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OCCASIONAL PAPERS

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MUSEUM OF NATURAL HISTORY
The University of Kansas
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NUMBER 59, PAGES 1-12 OCTOBER 20, 1976

A NEW SPECIES OF POISON FROG

(DENDROBATES) FROM ANDEAN ECUADOR,

INCLUDING AN ANALYSIS OF ITS SKIN TOXINS

By

Charles W. Myers1 and John W. Daly2

In 1973, William E. Duellman called our attention to four speci-
mens of a small poison frog that had been collected in Ecuador, by
a University of Kansas field party working under his supervision.
These specimens represented a previously unknown species, and
we therefore visited the locality ourselves to obtain samples of skin
toxins for an ongoing biochemical survey of dendrobatid frogs. The
new species is described here on the basis of specimens preserved
in The American Museum of Natural Histoiy (AMNH) and The
University of Kansas Museum of Natural History (KU).

We gratefully acknowledge William Duellman's cooperation.
Systematic studies of dendrobatid frogs are being supported by the
Lincoln Ellsworth Fund of the American Museum.

Dendrobates abditus, new species
Figures 1-3

Holotype.— AMNH 89603 (field no. CWM 12356), an adult male
obtained by John W. Daly and Charles W. Myers on February 16,
1974, in lower montane rain forest at 1700 meters elevation, south-
west of the Rio Azuela bridge on the Quito-Lago Agrio road,

1 Associate Curator, Department of Herpetology, The American Museum
of Natural History, New York, New York 10024.

2 Chief, Section on Pharmacodynamics, Laboratory of Chemistry, National
Institute of Arthritis, Metabolism and Digestive Diseases, NIH, Bethesda,
Maryland 20014.

OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

eastern base of Volcan Reventador, Napo Province, Ecuador (lati-
tude 0° 05' S, longitude 77° 37' W).

Paratypes. — Eleven specimens, all from the type locality, as
follows: ' AMNH 89604-89610 [89608-09 cleared and stained;
89610 skinned carcass], same data as holotype. KU 143090-143093,
collected October 21-24, 1971, by Joseph T. Collins and William
E. Duellman.

Etymology. — The specific epithet is the perfect participle of the
Latin ahdo and means something that is removed or secret, in al-
lusion to the apparent isolation of this highland species from all
other Dendrobates.

Definition and Diagnosis. — A small Dendrobates attaining a
snout- vent length of about 18 mm. Body and limbs overall blackish
or dark bronzy brown except for bright orange spots in region of
axilla and groin. Teeth absent; omosternum present; first finger
shorter than second; tarsal tubercle absent or weak. Skin alkaloids
belonging to the pumiliotoxin-A class. Dendrobates abditus is
readily distinguished from all other dendrobatids in having the
body and limbs uniformly dark above and below, with orange axil-
lary and inguinal flash marks being the only markings (Fig. 1).

Description (12 specimens). — Size small, snout- vent length
(SVL) to 17.7 mm, with females being larger on the average than
males: three adult males 16.3-17.3 mm SVL (x = 16.73); four adult
females 17.3-17.7 mm SVL (x = 17.60); five other paratypes are
unsexed juveniles 10.4-11.9 mm SVL (x = 11.34). Well-developed
vocal slits and shallow subgular vocal sac present in adult males.
Enlarged ova present in the smallest and largest adult females.

In life, both juveniles and adults with vivid flash marks of me-
tallic, golden orange in region of axilla and groin: "Axillary" mark
situated on posterior side of proximal one-half to two-thirds of
upper ami; "inguinal" mark situated anteroventrally on proximal
part of thigh; neither mark extends onto body. No other markings
with all dorsal and ventral surfaces, including hands and feet, being
otherwise uniformly dark bronzy brown (the slight metallic cast
being produced by innumerable tiny specks of bronze, but in poor
light specimens appeared black or dark brown). Iris very dark
brown, little contrast between it and pupil. Color in preservative
black, with white flash marks. [Description of live frogs based on
Duellman's notes and color transparencies of KU specimens, and
Myers' notes and transparencies of AMNH specimens.]

Skin nearly smooth on some individuals (e.g., AMNH 89604),
on others weakly or moderately granular on dorsum of body and
venter (e.g., holotype); top of head and/or snout finely pitted in a
few individuals including holotype. Head about as wide as body,
but body distinctly wider in one rotund female (AMNH 89604:
head 5.7 mm, body 8.5 mm); widest part of head between outer

A NEW SPECIES OF DENDROBATES

Fig. 1. — Dendrobates abditus, new species. Two views of the holotype in
life, X 3.4. Arrows denote the golden orange flash marks, which are the only
markings on a frog that is otherwise unicolored dark bronzy brown above
and below.

edges upper eyelids. Eyes prominent, nearly equal to length of
snout. Snout short, sloping, truncate in dorsal or ventral aspect,
and rounded in lateral profile. Naris directed laterally; both nares
visible from front, barely visible from below, but not visible from
above; nares much closer to tip of snout than to eye. Canthus
rostralis rounded; loreal region flat or very slightly concave and
nearly vertical. Tympanum a vertical oval, rather indistinct and
no greater than one-half area of eye; not visible posterodorsally
(where tympanic ring is subcutaneously overlain by anterior edge
of m. depressor mandibalae) .

Relative lengths of appressed fingers 3 > 4 ^ 2 > 1, all except
first with distinct discs expanded about one and one-half to twice

4 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

finger width in adults. Disc of first finger small, little wider than
finger; disc of third finger 1.33-2.00 times wider than distal end of
adjacent phalanx — smallest in juveniles, largest in adult males ( disc
width/ finger width in five juveniles 1.33-1.67, mean 1.53; four
females 1.60-1.75, mean 1.68; three males 1.80-2.00, mean 1.93).
First finger more or less three-fourths length of appressed second
finger; disc of first finger nearly reaching disc of second in a few
specimens. A large medial (outer metacarpal) tubercle at base of
palm, a smaller and less prominent (often indistinct) inner meta-
carpal tubercle, and one or two prominent subarticular tubercles
on fingers (one each on fingers 1, 2, and 4, two on finger 3); all
tubercles low, with rounded surfaces. Hind limbs of moderate
length, heel of appressed limb reaching eye in all but one specimen
(reaching between shoulder and tympanum in AMNH 89604, which
has the lowest of following tibial ratios); tibia/ snout- vent length
= 0.41-0.45. Relative lengths of appressed toes 4 > 3 > 5 > 2
> 1; first toe very short, only reaching base of second, with distinct
or indistinct unexpanded disc; other toes with distinct, slightly
expanded discs. A weak, obliquely elongated keel-like ridge dis-
cernible on inner side of most tarsi; tarsal tubercle (proximal end
tarsal ridge) usually absent, or but weakly developed; small inner
and outer metatarsal tubercles (outer one often more prominent);
one to three often indistinct (especially on toe 4) subarticular tu-
bercles (one each on toes 1 and 2, two each on 3 and 5, two or
three on 4). Palms and soles fleshy. Digits of hands and feet flat-
tened on bottom; lacking webbing, supernumerary tubercles, or
lateral fringe.

Dorsal bones of skull not fused or sculptured; palatine bones
absent; omostemum present; eight presacral vertebrae, the dorsum
of each flattened and laterally expanded to form a small shield; no
fusion of vertebrae or presacral shields ( osteological description
based on AMNH 89608 and 89609, cleared and stained females).
Teeth absent. Muscle tissue of skinned specimens blackish, espe-
cially before preservation.

Measurements of Holotype (in mm). — The undissected holo-
type is the largest male in the type series and is considered to be
sexually mature because of its size and well-developed vocal slits.
Length from snout to vent 17.3; tibia length from heel to fold of
skin on knee 7.3; greatest width of body 5.3; greatest head width
(between outer edges upper eyelids) 5.5; head length from tip of
snout to angle of jaws 5.2; tip of snout to center of naris 0.9; center
of naris to edge of eye 1.5; diameter of orbit 2.1; horizontal diam-
eter of tympanum (posteriorly indistinct) > 1.0; distance between
centers of nares 2.4; length from proximal edge of large palmar
tubercle to tip of longest (3rd) finger 4.5; width of disc of third
finger 0.8; width of finger (penultimate phalanx) below disc 0.4.

Tadpole. — AMNH 89602 (one), referred to this species (see

A NEW SPECIES OE DENDROBATES

Natural History), is a large free-living larva 7.5 mm head-body
length, 20 mm total length, seemingly past stage 25 (because of
size, but limb buds not detectable on damaged body [died before
preservation]). Eyes and nostrils dorsolateral; spiracle sinistral and
low; tail fins (damaged) narrow. Mouth (badly damaged) di-
rected anteroventrally; beak massive, with serrated cutting edges,
and median indentation on lower edge; tooth rows 2/3, about equal
in length, with second upper row widely broken medially and first
lower row narrowly broken medially; oral disc indented laterally
(?); lower edge of oral disc with broad median gap in a single
row of small papillae (upper edge not papillate).

Natural History. — The type locality is a forested ridge at 1700
meters elevation,'5 a short climb southwest from the Rio Azuela
bridge ( 1650 m ) on the gravel road from Quito to Lago Agrio.
The ridge forest has a relatively low canopy (perhaps 15-20 m)
and is exceedingly dense in most places, with close-spaced trees,
treelets and saplings, and abundant low herbaceous plants and
ferns. Many of the trees are buttressed; palms are present but not
abundant. This forest is evidently evergreen and is cool and very
damp, with a conspicuous moss layer and many epiphytes on the
tree trunks. Ground bromeliads are present although not abun-
dant; the brown soil bears a thin litter layer. We experienced a
hard, drenching rain during the afternoon of February 16, 1974
(our only day at the site), and Duellman's party also experienced
hard rains in October, 1971. The forest, which is being cleared in
the vicinity of the road, is physiognomically classifiable as Lower
Montane Rain Forest. Grubb et al. ( 1963 ) described and illustrated
similar forest at an equivalent elevation ( 1710 m ) in this zone, at
a site about 40 km to the south-southwest.

All specimens of Dendrobates abditus were caught by day, on
or close to the ground, in the forest and in adjacent new clearings.
Two specimens were under a piece of tin, others were active
amongst ground litter of leaves and sticks, and one specimen was
coining out of a terrestrial bromeliad that contained a large tadpole
tentatively assigned to this species (see below). The frogs at-
tempted to escape capture by hopping into holes in bases of trees
or by going into the ground litter. None was observed to call, but
a short series of soft, closely spaced "tink-tink-tink-tink" notes was
thought possibly to belong to this species. This call was given in-
frequently and had little carrying power; it was heard coming from
beneath mats of litter and rootlets and once seemed to be emitted
from a collecting bag.

3 Duellman obtained a reading of 1740 m at a camp nearly 50 m lower
than this ridge. The difference ( about 90 m ) between our readings is in-
significant, inasmuch as changes in atmospheric pressure frequently cause
uncorrected altimeters to fluctuate ±100 m at this altitude.

6 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

The only other dendrobatids that have been found at this lo-
cality are two forest-dwelling (i.e., non-streamside) species of
Colostethus: One species, C. taeniatus, is common; the other, a
larger, less common frog, represents a new species currently being
described by Stephen R. Edwards. A single dendrobatid tadpole
found in a ground bromeliad (also containing an adult Dendro-
bates) must be assigned to Dendrobates abditus rather than to
Colostethus, the larvae of which are usually deposited in small
streams rather than standing water. The tadpole differs notably
from descriptions of known larvae of Colostethus, including the
two species occurring at this locality (Edwards, 1974), in having
a broad median gap in the papillate fringe on the lower edge of
the oral disc.

SKIN TOXINS

The unique skin alkaloids of dendrobatid frogs have been re-
cently reviewed and grouped into three classes of compounds, with
a number of individual alkaloids being left unclassified owing to a
lack of data (Myers and Daly, 1976). Two of the three classes,
histrionicotoxins and pumiliotoxins, were recognized as occurring
within the genus Dendrobates.4 Now, after the accumulation of
new data, the pumiliotoxins can be further subdivided, and some
80 Dendrobates alkaloids can be tentatively distributed among four
classes of structurally related compounds. Most or all of the de-
tectable alkaloids of Dendrobates abditus belong to the pumilio-
toxin-A class, which is to be defined elsewhere (Daly et a]., MS).

Three paratypic specimens of Dendrobates abditus (AMNH
89608-89610) were skinned on the date of capture for subsequent
toxin analysis. The three complete skins, which had a combined
wet weight of 180 mg, were extracted in methanol. The extracts
were fractionated and the alkaloid fraction analyzed by thin-layer
chromatography, electron impact and chemical ionization mass
spectrometry, gas chromatography, and combined mass spectrom-
etry-gas chromatography. These procedures were explained in de-
tail in Myers and Daly (1976). Mass spectral analyses of the major
alkaloids, after separation by thin-layer chromatography (Fig. 2),
provided independent confirmation of the results of combined gas
chromatographic-mass spectral analysis of a sample of the unre-
solved alkaloid fraction (Fig. 3). Seven alkaloids were identified
from the skin extracts of D. abditus and are listed below in order
of their quantitative importance.

4 The third class, batrachotoxins, is known only from the true poison-dart
frogs, genus Phyllobates (sensu stricto), which we are presently investigating.
Batrachotoxins seem biosynthetically unrelated to other dendrobatid toxins,
and are characterized by a steroidal ring structure, great toxicity, and different
pharmacological properties.

A NEW SPECIES OF DENDROBATES

SOLVENT

FRONT

237 A

Q

253

m 323A/323B

ORIGIN

Fig. 2. — Representation of a thin-layer ehromatoplate of alkaloids from a
population sample of Dendrobates abdibus, new species ( three paratopotypes,
February, 1974). A sample of 10 fi\ of methanolic alkaloids equivalent to the
amount in 10 mg wet skin was applied at the origin. For detailed methodology,
see Appendix 1 in Myers and Daly ( 1976).

Numbers are molecular weights of the principal alkaloids, as determined
by chemical ionization mass spectral analysis of material extracted from the
corresponding spots; the trace alkaloids (Fig. 3) were inadequately repre-
sented for localization by this technique. Code letters differentiate alkaloids
from other known dendrobatid toxins of the same molecular weight ( Daly et ah,
MS), and numbers separated by solidus indicate presence of two alkaloids in
the same spot. Spot intensities are depicted as follows: Cross-hatched pattern
= large amounts of alkaloids; horizontal pattern = moderate amounts; dots
= small amounts (reference standards are Figs. 1 and 2 in Myers and Dab.
1976).

8 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

1) The alkaloid fraction contained relatively large amounts of
a compound with a molecular weight of 237 (Figs. 2 and 3); it is
designated "237 A" in order to distinguish it from other dendrobatid
toxins with the same molecular weight (Daly et ah, MS). The
empirical formula, as determined by high resolution mass spectrom-
etry, is C,-,H27NO.

2) Moderate amounts were present of an alkaloid with a molec-
ular weight of 253, and a formula of C,,-1H1.7N02 (Figs. 2 and 3).

3-4) There were small amounts of a mixture of two alkaloids
with molecular weights of 323 (Figs. 2 and 3). One of these is
pumiliotoxin B (323A); the other is an isomer (323B) that sepa-
rates poorly from coexisting pumiliotoxin B. These compounds
migrated only a short distance on the one thin-layer chromatoplate
run from D. abditus extract (Fig. 2), and therefore gave a lower
Rf value than usually obtained. But, as we have emphasized else-
where (Myers and Daly, 1976), Rf values do vary and are not in
themselves an adequate basis for alkaloid identification. Both of
the 323 compounds have an empirical formula of C19H33NO3.

5-7) Computer-assisted analysis by combined gas chromatog-
raphy-mass spectrometry provided evidence for the presence of
trace amounts of three additional alkaloids, namely 237B, 265, and
281A (Fig. 3). The amounts present were insufficient to identify
these trace compounds with spots or areas on the thin-layer chro-
matoplate (Fig. 2).

None of the above alkaloids is unique to Dendrohates abditus,
although most seem to be of relatively limited occurrence in the
genus, and no other species studied has an identical spectrum of
skin toxins. Pumiliotoxin B (323A), however, is an exception in
being veiy widespread in Dendrohates. Since its initial discovery
(Daly and Myers, 1967) in D. pumilio, this compound has been
detected in 12 of 18 species studied to date; it often occurs as a
major compound. With the possible exception of the trace com-
pound 265, all the alkaloids of D. abditus belong to the pumilio-
toxin-A class. The unclassified 265 substance shows a veiy atypical
mass spectrum for a dendrobatid toxin and might prove to be a
degradation artifact of some other alkaloid (Daly et ah, MS).

For a species that elaborates primarily pumiliotoxin-A class
alkaloids, Dendrohates abditus produces skin toxins in relatively
"large" amounts (as measured in micrograms per 100 mg of skin) —
at least in the one population sampled by us. The areas represented
by the various peaks in the gas chromatogram (Fig. 3) are roughly
proportional to the total amount of each of the corresponding alka-
loids. The mean weight of three abditus skins was 60 mg. How-
ever, dendrobatids vary greatly in size; therefore, it is convenient
to extrapolate comparisons to a standard of 100 mg of skin. A
rough estimate of the amounts of alkaloids contained in an extract
equivalent to 100 mg of abditus skin was obtained by comparison

A NEW SPECIES OF DENDROBATES

9

\^y

SOLVENT

to

Z

o

o_

o

u

237A > (237B)

25 3

(28IA)

323A>323B

t

injection
point

150°

I

I
240°

160° 180° 200° 220° 240° 260° 280°
TEMPERATURE (10°C./min.)

Fig. 3. — Gas chromatogram of alkaloids from a population sample of
Dendrobates abditus, new species (three paratopotypes, February, 1974).
Chromatography was run with 2 /A of methanolic extract containing concen-
trated alkaloids equivalent to amount in 2 mg of wet skin.

The alkaloids are designated by their molecular weights; trace compounds
are included within parentheses. The corresponding protonated molecular ions
of these alkaloids were identified in separate computer-assisted analysis by
combined gas chromatography-mass spectrometry. For details of instrumenta-
tion, see Appendix 2 in Myers and Dal)' (1976).

10 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

of the gas chromatographic peaks with the area of a peak of a
known amount of histrionico toxin. This estimate provides the fol-
lowing quantitative breakdown of the principal skin toxins of
Dendrobates abditus:

Alkaloid Estimated Amount (/ug) Percent of

( Molecular Weight) per 100 mg Skin Total

237A 115 71

253 34 22

323A 8 5

323B 3 2

Total 160 Mg 100';

For comparison: Dendrobates histrionicus (Guayacana, Colombia)
contains about 230 ^g of alkaloids per 100 mg of skin; D. pumilio
( Bastimentos, Panama) 200 ug; D. auratus (Isla Taboga, Panama)
150 /ig; and D. minutus (Cerro Campana, Panama) only 40 /xg. Of
these, Dendrobates minutus is the only species that is related to
D. abditus at the species-group level (see below).

DISCUSSION

Although intrafamilial relationships and generic partitioning of
dendrobatid frogs are in a confused state, the new species is clearly
a Dendrobates, both in the restricted sense of Silverstone (1975)
and in our own broader view (Myers and Daly, 1971, 1976). Den-
drobates abditus is most readily assignable to the minutus species
group as defined by Silverstone ( 1975:27). We would also add the
recently described Dendrobates viridis Myers and Daly (1976) to
the minutus group; it is a small, uniformly green species from west-
ern Colombia. Thus far we have obtained toxin samples of only
four of the eight species now included in the minutus group —
namely abditus, fidguritus, minutus, and viridis. Consequently, it
is premature to speculate on the usefulness of biochemical data in
defining the minutus group or in clarifying relationships among the
contained species. It is worth noting, however, that skin extracts
of the four species studied contained alkaloids only of the pumilio-
toxin classes/' with compounds of the pumiliotoxin-A class being
qualitatively and quantitatively the most important. The less toxic
histrionicotoxins have not been detected in the minutus group to
date, although both classes of alkaloids occur within some natural
assemblages of Dendrobates (e.g., the histrionicus group).

Among species of DendroJ)ates that produce primarily pumilio-
toxin-A class alkaloids, Dendrobates abditus differs from most of the

5 Excluding a presently unclassified alkaloid from Dendrobates abditus
(compound 265) and another from D. minutus (compound 267B, Daly et al.,
MS).

A NEW SPECIES OF DENDROBATES 11

others in that it contains relatively large amounts of skin toxins,
and is therefore relatively more poisonous than most other species
of similar size. However, we have shown elsewhere ( Daly and
Myers, 1967) that degree of toxicity may be geographically variable
within a species; that this phenomenon occurs in the minutus group
is evidenced by one Colombian sample of D. minutus that con-
tained fairly large amounts of an alkaloid (allodihydropumiliotoxin
B) of the pumiliotoxin-A class. Relative "toxicity" (as determined
by bioassay) presumably is related in some way to relative differ-
ences in distastef ulness (or other buccal effects) to predators and
may be under selective control, but this has not been demonstrated
and the significance of intraspecific variation in skin toxins is
uncertain.

Dendrobates abditus is known only from its type locality on the
eastern base of Volcan Reventador, a still-active Quaternary vol-
cano on the Amazonian flank of the Andes (erupted as recently as
1960 fide Grubb et al, 1963). The elevation (1700 m) of the type
locality indicates that abditus is a strictly montane species; some
primarily lowland species of Dendrobates do have elevational
ranges that, in places, exceed 1000 meters, but none of these is
known above 1300 meters (e.g., see Silverstone, 1975:12). Dendro-
bates abditus therefore is probably isolated from various congeners
that occur in the adjacent Amazonian lowlands, including D. par-
vulus, D. pictus, D. trivittatus, and D. quinquevittatus (only the
last is considered a Dendrobates by Silverstone, 1975). Of these,
Dendrobates quinquevittatus was tentatively placed in the minutus
group by Silverstone (1975:34) and appears to be the geographi-
cally closest species-group relative of D. abditus. It differs most
notably from abditus in having a boldly patterned dorsum and
venter, in lacking axillary and inguinal flash marks, and in having
noticeably larger finger discs. Because highland isolates may be
derived from lowland ancestors, these two species will merit closer
comparison, especially when the skin toxins and tadpole of quinque-
vittatus become known. At this time, however, we would only call
attention to a singular correspondence between D. abditus and D.
opisthomelas, a geographically remote member of the minutus
group from the Andes of northwestern Colombia: The damaged
mouthparts of an abditus tadpole, when carefully repositioned with
fine teasing needles, could be seen to match almost exactly Silver-
stone's (1975:32) illustration for opisthomelas (compare our de-
scription with his figure 20). The points of resemblance include a
broad, median gap in the papillate fringe on the lower edge of the
oral disc; this break in the papillate fringe was, according to Silver-
stone (loc. cit.), heretofore "unique [to opisthomelas] among
known tadpoles of Dendrobates."

Present evidence seems insufficient to allow for a reasonable
choice between hypotheses of lowland versus highland ancestry of

12 OCCASIONAL PAPERS MUSEUM OF NATURAL HISTORY

Dendrobates abditus. In the former case, abditus presumably
would represent a highland invasion separate from that of the
geographically remote opisthomelas. In the latter case, these two
species might be terminal relicts of an ancestor whose range was
fragmented by climatic-vegetational changes that occurred in the
Andes during Quaternary time. In either case, it seems likely that
additional kinds of small Dendrobates remain to be found, inas-
much as five of eight species now comprising the minutus group
were discovered within the last decade. Each new species, and
additional data on those already known, can be expected to con-
tribute toward a solution of the biogeographic puzzle.

RESUMEN

Se describe Dendrobates abditus, una nueva especie de ranas
venenosas obtenida en la base del Volcan Reventador, Provincia
del Napo, Ecuador, a una elevation de 1700 metros. El habitat es
el bosque lluvioso montarioso bajo, del lado amazonico de los Andes
orientales. Es una rana diminuta (16-18 mm) que se puede dis-
tinguir de otros dendrobatidos por medio de su coloracion. La
especie se caracteriza por una coloracion dorsal y ventral uniforme-
mente negruzca o pardo oscura, con manchas de color anaranjado
brillante en la axila y en la ingle. Se asigna esta ranita al gmpo
minutus (sensu Silverstone, 1975) del genero Dendrobates. El
renacuajo de D. abditus tiene piezas bucales notablemente similares
a las de D. opisthomelas, una especie del mismo grupo restringuida
a los Andes de Colombia septentrional. Dendrobates abditus pro-
duce en su secretion cutanea solamente alcaloides de la clase
pumiliotoxina-A.

LITERATURE CITED

Daly, J. W., Browx, G. B., Mensah-Dwumah, M., Myers, C. W. [MS.]
Classification of skin alkaloids from Neotropical poison-dart frogs ( Den-
drobatidae).

Daly, J. W., Myers, C. W. 1967. Toxicity of Panamanian poison frogs (Den-
drobates): Some biological and chemical aspects. Science, 156: 970-
973.

Edwards, S. R. 1974. A phenetic analysis of the genus Colostethus (Anura:
Dendrobatidae ) . Ph.D. thesis, The University of Kansas, i-v + 419 pp.
[Diss. Abstr. Internatl., 35(9): 4332-B, 1975.]

Grubb, P. J., Lloyd, J. R., Pennington, T. D., Whitmore, T. C, 1963. A
comparison of montane and lowland rain forest in Ecuador 1. The
forest structure, physiognomy, and floristics. J. Ecol., 51: 567-601.

Myers, C. W., Daly, J. W. 1971. Comment on the proposed designation of
a new type-species of Dendrobates Wagler, 1830. Bull. Zool. Nomen-
clature, 28: 141.

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vocalizations in taxonomic and evolutionary studies of poison-dart frogs
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