Vocalizations of two anuran species from Costa Rica
67
ANARTIA
Publicación del Museo de Biología de la Universidad del Zulia
ISSN 1315-642X (impresa) / ISSN 2665-0347 (digital)
Anartia, 32 (junio 2021): 67-70
Description of two previously unknown anuran vocalizations
from the Caribbean rainforests of Costa Rica
Descripción de dos vocalizaciones de anuros previamente desconocidas
del bosque húmedo caribeño de Costa Rica
Stanley Salazar1, Andrés Camilo Montes-Correa2 & César L. Barrio-Amorós3
1DOSEL SA, Rain Forest Adventures, La Esperanza, Horquetas, Sarapiquí, Heredia, Costa Rica.
2Grupo de Investigación en Manejo y Conservación de Fauna, Flora y Ecosistemas Estratégicos Neotropicales (MIKU),
Universidad del Magdalena, Santa Marta, Colombia.
3CRWild / Doc Frog Expeditions, Uvita, Puntarenas, Costa Rica.
Correspondence: César L. Barrio-Amorós: cbarrioamoros@crwild.com
(Received: 05-05-2021 / Accepted: 28-06-2021 / Online: 15-10-2021)
e small Central American country of Costa Rica is
known to have one of the highest diversities of amphibians
per surface area on the planet, with 215 species in 51.100
km2 (Savage 2002, Leenders 2016). Despite being one of
the best-studied countries in Latin America for its amphib-
ians fauna, with a long tradition of foreign and national
herpetologists regularly publishing about them (summa-
rized in Savage 2002, Leenders 2016), many aspects regard-
ing the taxonomy and natural history of most amphibians
remain poorly understood or completely unknown.
Two species of anurans from the Caribbean versant
of Costa Rica, the hylid Ecnomiohyla sukia Savage and
Kubicki, 2010 (Fig 1A) and the craugastorid Craugastor
megacephalus (Cope 1876, Fig 2A), are the subjects of this
work. While the male advertisement call (AC) of E. sukia
has been previously described (Savage & Kubicki 2010),
herein we document for the rst time the female call (FC)
of this species. With the FC described herein, E. sukia is
now known to be one of the few hylids to have female call-
ing behavior. e advertisement call of C. megacephalus is
also documented here for the rst time. We classify our
recorded calls of E. sukia and C. megacephalus according
to the functional categories proposed by Wells (2007) for
the acoustic repertory of anurans. To describe the FC of E.
sukia and AC of C. megacephalus, recorded vocalizations
were extracted from the original sound les that were gen-
erated in the eld (using a cell phone Wavepad app of An-
droid in wav format), and analyzed with PRAAT 6.0.13
for Windows (Boersma & Weenink 2007). For the FC
of E. sukia the following parameters were measured, note
duration (in seconds –s–), inter-note interval (s), rate of
notes per second (notes/s), and dominant frequency (Hz)
were measured. Means (x) and standard deviations (SD)
were calculated for each call trait. For the AC of C. mega-
cephalus, the following characters were measured: call du-
ration in seconds (s), inter-call interval (s), call repetition
rate per minute (calls/m), dominant frequency (Hz), and
visible harmonics. Our terminology follows that proposed
and revised by Köhler et al. (2017) for call traits. Oscillo-
grams and spectrograms were obtained with the Seewave
package (Sueur et al. 2008) for the R platform.
e fringe-limbed treefrogs of the genus Ecnomiohyla
are some of the most mysterious and elusive anurans in the
Neotropics (Kubicki & Salazar 2015). Ecnomiohyla sukia
was described in 2010 (Savage & Kubicki 2010) from the
Atlantic versant of Costa Rica based on a few specimens
from Guayacán de Siquirres and Fila Asunción, both lo-
calities in Limón Province. e known advertisement call
consists of 13 to 20 staccato barks repeated aer a time gap
of up to or more than an hour. e AC of E. sukia was de-
scribed from a single male in captivity; it consisted of 15-
16 separate notes with a dominant frequency of 1.15kHz
DOI: https://doi.org/10.5281/zenodo.5571329
S. Salazar, A. C. Montes-Correa & C. L. Barrio-Amorós
68
(Savage & Kubicki 2010). Vocalizations used for the de-
scription of the AC for this taxon were taken at 22.15h
and 22.52h (Savage & Kubicki 2010). Until now, a female
vocalization has never been described for any species of
the genus Ecnomiohyla (Duellman, 2001, Mendelson et al.
2015, Wells 2007). Our description of the FC of E. sukia
(Fig. 1B) is based on a single vocalization emitted by an
individual located approximately 17m above the ground
in the forest canopy (thus the low quality of the recording)
at Finca la Guacamaya, near Santa Clara (N 10.219, W
83.949). Due to the distance of the female individual from
the cellphone microphone at the time she emitted the re-
corded vocalization analyzed herein, the overall quality
is less then optimal, but of sucient enough intensity to
perform our analysis. is call consists of a series of seven
tonal short notes (call duration = 6.643 s; note duration =
0.222–0.295 s, X = 0.257 s, SD = 0-031 s) emitted in an
inter-note of 0.710–1.145s (X = 0.9808, SD = 0.167) and
a note repetition rate of 1.054 notes/s. Bandwidth ranges
between 822–1749 Hz, with a dominant frequency of
1274.97–1337.14 Hz (X = 1305.18, SD = 20.01), and an
apparent ascendant modulation frequency. is vocaliza-
tion does not have detectable harmonics. e FC of E.
sukia is like that of a bird, diering from the dog-like AC
reported by Savage & Kubicki (2010). e AC of E. sukia
described by Savage & Kubicki (2010) is very similar to the
FC; in general terms, the FC and AC of E. sukia share the
same structure of a series of short tonal short notes. Even
though the AC and FC have notes of similar duration (AC
= 0.220–0.252s, FC = 0.222– 0.295), the AC has twice as
many notes (AC= 15–16 notes, FC = 7 notes) in shorter
intervals (AC = 0.287–0.302 s, FC = 0.710–1.145s), so
the rate of repetition of the notes is higher (AC = 1.93–
1.94 notes/s, FC = 1.054 notes/s). Additionally, the dom-
inant frequency of the AC is slightly lower than that of the
FC (AC=1150 Hz, FC= 1274.97–1337.14 Hz). Female
E. sukia call more oen than males, and therefore, they are
easier to nd in the high vegetation. Females of E. sukia
have been observed vocalizing from the bark of the trunk
and branches of trees, in addition to the surrounding veg-
etation in the canopy, while males have only been seen call-
ing from in and around reproductive tree holes (pers. obs.
SS). e peak of activity is during dusk and early hours of
the night (17-19 h). When the weather is drier and there
is a fair amount of moonlight, females of E. sukia can be
heard calling even until midnight. As many as 20 dier-
ent females have been heard calling from the margins of a
single forest clearing (pers. obs. SS), but none seemed to
be specically calling in a reciprocal fashion to male vocal-
izations, which are much more sporadic. A single female
individual was recorded while vocalizing and subsequently
collected on 04 June 2015 at Finca la Guacamaya in Sara-
piquí, Heredia province. It was calling from a site in the
canopy located 17 m above the ground. e sex of this in-
dividual of E. sukia was conrmed aer its collection by
the examination of its internal organs by Brian Kubicki.
Few female anurans are known to produce vocalizations
(Wells 2007). Several functions of female calling have been
proposed, including easing males to locate them by stimu-
lating an increase of calling from close males, identication
Figure 1. Calling female of Ecnomiohyla sukia (A) and the courtship call (B).
Vocalizations of two anuran species from Costa Rica
69
of territorial and satellite males, and identication of other
females as competitors (Emerson & Boyd 1999). e case
reported herein is the rst FC described from the genus
Ecnomiohyla, although, we are aware of at least one other
species producing it (Víctor Jiménez-Arcos, pers. comm.).
Currently, we are not sure about the function of the female
vocalization in this species.
Some species of the genus Craugastor are very secretive
or have suered extensive declines (Savage 2002, Leenders
2016). eir elusive habits are not well-known, and most
act as sit and wait predators. An intermittent and untrace-
able call was heard a multitude of times in the forest by
SS at Finca la Guacamaya, near Santa Clara (N 10.219,
W83.949), but we were unable to locate the source of
the vocalization, until a single recording was made at a
horizontal distance of about seven meters; the individual
responsible for this call was located under the leaf-litter,
it was a male C. megacephalus. Male C. megacephalus are
typically dicult to locate, compared to juveniles (which
are the most common) and females (common in certain
areas), and are always hidden under leaf litter or rotten
logs. e hours of calling activity are restrained to dusk.
Craugastor megacephalus males appear to be actively call-
ing during the drier months (March through May) of the
Caribbean versant of Costa Rica. e description of the
AC of C. megacephalus is based in a series of nine calls. e
AC of C. megacephalus consists of a single tonal short note
(call duration = 0.038–0.052s, X = 0.042 s, SD=0.004 s,
Fig. 2B) emitted at irregular intervals. Notes can be emit-
ted with pauses between them of less than a half second or
as infrequent as having pauses lasting more than ten sec-
onds (inter-call interval = 0.492–13.755 s, X = 8.640s,
SD = 5.282 s). e call series last 69.5 s, with a repetition
rate of 7.7 calls/minute. e prevalent bandwidth rang-
es between 286–2870 Hz, with a dominant frequency
of 1050.11–1205.23 Hz (X=1154.82 Hz, SD = 52.45
Hz). In addition, the AC of C. megacephalus exhibits
two visible harmonics, the rst at 1550.59–1844.45 Hz
(X=1730.50 Hz, SD=87.51 Hz), and the second at
2088.81–2436.32 Hz (X = 2311.94 Hz, SD =110.32
Hz).
According to Savage and Myers (2002), no advertise-
ment calls of any member of the Craugastor gulosus species
group (sensu Hedges et al. 2008) is known. Padial et al.
(2014) situated C. megacephalus in a more comprehensive
Craugastor punctariolus species group. One of the char-
acteristics of the former is the absence of vocal slits and a
vocal sac. Nevertheless, the absence of these organs does
not necessarily represent the inability to vocalize (which
has also been evidenced for other groups such as the for-
mer Craugastor laticeps species group; Ibáñez et al. 2012,
Salazar-Zúñiga & García-Rodríguez 2014). e descrip-
tion of the AC of C. megacephalus included herein opens
new perspectives for future bioacoustic studies, as well as
questions about the evolution of acoustic communication
of craugastorid frogs.
ACKNOWLEDGEMENTS
SS wants to thank Brian Kubicki for his help in deter-
mining the sex of the female specimen of Ecnomiohyla
sukia mentioned in the publication. He also was a mindful
referee, which along with another anonymous one helped
to improve this work.
Figure 2. Calling male of Craugastor megacephalus (A) and the advertisement call (B).
S. Salazar, A. C. Montes-Correa & C. L. Barrio-Amorós
70
REFERENCES
Boersma, P. & D. Weenink. 2013. Praat, a system for doing pho-
netics by computer. Glot International 5: 341–345.
Cope, E. D. 1876. On the Batrachia and Reptilia of Costa Rica.
Journal of the Academy of Natural Sciences of Philadelphia 8:
93–154.
Duellman, W. E. 2001. Hylid ogs of Middle America. 2 vols.
[2nd ed.]. [St. Louis, Mo]: Society for the Study of Amphib-
ians and Reptiles, Contributions to Herpetology, xv + x +
1159 pp., 92 pls.
Emerson, S. B. & S. K. Boyd. 1999. Mating vocalizations of fe-
male frogs: control and evolutionary mechanisms. Brain Be-
havior Evolution 53: 187–97.
Hedges, S. B., W. E. Duellman & M. P. Heinicke. 2008. New
World direct-developing frogs (Anura: Terrarana): molecu-
lar phylogeny, classication, biogeography, and conservation.
Zootaxa 1737: 1–182.
Ibáñez, R., C. A. Jaramillo & F. A. Solís. 2012. Description of the
advertisement call of a species without vocal sac: Craugastor
gollmeri (Amphibia: Craugastoridae). Zootaxa 3184: 67–68.
Köhler, J., M. Jansen, A Rodríguez, P. J. R. Kok, L. F. Toledo,
M. Emmrich, F. Glaw, C. F. B. Haddad, M. O. Rödel & M.
Vences. 2017. e use of bioacoustics in anuran taxonomy:
theory, terminology, methods, and recommendations for
best practice. Zootaxa 4251: 1–124.
Kubicki, B. & S. Salazar. 2015. Discovery of the Golden-eyed
Fringe-limbed Treefrog, Ecnomiohyla bailarina (Anura: Hy-
lidae), in the Caribbean foothills of southeastern Costa Rica.
Mesoamerican Herpetology 2: 76–86.
Mendelson, J. R., III, A. Eichenbaum & J. A. Campbell. 2015.
Taxonomic review of the populations of the Fringe-limbed
Treefrogs (Hylidae: Ecnomiohyla) in Mexico and nuclear
Central America. South American Journal of Herpetology 10:
187–194.
Padial, J. M., T. Grant & D. R. Frost. 2014. Molecular system-
atics of terraranas (Anura: Brachycephaloidea) with an as-
sessment of the eects of alignment and optimality criteria.
Zootaxa 3825: 1–132.
Salazar-Zúñiga, J. A. & A. García-Rodríguez. 2014. Advertise-
ment call of Craugastor noblei: another calling species of the
Craugastor gollmeri group (Anura: Craugastoridae). Phyllo-
medusa 13: 67–70.
Savage, J. M. 2002. e Amphibians and Reptiles of Costa Rica:
a herpetofauna between two continents, between two seas. Chi-
cago: University of Chicago Press, 934 pp.
Savage, J M. & C. W. Myers. 2012. Frogs of the Eleutherodac-
tylus biporcatus group (Leptodactylidae) of Central America
and northern South America, including rediscovered, res-
urrected, and new taxa. American Museum Novitates 3357:
1–21.
Savage, J. M. & B. Kubicki. 2010. A new species of fringe-limb
frog, genus Ecnomiohyla (Anura: Hylidae), from the Atlan-
tic slope of Costa Rica, Central America. Zootaxa 2719:
21–34.
Sueur, J., T. Aubin & C. Simonis. 2008. Seewave: a free modular
tool for sound analysis and synthesis. Bioacoustics 18: 213–
226.
Wells, K. D. 2007. e ecology and behavior of amphibians. Chi-
cago: e University of Chicago Press, 1148 pp.
