
smooth.

There are two distinct types of skulls in the genus Hemiphractus.
One group, composed of scutatus (Fig. 1) and fasciatus (Figs. 11
and 12), is characterized by especially massive skulls which lack
a postorbital fenestra and which are obviously much broader than
long (Table 2). Preoccipital and postorbital cranial ridges are
absent and the supraoccipital, canthal, zygomatic and maxillary
ridges tend to be indistinct, especially in large females. In lateral
view, it is evident that the subtemporal fenestra is relatively small;
consequently, the lateral elements of the quadratojugal, squamosal,
and maxillary are greatly expanded as contrasted to the same
elements in }ohnsoni (Fig. 14), bubalus (Fig. 8), and prohoscideiis
(Fig. 2c). The snout regions of scutatus and fasciatus are not
depressed; the alary processes of the premaxillaries are inclined
posteriorly at approximately a 45 degree angle. Ventrally, the
pterygoid process of the maxillary can be seen to arise at approxi-
mately the midlength of the maxillary arch. Hemiphractus fasciatus
can be distinguished readily from H. scutatus by the presence of
pterygoid odontoids in the latter and the obvious difference (Figs.
1 and 11) in the respective orientations of the paraoccipital proc-
esses. Moreover, the sphenethmoid is completely obscured dorsally
in scutatus and joJinsoni, whereas a small part of this element is
visible in fasciatus.

The second group, composed of johnsoni, huhalus, and pro-
hoscideus, is characterized by somewhat less extensively casqued
skulls which are only slightly longer than broad (Table 2; Figs. 2,
8, 9, 14, and 15). Each of these species has a postorbital indenta-
tion. The indentation is smallest in johnsoni and rounded; whereas
huhahis and prohoscideus are characterized by larger indentations
that are noticeably broader than long. All three species have zygo-
matic, maxillary, canthal, and supraorbital cranial ridges; the ridges
are least evident in johnsoni and best developed in hul)ahis. Hemi-

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

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OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

phractus Imhalus has a well-developed preoccipital ridge which is
absent in prohoscideus and incompletely developed in johrisoni.
The postorbital ridge is present only in huhalus. The subtemporal
fenestra is proportionately much larger in this group than in either
scutatus or fasciatus. The snout regions of prohoscideus and hu-
halus are elongated and depressed, the alary processes of the pre-
maxillaries being posteriorly inclined at approximately a 25 degree
angle. The snout of johnsoni is intermediate in character between
that typical of scutatus and fasciatus and that characterizing huhahis
and prohoscideus. Ventrally, the pterygoid process of the maxillary
lies posterior to the midlength of the maxillary arch. Hemiphracius
johtvwni is distinguished from all other members of the genus by
the presence of an indistinct mid-ventral parasphenoid keel in
some individuals and the absence of prevomerine teeth.

Pectoral girdle. — The pectoral girdle is arciferal but character-
ized by a number of unusual features (Fig. 3). A cartilaginous
omosternum is present but minute in size. The epicoracoid carti-
lages are extensive and the precoracoid bridge exceedingly narrow.
The sternum consists of a large, flat cartilaginous plate with no
evidence of ossification or calcification. The coracoid bones are
massive; these elements are expanded medially and broadly over-
lapping. The clavicles of huhalus, prohoscideus (Fig. 3c), and
johnsoni (Fig. 3d) are moderately well-developed elements. Those
of fasciatus (Fig. 3b) are less robust in comparison, and those of
scutatus (Fig. 3a) are reduced to very slender elements. The
clavicles are straight and oriented more nearly perpendicular to

Fig. 3. Pectoral girdles of Hemiplimcfus in ventral view. Suprascapiilae
and left scapulae not shown. Stippled areas represent cartilaginous or secon-
darily ossified portions of girdle, a) H. scutatus; h) H. fasciatus; c) H. pro-
hoscideus; d ) H. johnsoni.

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 15

the midline of the body than is typical of most hylids. The scapulae
are robust, bicapitate elements. The suprascapulae are well ossified
in the area of the cleithrum; however, ossification is limited to this
leading edge and a diftuse proliferation of bone along the basal,
articular margin of the element.

Vertebral column. — The vertebral columns of Hemiphractiis are
uniformly procoelous and have non-imbricate neural arches. The
transverse processes of presacral xertebrae III through VIII tend
to be wide {i.e., nearly as broad as, or broader than, the sacrum)
and uniform in length (Table 3; Fig. 4a). This tendency is most
evident in scutatus and prohoscideus and least evident in jolinsoni,
huhalus and fasciotus. The cervical cotyles have a moderately wide
medial separation; however, they are more closely associated to one
another than is characteristic of other hylids. The cotyles are quite
distinctly stalked or notched in scutatus and fasciatus (Fig. 4c) in
contrast to the remaining three species (Fig. 4f). Although there
is no fusion between the cervical and second presacral vertebrae,
the cervical bears a neural spine which articulates with the neural
spine of the second presacral ( Fig. 4b ) . Perhaps the most striking
vertebra] character of this genus is the series of enlarged neural
spines ( Fig. 4b ) . Although each presacral bears a well-developed
neural spine, one or two of these spines are noticeably enlarged.
In scutatus the third neural spine is larger, whereas in fasciatus
it is the sixth, and in jolmsoni the se\'enth. The fourth neural spine
is enlarged in huhaJus: in prohoscideus the fourth and fifth are
about equal in size and distinctly larger than the other neural spines.

There is a tendency for the skin to adhere to the neural spines
in all species. In fasciatus and scutatus the skin is only loosely
connected to the tops of the posterior two to four neural spines.
The skin of the remaining three species is applied firmly to the
entire neural spine; thus, in both preserved and fixing specimens,
the neural spines appear to protrude dorsally through the skin
although they do not actually do so. In jolmsoni the posterior five
or six neural spines distinctly protrude, whereas in prohoscideus
and huhalus six or sex^en neural spines are exident. In each of these
species, the skin tends to be more loosely applied to the posteromost
neural spine.

The sacrum is posterolaterally oriented in each species and only
moderately expanded. In all species, except scutatus (Table 3),
the width of the sacral diapophyses is less than that of the transverse
processes of the eighth presacral vertebra. The urostyle bears a
bicondylar articulation xxith the sacrum and a xvell-dex'cloped dorsal
crest (Fig. 4b; Table 3). The ventral shaft of the urostyle bears a
sfight lateral expansion in all species except huhalus. Proportion-
ately, the urostyle is shortest in scutatus (Table 3).

16 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

Fig. 4. Vertebral column structure of Hemiphractus. a) Dorsal view of
vertebra] column of H. fasciatus; b) Lateral view of vertebral column of H.
fasciatus; c-e) Cei"vical vertelira of H. fasciatus (c, ventral \iew; d, anterior
view; e, right lateral view); f-h) Cer\ical vertebra of H. piobuscidetis (f, ven-
tral view; g, anterior view; h, right lateral view).

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

17

Table 3. — Axial dimensions of Hemiphractus. Values expressed as percent-
ages. Abbreviations: TPW, ratio of width of transverse processes of presacral
vertebrae to sacral diapophyses widtli; UHD, ratio of diameter of urostyle
shaft to urostyle length; UHP, ratio of greatest height of urostyle (at proximal
end of crest) to urostyle length; UL, ratio of urostyle length to average snout-
vent length of adult of same sex as measured.

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TPW II

73.7

76.7

78.0

72.3

81.2

TPW

III

100.8

102.8

99.2

89.9

103.4

TPW

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105.9

92.6

92.4

81.5

91.5

TPW

V

96.6

99.4

93.2

92.4

93.2

TPW

VI

95.8

108.0

101.7

99.2

97.4

TPW

VII

99.2

111.9

105.1

105.0

103.4

TPW VIII

99.6

110.8

107.6

110.9

108.5

UL .

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35.1

32.2

31.1

31.7

UHP

22.8

16.9

18.1

13.3

13.5

UHD

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4.5

4.5

2.8

3.4

Pelvic girdle. — The pelvic girdle is characterized by a well-
ossified ilium and ischium, and a cartilaginous or secondarily calci-
fied pubis (Fig. 5). The ilium bears a distinct crest in each species;
it is least well developed in scutatus ( Fig. 5a ) . The ilial crest tends
to have a slightly irregular dorsal margin in fasciatus (Fig. 5c) and
joJmsoni (Fig. 5e), whereas the dorsal margin is distinctly serrate
in proboscideiis and huhalus (Fig. 5b, d). The ilial crest terminates
posteriorly in a prominent, rounded ilial protuberance in scutaius

Fig. 5. Pelvic girdles of Hemiphractus in left lateral view. Stippled areas
represent acetabular cavity, a) H. scutatus; b) H. proboscideiis; c) H. fasciatus;
d) H. huhalus; e) H. johnsoni.

18

OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

and fasciatus; although present, the protuberance is much less dis-
tinct in bubalus, proboscideus, and joJmsoni.

Hand and foot. — Although the phalangeal formula of Hemi-
phractus is the same as most other hylids ( i.e., 2-2-3-3; exclusive of
intercalary cartilages), the relative lengths of the digits is unusual.
In the majority of hylids the length of the digits from shortest to
longest is 1-2-4-3. However, in Hemiphractiis the first metacarpal
is relatively longer and the second shorter; thus, the pattern is
2-1-4-3. This configuration is typical of some leptodactylid groups,
and only a few other hylids. The prepollex is small. The terminal
phalanges are blunt, claw-like structures. Intercalary cartilages are
uniformly present.

The phalangeal formula of the foot is the expected 2-2-3-4-3 ( ex-
clusive of intercalary cartilages ) . Intercalary cartilages are present,
and the terminal phalanges are like those of the hand. The pre-
hallux is only moderately developed in each species except scutatus,
in which it is very well developed. In the latter species this element
is anvil-shaped and is composed of three bony elements.

Skin. — HejnipJiractus is characterized by a number of striking
dermal modifications. Chief among these is the presence of a fleshy
proboscis on the tip of the snout in each species. The proboscis is
small, triangular and dorsoventrally flattened in all species except
proboscideus, in which the structure is proportionately much larger
and laterally compressed (Fig. 6). The upper eyelids are coarsely
granular and bear one or more enlarged, fleshy tubercles (Fig. 7).
In Hemiphractiis johnsoni and scutatus the eyelids are coarsely
granular with one or two slightly enlarged conical tubercles. Hemi-
phractiis fasciatus has a single enlarged tubercle and scattered,
smaller tubercles on an otherwise granular eyelid. In proboscideus
and bubalus there is a cential, enlarged conical tubercle which is

Fig. 6. Heads of two species of Hemiphractiis showing the two types of
proboscises characteristic of the genus. Hatched drawings at lower left repre-
sent cross-sectional views of proboscises of a) H. huhalus and b) H. probosci-
deus. ( Both heads ca. X 1.5).

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

19

-pgUiB

Fig. 7. Tuberculation of eyelids in Hemiphractus. a) H. johnsoni; b) H.
fasciatus; c) H. bubalus.

flanked by several slightly smaller tubercles. All species bear one
to three tubercular projections at the angle of the jaw; these, how-
ever, are bony projections of the quadratojugal and not fleshy
tubercles. Typically, the dorsal surfaces of the forearms are tu-
berculate. Tubercles are scattered in johnsoni and fasciatus, whereas
they are oriented in transverse or oblique rows corresponding to
forearm marks in the remaining species. Tuberculation of the
dorsal and outer surfaces of the hind limbs corresponds to that of
the forearm except in fasciatus and johnsoni. In fasciatus tubercles
are indistinct and aligned in transverse rows, and in johnsoni tu-
bercles are absent or poorly developed. Each species bears three
or four slightly enlarged tubercles at the knee. These are best
developed in scutatus and least developed in johnsoni. Well-
developed calcars are present on the heels of pwhoscideus and
Jnihalus. The calcar is poorly developed in fasciatus and jolmsoni,
and absent in scutatus.

The skin of the back is shagrcened. A few small, scattered tu-
bercles are variably present on the back; these are most evident
in scutatus. The posterior surfaces of the thighs are moderately
granular in all species except prohoscideus in which they are nearly
smooth. The flanks and ventral surfaces are smooth in johnsoni.
There are scattered, low subconical tubercles on these surfaces in
fasciatus, whereas the flanks and \enters of buhahis and prohosci-
deus are finely granular. The flanks and venter, especially the
abdomen and ventral surfaces of the thighs, are coarsely granular
in scutatus.

External characters of hands and feet. — Hands of Heiniphractus
are characterized by reduced webbing, well-developed subarticular
tubercles, and low supernumeraiy tubercles. The fingers of johnsoni,
huhalus, and prohoscideus are unwebbed. In fasciatus webbing
may be absent or basal, and in scutatus the digits are about one-
fourth webbed. All species have well-developed adhesive discs
except scutatus. In the latter species, the tips of the digits are either
scarcely expanded or not expanded at all; the poorly-developed

20 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

adhesive discs are visible ventrally. The subarticular tubercles are
round and non-bifid. The thenar tubercle is elliptical and elevated,
whereas the outer palmar tubercle is a flat, difi^use structure tend-
ing to have a cordiform shape. There are no nuptial pads or ex-
crescences present in males.

The feet, like the hands, have reduced webbing, well-developed,
non-bifid subarticular tubercles, and relatively few supernumerary
plantar tubercles. Webbing is basal in huhalus, fasciatus, and
joJmsoni; whereas the toes of prohoscideus are about one-fourth
webbed and those of scutatus one-half webbed. Hemiphractus
scutatus has only small, poorly-developed adhesive discs on the
toes; in all other species the adhesive discs of the toes are slightly
smaller than those of the fingers. The inner metatarsal tubercle is
elliptical and elevated in all species; it is best developed in scutatus.
The outer metatarsal tubercle is indistinct or absent in all species
except fasciatus, in which the structure is present as a small, sub-
conical tubercle.

Coloration in preservative. — Based on examination of preserved
specimens, the coloration and markings of Hemiphractus are highly
variable within each species. Generally, the ground color varies
from a dark reddish brown to a pale grayish tan with dark brown
markings. Two species, fasciatus and huhalus, have a characteristic
dorsal pattern. Hemiphractus huhalus has a dark brown dorsal
ground color; the presacral region of the back bears two sets of
paravertebrally nested chevrons. The chevrons (two per set) are
irregular cream marks oriented in such a way that the points of
the medial chevrons lie medially adjacent on either side of the
vertebral column. Posteriorly, on the sacral region of the back,
there are two additional pale colored chevrons. These are posteriorly
directed with the bases of the chevrons lying on the vetrebral col-
umn. Large females of fasciatus tend to have a uniform gray or
red-brown dorsum which may be indistinctly or boldly mottled;
however, in smaller individuals and males there is a distinct pat-
tern. The presacral region of the back bears a pale colored chevron
on either side of the vertebral column; the chevrons are directed
laterally as in huhalus. A large, irregularly shaped pale spot is
located posteromedially on the back. The backs of johnsoni and
prohoscideus are uniform in color or irregularly mottled; no dis-
tinct pattern is visible. Hemiphractus scutatus may be uniformly
dark brown to pale tan dorsally; in some specimens an irregular
dark mottling is superimposed on the ground color. Frequently,
individuals are marked with two dark, irregularly shaped vertebral
spots; the posterior spot Hes above the sacrum and the other spot lies
anterior to the first.

The interorbital and paraoccipital regions of the heads of
Hemiphractus are not marked in prohoscideus and johnsoni. Oc-

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 21

casionally, a narrow interorbital bar and scattered spots occur in
sciitatus. The heads of both huhaliis and fasciattis may be either
uniform in color or indistinctly marked; infrequently, they are
boldly patterned. The labial and temporal markings of Hemiplirac-
tu.s are distinctive. All species tend to have a pattern of labial
stripes or bars radiating from the suborbital margin to the lip
margin, except scutaius. The latter lacks labial bars and is char-
acterized, instead, by a bold suborbital dark mark which borders
the lower margin of the eye and expands postero\ entrally from the
posterovential corner of the orbit. This mark usually extends about
one-half the distance to the maxillary and frequently is fragmented
into a series of spots. Usually a dark mark extends from the antero-
dorsal corner of the orbit posteriorly across the margin of the
eyelid and along the lateral margin of the paraoccipital process.
Frequently, there are scattered dark spots in the pre- and post-
tympanic areas. The pattern of radiating labial bars is most dis-
tinct and uniform in htihahis which is characterized by wide dark
bars with narrow, light interspaces. The pattern is present but
variable in its distinctness in prohoscideus and johnsoni. The latter
species bears a distincti\e, horizontal post-ocular light bar. In H.
fasciaiiis the labial-temporal pattern \aries from one of well-defined
radial bars to one of indistinct bars anteriorly wath the posterior
and suborbital bars fragmented in a pattern reminiscent of that
of sctitatus.

The gular patterns of Hemiphractus run the gamut of variation.
Two species, johnsoni and fasciatus, ha\e mandibular (or peripheral
gular) bars which correspond to the labial bars. Hemiphractus
sctitatus and jolmsoni frequently bear a pale mid-vential stripe
which terminates in the pectoral region. This feature is occasionally
present in fasciatus, although the line may be interrupted. Mid-
\'entral stripes are absent in huhahis and prohoscideus; however, a
pale pectoral spot or light colort^d pectoral tubercle is almost al-
ways present. Aside from the aforementioned features, the gular
region varies from uniform to spotted in scutatus, uniform wdth an
occasional proliferation of small, pale spots in johnsoni, and uni-
form to heavily mottled or marbled in fasciatus, prohoscideus, and
huhahis.

The bellies of all species tend to be uniformly dark or heavily
mottled anteriorly, becoming less hea\ih' pigmented posteriorly and
peripherally. The flanks are spotted in johnsoni. In the remaining
species the flanks tend to be more hea\dly mottled or marbled.
Heavy marbling is especially characteristic of huhahis. Hemiphrac-
tus scutatus is distinguished by an extensive, finely v enate pigment
pattern which covers the anterior flanks in the postocular area above
the forelimb.

The forelimbs of Hemiphractus may be uniformly dark. More
frequently, the ground color of the forearm is sufficienth- pale that

22 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

transverse dark bands are visible. The three or four bands are in-
distinct, diagonally oriented, and extend onto the dorsal surface of
the hand in scutatus. Similar bands, ti-ansversely oriented, are
present in huhalus and johnsoni. Both prohoscideus and fasciatus
are characterized by a single, wide wrist band. In all species, the
outer digits (usually the third and fourth fingers) are noticeably
darker in color than the inner digits. Hemiphractus prohoscideus
is uniquely characterized by its white or cream colored discs on
the first and second fingers.

In most Hemiphractus the entire dorsal or exposed surface of
the hind limb bears transverse bands. These are best developed
in huhalus in which the dorsum of the thigh is marked by a series
of wide bars with paler interspaces containing a shorter, narrower
bar. The bars are less distinctly developed and the interspaces
plain in johnsoni and fasciatus. In scutatus and prohoscideus the
leg bands frequently are fragmented into series of spots or diffuse
areas of mottling. The anterior surfaces of the thighs tend to be
lightly pigmented ventrally. Posteriorly, the inguinal area is pig-
mented heavily in all species. HeniipJiractus fasciatus differs from
the other species in having a diffuse pale marking bordering the dor-
sal margin of a dark inguinal marking and extending dorsal to the
cloaca to form an indistinct cloacal stripe. The ventral surfaces of
the tarsi and feet of all species are uniformly dark and sharply de-
limited from the less uniform dorsal pattern. Like the fingers, the
outer three toes are more heavily pigmented than the inner two
toes. The first and second toepads of prohoscideus are white or
cream dorsally.

Color notes on living individuals are recorded separately in the
individual species accounts.

KEY TO THE SPECIES OF HEMIPHRACTUS

1. Adhesive discs on digits minute, tips of digits slender with no
evidence of discs visible in dorsal view; canthal ridge absent,
canthus rounded in section; anterior ramus of pterygoid bearing
denticulate serrations on hngual margin; prehallux well devel-
oped, anvil-shaped H. scutatus

Adhesive discs on digits expanded; canthal ridge present, canthus
rounded or angular in section; pterygoid edentate; prehallux
only moderately to poorly developed, not anvil-shaped 2

2. Postorbital indentation absent, orbit with complete bony margin;
otic margin of paraoccipital process approximately parallel to

longitudinal axis of body; supraorbital ridges absent

H. fasciatus

Postorbital indentation present, orbit without complete bony
margin; otic margin of paraoccipital process not parallel to longi-

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 23

tudinal axis of body; supraorbital ridges present 3

3. Transverse preoccipital ridge present, uniting posterior ends of
supraorbital ridges; postorbital ridge present; ventral shaft of
urostyle not laterally expanded H. huhalus

Preoccipital ridge absent; postorbital ridge absent; ventral shaft
of urostyle laterally expanded 4

4. Canthal ridge anterolaterally concave; snout not depressed in
lateral profile; proboscis short, triangular, dorsoventrally de-
pressed; postorbital indentation small; subtemporal fenestra
minute; prevomerine teeth absent H. johrisoni

Canthal ridge straight; snout depressed in lateral profile; probos-
cis long, triangular, laterally compressed; postorbital indentation

large; subtemporal fenestra large; prevomerine teeth present

H. prohoscideus

ACCOUNTS OF SPECIES

Hemiphractus bubalus (Jimenez de la Espada)
New combination

Cerathyla huhalus Jimenez de la Espada, 1871:64 [Holotype.— MNCN 176
from Archidona, Provincia Pastaza, Ecuador; Jimenez de la Espada col-
lector] .

Cerathyla hraconnieri Jimenez de la Espada, 1871:64 [Holotype. — MNCN 174
from "Zarajioto, Orillas del Napo," Provincia Napo, Ecuador; Jimenez de
la Espada collector]. New synonym.

Cerathyla palmarum Jimenez de la Espada, 1871:64 [Holotype. — MNCN
175 from San Jose de Moti, Provincia Napo, Ecuador; Jimenez de la Espada
collector]. New synonym.

Ceratohyla huhalus — Boulenger, 1882:453.

Ceratohyla palmarum — Boulenger, 1882:455.

Ceratohyla hraconnieri — Boulenger, 1882:455.

Justification of synonymy. — I have examined the holotypes of
CeratJiyla huJyalus, C. hraconnieri, and C. palmarum housed in the
collections of the Museo Nacional de Ciencias Naturales in Madrid.
Each species is represented by a single specimen and each is a
female, poorly preserved, soft and faded so as to obscure any color
pattern which may have been present. The measurements of the
specimens (Table 4) are similar to one another and well within
the range of variation for the specimens of htibahis I examined
(Table 2). Jimenez de la Espada (1871:64) distinguished the tliree
specimens (MNCN 174, 175, and 176) on the bases of tongue shape
and small variations in cranial structure. I found each specimen
to have an ovoid tongue and basically the same skull structure. The
only obvious variation in these frogs invoKes the fleshy proboscis at
the tip of the snout; the proboscis is easily lost or damaged. In
MNCN 176 (C. huhalus) the proboscis is absent, whereas in MNCN

24 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

174 (C. hraconnieri) it is minute and blunt; and in MNCN 175 (C.
palmarum) it is small and laterally compressed. Because of the
similarity of these three specimens with respect to cranial structure,
size and proportions, and site of origin (all from Amazonian
Ecuador), I herewith place the names hraconnieri and palmarum
as junior synonyms of hiihalus, which has line priority.

Diagnosis. — 1 ) Size moderate, sexual dimorphism evident; maxi-
mum observed snout- vent length in males 50.5 mm (x=43.8), in
females 66.3 mm (x=57.9); 2) postorbital indentation large, not
rounded, about twice as wide as long; 3) posterior projection of
paraoccipital process relatively greater in males ( 18.4% head length,
N=22) than in females {4% head length, N=3); width between
distal tips of processes relatively greater in males (96.6% head width)
than in females (83.0% head width); 4) otic margin of paraoccipital
process approximately parallel to maxillary arch in dorsal view and
characterized by distinct, well-developed ridge (Figs. 8 and 9);
5) canthal ridge distinct and anterolaterally concave; canthus
angular in section; 6) supraorbital ridges well developed, converg-
ing posteromedially and merging with preoccipital ridge; 7) pre-
occipital ridge present; 8) postorbital ridge well developed along
posterior margin of postorbital indentation; 9) zygomatic ridge well
developed, extending diagonally downward from rear margin of
ventral arm of squamosal along posterolateral margin of orbit to
terminate suborbitally; 10) subtemporal fenestra large; 11) ptery-
goid edentate; 12) cultriform process of parasphenoid not keeled;
13) snout depressed in lateral profile; 14) cla\'icles moderately well

Table 4. — Comparison of Moiphological Measurements (mm) of Holotypes of
Cerathyla bubalus, C. hraconnieri and C. palmarum. ( SVL=snout-vent length;

HW=head width)

C. bubalus, 9 C. hraconnieri, 9 C. palmarum, 9
Character (MNCN 176) (MNCN 174) (MNCN 175)

Snout- vent length 60.7 66.3 61.0

Tibia length 33.7 34.3 33.5

(%SVL) (55.5) (51.7) (54.9)

Foot length" 27.5 33.3 31.4

(%SVL) (45.3) (50.2) (51.5)

Head length 25.5 27.4 25.6

(%SVL) (42.0) (41.3) (42.0)

Head width 27.0 29.6 28.1

(%SVL) - (44.5) (44.6) (46.1)

Interorbital width 7.6 7.8 7.0

(%HW) (28.1) (26.4) (24.9)

Intemarial distance 2.4 2.9 3.0

Eye diameter 6.8 6.9 6.4

Tympanum width 3.2 3.4 4.2

Tympanum height 6.6 6.0 6.4

" Excluding tarsus

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 25

developed; 15) neural spines of presacrals IV- VIII and sacrum
enlarged, with that of the fourth presacral being largest; 16) width
of sacral diapophyses less than width of transverse processes of
presacral VIII and greater than wadth of presacral III; 17) ventral
shaft of urostyle not laterally expanded; 18) prehallux poorly de-
veloped; 19) proboscis small, triangular and dorsoventrally de-
pressed; 20) eyelid with central, enlarged conical tubercle flanked
by several slightly smaller tubercles; 21 ) tubercles on dorsal surface
of forearm arranged in oblique rows corresponding to dark bars;
22) tubercles on dorsal surfaces of hind limb aligned in oblique
rows corresponding to dark bars; 23) small, distinct calcar present
on heel; 24) skin of flanks and venter finely granular; 25) fingers
not webbed; 26) toes basally webbed; 27) adhesive discs present;
those of toes slightly smaller than those of fingers.

Hemiphractus huhalus differs from all other members of the
genus by having a distinct transverse preoccipital ridge which, in
conjunction with the other cranial ridges, forms a unique pentag-
onal configuration on the top of the head (Fig. 8).

Distrihtition. — All specimens have been collected from the upper
Amazon Basin in the provinces of Napo and Pastaza in Ecuador
(Fig. 10). The species occurs between elevations of 300 and 1740
m on the Amazonian slopes of the Andes.

Remarks. — Available field notes indicate that huJ)alus is an in-
habitant of dense cloud forest and favors perches 1-2.5 m above
the ground on branches of bushes and small trees. Save for one
individual found on the forest floor by day, all specimens were
collected at night. One adult female (KU 124140, 48.0 mm snout-
vent length) contained a lizard, Alopoglossus hiickleiji, in her
stomach. Several individuals (adult males and females) displayed
what is described most appropriately as "gaping behavior"; when
disturbed, these frogs typically open their mouths to their fullest
extent exhibiting 1) the inordinately large size of the buccal cavity,
2) a bright yellow or orange tongue, and 3) an impressive pair of
mandibular odontoids (Fig. 9). Presumably such behavior is a
defense posture common to the genus ( see accounts of fasciatus and
prohoscideus) .

At night these frogs typically are pale yellowish tan with dark
brown markings; the venter is white with pale gray or brown
markings and the iris is cream colored. By day, most individuals
become darker brown dorsally and exhibit yellow-tan markings.
The venters darken substantially, becoming dark brown with gray
mottling, and the iris changes from cream to brown with a ring
of gray around the pupil.

Unfortunately, nothing is known about the breeding habits of
this species. Presumably huhalus, like all the other members of the
genus, carries eggs that undergo direct development on its back;

26 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

^f^m-t^m^rrtrmm

Fig. 8. Skull of Hemiphractus htihaltis (KU 124140, 9; ca. X4). Top:
Dorsal view. Bottom: Lateral view of skull and mandil^le.

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

27

-j.orrr^)fyyyi>.>i .

.. nvr^>nfTTTrmjr

Fig. 9. Skull of Hemiphractus huhalus (KU I24I40, 5; ca. X 4). Top:
Ventral \ie\v. Bottom : Posterior \ie\v.

however, there is no direct evidence of this. Specimens have been
collected in January, March, June, August, and October. Females
(2) with large to moderate-sized o\^arian eggs were obtained in
August as were most mature males (4 of 5). In contrast, October

28 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

Fig. 10. Distribution of Hemiphractus bubalus in Ecuador.

collections resulted in acquisition of 14 juveniles and one subadult
female and no adults; juveniles also were collected in June (3) and
August (2).

Hemiphractus fasciatus Peters

Heiniphracttis fasciatus Peters, 1862:149 [Holotype. — ZSM 36/0 from "Pastaza

Valley, Ecuador" (in error); Moritz Wagner collector].
Ceratohyla fasciata — Boulenger, 1882:454.
Cerathyla pana7nensis Stejneger, 1917:31 [Holotype.— USNM 55320 from

Signal Loma, 5 km south of Santa Isabel, Provincia Colon, Panama; Mr.

Charles Gordon Holland collector]. New synonym.
Hemiphractus panainensis — Duellman, 1970:140.

Justification of sijnomjmij. — Examination of the holotypcs of
Cerathyla panamensis and Hemiphractus fasciatus has shown that
these two frogs are extremely similar. Stejneger's specimen of
panamensis is a large female, whereas Peters' specimen of fasciatus

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

29

is a much smaller female; both individuals fall well within the
range of observed variation of snout-vent length, and head length,
head width, and tibia length relati\'e to snout- vent length ( compare
Tables 2 and 5). Although ponamemis was described from Panama
and fasciatus from Amazonian Ecuador ( a type locality which must
be in error, because no other specimen of fasciatus has been col-
lected from the Amazonian side of the Andes south of northwestern
Colombia), the specimens are nearly identical in all diagnostic
features — 1) the crania are the same; 2) the tongues are ovoid;
3) the skin is finely granular; 4) although Stejneger's specimen is
faded, his color notes generally concur with those of Peters; and
5) both specimens have a small, dorsoventrally depressed proboscis.
Because of these ob\ious similarities, I herein place the name
panamensis as a junior synonym of fasciatus which has priority.

Table 5. — Comparison of Morphological Measurements ( mm ) of Holot>'pes of Hctni-
pJiractiis fasciatus and Cerathylo panamensis. (SVL=snout-\ent length; HW=head

width; HL=head length)

H. fasciatus,

9 (ZSM36/0)

C. panamensis, 9
Original

(USNM 55320)

Original

Measurements

Measurements

description;

by

description;

by

Character

Peters, 1862

True!)

Stejneger,
1917

Trueb

Snout-vent length

-.._ 46.0

46.5

60.0"

59.1"

Head length,

medial

.... 18.0

23.1

Head length

21.0

(45.2)

—

28.7

(^SVL) .-._

....

(48.6)

Head length, tip of

snout to para-

occipital horn

.... 23.0

..__

33.0

Head width

.... 21.7

21.4
(46.0)

32.0
(53.3)

33.1

(%SYL) ....

._.. (47.2)

(56.0)

Interorbital

distance

8.3

(38.8)

12.0

(37.5)

11.2

(%HW) ....

(33.8)

Internarial

distance

2.7

3.5

Nostril to orbit

distance

5.5

7.0

7.0

(%HL)

(26.2)

(24.4)

Nostril to snout

distance

4.9

6.0°

4.0"

Tibia length

24.5

31.5

33.0

(fSVL) ....

(52.7)

(52.5)

(55.8)

Forelimb length -

-.-. 34.0

40.0

—

Hind limb length

.... 80.0

—

99.0

—

" Stejneger measured lengths involving the head from the tip of the fleshy proboscis,
whereas I did not; hence, his values are greater than mine.

30 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

Diagnosis. — 1) Size moderate, sexual dimorphism evident; maxi-
mum observed snout- vent length in males 55.7 mm (x=49.6), in
females 68.7 mm (x=57.3); 2) postorbital indentation absent; 3)
posterior projection of paraoccipital process relatively greater in
males (11.7% head length, N=ll) than in females (4.0% head length,
N=10); width between distal tips of processes about the same in
males ( 87.9% head width ) as in females ( 85.5% head width ) ; 4 ) otic
margin of paraoccipital process not parallel to maxillary arch in
dorsal view; instead, approximately parallel to longitudinal axis of
body, slightly concave laterally, and characterized by low but dis-
tinct ridge (Fig. 11); 5) canthal ridge indistinct, anterolaterally
concave; canthus angular in section; 6) supraorbital ridges absent;
7) preoccipital ridge absent; 8) postorbital ridge absent; 9) zygo-
matic ridge indistinct and poorly developed, extending diagonally
downward from rear margin of ventral arm of squamosal to postero-
ventral margin of orbit; 10) subtemporal fenestra small, relatively
smaller in females than in males; 11) pterygoid edentate; 12) culhl-
form process of parasphcnoid not keeled (Fig. 12); 13) snout not
depressed in lateral profile; 14) clavicles not well developed; 15)
neural spines of presacrals III-VIII and sacrum enlarged, with that
of the fifth presacral being the largest; 16) width of sacral dia-
pophyses less than width of transverse processes of presacral VIII
and approximately equal to width of presacral III; 17) ventral shaft
of urostyle laterally expanded; IS) prehallux moderately developed;
19) proboscis small, triangular and dorsoventrally depressed; 20)
eyelid granular with a single enlarged tubercle amid sex^eral smaller,
scattered tubercles; 21) tubercles on dorsal surface of hind limb
indistinct and aligned in transverse rows; 23) small, poorly devel-
oped calcar present on heel; 24) skin of flanks and venter with scat-
tered, low subconical tubercles; 25) fingers not webbed, or only
basally webbed; 26) toes basally webbed; 27) adhesive discs pres-
ent; those of the toes slightly smaller than those of the fingers.

HemipJiractus fasciatus can be distinguished from other mem-
bers of the genus by the combination of its lack of a postorbital
indentation (Fig. 11) and the presence of well-developed adhesive
discs on the digits. It is distinguished further by having a diffuse
pale mark bordering the dorsal margin of a dark inguinal mark;
the pale mark extends dorsal to the cloaca to form an indistinct
cloacal stripe.

Distribution. — This species is widespread throughout Panama,
northern Colombia, and the Pacific slopes of Colombia and north-
western Ecuador between elevations of 300 and 1600 m (Fig. 13).

Remarks. — This species is perhaps the best known of the genus.
It has an extensive range and a wide altitudinal distribution; more-
over, its habits, habitat preferences, coloration, and behavior are
well documented in the copious field notes of Charles W. Myers,

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 31

who collected many indi\iduals in the course of three years' field
work m Panama. He reported (1966) some initial observations on
the distribution and behavior of fasciatus, and included a photo-
graph of its defense or "gaping" posture and a report of a release
call (one of two such reports, the other being for prohoscideus) .
It seems appropriate here to note that Myers reported (field notes
of 18 January 1966) that the Panamanian nati\es refer to fasciatus
as "rana brava," and to supplement this statement with an anecdote
excerpted from Myers' field notes of 13 December 1964: "I made
the mistake of sticking a finger in the gaping mouth to see if it [the
frog] would bite. It did and held on like a vise. The two fangs
in the lower \i\\\ (which I was unaware of, else would not have
been so stupid) made two puncture marks (like a small snake bite)
which bled real blood." Benefiting from Myers' experience, those
of us who have had the opportunitv- to collect Hemiphractiis on
subsequent occasions find that it is safer and wiser to grasp the
species by the tips of the paraoccipital horns from the rear.

This species, like other members of the genus, is a denizen of
the forest; however, because of its relatively wide altitudinal dis-
tribution, it inhabits lowland tropical rainforests, lower montane
forests and cloud forests. By day it is found amidst leaf litter on
the forest floor, whereas by night, it fa\ors perches above the
ground. Most indi\iduals have been found sitting on sticks or
low vegetation 0..3-0.6 m above the ground. Occasionally, larger
indi\'iduals perch 1-2 m abo\c the ground on tree trunks, branches,
and in the bases of arboreal bromeliads. There is e\idence that
the species preys upon a variety of animals; one specimen, a large
female (KU 93503) had an unidentified gastropod, a lizard (Ptt/cho-
g,Iossus), and a dendrobatid frog (CoJostetlnis) in her stomach.

Coloration in living fasciatus is highly \ariable. Generally, the
dorsal ground color varies from dull olixe green or yellowish tan
to dark brown; darker dorsal markings (usually brown) are nearly
always present. The flanks, and anterior and posterior surfaces of
the thighs are lighter than the dorsum, usually a pale tan or flesh
color with brown mottling; in at least one indi\idual, the posterior
surfaces of the thighs were dark brown. The venter varies from
dark brown to gray; some mottling, \ arying between light browTi,
yellow and white is present. In some individuals, the gular and
pectoral regions are darkest and grade to a perceptibh' paler ab-
dominal color. Nearly all indi\iduals have a distinct, pale gular
spot. The iris is almost in\ariably pale, its tone \arying from pale
yellow or pale orange-gold to light brown. The color may be uni-
form, save for the horizontal brown stripe bisecting the iris through
the pupil, or the iris may be two-toned. In the latter case, the
lower part of the iris is darker than the upper portion and varies

32 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

0.

/
if

Fig. 11. Skull of Hemiphractus fasciatus (KU 93510, $ ; ca. X 4.5). Top:
Dorsal view. Bottom: Lateral view of skull and mandible.

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

33

m

:<• ^-J^sK, *

■^■4.

-^J" , "^r;*

Fig. 12. Skull of Hemiphractiis fasciatus (KU 93510, (^ ; ca. X 4.5). Top:
Ventral view. Bottom: Posterior view.

from gray-gold to reddish gray. The irises of some individuals are
characterized by fine red or black reticulations.

Hemiphractiis fasciatus has been collected in all months except
March, April, August, and October. The one female with associated
young (BYU 19142, see Duellman, 1970:143 and PI. 7 for a detailed
discussion of this specimen) was collected in September. Females
with large ( ca. 5-6 mm diameter ) eggs were obtained in November

34

OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

10-

0 100 300

KM

70

Fig. 13. Distribution of Heiniphraciufi fasciatiis (circles) and the type locality
of Hemiphractus johusoni (triangle) in lower Central America and north-
western South America. See figure 17 for distribution map of H. johnsoni.

(1), December (1), and May (1); females with moderate to small-
sized ovarian eggs were obtained in January (4) and May (2).
Mature males were collected in January (10) and May (1); sub-
adult males and females were obtained at the same times,
and juveniles in the months of February, May through July, and
September.

While examining .specimens at the Natural History Museum in
Stockholm, I encountered a specimen of Hemipliractus with a manu-

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 35

script name of Cerathyla minima applied to it by Andersson. The
specimen (NHRM 1981 from El Tambo, La Costa, Departamento
Cauca, Colombia, collected on 16 June 1936 by K. von Sneidern)
is a juvenile male (25.8 mm snout-vent length). It is pale tan in
color with no evident markings. The configuration of the skull
confirms its identification as Hemiphractiis jasciatus.

Hemiphractus johnsoni (Noble) new combination

Cerathyla johnsoni Noble, 1917:798 [Holotype.— AMNH 1341 from Santa Rita
Creek, 14 miles north of Mesopotamia, Departamento Antioquia, Colombia;
R. D. O. Johnson collector].

Cerathyla htihahis — Myers and Carvalho, 1945:21 [in part].

Diagnosis. — 1) Size moderately large, sexual dimorphism evi-
dent; maximum observed snout-vent length in males 52.9 mm
(x=:48.2), in females 77.2 mm (x=68.2); 2) postorbital indenta-
tion moderately small, rounded (Fig. 14); 3) posterior projection of
paraoccipital process relatively less in males ( 19.5% head length,
N=2) than in females (27.3% head length, N=2); width between
distal tips of processes relatively less in males (82.1% head width)
than in females (90.1% head width); 4) otic margin of paraoccipital
process more nearly parallel to maxillary arch than to longitudinal
axis of body in dorsal view; 5) canthal ridge distinct, anterolaterally
concave; canthus angular in section; 6) supraorbital ridges moder-
ately developed, slightly convergent posteriorly, terminating just
anterior to occipital flange; 7) preoccipital ridge absent; 8) post-
orbital ridge absent; 9) zygomatic ridge indistinct, extending from
rear margin of \'entral arm of squamosal to posterolateral margin
of orbit, parallel and ventral to zygomatic arm of squamosal; 10)
subtemporal fenestia minute; 11) pterygoid edentate (Fig. 15);

12) cultriform process of parasphenoid usually with indistinct keel;

13) snout not depressed in lateral profile; 14) clavicles moderately
well developed; 15) neural spines of presacrals IV- VIII enlarged,
with none being distinctly larger than any other; 16) width of sacral
diapophyses less than width of transverse processes of presacral
VIII and greater than width of presacral III; 17) ventral shaft of
urostyle laterally expanded; 18) prehallux poorly developed; 19)
proboscis small, triangular and dorsoventrally depressed; 20) eye-
lid coarsely granular with one slightly enlarged, conical tubercle;
21) tubercles on dorsal surface of forearm scattered; 22) tubercles
on dorsal surface of hind limb absent or poorly developed; 23)
small, poorly-de\'eloped calcar present on heel; 24) skin of flanks
and venter smooth; 25) fingers not webbed; 26) toes basally
webbed; 27) adhesive discs present; those of toes slightly smaller
than those of fingers.

Hemiphractus johnsoni differs from other members of the genus
by the presence of a small, round postorbital depression. Further-

36

OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

^^

tl

Fig. 14. Skull of Hemiphractus johusxmi (KU 153436, $
Dorsal view. Bottom: Lateral view of skull and mandible.

ca. X 4). Top:

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

37

y^TTynrY-r i

Fig. 15. Skull of Hemiphractus johnsoni (KU 153436, $ ; ca. X 4). Top:
Ventral view. Bottom : Posterior \1e\v.

more, it lacks the bold dorsal markings characteristic of bubalus,
and has a small proboscis which distinguishes it from proboscideus.
Distribution. — This species is known from 11 specimens repre-
senting an extraordinaiy distribution that ranges from the northern
Andean slopes of Colombia and the upper Amazon Basin and lower
Amazonian slopes of the Andes from Ecuador to northern Bolivia

38 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

(Figs. 13 and 17). It occurs between elevations of 300 and 1910 m.
Remarks. — On the basis of available museum specimens, H.
jolmsoni is the rarest member of the genus. There are 11 known
specimens exclusive of young associated with an adult female. The
only notes on habitat (Noble, 1917:801) and the localities from
which specimens have been collected indicate that this species
inhabits dense forests. One specimen (AMNH 58631) is a female
from Peru with 18 young attached to her back; another female
collected by David B. Wake and Richard Etheridge in Peru in July
had 17 eggs on her back. Available field notes indicate that jolmsoni
perches on low branches (0.3-0.7 m above ground) at night. In
life, this frog is tan-brown dorsally with reddish mottling and
darker brown spots. The venter is grayish white and the iris gold
above and orange below with a horizontal brown streak. For notes
on the location of the type locaHty, see Trueb (1971:28). It should
be noted that Myers and Carvalho's (1945:19-21; Figs. 17 and 18)
discussion of Ceratliyla huhaJus is referrable to Hemiphractiis
johnsoni.

Hemiphractus proboscideus (Jimenez de la Espada)
New combination

Ceratliyla proboscidea Jimenez de la Espada, 1871:64 [Holotype. — MNCN 173
from Smiiaco, Provincia Napo, Ecuador; Jimenez de la Espada collector],

Ceratohyla proboscidea — Boulenger, 1882:453.

Ceratohijla cristata Andersson, 1945:18 [Holotype. — NHRM 1911 from Rio
Pastaza watershed, Ecuador; William Clarke-Maclntyre collector]. New
synonym.

Justification of synonymy. — Types of both proboscidea and
cristata are from Amazonian Ecuador. The snout-vent lengths of
each and their head widths, head lengths and tibial lengths relative
to the snout-vent lengths fall within or near the range of observed
variation for the individual's respective sex (compare Tables 2 and
6). The holotype of proboscidea is a small male which is poorly
preserved and completely faded, making comparison with the
larger female type of cristata difficult. Nonetheless, the cranial
characteristics of both specimens are the same and unique among
hemipractines. Furthermore, both have ovoid tongues, a small
dermal protuberance on each eyelid, and a long, fleshy proboscis
with an irregular dorsal edge. Because of these distinct resem-
blances, I herein place the name cristata as a junior synonym of
proboscideus.

Diagnosis. — 1 ) Size moderate, sexual dimorphism evident; maxi-
mum observed snout- vent length in males 49.7 mm (x=46.3), in
females 67.1 mm (x=56.1); 2) postorbital indentation large,
rounded, and about twice as wide as long (Fig. 2); 3) posterior
projection of paraoccipital process relatively greater in males (24.5%

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 39

Table 6. — Comparison of Morphological Measurements (mm) of Holotypes of
Cerathyla proboscidea and Ceratohyla cristata. ( SVL=snout-vent length;

HW=:head width)

Cerathyla proboscidea,

$ (MNCN 173)

Character

Measurements by Trueb

Ceratohyla cristata,
5 (NHRM1911)

Original
description;
Andersson,

Measurements

by

Trueb

1945

62.0

62.0

28.3

30.0

(45.6)
29.6

(48.4)
10.0

(47.7)
9.0

(33.3)
2.5

(30.4)
2.6

6.0

5.5

6.0

6.9

36.5

36.2

(58.9)
28.9

(58.4)

(46.6)

Snout-vent length 42.8

Head length 19.0

(%SVL) (44.4)

Head width .^ 20.5

(%SVL) (47.9)

Interorbital distance 6.0

(%HW) (29.3)

Internarial distance — - 1.9

Width of upper eyelid 3.2

Nostril to snout distance — - 4.3

Tibia length 26.3

(%SVL) (61.4)

Foot length" 20.3

(%SVL) (47.4)

° Excluding tarsus

head length, N=14) than in females (19.8% head length, N=24);
width between distal tips of processes relatively greater in males
(105.1% head width) than in females (97.7% head width); 4) otic
margin of paraoccipital process approximately parallel to maxillary
arch in dorsal view, characterized by a distinct, well-developed
ridge; 5) canthal ridge distinct and straight; canthus angular in
section; 6) supraorbital ridges distinct, slightly convergent postero-
medially, terminating just anterior to occipital flange; 7) preoccipi-
tal ridge absent; 8) postorbital ridge absent; 9) zygomatic ridge
well developed, extending diagonally downward from rear margin
of ventral arm of squamosal along posterolateral margin of orbit
to merge inconspicuously with suborbital margin; 10) subtemporal
fenestra large; 11) pterygoid edtentate; 12) cultiiform process of
parasphenoid not keeled; 13) snout depressed in lateral profile;
14) clavicles moderately well developed; 15) neural spines of pre-
sacrals IV- VIII and sacrum enlarged, with those of presacrals IV-
VIII being distinctly larger than that of sacrum; 16) width of sacral
diapophyses slightly less than width of transverse processes of
presacral VIII and slightly greater than width of presacral III;
17) ventral shaft of urostyle laterally expanded; 18) prehallux poorly
developed; 19) proboscis large, laterally compressed and char-
acterized by an irregular dorsal edge; 20) eyelid with central, en-
larged conical tubercle flanked by several slightly smaller tubercles;

40

OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

21) tubercles on dorsal surface of forearm arranged in oblique
rows; 22) tubercles on hind limb aligned in oblique rows; 23)
small, distinct calcar present on heel; 24) skin of flanks and venter
finely granular; 25) fingers not webbed; 26) toes one-fourth webbed;
27) adhesive discs present; those of toes slightly smaller than those
of fingers.

Hemiphracttis prohoscidetis can be distinguished from other
members of the genus by its long, compressed proboscis, large
postorbital indentation, and characteristic white or cream colored
( in preservative) discs on the inner two fingers.

Distribution. — This species is known only from the upper Ama-
zon Basin in Ecuador, where it occurs between elevations of 300
and 720 m along the Andean slopes (Fig. 16).

Remarks. — Of the 72 preserved specimens of prohoscideus, 46
are from Santa Cecilia, Ecuador, and have been collected during
a period of five years. Although intensive field work has been

Fig. 16. Distrilintion of Hemiphractus prohoscideus in Ecuador.

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 41

carried out at this locality throughout the year, no prohoscideus
have been obtained in February, September, or December. The
majority of specimens (juveniles, adult males, and females with
moderate or small-sized ovarian eggs; total of 34 frogs) was col-
lected in June and July. In addition, juveniles and adult males
were found from March through May and in August. Juveniles
were collected also in October, and females in January, March,
May through August and October and November. The temporal
distribution of juveniles suggests that breeding must occur through-
out the year, but it is disheartening to note that none of the KU
females has large ovarian eggs, eggs on the back or any evidence
of having recently had young on the back. One female (UMMZ
92110, 61.3 mm snout-vent length) has depressions on her back,
thereby documenting the reproductive mode in this species. Based
on examination of the Santa Cecilia collection, it is obvious that
prohoscideus has a diverse appetite; among the stomach contents
were a \'ariety of beetles and orthopterans in nearly all specimens.
Other food items found were an unidentifiable frog (genus Hijla),
a ju\'enile lizard (Anolis chn/solepis), two adult frogs (Eleuthcro-
dacfylns conspicillattts and Ostcocephalus leprieurii), and a \aricty
of unidentified eggs and an annelid.

Hemiphractus prohoscideus seems to be restricted to lower mon-
tane forest and lowland rainforest, where it occasionally is found
amidst leaf litter by day, but most often is found perched on low
vegetation (below 1.5 m abo\e the ground) at night. Typically, the
species is found on palm fronds, vines, leaves of low herbs, bushes
and trees.

The irises of prohoscideus \ary between pale pink and pale
gray with indistinct, diffuse gray triangles anterior and posterior to
the pupil ( apices are located at the margin of the pupil ) . The tongue
and buccal ca\'ity are bright \cllow. Otherwise coloration in this
species is highly \ariable indi\idually, and within indi^•iduals from
day to night. By night, the dorsal areas of most indi\iduals are
yellowish tan with darker tan or brown markings; occasionally,
indix'iduals are found which are gray \\'ith brown reticulations. By
day, the typical dorsal coloration is transformed to a dark brown
with darker brown markings. The \enter, which is pale colored
or white at night, changes dramatically to a deep brown or reddish
brown by day. This dark \'entral ground color is \ariously punc-
tuated by orange or yellowish tan abdominal blotches and yellow
to white spots in the gular area. The flanks tend to be pale flesh
color and the thighs vary from yellowish tan with reddish brown
bands to a dark gray posteriorly. According to field notes, the
adhesive discs are orange in life.

On at least two occasions this species has been observed to as-
sume the "gaping" defense posture (discussed in the Remarks

42 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

section of the account of fasciatus) when disturbed, exposing the
bright yellow buccal cavity and tongue. Both individuals are males
(48.2 and 43.1 mm snout-vent length), and neither one could be
induced to bite. The larger of the two frogs emitted a "grunting"
sound when collected.

Hemiphractus scutatus (Spix)

Rana scutata Spix, 1824:28 [Holotype. — formerly in Zoologisches Sammlung

Miinchen; no number and now destroyed or lost].
[Stomhus] scutata — Gravenhorst, 1825:920.

Hemiphractus spixii Wagler, 1828:743 [Substitute name for Rana scutata].
Hemiphractus scutatus — Peters, 1862:146.
Hemiphractus divaricatus Cope, 1868:114 [Holotype. — ANSP 4132 from "Peru,

Napo, and Maraiion rivers"; Prof. James Orton collector]. New synonym.
Hemiphractus houlengeri Miranda-Ribeiro, 1926:118 [Holotype. — BMNH

1880.12.5.153 from "Ecuador"; Mr. Buckley collector]. Synonymy jide

Myers and Carvalho ( 1945: 19 ) .

Justification of synonymy. — Having examined the type of divari-
catus and compared it and Cope's description with the descriptions
of scutatus by Peters (1862) and Brocchi (1877), I find no grounds
on which to recognize divaricatus as distinct from scutatus; accord-
ingly, I place the name divaricatus as a junior synonym of scutatus.
The differences described by Cope (1868) are minor variations in
certain cranial features which he discerned by comparison of his
specimen with Peters' description. Examination of table 7 shows
that morphometrically, the types of divaricatus and houlengeri
compare favorably with the measurements reported by Peters for
scutatus and those reflecting variation within the sample I examined
(Table 2).

Diagnosis. — 1) Size large, sexual dimorphism evident; maxi-
mum observed snout-vent length in males 57.4 mm (x=50.7), in
females 80.5 mm (x=70.4); 2) postorbital indentation absent (Fig.
1); 3) posterior projection of paraoccipital process approximately
the same in males (18.0% head length, N=7), as in females (17.9%
head length, N=14); width between distal tips of processes about
the same in males (93.8% head width) as in females (92.7% head
width); 4) otic margin of paraoccipital process approximately
parallel to maxillary arch in dorsal view ( Fig. 1 ) and characterized
by a low but distinct ridge; 5) canthal ridge absent; canthus
rounded in section; 6) supraorbital ridges absent; 7) preoccipital
ridge absent; 8) postorbital ridge absent; 9) zygomatic ridge
scarcely evident, extending diagonally upvv^ard from the postero-
lateral margin of the orbit about half the distance to rear margin
of ventral arm of squamosal; 10) subtemporal fenestra small; 11)
anterior ramus of pterygoid bearing denticulate serrations on lin-
gual margin; 12) cultriform process of parasphenoid not keeled;
13) snout slightly depressed in lateral profile; 14) clavicles poorly

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

43

Table 7. — Comparison of Morphological Measurements (mm) of Holotypes of
Hemiphractus scutatus, H. divaricatus, and H. hotilengeri. (SVL=: snout- vent

length; HW=head width )

Character

H. scutatus,
sex?

Description by
Peters, 1862

H. divaricatus,

sex?
(ANSP'4132)

Original
description;
Cope, 1868

H. boulengeri, $

BMNH

1880.12.5.153

Measurements

by

Trueb

Snout-vent length 60.0

Head length, medial 23.0

Head length, tip of snout to

paraoccipital horn 31.0

Head length

(%SVL) ....

Head width 32.0

(%SVL) (53.3)

Forelimb length 37.0

Hind limb length 75.0

Foot length"

(%SVL) __

Interorbital distance

(%HW) __

Intemarial distance

" Including tarsus

55.0
22.2

28.0

33.9

(61.6)

31.8

75.1

34.9

(63.5)

10.6

(31.3)

3.2

57.6

29.1
(50.5)

33.8
(58.7)

35.0
(60.8)

12.7

(37.6)

3.5

developed; 15) neural spines of presacrals I-VIII and sacrum en-
larged, with that of the third presacral being the largest; 16) width
of sacral diapophyses greater than \\'idth of transverse processes of
presacral VIII and about equal to width of presacral III; 17)
ventral shaft of urostyle laterally expanded; 18) prehallux well
developed, anvil-shaped; 19) proboscis small, triangular and dorso-
ventrally depressed; 20) eyelid coarsely granular with one slightly
enlarged conical tubercle; 21) tubercles on dorsal surface of fore-
arm arranged in oblique rows corresponding to dark bars; 22)
tubercles on dorsal surfaces of hind limb aligned in oblique rows;
23) calcar absent on heel; 24) skin of flanks an venter coarsely
granular; 2.5) fingers about one-fourth webbed; 26) toes basally
webbed; 27) adhesive discs on fingers and toes vestigial, not visible
in dorsal view.

Hemiphractus scutatus differs from all other members of the
genus by its lack (xestigial presence) of visible adhesive discs. It
is distinguished further by its large size, and lack of 1 ) a postorbital
indentation, 2) a canthal ridge, and 3) a pattern of labial stripes
radiating from the suborbital margin to the edge of the lip.

Distribution. — This species occurs in the upper Amazon Basin
in Ecuador, Peru, and western Brasil between elevations of 250
and 1830m (Fig. 17).

44 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

Fig. 17. Distribution oi Hemiphractiis sctitatus (circles) and Hemiphractus
johnsoni (triangles) in Ecuador, Peru, and Brasil. See figure 13 for location
of type locality of H. johnsoni in Colombia.

Remurks. — Until the recent acquisition of two specimens of
sctitatus from cloud forest at ele\'ations of 1400 and 1830 m, this
species was thought to be an inhabitant of lower montane and low-
land rainforest exclusively. It differs in one respect from its con-
geners in that available field notes indicate that sciitahts is always
found on the forest floor — a habit to be expected in view of its loss
of functional toe pads. Color notes are rare (see Myers and Car-
valho, 1945, for a resume); the most recent notes reported that an
adult sctitatus was pale tan above marked with darker brown. The
specimen had black marks on the upper lip and a black border
around the eye; the iris was bronze.

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 45

There are three preserved females with associated embryos
(eggs). One of these (KU 129751, 72.3 mm snout- vent length) was
collected in November and carried five eggs, each of which is about
9 mm in diameter. The oviducts of this specimen were empty and
greatly distended. A second female (UMMZ 92106, 80.5 mm snout-
vent length), for which there is no date of collection, has four
depressions on her back; the associated embryos are 10 mm in
diameter and the oviducts are empt\'. The third female (FMNH
121855, 67.3 mm snout-vent length) was collected in September;
only two embryos are associated with this individual. The balance
of the specimens for which data are available are females with
moderate (ca. 6 mm) to small-sized ovarian eggs obtained in Janu-
ary, February, May and November. An adult male was collected
in December and a juvenile in February.

There are no records of a call for this species, no documentation
of the color of the buccal cavity, and no account of its assuming the
"gaping" defense posture typical of other members of the genus.

INTRAGENERTC RELATIONSHIPS

In order to hypothesize on intragcneric relationships within
Hemiphractus, it is necessary to establish the probable evolutionary
patterns or directions of those character states that will be utilized
in the subsequent analysis. Recently, there has been considerable
commentary on the kinds of characters useful in anuran classifica-
tion and the nature of their change through time ( see various papers
in Vial, 1973). In working with Hemiphractus, I am confronted
with two basic problems. The evolutionary status of most anuran
characters has been discussed at broader taxonomic levels than that
of the genus. Secondly, Hemipliracttis is exti"emely specialized and
probably a highly derived group; thus, my conclusions cannot be
expected to be necessarily comparable or parallel to those deter-
mined for other Neotropical genera {e.g., see Trueb and Duellman,
1971; Trueb, 1971). Nonetheless, in the discussions that follow,
the criteria for the various states of primitiveness, derivation, ad-
vancement, specialization and generalization are the same as those
discussed in an earlier paper (Trueb, 1973:65-66).

Most of the characters to be considered are osteological; these,
as a suite, clearly establish the advanced and derived status of
Hemiphractus (see Trueb, 1973). Given this conclusion, I will
attempt to delineate the evolutionary trends within the genus and
their phylogenetic and, if possible, adapti\e significance. It has
been shown that casque-headedness is a derived state ( Trueb, 1970;
1973), and that in casque-headed frogs, the degree of casquing
is usually greater in the more derived species. Following this fine
of reasoning, fasciatus and scutatus should be considered more
advanced than their congeners that possess less extensively ossified

46 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

skulls by reason of the presence of postorbital indentations, dor-
sally exposed sphenethmoids, and moderate to large subtemporal
fenestrae. However, it has been demonstrated also that there is an
obligate ontogenetic sequence of ossification in which casquing
always precedes exostosis — the appositional growth of dermal bone
to form sculptured surfaces and, subsequently, ridges and flanges
(Trueb, 1973). Because proboscideiis and bubahis possess com-
plexly exostosed crania (Figs. 2 and 8), I suggest that the reduced
amount of casquing in these species as contrasted to scutatus and
fasciatus (Fig. 11) is the result of secondary reduction of ossifica-
tion of a more extensively casqued skull which may have been
similar to that of johnsoni (Fig. 14). Although not as extensively
casqued as fasciatus and scutatus and less ornamented than pro-
boscideus and bubalus, the skull of jolmsoni has developed dermal
sculpturing to a degree that nearly all dermal cranial sutures are
obscured; because of the sculpturing, it is impossible to ascertain
externally whether or not the sphenethmoid is exposed dorsally.

Two members of the genus exhibit species-specific specializa-
tions; these are the parasphenoid keel of johnsoni (Fig. 15) and
the pterygoid odontoids of scutatus. With respect to the skull shape,
fasciatus is the only species in which the otic margin of the para-
occipital process is about parallel to the longitudinal axis of the
body. This feature results from a slight difference in the configura-
tion of the process (compare Figs. 1, 2, 8, 11, and 14) as contrasted
with the remaining species in which the margin of the flange lies
approximately parallel to the maxillary arch. Hemiphractus scu-
tatus and fasciatus are similar in having a more rounded canthus as
contrasted with their congeners; furthermore, these two species have
robust, short snouts in lateral view (Figs. 1 and 11) as contrasted
with the long, depressed snouts of proboscideus (Fig. 2c) and
bubalus (Fig. 8). Hemiphractus johnsoni (Fig. 14) has a snout
shape which is intermediate between these two groups. With the
exception of some minor specializations {viz., the parasphenoid
keel, absence of prevomerine teeth, small postorbital indentation,
and highly developed dermal sculpturing), it appears that on the
basis of cranial structure, johnsoni is most similar to the ancestral
condition and intermediate between two distinct hemiphractine
lines — one (scutatus and fasciatus) committed to increased armor-
ment of the cranium, and a second (proboscideus and bubalus) in
which armorment (and consequently weight) has been decreased
and ornamentation markedly incremented.

The results of critical analysis of cranial characters largely are
corroborated by data derived from study of the postcranial skeleton.
The general configuration of the vertebral column ( Table 3; Fig. 4a )
is one adapted to terrestrial situations (Trueb, 1973) and derived
from an advanced group. The length and general uniformity of the

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 47

lengths of the transverse processes, especially those of the posterior
presacrals and the relatively narrow expansion of the sacral dia-
pophyses represent terrestrial and perhaps semi-arboreal adapta-
tions; the procoelous, non-imbricate nature of indi\ddual vertebrae
suggests relatively recent derivation from an advanced group. As
on the basis of cranial architecture, Hemiphractus is divisible into
two groups by the nature of the cervical vertebrae. The scutatus-
fasciatus line is characterized by a distinct notch between the cervi-
cal cotyles (Fig. 4c-e), whereas the johnsoni-proboscideiis-biibalus
group lacks such a notch (Fig. 4f-g). With respect to the relative
widths of the transverse processes, scutatiis is the most divergent,
having a relatively narrow sacrum with respect to the widths of the
presacral transverse processes. Inspection of table 3 shows that
fasciatus and joJinsoni are more similar to one another than either
is to huhalus or proboscideus. The adaptive significance of the
relatively great heights of the neural spines is an enigma; there are
no muscle attachments to these spines. Each species has its own
distinctix'c profile with regard to the relative heights of the neural
spines; those of bubalus and proboscideus are more similar to one
another than are any of the others to one another. Hemiphractus
fasciatus and scutatus differ from the remaining three species in
that the overlying skin is loosely applied to the protruding vertebrae.

The proportions of the urostyle and ilia are inextricably related.
Examination of table 3 and figure 5 clearly illustrates that scutatus
has, proportionately, the shortest urostyle and ilia, and fasciatus
the longest. Proportional shortness of these elements normally is
associated with a trend towards a walking or hopping gait (Trueb,
1973), whereas increase in length usually reflects a trend towards
more efficient jumping or leaping. The ilium bears only an indis-
tinct crest in scutatus as contrasted to the remaining species, es-
pecially fasciatus. The proportional lengths of the urostyles and
ilia of jolinsoni, bubalus, and proboscideus lie between the extremes
of scutatus and fasciatus, suggesting that these species are more
generalized in their pelvic structure than either of the other two.
Like fasciatus, each of these species bears a distinct ilial crest;
however, in none is it as well developed as in fasciatus. Among the
three, the crest is least developed in joluisoni and best de\'eloped
in proboscideus; this may suggest a trend from generalized to more
specific arboreality within these three frogs.

Although the pectoral girdle structure varies considerably in
Hemiphractus (Fig. 3), the interpretation of this variation is as
questionable as it is among anurans in general. Hemiphractus scu-
tatus is most distinctive by virtue of its greatly reduced clavicles
and obviously short scapulae (Fig. 3a). The clavicles are some-
what better developed in fasciatus (Fig. 3b), but still moderate in
comparison with those of bubalus, proboscideus (Fig. 3c) and John-

48 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

soni (Fig. 3d); the scapulae of the latter three species are inter-
mediate in length between those of scutatus and fasciatus. Hemi-
phractus johnsoni is distinguished by less massive coracoids than in
the other species. As with consideration of the crania, and axial and
vertebral morphology, a basic dichotomy is evinced in pectoral
morphology. Hemiphractus scutatus and fasciatus seem to repre-
sent one evolutionary sequence and prohoscideus and hubalus a
second, and johnsoni emerges as the least specialized of the species.

With respect to foot morphology there is only one character
worth mentioning, and that is the presence of a well-developed pre-
hallux in scutatus. The presence of this structure suggests that
scutatus digs with its hind feet, a habit not unexpected in a forest
floor dweller.

In general, the distribution of soft morphological features closely
parallels those evident osteologically. For example, the fingers and
toes of hubalus, prohoscideus, johnsoni, and fasciatus tend to have
reduced webbing, whereas those of scutatus are distinctly webbed.
Hempliractus scutatus differs from its congeners in having vestigial
toe pads, the remnants of which are visible only on careful examina-
tion of the ventral digital tips. A number of dermal characteristics
tend to support the alliances suggested above. All hemiphractines
are characterized by the presence of a proboscis; however, that of
prohoscideus is proportionately larger and distinctly different in
shape (Fig. 6) than those of the other species. Hemiphractus
johnsoni and scutatus have a similar dermal configuration of the
eyelids. Likewise, the eyelids of prohoscideus and hidjahis are the
same, but distinct from those of johnsoni and scutatus and those
characteristic of fasciatus ( Fig. 7 ) . Apparently there has been an
evolutionary trend towards development of calcars on the heels
within the prohoscideus-huhaUis lineage. They are well developed
in the two latter arboreal species, whereas calcars are poorly de-
veloped in johnsoni and fasciatus, and absent in scutatus. This
seems to indicate a counter trend involving the loss of the calcar in
the more terrestrial, giound-dwelling species. In contrast to the
smooth ventral skin of johnsoni, the venters of prohoscideus and
hubalus are finely granular. The venter of fasciatus bears scattered,
low tubercles and that of scutatus is coarsely granular.

Available ecological data concerning favored microhabitat haunts
of the various Hemiphractus confirm expectations based on observed
morphological features. Hemiphractus prohoscideus and huhalus
are characterized by relatively light weight skulls, generalized axial
and pelvic osteology, robust pectoral girdles, extensive dermal
ornamentation and disruptive color patterns. These two species
most frequently perch between 1.0 and 2.5 meters above the ground
on small branches and twigs amidst dense vegetation (see figure
18); clearly, they are arboreal species. On the other hand, johnsoni

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS

49

Fig. 18. Three species of Hemiphractus. Top: H. bubalus. Middle: H.
johnsoni female carrying eggs (photograph by Da\id B. Wake). Bottom: H.
fasciatus. All approximately 1.0-1.5 times natural size.

50 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

and fasciatus are found less than 0.7 meters above the ground and
sometimes on logs or the forest floor itself. Hemiphractus scutatus
is exclusively a forest floor, leaf-litter dweller. The latter three
species are characterized by a predominantly reddish or grayish
brown color scheme with irregular, darker dorsal mottling which
cryptically conceals them. Of the three, johmoni (Fig. 18) is the
most generalized morphologically, save for a few minor features
of the skull, and is at least semi-arboreal. Both fasciatus (Fig. 18)
and scutatus seem to have adapted for a terrestrial life style in the
lower strata of the forest by retaining and/or incrementing a heavily
armored skull and apparently developing distinctly different modes
of locomotion. The attenuate, crested ilia of fasciatus suggest that
it is more adept at leaping than any other member of the genus,
especially scutatus. Because it has a moderately well-developed
pectoral girdle and large adhesive discs, fasciatus obviously is
arboreal, although less specialized for this mode of existence than
either proboscideus or huhahis. The short, low-crested ilia, massive
skull, well-developed prehallux and effective loss of adhesive discs
in scutatus seem to represent an adaptive adjustment to the hopping
and walking gait and burrowing habits usually associated with in-
habitants of the leaf litter of the forest floor.

In summary, I suggest that johnsoni is the most generalized
member of the genus and probably most closely resembles in appear-
ance and habit the common ancestor of the five species. It is note-
worthy that johnsoni is the widest ranging species of the group
both latitudinally and altitudinally; it occurs over an elevational
range of 1610 meters, from Colombia to Bolivia. From a South
American johnsoni-\ike ancestor, I propose that two lineages arose —
one giving rise to proboscideus and bubalus, which adopted an
arboreal mode of existence, and a second giving rise to fasciatus
and scutatus, which successfully exploited a terrestrial, semi-arboreal
life style in one case and a completely terrestrial existence in the
other. I am not prepared to comment on the relative degrees of
specialization of bubalus and proboscideus on the basis of the
present data. Both inhabit the upper Amazonian slopes of the
Ecuadorian Andes. They are not known to occur sympatrically, and
on the basis of the most reliable locality records, it seems that
proboscideus is primarily an inhabitant of lower montane and low-
land rainforests, whereas bubalus is found most frequently in cloud
forests. Both scutatus and fasciatus have wide distributions, the
ranges of which are separated by the Andes, with scutatus being
Amazonian and fasciatus being Pacific. Given that they had a
common ancestor not unlike johnsoni, it seems reasonable that a
more generalized prototype may have specialized for their respec-
tive modes of existence as a result of isolation and concomitant
competition with the myriad of other anurans which ha\e e\'ohed
on and inhabit the South American landmass.

RELATIOxXSHIPS OF NEOTROPICAL HORNED FROGS 51

INTERGENERIC RELATIONSHIPS

On the basis of the literature surveyed throughout this report,
it is evident that the familial allocation of Hemiphractus has been
uncertain. To those familiar with the Leptodactylidae (see Lynch,
1971, for a review of this family), the hemiphractines seem similar
in superficial appearance, certain aspects of cranial and axial archi-
tecture, and habit to some of the ceratophryine leptodactylids.
However, Hemiphractus differs by the combination of the follow-
ing three characters from all known leptodactylids: 1) claw-shaped
terminal phalanges, 2) intercalarx' cartilages, and 3) a reproductive
mode unknown among leptodactylids. The possession of these
three characters allies Hemiphractus with a second, widespread
Neotropical family, the Hylidae.

In the most recent and comprehensi\ e treatment of Neotropical
hylids, Duellman (1970:18-19) di\ided the New World Hylidae
into four subfamilies — the Hylinae, Ph\llomedusinae, Amphignatho-
dontinae, and Hemiphractinae. The hemiphractines and amphi-
gnathodontines are distinguished from the bylines and ph>lIomedu-
sines (which together include the majority of known genera) by
their extensixely ossified skulls, "brooding" mode of reproduction,
and unique larval gill structure. This mode of reproduction, in
which the eggs and larxae are transported on the dorsum of the
female, and the modified lar\al gill structure were described first
by Boulenger (1898) in GastrotJieca cornuta. A more complete
analysis and survey of these characters were presented by Noble
(1927). He proposed that those hylids in which 1) larvae are
transported on the back of the female, 2) the dorsal epidermis of
the female is attenuated and \asculated, and 3) the lar\'ae ha\e
specialized "bell-shaped" gills constitute a natural phylogenetic
unit. Noble considered this unit to be distinct from other hylids
which exhibit a \'ariety of reproductive modes exclusive of the
"brooding" habit. Several questions now arise. Do the so-called
"brooding" hylids actually represent a single phvletic unit? If so,
what are the evolutionary patterns within this line and the inter-
relationships of the nine genera currently included in the group?

It is difficult for me to conceive of an evolutionarv' course in
which the combination of the terrestrial brooding habit and the
specialized gill structure ( both of which are unique among anurans )
could have arisen independently more than one time from a group
of advanced frogs. Therefore, without evidence to the contrary, it
is most parsimonious to conclude that these anurans {i.e., Amphi-
gnathodontinae and Hemiphractinae ) do represent a single phyletic
line which has diversified considerably. Duellman (1970) included
eight genera in the subfamily Amphignathodontinae; these are:
AnotJieca, Nyctimantis, Fritziana, Flectonotus, Gastrotheca, Am-
phignathodon, Cnjptohatrachiis and Stefonia. The inclusion of Ano-

52 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

theca and Nijctimantis is problematic. The first genus, Anotheca
(from southern Mexico, Costa Rica, and Panama), does not brood
its young. Eggs are known to be deposited in bromcHads and water-
filled tree cavities where the larvae undergo development; further-
more, the larv^ae lack specialized gills. The reproductive mode of
the second genus, Nijctimantis (known only from Ecuador), is
unknown. Females do not possess a brood pouch, and neither eggs
nor larvae have been associated with Nyctinuintis: however, my
colleagues and I have heard and collected males calling from water-
filled cavities in bamboo. Perhaps the reproductive mode of this
frog is the same as that of Anotheca. Morphologically, both of
these montypic genera share a great many features with Gastrotheca;
thus, despite the apparently more generalized reproductive mode
and larval gill structure, Duellman (1970) elected to include them
in the Amphignathodontinae. The placement of Anotheca and
Nyctimantis- in the Amphignathodontinae obviously is debatable.
Without further study of the entire subfamily, I prefer not to re-
arrange Duellman's classification; furthermore, the subfamilial allo-
cation of these two genera is not especially pertinent to the inter-
generic relationships of Heyniplnactus.

In the third genus, Fritziana (from the mountains of south-
eastern Brasil), a single, shallow basin forms on the backs of
females. In this basin a cluster of unprotected eggs develops. The
larvae are characterized by bell-shaped gills. Flectonottis (from
the mountains of southeastern Brasil and the coastal cordillera of
northern Venezuela and the continental islands of Trinidad and
Tobago) affords more protection for the developing young. The
females of this genus are characterized by a brood pouch with
a medial, slit-like opening. The larvae undergo direct develop-
ment in this pouch. The way in which eggs are placed on the back
of the female is unknown in both of these genera. In both Fritziana
and Flectonotus the first finger is either equal in length to the
second, or the second is shorter than the first.

Gastrotheca is a genus represented by at least 34 species which,
as a group, are widespread; it occurs in southeastern Brasil, mod-
erate to high elevations from northern Argentina to Colombia and
Venezuela, and low to moderate elevations in northwestern South
America and Panama. All female Gastrotheca possess a dorsal
brood pouch with a posterior opening, and all known larxae have
specialized gill structures. Mertens (1957) discussed the passive
introduction (by gravity) of eggs into the pouch of Gastrotheca
ovifera, and Hoogmoed (1967) described the way in which a male
and female cooperate during amplexus to maneuver fertilized eggs
into the female's pouch in Gastrotheca riohamhae. The larvae of
some Gastrotheca undergo partial development in the pouch and
subsequently are expelled from the pouch to complete develop-

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 53

ment in an aquatic medium. In other species, the eggs undergo
direct development into small frogs without an intermediate aquatic
lar\al stage. In some members of the genus, the second finger is
shorter than the first. Like Gastrotheca, Amphignathodon (known
only from Ecuador ) is characterized by larvae with specialized gills
and the presence of a brood pouch in females. Osteologically,
Amphignathodon is similar to certain of the casque-headed Gastro-
theca; it is distinguished from the latter and all other known anurans
by the presence of true teeth in the lower jaw.

The remaining two genera, Cnjptohatrachus and Stefania, have
relatively limited distributions and a number of peculiar characters
in common. Neither has a brood pouch, but each has larvae with
specialized gills which undergo direct development on the back
of the female. In both Cnjptohatrachus (from the Andes and
Sierra Santa Marta of Colombia) and Stefania (from the Guyana
Highlands), the eggs reside within indi\ idual shallow depressions
on the backs of females. The way in which eggs are positioned on
the backs of the females is unknown, although in one species,
Stefania scalae, Rivero (1970:463-464) provided some indication
of the manner in which the\- adhere to the back once in place. He
presented evidence suggesting that the female secretes a porous
membrane, or otherwise modifies the epidermis of her back; thus,
the skin surface may serve as a "template" for the secretion of a
substance by indi\ idual embryos that ensures their secure adherence
to the dorsum of the female. Cnjptohairachus and Stefania, like
Flectonotus, Fritziana, and some Gastrotheca, are characterized by
having the first and second fingers equal in length or the second
distinctly shorter than the first. The significance of this modification
is unknown, but Rivero (1970:465) pointed out that this character-
istic may in some way relate to the egg-carrying capacity of these
frogs.

The Hemiphractinae, as defined by Duellman (1970) contains
only one genus, Hemipliractus. Relatixe to the eight genera dis-
cussed above, it shares the most reproductixe characters with
CryptobatracJius and Stefania. The large-yolked eggs reside in indi-
vidual shallow depressions on the back of the female, and there
undergo direct development. Furthermore, the second finger is
in\ariably shorter than the first in both sexes of each species. Be-
cause of the suite of unique osteological features distinguishing
Hemip]\ractus from the other eight genera, it has been placed in a
separate subfamily.

Noble (1927) assumed that Cnjptohatrachus and Hemiphractus
were primitive among the hyfids that brood their young, because
the eggs are carried fully exposed on the backs of females. By logi-
cal association, we now would ha\e to include Stefania and Fritziana
in this group also. Noble further stated that among those species

54 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

having larvae with expanded gills, those in which the gills are
composed of four separate sheets of tissue were more primitive than
those in which either the posterior pair of gill sheets are lost (in at
least one species of Cryptohatrachus) or fusion of the gill sheets
had taken place. Hemiphractus is an example of the latter condi-
tion. Each pair of gill sheets has fused, forming "bells" of vascular
tissue laterally; together these bells enclose the ventral half of the
embryo ( Noble, 1927 ) . Noble considered those frogs which brood
their young within protective pouches to be the most advanced.
This group includes Flectonotiis, Gastrotheca, and Amphignathodon.
The gills of embryonic Gastrotheca are like those of Hemiphractus;
the details of the larval gill structure of Flectonotiis and Amphi-
gnathodon are unknown.

It is evident that much remains to be learned about the breeding
biology in general, and the specific aspects of reproduction and
development of all of these frogs. Furthermore, detailed systematic
studies of each of the genera should be executed before the status
of their phylogenetic relationships can be assessed with any con-
fidence. On the basis of the available information, it would seem
that Anotheca and Nijctimantis might represent early derivatives of
a hylid line committed towards evolution of behavioral and morpho-
logical traits associated with parental care of the young. Thus,
although Anotheca and Nijctimantis are not adapted morphologi-
cally to keep their young with them, they may have elected an al-
ternative solution, that is, to deposit eggs in places affording them
some protection such as bromeliads and tree-cavities. A more ad-
vanced derivative of this general hylid line might be represented
by Fritziana in which larvae having specialized gills are carried
in a shallow depression on the dorsum of the female. An anuran
like Fritziana well may represent a reproductive and morphological
prototype from which at least two, more specialized evolutionary
lines could have been derived. The first and more primitiv^e of
these probably is represented today by Cryptohatrachus, Stefania,
and Hemiphractus. Members of this lineage failed to develop a
maternal brood pouch, but did develop a means of affording indi-
vidual embryos an intimate and discrete attachment with the
female. Hypothetically, a second, derived lineage may be repre-
sented by Flectonotiis, Gastrotheca and Ampliignathodon. The
simplest form of a maternal brood pouch seems to be that of Flec-
tonotus in which the dorsal skin of the female forms lateral flaps
which occlude medially. The pouches of Gastrotheca and Am-
phignathodon are complete, having only a posterior opening and
affording the developing larvae the most protection of any of these
hylids.

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 55

SUMMARY

Between 1824 and 1945 twelve nominal hemiphractine species
were described. Of these twelve, five are recognized in this paper
as comprising the genus Hemiphractus; these are: Hemipliractus
huhalus (Jimenez de la Espada), H. fasciotus Peters, H. joJuisoni
(Noble), H. proboscideus (Jimenez de la Espada), and H. scutatus
( Spix ) . The species are readily distinguished on the basis of cranial
characters in addition to prevailing differences in sizes, proportions,
tuberculation, and coloration. The genus is widespread, occurring
in the upper Amazon Basin of Colombia, western Brasil, Ecuador,
Peru and Bolivia, the Andes of northern Colombia, the Pacific
slopes of northwestern Ecuador, Colombia and eastern Panama,
and the Caribbean slopes of western Panama. Hemiphr actus occurs
between elevations of 250 and 1S30 meters, and is an inhabitant of
the lower strata of lowland rainforests and lower montane and cloud
forests.

Hemiphractus is allied with the Hylidac by possession of claw-
shaped, terminal phalanges, intercalary cartilages, and a reproduc-
tive mode which involves direct development of larvae with spe-
cialized gills on the dorsum of the female. Osteologically, members
of this genus differ from all other known hylids by the unique con-
figuration of cranial castjuing, the presence of pter>'goid odontoids
(in one species), the shape of the prexomers, the presence of an
enlarged pair of mandibular odontoids and tooth-like mandibular
serrations. They dift^er further by the presence of greatly enlarged
neural spines. Because of this combination of characteristics, this
genus is retained in a separate subfamily, the Hemiphractinae.

Despite the unique suite of morphological characters ascribed to
the Hemiphractinae, this hylid subfamily seems to be closely related
to the Amphignathodontinae on the basis of their common repro-
ductive mode. Both subfamilies differ from the two remaining
New World hylid subfamilies ( the Hylinae and Phyllomedusinae ) in
that the amphignathodontines and hemiphractines demonstrate
ethological and morphological c\olutionary trends towards parental
care of the young. In the simplest stage of this progression, eggs
are deposited in protected environmental situations {e.g., water-
filled cavities in trees). A significant advance is shown by those
genera in which embr^'os are carried about exposed, on the backs
of females. The embryos undergo direct de\'elopment and are
equipped with specialized, "bell-shaped" gills which serve as an
interface between the developing larxae and the maternal epi-
dermis. In the most derived form of parental care, eggs are carried
within a brood pouch on the dorsum of the female and, thus, are
afi^orded maximal protection during their development; these larvae
also are equipped with specialized gills. These data suggest that

56 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

the Amphignathodontinae and Hemiphractinae represent a single
phyletic line distinct from their Neotropical relatives, the Hylinae
and Phyllomedusinae.

RESUMEN

Doce especies nominales de ranas hemiphractines se describieron
entre 1824 y 1945. Cinco de ellas se reconocen en el presente tra-
bajo en el genero Hemiphr actus; estas son: Hemiphractus hiibalus
(Jimenez de la Espada), H. fasckitus Peters, H. johmoni (Noble),
H. proboscideus ( Jimenez de la Espada ), y H. scutatus ( Spix ) . Las
especies se pueden distinguir facilmente en base a las caracteristicas
craneales, ademas de las diferencias en tamanos, proporciones, tu-
berculos de la piel y coloracion. El genero esta ampliamente dis-
tribuido, pues ocurre en la depresion alta amazonica de Colombia,
occidente de Brasil, Ecuador, Peru, y Bolivia, los Andes al norte
de Colombia, las faldas montaiiosas nor-occidentales de Ecuador,
Colombia, y este de Panama. El genero Hemiphractus se distribuye
a elevaciones que oscilan entre 250 y 1S30 metros e igualmente se
encuentra en los bosques lluviosos, montanos y nublados.

Hemiphractus esta emparentado con la familia Hylidae, ya que
posee falanges terminales en forma de uira cartilagos intercalares,
y un modo reproductivo caracterizado por desarrollo directo de la
larva, con branquias especializadas, en el dorso de la hembra. Os-
teologicamente, los miembros de este genero se diferencian de otros
hilidos conocidos por tener una configuracion I'mica del casquete
craneal, presencia de odontoides pterigoideos (en una especie),
forma de los prevomeres, presencia de un par agrandado de odon-
toides mandibulares, y endentaduras mandibulares en forma de
dientes. Ademas, ellos se diferencian por poseer espinas neurales
muy dilatadas. Tomando en cuenta esta combinacion de carac-
teristicas, el genero se mantiene en una subfamilia separada, la
Hemiphractinae.

A pesar del grupo de caracteristicas que permiten distinguir a
Hemiphractinae, esta subfamilia de hilidos parece estar muy em-
parentada con Amphignathodontinae, en base a su modo reproduc-
tivo comun que poseen. Ambas subfamilias difieren de las otras
dos subfamilias de hilidos del Nuevo Mundo (Hylinae y Phyllo-
medusinae) en que elllas tienen tendencias evolutivas etologicas
y morfologicas hacia el cuidado parental de las crias. El primer
paso hacia esta tendencia lo muestran aquellas especies que de-
positan sus heuvos en habitaculos protegidos [i.e., cavidades con
agua en los troncos de los arboles). Un avance significativo lo
muestran aquellos generos cuyas hembras cargan los embriones en
la espalda, pero carecen de bolsa o marsupio. Los embriones tienen
desarrollo directo y estan en contacto con la epidermis materna
mediante branquias campaniformes especiales. En la forma mas

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 57

derivada de cuidado parental, hembras llevan los huevos dentro
de bolsas o marsupios dorsales, de tal manera que hay una pro-
teccion maxima de los huexos durante el desarrollo; estas larvas
tabien estan equipadas con branquias especiales. Estos datos su-
gieren que Amphignathodontinae y Hemiphractinae representan a
una sola linea filetica distinta de sus relativas neotropicales, Hylinae
y Phyllomedusinae.

SPECIMENS EXAMINED

Locality data for each specimen examined are listed in the fol-
lowing paragraphs. The data are arranged as follow: alphabetically
by country, state (department or province), and locality; alpha-
betically by the first letter in the abbre\iations for the museums,
and numerically after each museum abbreviation. Specimens lack-
ing precise locality data are listed in the first most restricted political
unit possible. Unless otherwise noted, all specimens are preserved
in alcohol.

Hemiphractus buhalus

ECUADOR: Napo: Archidona, MNCN 176; Ri'o Azuela, 1740 ni, BMNH
1973.2850, KU 143107-17; San Jose de Moti, MNCN 175; SE slopes Cerro
Siunaco, CAS 122207-08; S slope Cordillera del Due above Rio Coca, 1150 m,
KU 123160-68, 124140 (skeleton); "Zarajioto, Orillas del Napo," MNCN 174.
Pastaza: Canelos, 300 m, MCZ 17937; headwaters of Rio Arajuno, CAS 87364;
headwaters of Rio Arajuno, about 10 km NE Puvo, CAS 122213; Mera, 1000
m, UMMZ 92109; Rio Alpayacu, 1 km E Mera, 1100 m, KU 120763; Rio
Sandalia, tributar>- of Rio Puyo, USNM 193287.

Hemiphractus fasciatus

COLOMBIA: Antioquia: Alto de la Honda, near San Rafael, LACM
47147; 8 km S Valdixia, 1450 m, FMNH 63850. Cauca: La Costa, El Tambo,
NHRM 1981.

ECUADOR: Esmerddas: near the lower Rio Blanco [0° 02-03' N, 79°
10-15' W], CAS 122206; near the upper Cachabi [0° 56-58' N, 78° 35-38' W],
CAS 122205. Pastaza: "Pastaza \'alley," ZSM 36/0; Mindo, UMMZ 55523.

PANAMA: Bocas del Tow: 18.6 km W Almirante, upper Ri'o Changena
camp, CAS 93836, CAS-SU 21772; north slope Cerro Pando, 1450 m, KU
107426; Rio Changena, 650 m, KU 128077 (cleared and stained). Co/on:
Signal Loma (Loma Peak), 5 km S San Isabel, USNM 55320-21. Darien:
north ridge Cerro Cituro, Serrania de Pirre, 900-1320 m, KU 107408-422,
107425; southeast slope Cerro Pirre, 1440-1450 m, KU 93504-508, 93509-10
(skeletons). Panama: Altos de Pacora, 800 m, KU 77107, 93503. San Bias:
Camp Summit, 300-400 m, KU 116353-5.

Hemiphractus johnsoni

BOLIVIA: "Linimbane," 1000 m, BMNH 1901.8.2.51.

COLOMBIA: Antioquia: Santa Rita Creek, 22.5 km N Mesopotamia,
1890-1910 m, AMNH 1341-42, 1343 (skeleton).

ECUADOR: Pastaza: Canelos, 300 m, BMNH 1880.2.5.192.

PERU: No specific localitij: "Eastern Perri," BMNH 1902.5.29.204. Cuzco:
Marcapata Valley, KU 153436 (skeleton). Huduco: S slope Serrania de Sira,
690 m, KU 154671-72. Loreto: Rio Tapiche, Monte Alegre, AMNH 42862;

58 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

Rio Ucayali, Cashiboya, AMNH 43452; Tangarana Hills, Alto Utoquinia, AMNH
58631 (adult female with series of 18 young). Pasco: Chontilla, Iscozazin
Valley, USC-CRE 716, 717 (partial egg clutch).

Hemiphractus proboscideus
ECUADOR: No specific locality: "Eastern Ecuador," AMNH 52931; "Rio
Pastaza watershed," NHRM 1911. Mowna-Santiago: Chiguaza, CAS 122211.
Napo: Bemiejo No. 4, 720 m, 15 km ENE Umbaqui [77° 22' W, 00° 11' N],
KU 123149-54, 124139 (skeleton); Lago Agrio, KU 126326; Loreto, CAS
122212; Puerto Libre, Rio Aguarico, 570 m, KU 123155-59; Rio Coca, 300 m,
UMMZ 92108; Rio Napo, 300 m, UMMZ 92110; Santa Cecilia, 340 m, AUM
8046-51, BMNH 1973.2851, KU 104774-77, 106970, 109336-38, 111627-28,
123134-47, 124135-38 (skeletons), 126325, 146265-70, 150616-19; slopes of
Cerro Sumaco, USNM 193288; Sumaco, MNCN 173. Pastaza: Copataza, a
tributary of the Rio Pastaza, CAS 122209-10; Rio Pastaza, Andoas, AMNH
52929; Sarayacu, CAS-SU 11433.

Hemiphractus scutatus

BRASIL: Aitjazonas: Igarape Belem, near Rio Solinoes, ca. 70 km E
Leticia, AMNH 85375-76.

ECUADOR. Mowna-Santiago: Macuma, KU 129751, 129752 (skeleton),
UIMNH 59616-17; Rio Piuntza, KU 147117-18; Taisha, Macas, USNM 193577.
Napo: ? Archidona, USNM 193582; Amienia, 250 m, UMMZ 92105; Boca,
Rio Coca, 300 m, UMMZ 92104; Loreto, CAS-SU 11434, USNM 193.578,
193584; San Jose de Moti, MNCN 192 (lot of two preserved specimens and
one skeleton); SE slope Cerro Sumaco, CAS 87365, 87366 (skeleton), CAS-SU
11435, USNM 193583; top of Cerro Sumaco, San Jose Aliajo, AMNH 22210.
Pastaza: Abitagua, UMMZ 92106; Alpayacu, 300 m, UMMZ 92103; bet^veen
Abitagua and Rio Pastaza Valley, UMMZ 92107; Rio Arajuno, headwaters,
USNM 193580; Rio Bufeo, tributary of Baja Rio Bolwnaza, USNM 193576;
Rio Rutimo, tiiluitary of Rio Bobonaza, USNM 193580; Rio Talin, headwaters
of Rio Bobonaza, USNM 193579. Tiinguiahtia: Mirador, AMNH 38527;
Palmera, Pastaza River Valley, 1333 m, AMNH 39488.

PERtJ: Ciizco: Quince Mil, Boca Rio Marcapata, FMNH 121855. Loreto:
Caballococha, AMNH 43044; Cadena de Manseriche, AMNH 43403; Iquitos,
AMNH 42768; middle Rio Utoquinia, CAS-SU 9332.

NO DATA: UMMZ s-1015 (skeleton).

LITERATURE CITED

Andersson, L. G.

1945. Batrachians from east Ecuador. Arkiv Zool., 37A(2):l-88.

BOULENGER, G. A.

1882. Catalogue of the Batrachia Salientia s. Ecaudata in the collection

of the British Museum, ed. 2, London, xvi + 503 pp.
1898. An account of the reptiles and batrachians collected by Mr. W. F. H.

Ro.senberg in Western Ecuador. Proc. Zool. Soc. London, pp.

107-126.
Brocchi, M.

1877. Recherches sur I'ostcologie d'un batracien anoure provenant du

Bresil {Hemiphractus). Ann. Sci. Nat., ser. 6, 5(7):1-18.

Cope, E. D.

1866. On the structure and distribution of the arciferous Aniua. Jour.
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1868. An examination of the Reptilia and Batrachia obtained liy the
Orton expedition to Ecuador and the upper Amazon, with notes
on other species. Proc. Acad. Nat. Sci. Pliiladelphia, 20:96-140.

RELATIONSHIPS OF NEOTROPICAL HORNED FROGS 59

DUELLMAN, W. E.

1970. The hylid frogs of Middle America. Monogr. Mus. Nat. Hist. Univ.
Kansas, l:xii + 753 pp.

DuMERiL, A. M. C. and G. Bibron

1841. Erpetologie Generale ou Histoire naturelle complete des reptiles.
Paris, vol. 8, 792 pp.
Gadow, H.

1901. Amphibia and Reptiles. London, xiii + 608 pp.
Gravenhorst, J. L. C.

1825. Stombus, eine neue Amphibien Gattung. Isis von Oken, 1825:920-
922.

GUNTHER, A. C. L. G.

"1858" [1859]. Catalogue of the Batrachia Salientia in the collection of
the British Museum. London, xvi + 160 pp.
HOOGMOED, M. S.

1967. Mating and early development of Gastrotheca marsupiata (Dumeril
and Bibron) in captivity ( Hylidae, Anura, Amphibia). Brit. Jour.
Herpetol., 4(l):l-7.
Jimenez de la Espada, M.

1871. Faimae neotropicalis species quaedam nondum cognitae. Jour. Sci.
Math. Phys. Nat., Acad. Real Sci. Lisboa, 3:57-65.
Lynch, J. D.

1971. Evolutionary relationships, osteology and zoogeography of lepto-
dactyloid frogs. Misc. Publ. Univ. Kansas Mus. Nat. Hist., 53:1-238.

Mertens, R.

1957. Zur Naturgeschichte des venezolanischen Riesen-Beutelfrosches,
Gastrotheca ovifera. Zool. Garten (N. F.), 23:110-133.

MiRAXDA-RlBEIRO, A. DE

1926. Notas para servirem ao estudo dos gymnobatrachios (Anura)
Brasilieros. Arch. Mus. Nac, Rio de Janeiro, 27:1-227.
Myers, C. W.

1966. The distril:)ution and behavior of a tropical horned frog, CeratJiyJa
panamensis Stejneger. Herpetologica, 22(1):68-71.

Myers, G. S. and A. L. de Garvalho

1945. Notes on some new or little-known Brazilian amphibians, with an
examination of the history of the Plata salamander, Ensatina platen-
sis. Bol. Mus. Nac, Zool., 35:1-24.
Noble, G. K.

1917. The systematic status of some batracliians from South America.
Bull. Amer. Mus. Nat. Hist., 37(30) :793-814.

1926. An analysis of tlie remarkable cases of distribution among the
Amphibia, with descriptions of new genera. Amer. Mus. Novitates,
212:1-24.

1927. The value of life history data in the study of the evolution of tlie
Amphil^ia. Ann. New York Acad. Sci., 30:31-128.

1931. The liiology of the Amphiljia. McGraw-Hill Book Co., Inc., New
York, xiii + 577 pp.

Peters, W.

1862. Uber die Batrachier-Gattung Hemiphractus. Monatsber. Akad. Wiss.
Berlin, pp. 144-152.

RiVERO, J. A.

1970. On the origin, endemism and distribution of the genus Sfcfania
Ri\ero (Amphil)ia, Salientia) witli a description of a new species
from southeastern Venezuela. Bol. Soc. Venezolana Cien. Nat.,
28( 117/118 ):456-481.

60 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

SpIX, J. B. VON

1824. Animalia nova, sive species novae testudinum et ranarum, quas
in itinera per Brasiliam, annis 1817-1820. Monaco, pp. 1-53.
Stejneger, L.

1917. A new species of horned tree-frog from Panama. Proc. Biol. Soc.
Washington, 30:31-33.
Trueb, L.

1970. Evolutionary relationships of casque-headed tree frogs with co-
ossified skulls (family Hylidae). Univ. Kansas Publ. Mus. Nat.
Hist., 18(7):547-716.

1971. Phylogenetic relationships of certain Neotropical toads with the
description of a new genus (Anura: Bufonidae). Los Angeles Co.
Mus. Contrib. Sci., 216:1-40.

1973. Bones, frogs, and evolution. In Evolutionary biology of the anurans.
Contemporary research on major problems. J. L. Vial, editor. Uni-
versity of Missouri Press, Columbia, Missouri, pp. 65-132.
Trueb, L. and W. E. Duellman

1971. A synopsis of Neotropical hylid frogs, genus Osteocephahis. Occas.
Papers Mus. Nat. Hist. Univ. Kansas, 1:1-47.
Vial, J. L.

1973. Evolutionary biology of the anurans. Contemporary research on
major problems. James L. Vial, editor. University of Missouri Press,
Columbia, Missouri, vii -f- 470 pp.
Wagler, J. G.

1828. Auziige aus einem systema amphibiorem. Isis von Oken, columns
740-744.
1830. Natiirlisches System der Amphibien mit vorangehender Classification
der Saiigethiere und Vogel. Munich, 354 pp.

University of Kansas Publications
MUSEUM OF NATURAL HISTORY

The University of Kansas Publications, Museum of Natural
History, beginning with volume 1 in 1946, was discontinued
with volume 20 in 1971. Shorter research papers formerly pub-
lished in the above series are now published as Occasional
Papers, Museum of Natural History. The Miscellaneous Pub-
lications, Museum of Natural History, began with number 1 in
1946. Longer research papers are published in that series.
Monographs of the Museum of Natural History were initiated
in 1970. All manuscripts are subjected to critical review by
intra- and extramural specialists; final acceptance is at the
discretion of the publications committee.

Institutional libraries interested in exchanging publications
may obtain the Occasional Papers and Miscellaneous Publica-
tions by addressing the Exchange Librarian, University of Kan-
sas Library, Lawrence, Kansas 66045. Individuals may pur-
chase separate numbers of all series. Prices may be obtained
upon request addressed to Publications Secretary, Museum of
Natural History, University of Kansas, Lawrence, Kansas 66045.

Editor: Richard F. Johnston"

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