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OCCASIONAL PAPERS

MCZ
LIBRARY

SEP 2 9 1992

of the

MUSEUM OF NATURAL HISTORY
The University of Kansas
Lawrence, Kansas

number 151, pages 1-23 23 september 1992

The Status of the Hylid Frog Genus Ololygon
and the Recognition of Scinax Wagler, 1830

William E. Duellman and John J. Wiens1

Division of Herpetology, Museum of Natural History, and
Department of Systematica and Ecology, The University of Kansas, Lawrence,

Kansas 66045-2454, USA

ABSTRACT The hylid frog genus Scinax Wagler, 1 830 (type species: Hyla aurata
Wied-Neuwied, 1821) has priority over Ololygon Fitzinger, 1843 (type species:
Hyla strigilata Spix. 1824). A neotype is designated for Hyla aurata, which is
compared with other species of Scinax. The genus is defined using external mor-
phological, osteological, larval, and reproductive characters. Scinax is considered
to be monophyletic and the sister group of Scarthyla.

RESUMEN El genero hflido Scinax Wagler, 1830 (especie tipo Hyla aurata
Wied-Neuwied, 1821) tiene prioridad sobre el genero Ololygon Fitzinger, 1843
(especie tipo Hyla strigilata Spix, 1824). Se designa un neotipo para Hyla aurata,
el cual se compara con otras especies de Scinax. Se define el genero usando
caracteres morfologicos, osteologicos, larvales, y reproductivos. Se considera a
Scinax monofiletico y como el grupo hermano de Scarthyla.

Key words: Hylidae, Generic nomenclature, Ololygon, Scinax.

Prior to 1977, numerous species of neotropical Hyla were recognized as
the Hyla rubra group by Leon (1969), Cochran and Goin (1970), and
Duellman (1970a). Within this group, phenetic subgroups were recognized

'Present address: Department of Zoology, The University of Texas, Austin,
Texas 78712-1064. USA.

© Museum of Natural History. The University of Kansas. Lawrence. lSSN:0091-7958

2 UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

by Duellman (1972) and Lutz (1973). Fouquette and Delahoussaye (1977)
resurrected the generic name Ololygon Fitzinger, 1843, for frogs of the
Hyla rubra group (sensu lato). They included 48 species in five species
groups of Ololygon and referred 10 other species to the genus. Unfortu-
nately, Fouquette and Delahoussaye (1977) overlooked the fact that among
the species they included in Ololygon was the type species of Scinax
Wagler, 1830, which, as noted by Pombal and Gordo (1991), has priority
over Ololygon Fitzinger, 1843.

Herein we provide (1) a discussion of the nomenclature relevant to the
genus; (2) a definition of the genus Scinax, with a discussion of possible
inter- and intrageneric relationships; and (3) a list of trivial names associ-
ated with the genus.

-v

MATERIALS AND METHODS

We examined cleared-and-stained skeletal preparations of 34 species,
preserved adults of 42 species, and larvae of 20 species of Scinax, and
comparative material representing most genera of hylids and centrolenids
in the collection of The University of Kansas Museum of Natural History
(KU) (Appendix I). Measurements were taken to the nearest 0.1 mm using
needle-tipped calipers in the manner described by Duellman (1970a);
snout-vent length is abbreviated as SVL. Formulae for toe webbing are
based on Savage and Heyer (1967) as modified by Myers and Duellman
(1982). Terminology of larval features follows Altig and Johnson (1989),
and terminology for osteological features follows Duellman and Trueb
( 1 986) and Trueb ( 1 973 ). Acronyms for museum collections follow Leviton
etal. (1985).

NOMENCLATURE

Scinax Wagler, 1830

Scinax Wagler, 1830:201. — Type species: Hyla aurata Wied-Neuwied, 1821, by

subsequent designation (Stejneger, 1907:76).
Ololygon Fitzinger. 1843:31. — Type species: Hyla strigilata Spix, 1824. by

monotypy.
Garbeana Miranda-Ribeiro, 1926:96. — Type species: Garbeana garbei Miranda-

Ribeiro, 1926, by monotypy.

Generic names. — In his classification of amphibians, Wagler (1830)
proposed many new generic names with a list of included species. On page
201 he erected the genus Scinax and listed three species — S. aurata (Wied-
Neuwied, 1821), 5. variolosa (Spix, 1824 [= Hyla punctata, fide Peters,
1872:214]), and 5. bipunctata (Spix, 1824). Listing several species under a
new generic name without designating a type species was a common
practice in the 19th Century. Leonhard Stejneger made valiant efforts to

STATUS OF OLOLYGON AND SCINAX 3

tidy up earlier nomenclature, and in his treatise on the herpetology of
Japan. Stejneger (1907:76) provided a generic synonymy of Hyla, in which
he listed "1830. Scinax Wagler, Syst. Amph., p. 201 (type. H. awata)."' In
the same synonymy Stejneger also listed type species for two other nomi-
nal genera with lists of proposed included species. Schneider ( 1799) listed
11 species under Calamita; of these. Stejneger (1907) selected Rana
arborea Linnaeus, 1758. as the type species. Wagler (1830) listed 11
species under Auletris; of these. Stejneger (1907) selected Hyla boans
Linnaeus, 1758, as the type species. Similarly, of the seven species listed
under Hylaplesia by Boie ( 1826), Stejneger ( 1937) chose Hyla punctata
Daudin, 1802 (= Calamita punctatus Schneider. 1799) as the type species.
All of these are valid subsequent designations of type species according to
Article 69 of the International Code of Zoological Nomenclature (Anony-
mous, 1985).

In his list of genera of Hylidae, Fitzinger (1843:31) placed only one
species in Ololygon — Hyla strigilata Spix, 1824. Miranda-Ribeiro
(1926:96) described a new genus and species, Garbeana garbei. Hyla
strigilata Spix, 1924. and Garbeana garbei are the type species of Ololygon
Fitzinger. 1843. and Garbeana Miranda-Ribeiro. 1926. respectively, by
monotypy. Thus, of the nominal species included in the Hyla rubra group
(sensu lato, auctorum) and subsequently included in the genus Ololygon by
Fouquette and Delahoussaye (1977) and Frost (1985), three of them are
type species of genera. The earliest generic name is Scinax Wagler. 1830,
with the type species Hyla awata Wied-Neuwied, 1821. Therefore, the
correct generic name for this group of hylid frogs is Scinax Wagler, 1830;
Ololygon Fitzinger, 1843, and Garbeana Miranda-Ribeiro, 1926, are sub-
jective junior synonyms.

The generic name. Scinax, is from the Greek skinos meaning quick or
nimble, an appropriate name for these agile frogs. The gender is feminine.

Type species. — In order to justify the use of Scinax and the placement
of the generic synonyms, it is necessary to identify biologically the type
species of the genera. Thus, we are concerned with the identities of Hyla
aurata, Hyla strigilata, and Garbeana garbei.

Garbeana garbei is readily identified. The holotype (MZUSP 277) was
examined by Duellman, and many specimens are associated with this
specific name (as Hyla garbei), a taxon widely distributed in the upper
Amazon Basin (Duellman, 1970b; 1972).

It is unfortunate that Hyla strigilata Spix, 1824, is the type species of
Ololygon, because the holotype, ZSM 2369/0 from "Bahia," was destroyed
in World War II ( Hoogmoed and Gruber, 1983). Peters ( 1 872) examined the
type specimen ("Das einzige Original-exemplar") and noted discrepancies
between it and Spix's illustration (1824:pl. X, fig. 3). Cochran (1955)
examined the holotype of H. strigilata and associated many specimens

4 UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 1 5 1

from eastern Brazil with the species, which she considered to be polytypic;
she included Hyla brieni de Witte, 1930, and Hyla flavoguttata Lutz and
Lutz, 1939, as subspecies. Cochran's concept of Hyla s. strigilata appar-
ently included two or more species; she provided photographs ( 1955:pl. 14,
figs. D, E) of a preserved specimen (ZMB 7504) from Caravellas, Bahia,
Brazil. Lutz (1973) also was unsure of the identity of Hyla strigilata and
tentatively referred only four specimens, all juveniles from Afonso Claudio,
Espfrito Santo, to the species. Thus, the identity of Hyla strigilata remains
questionable; presumably the name applies to a species in Bahia, Brazil,
possibly one that is recognized by another name. However, based on the
descriptions of the type by Spix (1824) and Peters (1872) and the illustra-
tion in Spix (1824), Hyla strigilata is distinct from Hyla aurata.

Wied-Neuwied (1821:249) described Hyla aurata from an unknown
number of specimens taken in swamps at Santa Agnes, Bahia, Brazil.
Wied-Neuwied (1824:531-533) provided a more detailed description. En-
glish translations of both descriptions were given by Lutz (1973:167-168).
Bokermann (1957) traced Wied-Neuwied's travels in Brazil and listed
Wied-Neuwied's locality as "Santa Inez, fazenda (S. Agnes). Atualmente
cidade de Santa Inez, BA, proxima ao rio Jequlrica." Bokermann (1966)
gave the type locality of Hyla aurata as "Santa Inez (= 'S. Agnes'), Bahia."

In 1965, the species was rediscovered at Maracas, Bahia, Brazil
(Bokermann, 1969). Lutz ( 1973) did not mention Bokermann's locality, but
noted that she had found Hyla aurata in 1941 at Salvador and at Cachoeira,
near Sao Felix, on the Rio Paraguassii. Thus, the species has been reported
from four localities from Salvador on the Atlantic coast to Maracas, about
160 km inland; all localities are between 12°30' and 13°26' S latitude.

As was characteristic of the early 19th century, no type specimens were
designated, and no types are known to exist. Some of Wied-Neuwied's
types of frogs (e.g., syntype of Hyla crepitans) are in the American Mu-
seum of Natural History, but there is no evidence for the existence of type
specimens of Hyla aurata in that collection (Bokermann, 1969; D. R. Frost,
pers. comm.). In the interests of nomenclatural stability, we designate a
neotype of Hyla aurata Wied-Neuwied, 1821.

Rules for the designation of neotypes are explicit in Article 75. d of the
International Code of Zoological Nomenclature (Anonymous, 1985); these
include ( 1 ) evidence that the neotype is consistent with what is known of
the former name-bearing type; (2) evidence that the neotype came as nearly
as practical from the original type locality; and (3) that the neotype is the
property of a recognized scientific institution. Extant specimens of Hyla
aurata are from three localities; of these, Maracas is the closest to the type
locality. Maracas is about 70 km (airline) WSW of Santa Inez (= Santa
Agnes, the stated type locality); both localities are inland. Maracas is at the
headwaters of the Rio Jequirica, and Santa Inez is in the valley of the same

STATUS OF OLOLYGON AND SCINAX 5

river. The other localities, Cachoeira and Salvador, are on the coastal plain,
about 125 km NE and 150 km ENE (airline), respectively, from Santa Inez.
The species was first found at Maracas in September 1965 by F. M.
Oliveira, and additional specimens were collected there by F. M. Oliveira
and W. C. A. Bokermann in November 1965. These specimens (WCAB
30726-36, 31857-906) were deposited in Bokermann's private collection
in Sao Paulo, Brazil. One of these specimens, WCAB 31905, was donated
to the Museum of Natural History, The University of Kansas, in 1969. This
specimen satisfies all the requirements for designation as a neotype. Thus,
KU 125383 hereby is designated as the neotype of Hyla aurata Wied-
Neuwied, 1821. According to Article 75. f of the code, the place of origin of
the neotype becomes the type locality. Therefore, the type locality of Hyla
aurata becomes Maracas, Estado do Bahia, Brasil.

Description of neotype. — Adult male; body moderately robust; head as
wide as body, longer than wide; head length 36.4% of SVL; head width
32.5% of SVL; snout long, projecting well beyond margin of jaw,
subacuminate in dorsal view and in profile: eye-nostril distance slightly
greater than horizontal diameter of eye; canthus rostralis rounded; loreal
region slightly concave; lips rounded. Top of head flat; interorbital distance
about twice width of upper eyelid; nostrils barely protuberant dorsolateral^
at point above anterior margin of lower jaw: internarial area barely de-
pressed. Supratympanic fold weak, barely obscuring upper edge of tym-
panic annulus; tympanum round, posteroventral to eye; separated from eye
by distance equal to 77% of diameter of tympanum.

Forearm moderately robust; row of low ulnar tubercles; fingers short,
unwebbed, bearing large, elliptical, terminal discs; width of disc on Finger
III 85% diameter of tympanum; relative lengths of fingers I < II < IV < III;
basal segment of Finger II greatly swollen. Palmar tubercle elevated, bifid;
thenar tubercle low, elliptical; large, unpigmented nuptial excrescence on
inner edge of thumb: subarticular tubercles conical; supernumerary tu-
bercles subconical, present only on proximal segments of digits. Hind limb
moderately robust; tibia length 57.0% of SVL; foot length 41.6% of SVL;
numerous subconical tubercles on heel; rows of distinct tubercles on both
inner and outer edges of tarsus; inner tarsal fold absent; inner metatarsal
tubercle elliptical, elevated; outer metatarsal tubercle conical. Toes moder-
ately long, bearing elliptical discs nearly as large as those on fingers;
relative lengths of toes I < II < III = V < IV; toes about three-quarters
webbed; webbing formula I 2— 2 II 1+— 2 III 1+— 2 IV 2— 1+ V;
subarticular tubercles conical, smaller than those on fingers; supernumer-
ary tubercles small, subconical, only on proximal segments of digits.

Skin on dorsal surfaces of head and limbs smooth, on dorsal surfaces of
body shagreened, on flanks weakly granular; numerous small tubercles on
upper eyelids and dorsal surfaces of body and shanks; skin on belly and

6 UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

ventral surfaces of thighs coarsely granular, on other ventral surfaces
smooth. Cloacal opening directed posteroventrally at upper level of thighs;
cloacal sheath short, unmodified. Vomerine odontophores slightly elevated,
elliptical, slightly inclined posteromedially between ovoid choanae, nar-
rowly separated medially, each bearing five teeth. Tongue broadly cordi-
form, shallowly notched posteriorly, barely free behind. Vocal slit ellipti-
cal, extending from midlateral base of tongue toward angle of jaws; vocal
sac single, median, subgular, large, extending onto chest.

Coloration in preservative: Dorsum tan with cream dorsolateral stripes
extending from occiput immediately behind orbits to groin; stripe on left
side interrupted and offset in scapular region; stripes bordered by series of
small brown spots (Fig. 1 ). Canthal stripe brown, diffuse; interorbital bar
brown, distinct, narrow, bordered anteriorly by much wider cream bar;
upper lips and tympanum creamy tan. Three indistinct, transverse brown
bars on each forearm; anterior and dorsal surfaces of thighs indistinctly
mottled creamy tan and brown; posterior surfaces of thighs brown; dorsal
shanks tan with indistinct brown spots and transverse bars; hands, feet, and
venter creamy tan.

Structurally, this specimen agrees with the original description by Wied-
Neuwied (1921) and the description of the series from Maracas by
Bokermann (1969). The color pattern of the neotype is less bold than that
of the adult female illustrated by Bokermann (1969).

Measurements (in mm): SVL 22.8, tibia length 13.0, foot length 9.5,
head length 8.3, head width 7.4, internarial distance 1.6, interorbital dis-
tance 3.2, upper eyelid 1.8, eye-nostril 2.7, eye diameter 2.6, eye-tympa-
num 1.0, tympanum diameter 1.3. According to Bokermann (1969), the
SVL of nine calling males is 23-25 mm (x = 23.7) and of seven gravid
females, 23-24 (x = 23.7).

Comparisons. — In comparison with other species of Scinax in north-
eastern Brazil (Espirito Santo northward), S. aurata differs from S. nebulosa
by lacking conical ulnar, tarsal, heel, and labial tubercles and bold black
and off-white mottling on the posterior surfaces of the thighs. From S.
eurydice, S. rubra, and S. x-signata, it differs by its smaller size (SVL of
adult males < 25 mm vs. > 40 mm) and its lack of pale spots enclosed by
dark brown or black on the posterior surfaces of the thighs. Scinax strigilata
also is larger (holotype, 42 mm; Peters, 1872:216) and lacks dorsolateral
stripes (Spix, 1824:pl. 10, fig. 3). Scinax argyreornata, S. catharinae, S.
flavoguttata, and S. heyeri differ from S. aurata in having bold transverse
bars across the hind limbs, shorter and higher rostra, and in lacking pale
dorsolateral stripes. Scinax hoesemani has smooth skin and is uniform tan
dorsally (except for a dark canthal-supratympanic stripe and a few small,
brown flecks on the dorsum). Scinax crospedospila is larger (adult males > 28

STATUS OF OLOLYGON AND SCINAX

Fig. 1. Neotypeof/Zv/aawrataWied-Neuwied, 1821; KU 125383, adult male,
22.8 mm SVL.

mm SVL), lacks pale dorsolateral stripes and an interorbital bar, and has a
dorsum with elongate, dark brown blotches.

Lutz (1973) noted the similarity in coloration of S. cuspidata with Wied-
Neuwied's (1821; 1824) descriptions of Hyla aurata. Scinax cuspidata is
about the same size as S. aurata and has a similar dorsal coloration (Fig. 2),
except that brown and cream interorbital bars are absent. Scinax aurata
also differs from S. cuspidata in having distinct, cream tubercles on the
dorsal surface of the shank. The coloration of S. aurata also resembles that
of two other small species, S. exigua and S.fuscomarginata. Scinax exigua
is smaller (adult males to 23 mm SVL) and has a smooth dorsum. Scinax
fuscomarginata lacks a pale interorbital bar and tubercles on the dorsal
surface of the shank.

UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

v

Fig. 2. Variation in dorsal color pattern in Scinax cuspidata. Left to right: KU
92008, 92006, 92007, 92005, all from Barro Sao Joao, Rio de Janeiro, Brazil.

Remarks. — Bokermann (1969) provided some ecological and behav-
ioral data for the species. Individuals were found in terrestrial and epi-
phytic bromeliads. With the first rains of the season in November, males
called from hidden perches on bushes and the stems of grasses within 1 m
of temporary ponds. The call consists of a single note repeated at a rate of
about 12 notes/s. Each note has a duration of about 0.2 s and consists of 9
pulses; the dominant frequency is at about 2000 Hz. A testis removed from
the neotype contained no sperm (M. J. Fouquette, Jr., pers. comm.).

GENUS SCINAX WAGLER, 1830

Diagnosis. — We tentatively consider the following three character states
to be synapomorphies of the genus: ( 1 ) loreal region depressed; (2) discs on
hand truncate, wider than long; (3) webbing between first and second toes
reduced (absent or reduced to fringe along inner margin of second toe)
relative to webbing on other toes (Fig. 3).

Definition. — ( 1 ) Frontoparietal fontanelle variably exposed; (2) prootic
and exoccipital fused in adults; (3) nasal slender, length 20-^4-0% of skull
length, not in contact with maxilla or frontoparietal, well separated from
pars facialis of maxilla in most species, articulating medially in a few
species (e.g., S. acuminata , S. nasica); shape of maxillary process continu-
ously variable from long and pointed (e.g., S. squalirostris) to short and
rounded (e.g., S. cuspidata); (4) sphenethmoid well ossified; longer than
wide in dorsal aspect; (5) alary process of premaxilla inclined
anterodorsally; (6) quadratojugal long, slender, articulating with maxilla;
(7) palatine process of maxilla usually present; (8) maxillary, premaxillary,
and vomerine teeth small, blunt, pedicellate, always present; (9) vomerine
odontophore transverse, not angular; (10) neopalatine (terminology of
Trueb, 1992) usually present (absent in S. parkeri; variably present in S.
staufferi), well developed, articulating with maxilla; (11) cultriform pro-
cess of parasphenoid wide posteriorly, narrowing abruptly anterior to optic
foramen, usually terminating posterior to level of neopalatine; parasphenoid

STATUS OF OLOLYGON AND SCINAX

Fig. 3. Feet of hylid frogs. A. Scinax rubra, KU 109471, showing characteris-
tic reduction of webbing between Toes I and II. B. Hyla microcephala, KU 101606.
showing primitive pattern of webbing between Toes I and II. Reproduced from
Duellman. 1970a.

alae short, narrow, oriented posterolaterally; (12) pterygoid well devel-
oped, median ramus almost in contact with prootic; (13) ventral ramus of
squamosal bowed anterodorsally in lateral aspect; otic ramus expanded
into otic plate on crista parotica; zygomatic ramus acuminate, usually
extending 50% of distance between ventral ramus and postorbital process
of maxilla (estimated by projecting a straight line from the zygomatic
ramus to the maxilla), but ranging from 20% (e.g., S. nebulosa) to 75%
(e.g., 5. x-signata); (14) skull lacking dermal exostosis, co-ossification,
casquing, and neomorphic dermal elements; (15) septomaxilla Type II
(Trueb, 1970); (16) coronoid process of angulosplenial present, weakly
developed; ( 17) posterolateral and anterolateral processes of hyoid always
present; short anterior processes present on hyale; posteromedial processes
long and ossified; commonly some calcification of hyoid plate posteriorly
(Fig. 4); (18) plectral apparatus always present; pars externa plectri ori-

10

UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

Fig. 4. Hyoids of hylid frogs. A. Smilisca phaeota, KU 169627, showing
absence of anterior process of hyale. B. Scinax rubra, KU 123048, showing
presence of anterior process of hyale. Scale = 5 mm.

ented ventrally. elongate and not dilated distally in most species, entering
tympanic ring dorsally; tympanic annulus large, occupying most of area
between quadratojugal and zygomatic ramus of squamosal; (19) eight
procoelous nonimbricate presacral vertebrae; atlas Type I (Lynch, 1973)
(widely spaced cotyles); transverse processes of Presacral Vertebra IV not
elongated posteriorly; processes of Presacral Vertebra VIII usually inclined
anteriorly; sacral diapophyses weakly dilated; sacrococcygeal articulation
bicondylar (Fig. 5); (20) omosternum and sternum always present, calcified
in some specimens; suprascapula (cleithrum) bifurcate distally; (21)
prepollex not enlarged or ossified; (22) intercalary elements between ulti-
mate and penultimate phalanges cartilaginous, not mineralized in most
species (mineralized in S. argyreornata, S. berthae, and 5. squalirostris);
(23) adult size small to moderate, ranging from 18 mm in adult male S.
exigua (Duellman. 1986) to 53 mm in adult female S. boulengeri
(Duellman, 1970a); (24) coloration generally dull, with bold coloration on
posterior surface of thighs in some species; (25) palpebral membrane clear;
(26) skin smooth, shagreened, or tuberculate (with large tubercles on snout,
mouth, and limbs in some species); otherwise lacking dermal folds, ap-
pendages, membranes, or glands; (27) head longer than wide; (28) snout
protruding, usually long, with depressed loreal region; (29) vocal sac
single, median, subgular in most species, but paired, lateral, subgular in 5.
jureia, S. ranki, and S. rizibilis (Andrade and Cardoso, 1987; Pombal and
Gordo, 1991); (30) toes about one-half to three-quarters webbed; webbing
reduced between first and second toes (relative to extent of webbing on
other toes); fingers unwebbed or only webbed basally; (31 ) outer metatar-
sal tubercle typically present in all species; (32) digital disks of hand
dilated, truncate, wider than long; (33) nuptial excrescence inconspicuous

STATUS OF OLOLYGON AND SCINAX

11

Fig. 5. Vertebral columns of hylid frogs. A. Phrynohyas venulosa, KU 92261.
showing widely dilated sacral diapophyses. B. Scinax x-signata, KU 150871,
showing narrow sacral diapophyses. Scale = 5 mm.

(generalized type of Duellman, 1 970a) or absent: (34) depressor mandibulae
with single slip; adductor m. posterior subexternus present (Starrett, 1968:
data only for S. elaeochroa and S. rubra): (35) m. intermandibularis absent;
submandibular bilobular extensions of the interhyoideus present in some
species (Tyler, 1971); (36) sperm with two tail filaments (Fouquette and
Delahoussaye, 1977); (37) diploid chromosome number 24 (Fouquette and
Delahoussaye, 1977); (38) tadpoles with body relatively short posterior to
orbit; eyes large, lateral, widely spaced in most species; tail usually deep
and tapering to tip: dorsal fin extending onto body in most species; oral disc
anteroventral; tooth row formula 2/3; marginal oral papillae with dorsal
gap (except in members of the S. catharinae group); ventral papillae
interrupted in S. crospedospila (Heyer et al., 1990) and interrupted by
"labial arm" (muscular support for ventralmost tooth row) in most mem-
bers of S. rostrata group; (39) mating call consisting of single pulsed note
or series of short notes (Cardoso and Sazima, 1980; Duellman, 1970a,
1972; Peixoto and Weygoldt, 1987); (40) eggs deposited in standing water,
streams (S. catharinae group), or in terrestrial bromeliads (5. perpusilla
group; Peixoto, 1988a).

Content. — Subsequent to Fouquette and Delahoussaye's (1977) recog-
nition of Ololygon, new taxa have been named as Ololygon (O. trilineata

12 UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

Hoogmoed and Gorzula, 1979; O. danae and O. exigua Duellman, 1986; O.
atrata and O. melloi Peixoto, 1988a; O. chiquitana de la Riva, 1990; O.
pedwmedinae Henle, 1991); some formerly nominal taxa have been resur-
rected from synonymies and recognized as species of Ololygon (e.g., O. v-
signata Peixoto, 1987; O. alcatraz Peixoto, 1988b). However, Almeida and
Cardoso (1985) considered that variation in sperm morphology within
Ololygon was too great to allow its use in defining the genus. Thus, other
new species were named as Hyla (e.g., H. maracaya Cardoso and Sazima,
1980; H. canastrensis Cardoso and Haddad, 1982; H. agilis Cruz and
Peixoto, 1983; H. ranki Andrade and Cardoso, 1987; H. jureia and H.
littoralis Pombal and Gordo, 1991). Frost (1985) listed 54 species in
Ololygon (= Scinax); two species listed by Frost (1985) in Hyla {Hyla
albicans Bokermann, 1967, and Hyla ariadne Bokermann, 1967) obvi-
ously belong in the genus. Hyla vigilans Solano, 1971, may belong to the
genus (Frost, 1985:157). Subsequently, 12 new species have been de-
scribed, three have been resurrected from synonymies, and one has been
synonymized. Thus, the total number of recognized species in the genus
now is 70. More than 100 trivial names apply to species of Scinax (Appen-
dix II).

Distribution. — The genus ranges from Mexico (Guerrero and
Tamaulipas) through Central America to northern Uruguay and northern
Argentina east of the Andes, to extreme northern Peru west of the Andes,
and the Caribbean islands of Tobago, Trinidad, and St. Lucia. Most species
occur in lowland rainforest, dry forest, or savanna at elevations of less than
500 m, but several species range to elevations of 1000 m in eastern Brazil,
and an undescribed species ranges above 2000 m in the Andes of Peru
(Duellman and Wiens, in prep.). The genus is most diverse in southeastern
Brazil (Espfrito Santo to Minas Gerais and Sao Paulo).

DISCUSSION

Definition of Scinax. — Some discrepancies exist between our charac-
terization of Scinax and other reports. According to our observations, the
nasals are commonly less than 40% of the total skull length (vs. more than
40% in Leon, 1969, and Duellman, 1970a), and do not always have long,
pointed maxillary processes (contra Leon, 1969, and Duellman, 1970a).
Furthermore, the maxillary process of the nasal does not contact the max-
illa in any of the species of Scinax we have examined (contra Duellman and
de Sa, 1988). The presence of the palatine process of the maxilla varies
both inter- and intraspecifically in Scinax (contra Leon, 1969, and
Duellman, 1970a). According to Duellman and de Sa (1988), members of
Scinax lack neopalatines (terminology of Trueb, 1992), but according to
our observations, the neopalatines are present in all species except S.

STATUS OF OLOLYGON AND SCINAX 1 3

parkeri and in some individuals of 5". staufferi. Duellman and de Sa ( 1988)
indicated that all members of Scinax have cartilaginous intercalary ele-
ments, however, we have observed mineralized intercalary elements in S.
argyreornata, S. berthae, and S. squalirostris. As noted by Leon (1969),
Duellman (1970a), and Duellman and de Sa (1988), the zygomatic ramus
of the squamosal usually extends about 50% of the distance between the
squamosal (dorsal head of ventral ramus) and maxilla, but this process can
be considerably shorter (20% in S. nebulosa) or longer (75% in S. x-
signata). Leon (1969) and Duellman ( 1970a) considered the sphenethmoid
of Scinax to be wider than long, but our observations show that the
sphenethmoid is actually longer than wide. The marginal oral papillae of
the tadpole are complete in some species (in the S. catharinae group),
rather than always having a dorsal gap as reported by Duellman (1970a).
Also, a ventral gap in the marginal papillae may be present (e.g., S.
crospedospila). We found nuptial excrescences to be present (although
inconspicuous) on the prepollices of most male Scinax, whereas Duellman
(1970a) stated that males lack nuptial excrescences.

Intergeneric relationships and monophyly. — The genus Scinax (as
Ololygon or Hyla) has been assigned to the subfamily Hylinae, a likely
paraphyletic assemblage defined by the absence of the synapomorphies of
the Hemiphractinae, Pelodryadinae, and Phyllomedusinae. Although rela-
tionships within the Hylinae are unclear, we consider it heuristic to specu-
late as to the relationships of Scinax. Our hypothesis is speculative because
some of the character states that we postulate as derived occur in other
hylid taxa and might prove to be plesiomorphic. We propose that Scinax
belongs to a monophyletic group that includes the genera Scarthyla and
Sphaenorhynchus (Fig. 6; numbered character states shown on tree corre-
spond to numbers assigned to characters in following discussion). These
three genera share numerous features, of which the following probably are
derived (based on comparison with centrolenids and other hylids): (1)
narrow (rather than strongly dilated) sacral diapophyses; (2) anteriorly
inclined alary processes of the premaxillae; (3) tadpole with large, laterally
placed eyes (polarity questionable; variable in Scinax).

According to Fouquette and Delahoussaye (1977), the only genera in the
Hylinae with double-filamented sperm are Scinax and Sphaenorhynchus
(but single-filamented in Scarthyla: M. J. Fouquette. pers. comm.). Based
on the survey of these authors, the presence of double-filamented sperm
seems to be a plesiomorphic character state in hylids (present in
centrolenids, bufonids, some leptodactylids, and pelodryadine hylids). The
presence of single-filamented sperm might be a synapomorphy uniting all
hylids exclusive of pelodryadines and the clade containing Scinax,
Scarthyla (in which single-filamented sperm would be a reversal), and
Sphaenorhynchus, or double-filamented sperm might indicate a relation-

14

UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

itf

.0

#

tf

^

ff

IS

$*■

■s

<&

4-14

*»

»♦

•9

$

*

20-22

15-16

Fig. 6. Hypothesized phylogenetic relationships of three genera of hylid frogs.
Numbers by bars = character states numbered in text.

ship between Scinax and Sphaenorhynchus (exclusive of Scarthyla) if
these genera are in fact more deeply nested within the Hylinae. Among
these three genera, Scinax and Scarthyla share (15) reduced webbing on the
hand (relative to webbing on the feet) and (16) the presence of an anterior
process on the hyale (see Fig. 3, and Duellman and de Sa, 1988:fig. 2). All
three genera are demonstrably monophyletic.

Members of Sphaenorhynchus examined share at least 1 1
synapomorphies (many of which are unique within the Hylidae): (4) poste-
rior ramus of pterygoid absent; (5) zygomatic ramus of squamosal absent
or reduced to small knob; (6) pars facialis of maxilla and alary process of
premaxilla reduced; (7) postorbital process of maxilla reduced, not in
contact with quadratojugal; (8) neopalatine reduced to sliver or absent (also
in two species of Scinax); (9) pars externi plectri entering tympanic ring
posteriorly (rather than dorsally); (10) pars externa plectri round; (11)
hyale curved medially; (12) coracoids and clavicles elongate; (13) trans-

STATUS OF OLOLYGON AND SCINAX 1 5

verse process of Presacral Vertebra IV elongate, oriented posteriorly; ( 14)
prepollex ossified, bladelike.

The monotypic Scarthyla is diagnosed by three apomorphies involving
the larvae: (17) tadpole elongate; (18) tadpole with labial arm (also in
Scinax rostrata group); (19) tadpoles capable of launching themselves out
of water. The presence of a single-filamented sperm and mineralized
intercalary elements (also mineralized in Scinax argyreornata, S. berthae,
S. squalirostris, Sphaenorhynchus carneus and S. planicola) also might be
apomorphies diagnosing Scarthyla. The monophyly of Scinax is corrobo-
rated by at least three synapomorphies: (20) depressed loreal region; (21)
webbing between first and second toes absent or reduced to fringe along
margin of second toe; (22) discs on hand dilated, truncate, wider than long.

McDiarmid and Altig (1990) suggested that the presence of a larval
labial arm could be a synapomorphy allying the genus Scarthyla with some
members of the Scinax rostrata group. If this were true, Scinax would be
paraphyletic with respect to Scarthyla. Although the labial arm is unique to
these species, we suggest that the synapomorphies uniting the species of
Scinax (listed above), species of the Scinax rostrata group (see below), and
some (but not all) species of the Scinax rostrata group with other species of
Scinax (slender, longitudinally oriented nasals; elongate, rod-shaped pars
externa plectri, black bars on posterior of thighs; tuberculate skin; tadpoles
with bodies that are short and deep posterior to the orbit and deep caudal
fins that extend onto the body) indicate that the labial arm evolved indepen-
dently in these two lineages.

Intrageneric relationships and taxonomy. — Seven species groups cur-
rently are recognized within Scinax. Most of the species groups within
Scinax were recognized by Fouquette and Delahoussaye (1977) on the
basis of sperm head "types." In this section we review the evidence for the
monophyly of the species groups and provide updated lists of their con-
tents.

The contents of the Scinax catharinae group were modified consider-
ably by Peixoto and Weygoldt (1987). We follow their arrangement and
also include Scinax littoralis, S. machadoi, and S. opalina. Thus, we
consider the S. catharinae group to include the following species: S.
albicans, S. ariadne, S. argyreornata, S. brieni. S. catharinae, S.
flavoguttata, S. heyeri, S. humilis, S. littoralis, S. machadoi, S.
obtriangulata, and S. opalina. The species for which reproductive and
larval data are available share the derived features of oviposition in streams
and tadpoles that lack a dorsal gap in the marginal labial papillae (S.
ariadne, S. flavoguttata, S. heyeri, S. machadoi, S. opalina) or have the
dorsal gap extremely reduced (S. obtriangulata, contra Heyer et al., 1990).

The species of the Scinax catharinae and 5". perpusilla groups share
short, truncate snouts (in dorsal view), a distinctive dorsal color pattern.

16 UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

and known tadpoles having bluntly rounded snouts (features we presume to
be derived). The S. perpusilla group was first recognized by Peixoto (1987)
and includes the following species: S. alcatraz, S. atrata, S. littorea, S.
melloi, S. perpusilla, S. v-signata. The species in this group share the
synapomorphy of oviposition in terrestrial bromeliads.

The Scina.x rizibilis group was recognized first by Andrade and Cardoso
(1988) and contains three species (S. jureia, S. ranki, and S. rizibilis)
sharing the synapomorphy of paired vocal sacs. The S. rostrata group was
defined by Duellman (1972) and currently contains nine species: S.
boulengeri, S. epacrorhina, S. garbei, S. kennedyi, S. nebulosa, S.
pedromedinae, S. proboscidea, S. rostrata, and S. sugillata. All species in
the group share an acuminate, depressed snout. Except for S. nebulosa,
species for which tadpoles are known (S. boulengeri, S. garbei, S.
pedromedinae, S. rostrata, S. sugillata) have fanglike teeth and a labial arm
supporting the lowermost tooth row. All species except 5. kennedyi and 5.
rostrata have conical ulnar, tarsal, and labial tubercles. Males of the S.
rostrata group that we have observed (S. garbei, S. pedromedinae, S.
sugillata), S. boulengeri (J. M. Ellingson, pers. comm.), and S. rostrata (J.
D. Lynch, pers. comm.) often call in a head-down, vertical position; this
unique behavior may be another synapomorphy of the group.

We are unaware of any evidence to support the monophyly of the
remaining three species groups. The Scina.x rubra group contains 10 spe-
cies: S. blairi, S. chiquitana, S. cynocephala, S. elaeochroa, S.funerea, S.
fuscovaria, S. hayii, S. quinquefasciata, S. rubra, and 5. similis. The S.
staufferi group contains 13 species: S. agilis, S. baumgardeneri, S. berthae,
S. danae, S. e.xigua, S.fuscomarginata, S. goinorum, S. nasica, S. parkeri,
S. squalirostris, S. staufferi, S. trilineata (not listed in the group by Frost,
1985, but related to S. squalirostris, according to the original description),
and S. wandae. The S. x-signata group contains six species: S. acuminata,
S. boesemani, S. crospedospila, S. cruentomma, S. cuspidata, and S. x-
signata. The remaining 1 1 species are unassigned to species groups; these
are S. alleni, S. aurata, S. canastrensis, S. duartei, S. ehrhardti, S. eurydice,
S. longilinea, S. maracaya, S. pachychrus, S. strigilata, and S. trachy thorax.

Acknowledgments: This study was ancillary to a review of the Scina.x in
Amazonian and Andean Ecuador and Peru, which is part of a project on
patterns of speciation and biogeography of Andean anurans supported by a
grant (BSR-8805920) from the National Science Foundation (William E.
Duellman, principal investigator). We are grateful to Janna M. Ellingson,
Darrel R. Frost, John D. Lynch, and Linda Trueb for helpful information;
M. J. Fouquette, Jr. for information on sperm morphology; Amy Lathrop
for the drawings; and John E. Simmons for the photographs.

STATUS OF OLOLYGON AND SCINAX 1 7

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Industrie-Comptoir.

APPENDIX I

Specimens Examined for Definition of Scinax

Unless otherwise noted, all specimens are in the collection of The University of
Kansas Museum of Natural History (KU). Cleared-and-stained skeletal prepara-
tions are noted by AA for Alizarin-red and Alcian-blue stained specimens and AR
for specimens stained for Alizarin-red only.

Acris crepitans 158146 (AA). Agalychnis callidryas 77495 (AA). Anotheca
spinosa 71122, 86900 (AA). Aparasphenodon brunoi 152227, 92213 (AA).
Aplastodiscus perviridis 92722, 92723 (AA). Argenteohyla siemseri 116935.
116937 (AA). Calyptahyla crucialis 192471. Centrolene geckoideum 164491.
178017 (AA). Centrolenella audax 178028 (AA). Centrolenella balionota 164713
(AA). Centrolenella buckleyi 178059. Centrolenella grandisonae 164685 (AA).
Centrolenella griffithsi 118026. 118028 (AA). Corythomantis greeningi 125380.

20 UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

Cryptobatrachus sp. 203998 (AA). Gastrotheca plumbea 202699 (AA).
Gastrotheca rebeccae 196814 (AA). Hemiphractus probiscideus 123154 (AA).
Hyla albopunctata 91933. Hyla andersoni 207334 (AA). Hyla aperomea 212086,
212087 (AA). Hyla arborea 148625. Hyla bistincta 140241. Hyla boons 166770,
150025 (AA). Hyla bogotensis 125363. Hyla bromeliacia 194224. Hyla carnifex
136210. Hyla circumdata 152233. Hyla ebraccata 77112. Hyla fasciata 205477
(AA). Hylo geographica 124171 (larvae). Hyla granosa 109496 (AA). Hyla
gratiosa 116934 (larvae). Hyla hazelae 100969. Hyla lanciformis 104910 (AA),
152541 (larvae). Hyla marmorata 126433, 1 52455 (AA). Hyla melanomma 136795
(AA). Hyla microcephala 71242. Hyla miliara 101610. Hyla minuta 150308. Hyla
miotympanum 200808. Hyla parviceps 205632 (AA). Hyla phyllognatha 180355
(larvae). Hyla picta 64873. Hyla pictipes 103691. Hyla pinorum 135225. Hyla
pseudopuma 36599. Hyla pule he lla 182961 (AA). Hyla sumichrasti 57882. Hyla
taeniopus 53827. Litoria caerulea 204667 (AA). Nyctimantis rugiceps 152476.
Osteocephalus leprieurii 153390. Osteocephalus taurinus 175501 (AA), 124238
(larvae). Osteopilus dominicensis 84701 (AA). Osteopilus septentrionalis 87932,
55173 (larvae). Pachymedusa dacnicolor 78453 (AA). Phrynohyas venulosa
215379, 92261 (AA), 104189 (larvae). Phyllodytes luteolus 74250. Phyllomedusa
tomopterna 200512 (AA). Plectrohyla glandulosa 209699 (AA). Plectrohyla
quecchi 190244. Pseudacris clarkii 207238, 207419 (AA). Pseudacris triseriata
207482 (AA). Pternohyla fodiens 75395, 60385 (AA). Ptychohyla spinipollex
64128, 192890 (AA). Scarthyla ostinodactyla 215413, 205773-74 (AA), 205865
(larvae).

Scinax acuminata 128916 (AR), 128917-21. Scinax argyreornata 91947,
148435-36, 148437 (AA). Scinax aurata 125383. Scinax baumgardneri 129753.
Scinax berthae 91948 (AR), 91949-53. Scinax blairi 138215. Scinax boesemani
69745, 69764-69, 128357-58 (AA). Scinax boulengeri 64328 (AR), 87774 (AR),
102174-77, 103618-20 (AA), 104295 (larvae). Scinax catharinae 92184-86,
92188-89 (AR), 92306 (AA). Scinax chiquitana 217293-94, USNM 312659 (AA).
Scinax crospedospila 91992-95, 91996 (AR). Scinax cruentomma 11930-53,
152980-82 (AR), 152984-85 (AR), 111928 (AA), 109491 (larvae). Scinax
cuspidata 92001-03 (AR), 92005-08. Scinax dome 167088-91, 167769-70 (AR).
Scinax duartei 92018 (AR), 92019-22. Scinax elaeochroa 68281-91 (AR), 68390
(larvae), 87772-73 (AR), 96009-12. Scinax epacrorhina 139242-45, 139247,
139249. Scinax exigua 167117-20, 167771-73 (AR). Scinax flavoguttata 92027,
92028 (AR). Scinax funerea 105168-79, 152979 (AR), 150148 (AA), 152559-60
(larvae). Scinax fuscomarginata 92029-3 1 , 92034 (AR). Scinax fuscovaria 160336,
182897-99. 182900-01 (AA), 185809. Scinaxgarbei 150176-28, 152986-91 (AR).
153257 (larvae). Scinax goinorum 179004. Scinax hayii 92049-51, 92052 (AA).
Scinax humilis 112376. Scinax littorea 218436 (larvae). Scinax machadoi 152330-31,
152332 (larvae). Scinax madeirae 92066-67, 92068 (AA). Scinax melloi 218438
(larvae). Scinax nasica 92 107 ( AR), 160423. Scinax nebulosa 91917 (AR), 127988-89
(AR), 128365-66. 130154 (larvae). Scinax obtriangulata 152240,211301 (larvae).
Scinax pachychrus 100344-45, 100346 (AA). Scinax parked 92117-18 (AR),
127845-48 (AA). 128552-54, 130152 (larvae). Scinax pedromedinae 205304-36,
205337-38 (AA), 205859 (larvae). Scinax perpusilla 92119-23, 92124 (AR),
218435 (larvae). Scinax proboscoidea 140900. Scinax quinquefasciata 218470-79,
166317 (AR), 202967 (larvae). Scinax rizibilis 92144^45. Scinax rostrata 77687

STATUS OF OLOLYGON AND SCINAX 2 1

(AR). 101586-90, 104244 (larvae). Scinaxrubra 109469-90, 123049 (AA), 74280
(AR), 152972-77 (AR), 109492 (larvae). Scinax squalirostris 92 172-75, 92 176-77
(AR). 197304 (larvae). Scinax staufferi 59924-27 (AR). 68614-15 (AR). 104162
(larvae), 136971-77. Scinax trachythorax 80862-64. Scinax v-signata 218437
(larvae). Scinax wandae 131717. Scinax x-signata 128517-20. 150871-72 (AA).
Smilisca baudinii 60415 (AA). 71722 (larvae). Smilisca sila 91833 (larvae).
Smilisca phaeota 133462, 169627 (AA). Sphaenorhynchus bromelicola 124668.
Sphaenorhynchus carneus 146576-81. 183709 (AA). Sphaenorhynchus dorisae
178825 (AA). 180982 (larvae). Sphaenorhynchus lacteus 178826-37, 202769,
92288 (AA), 205458 (AA). Sphaenorhynchus orophilus 74308-74309, 92295-96.
Sphaenorhynchus planicola 92297-99, 92300 (AA). Stefania evansi 181 125 (AA).
Trachycephalus jordani 164484. Triprion petasatus 71736 (larvae). Triprion
spatulatus 71744 (AA). 73841.

APPENDIX II

Species-group Names Associated with the Genus Scinax and

Their Current Status

Trivial name. Original combination. Author, and Date Current status

acuminata (Hyla), Cope, 1862' 5. acuminata

affinis (Hyla), Spix, 1824 S. .x-signata

agilis (Hyla), Cruz and Peixoto, 1983 5. agilia

alcatraz (Hyla catharinae), B. Lutz, 1973 S. alcatraz

albicans (Hyla), Bokermann, 1967 S. albicans

alleni (Scytopis), Cope. 1870 S. alleni

altae (Hyla), Dunn. 1933 S. staufferi

alterna (Hyla rubra), B. Lutz, 1973 S. rubra

angrensis (Hyla catharinae), B. Lutz. 1973 S. catharinae

argyreornata (Hylodes), Miranda-Ribeiro, 1926 S. argyreornata

ariadne (Hyla), Bokermann, 1967 5. ariadne

atrata (Ololygon), Peixoto, 1988 S. atrata

aurata (Hyla), Wied-Neuwied, 1821 S. aurata

baumgardneri (Hyla), Rivero, 1961 5. baumgardneri

berthae (Hyla). Barrio, 1962 S. berthae

blairi (Hyla), Fouquette and Pyburn. 1972 S. blairi

bocainensis (Hyla catharinae). B. Lutz, 1968 5. catharinae

boesemani (Hyla). Goin, 1966 S. boesemani

boulengeri (Scytopis). Cope, 1887 5. boulengeri

brieni (Hyla). DeWitte. 1930 5. catharinae

caldarum (Hyla duartei), B. Lutz. 1968 S. duartei

camposseabrai (Hyla). Bokermann. 1968 5. x-signata

canastrensis (Hyla). Cardoso and Haddad, 1982 5. canastrensis

catharinae (Hyla). Boulenger. 1888 S. catharinae

'Citations appearing only in this list are not given in the literature cited.

22 UNIV. KANSAS MUS. NAT. HIST. OCC. PAP. No. 151

Trivial name. Original combination. Author, and Date Current status

chiquitana (Ololygon), De la Riva, 1990 S. chiquitana

coerulea (Hyla), Spix, 1824 5. x-signata

coniwstris (Hyla), Peters, 1863 S. rubra

crospedospila {Hyla), A. Lutz, 1925 S. crospedospila

cruentomma (Hyla), Duellman, 1972 S. cruentomma

crytanthus (Scytopis), Cope, 1874 S. rubra

cule.x (Hyla), Dunn and Emlen, 1932 5. staufferi

cuspidata (Hyla), A. Lutz, 1925 S. cuspidata

cynocephala (Hyla), Dumeril and Bibron, 1841 5. cynocephala

danae (Ololygon), Duellman, 1986 S. danae

depressiceps (Hyla), Boulenger, 1882 S.funerea

duartei (Hyla), B. Lutz, 1951 S. duartei

dulcensis (Hyla). Taylor, 1958 S. elaeochroa

egleri (Hyla), B. Lutz, 1968 S. nebulosa

ehrhardi (Hyla), Muller, 1924 S. ehrhardti

elaeochroa (Hyla), Cope, 1876 S. elaeochroa

epacrorhina (Hyla), Duellman, 1972 S. epacrorhina

eringiophila (Hyla strigilata), Gallardo, 1961 S. .x-signata

eurydice (Hyla), Bokermann, 1968 5. eurydice

evelynae (Hyla), Schmidt, 1944 S. sc/ualirostris

e.xigua (Ololygon), Duellman, 1986 S. exigua

fiebrigi (Hyla). Ahl. 1927 S. acuminata

flavoguttata (Hyla). A. Lutz and B. Lutz, 1939 S. flavoguttata

foliamorta (Hyla). Fouquette. 1958 S. rostrata

funerea (Hyla), Cope, 1874 S.funerea

fuscomarginata (Hyla). A. Lutz. 1925 S. fuscomarginata

fuscovaria (Hyla), A. Lutz, 1925 S.fuscovaria

garbei (Garbeana), Miranda-Ribeiro, 1926 S. garbei

goinorum (Hyla), Bokermann, 1962 S. goinorum

granulata (Hyla). Peters, 1871 S. .x-signata

hayii (Hyla), Barbour, 1909 S. hayii

hcyeri (Ololygon), Peixoto and Weygoldt. 1986 5. heyeri

hiemalis (Hyla), Haddad and Pombal-Junior, 1987 S. hiemalis

huebneri (Hyla rubra), Melin, 1941 S. rubra

humilis (Hyla), B. Lutz, 1954 S. humilis

inconspicua (Hyla rubra), Melin, 1941 S.funerea

jureia (Hyla), Pombal and Gordo, 1991 S. jureia

kennedyi (Hyla), Pyburn. 1972 S. kennedyi

lateristriga (Hyla), Spix, 1824 S. rubra

lindneri (Hyla), Muller and Hellmich, 1936 S. fuscomarginata

lineomaculata (Hyla), Werner, 1899 S. rubra

littoralis (Hyla), Pombal and Gordo, 1991 S. littoralis

littorea (Hyla), Peixoto, 1988 S. littorea

longilinea (Hyla), B. Lutz, 1968 S. longilinea

lutzi (Hyla), Melin, 1941 S. garbei

STATUS OF OLOLYGON AND SCINAX 23

Trivial name. Original combination. Author, and Date Current status

machadoi (Hyla), Bokermann and Sazima. 1973 5. machadoi

madeirae (Hyla). Bokermann. 1964 S.fuscomarginata

maracaya (Hyla). Cardoso and Sazima, 1980 S. maracaya

megapodia (Hyla). Miranda-Ribeiro. 1926. 1937 S.fuscovaria

melloi (Ololygon). Peixoto, 1988 S. melloi

mirim (Hyla). B. Lutz. 1973 5. rizibilis

nasica (Hyla). Cope, 1862 5. nasica

nebulosa (Hyla). Spix. 1824 S. nebulosa

nigra (Hyla). Cope, 1887 S. x-signata

obtriangulata (Hyla), B. Lutz, 1973 S. obtriangulata

opalina (Hyla catharinae), B. Lutz, 1968 5. opalina

orientalis (Hyla rubra). B. Lutz, 1968 S. rubra

pachychrus (Hyla). Miranda-Ribeiro. 1937 S. pachychrus

parkeri (Hyla). Gaige. 1929 S.parkeri

pedromedinae(Ololygon). Henle, 1991 5. pedomedinae

perpusilla (Hyla). A. Lutz and B. Lutz. 1939 S. perpusilla

phrynoderma (Hyla), Boulenger, 1889 5. acuminata

pickeli (Hyla), A. Lutz and B. Lutz, 1938 S. pachychrus

proboscidea (Hyla), Brongersma, 1933 S. proboscidea

queimadensis (Hyla p[erpusilla]). B. Lutz, 1973 S. v-signata

quinquefasciata (Hyla), Fowler. 1913 S.quinquefasciata

quinquevittata (Hyla), Cope, 1868 S. elaeochroa

ranki (Hyla). Andrade and Cardoso, 1987 S.ranki

rizibilis (Hyla). Bokermann, 1964 S. rizibilis

robersimoni (Hyla). Donoso-Barros, 1965 S. rubra

rostrata (Hyla), Peters, 1863 S. rostrata

rubra (Hyla), Laurenti, 1768 5. rubra

similis (Hyla), Cochran, 1952 5. similis

simplex (Hyla catharinae). B. Lutz. 1968 S. obtriangulata

squalirostris (Hyla). A. Lutz. 1925 5. squalirostris

staufferi (Hyla). Cope. 1865 S. staufferi

strigilata (Hyla). Spix, 1824 5. strigilata

sugillata (Hyla), Duellman. 1973 S. sugillata

trachythorax (Hyla), Miiller and Hellmich. 1936 S. trachythorax

trapicheiroi (Hyla), B. Lutz, 1954 S. catharinae

trilineata (Ololygon), Hoogmoed and Gorzula, 1979 5. trilineata

v-signata (Hyla perpusilla), B. Lutz, 1968 5. v-signata

wandae (Hyla). Pyburn and Fouquette, 1971 S. wandae

x-signata (Hyla), Spix, 1824 S. x-signata

3 2044 093 361 715