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Advertisement and release calls of Phyllomedusa ayeaye (Anura: Hylidae) with comments on the social context of emission

ABSTRACT

Male calls play different roles in anuran social organization, such as spacing, territoriality and female attraction. However, calls and associated behaviors remain poorly described for many anuran species. Here we describe the advertisement and release calls of the tree frog Phyllomedusa ayeaye (Lutz, 1966) and report on the social context of emissions and a physical combat. Approximately 35 minutes of digital recordings were obtained from 34 hours of observations at one breeding site in the state of Minas Gerais, southeastern Brazil. Bioacoustic analysis showed that males emitted two types of advertisement calls: 1) simple call (a sequence of short pulsed notes) and 2) composite call (a sequence of short pulsed notes followed by a long pulsed note). Composite calls were emitted more frequently during more intense chorus activity, with various active males at the breeding site. The release call was also composed by short pulsed notes, with a wider spectrum of frequencies and emitted more rapidly than the advertisement calls. Our results suggest that the composite call of P. ayeaye may represent a mixed advertisement call. Long notes might be the aggressive part directed to males, whereas short notes directed to females. Our description of call types, their functions, and male physical interactions will be useful for studies investigating the systematics and behavior of Phyllomedusa species.

KEY WORDS
Aggressive behavior; bioacoustics; Cerrado; composite call; Phyllomedusinae

Calling activity is one of the most remarkable topics in anuran behavior because of the complex vocal repertoire often found (Wells 2007Wells KD (2007) The ecology and behavior of amphibians. Chicago, University of Chicago.). Males of a single species generally emit multiple types of call, with each type associated with a particular social role (Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13., Brunetti et al. 2015Brunetti AE, Taboada C, Faivovich J (2015) Extended vocal repertoire in Hypsiboas punctatus (Anura: Hylidae). Journal of Herpetology 49: 46-52.). The opposite situation is also possible, in which a single call type may carry multiple messages, i.e., a mixed call (Wells 1988Wells KD (1988) The effects of social interactions on anuran vocal behavior, p. 433-454. In: Fritzsch B, Ryan MJ, Wilczynski W, Hetherington TE, Walkowiak W (Eds.). The Evolution of the Amphibian Auditory System. New York, Wiley. , Gerhardt 1992Gerhardt HC (1992) Multiple messages in acoustic signals. Seminars in Neuroscience 4: 391-400.). For instance, the most studied of the reproductive calls, the advertisement call (Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13.), may attract females, warn conspecifics of the male's position, signal body size, and allow individual recognition (Lesbarrères & Lodé 2002Lesbarrères D, Lodé T (2002) Variations in male calls and response to an unfamiliar advertisement call in a territorial breeding anuran, Rana dalmatina: evidence for the "dear enemy" effect. Ethology Ecology & Evolution 14: 287-295., Nali & Prado 2014aNali RC, Prado CPA (2014a) Complex call with different messages in Bokermannohyla ibitiguara (Anura, Hylidae), a gladiator frog of the Brazilian Cerrado. Journal of Herpetology 48: 407-414.). Moreover, in species with extensive calling seasons, the advertisement call may stimulate the reproductive physiology of females, thereby maintaining their reproductive condition (Lea et al. 2001Lea J, Dyson M, Halliday T (2001) Calling by male midwife toads stimulates females to maintain reproductive condition. Animal Behavior 61: 373-77.).

The release call is another type of reproductive call, and signals a lack of reproductive receptivity (Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13.). In general, anuran males emit release calls when mistakenly amplexed by other males during reproductive events (Wells 2007Wells KD (2007) The ecology and behavior of amphibians. Chicago, University of Chicago.); however, they can also emit release calls during physically aggressive interactions (Bastos & Haddad 1995Bastos RP, Haddad CFB (1995) Vocalizações e interações acústicas de Hyla elegans (Anura, Hylidae) durante a atividade reprodutiva. Naturalia 20: 165-176., Brunetti et al. 2015Brunetti AE, Taboada C, Faivovich J (2015) Extended vocal repertoire in Hypsiboas punctatus (Anura: Hylidae). Journal of Herpetology 49: 46-52.). In some species, both males and non-receptive females may display release vibrations when amplexed by other males, rather than producing audible sounds (Bogert 1960Bogert CM (1960) The inûuence of sound on the behavior of amphibians and reptiles, p. 137-320. In: Lanyon WE, Tavolga WN (Eds.). Animal sounds and communication. Washington, D.C., AIBS., Penna & Veloso 1982Penna M, Veloso A (1982) The warning vibration of Pleurodema thaul. Journal of Herpetology 16: 408-410.). Release calls can be used as a diagnostic character in closely related species (Grenat & Martino 2013Grenat PR, Martino AL (2013) The release call as a diagnostic character between cryptic related species Odontophrynus cordobae and O. americanus (Anura: Cycloramphidae). Zootaxa 3635: 583-586.). Moreover, it has been suggested that advertisement calls of frogs may have evolved from simple release calls (Rand 1988Rand AS (1988) An overview of anuran acoustic communication, p. 415-431. In: Fritzsch B, Ryan MJ, Wilczynski W, Hetherington TE, Walkowiak W (Eds.). The evolution of the amphibian auditory system. New York, Wiley., Schmidt et. al. 1990Schmidt RS, Kemnitz CP, Hudson WR (1990) Origin of anuran calling: description of toad releasing. Journal of Experimental Zoology 254: 338-342.). However, the scarcity of information on anuran release calls has precluded a phylogenetic analysis of this hypothesis (Wells 2007Wells KD (2007) The ecology and behavior of amphibians. Chicago, University of Chicago.). Altogether, the description of both advertisement and release calls for anuran species is highly relevant (Grenat & Martino 2013Grenat PR, Martino AL (2013) The release call as a diagnostic character between cryptic related species Odontophrynus cordobae and O. americanus (Anura: Cycloramphidae). Zootaxa 3635: 583-586., Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13.).

Phyllomedusa currently includes 30 recognized species of tree frogs (Frost 2015Frost DR (2015) Amphibian Species of the World: an Online Reference. New York, American Museum of Natural History, Version 6.0. Available online at: Available online at: http://research.amnh.org/herpetology/amphibia/index.html . [Accessed: 8/6/2015]
http://research.amnh.org/herpetology/amp...
). Phyllomedusa ayeaye (Lutz, 1966) belongs to the P. hypochondrialis group (sensu Faivovich et al. 2010Faivovich J, Haddad CFB, Baêta D, Jungfer KH, Álvares GFR, Brandão RA, Sheil C, Barrientos LS, Barrio-Amoros CL, Cruz CAG, Wheeler WC (2010) The phylogenetic relationships of the charismatic poster frogs, Phyllomedusinae (Anura, Hylidae). Cladistics 26: 227-261.) and was described from Morro do Ferro (21°48'S, 46°35'W, 1,400-1,540 m elevation), municipality of Poços de Caldas, state of Minas Gerais, southeastern Brazil. This species occurs in the Atlantic forest and the adjacent Cerrado, which are among the most threatened formations in Brazil, and is consequently faced with major threats such as habitat loss caused by deforestation, fire, mining, and pollution (Silva & Bates 2002Silva JMC, Bates JM (2002) Biogeographic patterns and conservation in the South American Cerrado: a tropical savanna hotspot. BioScience 52: 225-233., Ribeiro et al. 2009Ribeiro MC, Metzger JP, Martensen AC, Ponzoni FJ, Hirota MM (2009) The Brazilian Atlantic Forest: How much is left, and how is the remaining forest distributed? Implications for conservation. Biological Conservation 142: 1141-1153.). Currently, there is a discrepancy in the conservation status of P. ayeaye, since it has been classified as Critically Endangered according to the International Union for Conservation of Nature - IUCN (Caramaschi et al. 2010Caramaschi U, Cruz CAG, Lima R, Brandão R (2010) Phyllomedusa ayeaye. In: IUCN (Ed.). The IUCN Red List of Threatened Species. Version 2014.3. Available online at: Available online at: http://www.iucnredlist.org [Accessed: 13/2/2012]
http://www.iucnredlist.org...
), while it is no longer considered endangered by the new List of Threatened Species of the Brazilian Fauna (ICMBio 2014ICMBio (2014) Lista de Espécies Ameaçadas. Brasília, Instituto Chico Mendes. Available online at: Available online at: http://www.icmbio.gov.br/portal/biodiversidade/fauna-brasileira/lista-de-especies.html . [Accessed: 10/2/2015]
http://www.icmbio.gov.br/portal/biodiver...
). Indeed, ecological niche modeling uncovered a theoretically broader geographical distribution for the species (Giovanelli et al. 2008Giovanelli RGJ, Araujo CO, Haddad CFB, Alexandrino J (2008) Modelagem do nicho ecológico de Phyllomedusa ayeaye (Anura: Hylidae): previsão de novas áreas de ocorrência para uma espécie rara. Neotropical Biology and Conservation 3: 59-65.). Additionally, P. itacolomi Caramaschi, Cruz & Feio, 2006 and P. ayeaye were synonymized based on morphology, which expanded the distribution area of P. ayeaye (Baêta et al. 2009Baêta D, Caramaschi U, Cruz CA, Pombal-Jr JP (2009) Phyllomedusa itacolomi Caramaschi, Cruz & Feio, 2006, a junior synonym of Phyllomedusa ayeaye (B. Lutz, 1966) (Hylidae, Phyllomedu sinae). Zootaxa 2226: 58-65.). However, little is known about the natural history of this species, including calling behavior and repertoire, precluding inference on the actual population status. In the present study, we describe the advertisement and release calls of P. ayeaye and report on a male-male fight and social functions of the different notes.

MATERIAL AND METHODS

The current study was conducted in the municipality of Sacramento, Minas Gerais state, southeastern Brazil, in the Cerrado of the Serra da Canastra mountain range. The region is characterized by a markedly seasonal regime, with a dry winter (April-September) and a hot and rainy summer (October-March). The topography is mountainous (up to 1,500 m elevation), with deep valleys and many streams, and the landscape is composed of savannas, grassland fields, gallery forests alongside streams, and small regions of semi-deciduous forest (Dietz 1984Dietz JM (1984) Ecology and social organization of the maned wolf (Chrysocyon brachyurus). Smithsonian Contributions to Zoology 392: 1-51.). Individuals of P. ayeaye were active in a pond associated with a temporary stream (20°13'09.9"S, 47°06'21"W, 880 m elevation), distant ca. 180 km in a straight line from the type locality.

Fieldwork was conducted from October 2010 to January 2011, and during February 2014, obtaining approximately 35 minutes of digital recordings from 34 hours of direct observations. During the night at the breeding site, males were located by their calls, and observed to investigate social functions of the calls emitted. Six males were collected, anesthetized with 10% lidocaine, fixed in 10% formalin, preserved in 70% ethanol (McDiarmid 1994McDiarmid RW (1994) Preparing amphibians as scientific specimens, p. 289-297. In: Heyer WR, Donnelly MA, McDiarmid RW, Hayek LC, Foster MS (Eds.). Measuring and monitoring biological diversity. Standard methods for amphibians. Washington, D.C., Smithsonian Institution.), and deposited at Coleção de Anfíbios Célio F.B. Haddad, Departamento de Zoologia, I.B., Universida de Estadual Paulista, Rio Claro, SP, Brazil (voucher numbers: CFBH32772-32775, CFBH32777, CFBH32779). Body sizes (snout-vent length, SVL) of these six specimens as well as five other males captured and released in the same field were measured with a digital caliper to the nearest 0.01 mm. Air temperature was measured every night with a digital thermo-hygrometer to the nearest 0.1°C.

For the recordings, we used a Marantz Professional PMD-660 digital recorder, with a unidirectional microphone Sennheiser ME66. Bioacoustic analyses were conducted using the software Raven Pro 1.3 (Cornell Lab of Ornithology), at 16 bit resolution and 44,100 Hz sampling rate, using FFT = 512 (Fast Fourier Transformation). Short notes of the simple call, short notes of the composite call, and long notes were analyzed separately. We gently simulated an axillary amplexus, characteristic of the species (R.C. Nali pers. obs.), to record the release calls of each male either in the field on the same night or in the laboratory the day after male collection. We adopted the following terminology (adapted from Martins & Jim 2003Martins IA, Jim J (2003) Bioacoustic analysis of advertisement call in Hyla nana and Hyla sanborni (Anura, Hylidae) in Botucatu, São Paulo Brazil. Brazilian Journal of Biology 63: 507-516., Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13.): 1) call: a sequence of sounds produced and emitted in a temporal pattern; 2) note: temporally discrete vocalization units composing the call; and (3) pulse: subdivision of the note in smaller temporal units. We measured the following bioacoustic variables: number of short notes emitted in sequence, number of pulses/note, note duration (s), interval between notes (s), and minimum, maximum, and dominant frequencies (Hz). We then tested for statistical differences between the variables of the short notes of the simple and composite calls using Student's t-tests (Zar 1999Zar J (1999) Bioestatistical Analyses. New Jersey, Prentice Hall.).

Additionally, to evaluate male aggressive responses, we acoustically and visually stimulated resident males. The acoustic stimulus was a recording in WAV format (approximately one minute), containing four simple advertisement calls with an average of nine short notes emitted in sequence (air temperature of recording = 21.8°C). This recording was broadcasted to a resident calling male at a distance of 40 cm, using a digital recorder connected to a mini-speaker. The visual stimulus consisted of placing an intruder male ca. 15 cm away from a resident male; in this case, a video was recorded using a Canon 7 digital camera.

RESULTS

Males of P. ayeaye had an average SVL of 33.17 ± 1.94 mm (31.28-36.6 mm; N = 11), and mostly called from leaves and branches of small trees and bushes surrounding the stream, about 1.5 to 2 m above water or ground. We recorded the advertisement calls of two collected males (10th October 2010, air temperature = 18.5°C; 15th December 2010, air temperature = 21.4°C), and four uncollected males (17th November 2010, air temperature = 22.2°C; 19th February 2014, air temperature = 23.5°C). Males of P. ayeaye emitted 1) simple advertisement calls with an average of six short pulsed notes, or 2) composite advertisement calls with a sequence of an average of six short pulsed notes followed by one long pulsed note (Figs. 1-2, Table 1). The composite calls were more frequently emitted during more intense chorus activity, with various active males at the breeding site. Short notes of the simple call were statistically different from those of the composite call regarding N pulses/note (Student's t116 = 9.1, p < 0.001), note duration (t131 = 3.8, p < 0.001), maximum frequency (t112 = 16.9, p < 0.001), minimum frequency (t112 = 7.3, p < 0.001), and dominant frequency (t112 = 5.2, p < 0.001; Table 1). On the other hand, the two types of short notes were similar regarding N notes emitted in sequence (t44 = 0.7, p = 0.49) and interval between notes (t121 = 1.4, p = 0.16; Table 1).

Figures 1-2
The two types of advertisement calls emitted by males of Phyllomedusa ayeaye, municipality of Sacramento, southeastern Brazil: (1) simple advertisement call, with only short notes (voucher specimen = CFBH32772, SVL = 31.84 mm, air temperature = 18.5°C); (2) composite advertisement call, with six short notes followed by one long note (unvouchered male, air temperature = 22.2°C). For each call, we show the oscillogram reading above and the spectrogram below (FFT = 256, contrast = 70, and brightness = 70). Scale bars: 0.5 s

Table 1
Acoustic variables of the simple and composite advertisement calls of Phyllomedusa ayeaye, Sacramento, Minas Gerais, Brazil. Statistically different variables are shown in bold (see text for details). N: sample size; SD: standard deviation.

We recorded the release calls of five collected males (14-15th November 2010, air temperature = 23°C; 17th January 2011, air temperature = 21°C), and one uncollected male (10th October 2010, air temperature = 18.5°C). The release call of P. ayeaye was also composed of short pulsed notes, but somewhat different from the short notes of the advertisement call (Fig. 3, Table 2). For example, the mean interval between the short notes of the advertisement calls was approximately three-fold longer than that of the short notes of the release call. In general, spectral variables of the release calls varied to a greater degree and showed a wider spectrum of frequencies than the advertisement calls. We did not count the number of short notes emitted in sequence for the release calls, because this depended on how long the male was stimulated. This type of call was audibly more vigorous than the short notes of the advertisement calls.

Figure 3
Sequence of Phyllomedusa ayeaye release call notes, municipality of Sacramento, southeastern Brazil (voucher specimen = CFBH32773, SVL = 32.08 mm, air temperature = 23°C; oscillogram reading above and spectrogram below, FFT = 256, contrast = 70, and brightness = 70). The call was emitted as we simulated an axillary amplexus with our fingers. Scale bar: 0.5 s.

Table 2
Acoustic variables of the release call of Phyllomedusa ayeaye, Sacramento, Minas Gerais, Brazil.

We concentrated on behavioral observations on 18th February 2014 (air temperature = 23.2°C). We observed a fight already in progress between two uncollected males (SVLs = 36.6 and 33.1 mm, Fig. 4). At 9:26 pm, the two fighting males were found hanging from a branch and holding each other, remaining still for seven minutes. Subsequently, one of the males started moving toward a nearby branch, and two minutes after reaching this branch with its front limbs, it managed to escape from the opponent. No calls were emitted during the time we observed the fight. The acoustic stimulation of one resident calling male (SVL = 35 mm) triggered an aggressive response in which the individual moved toward the speaker and responded vigorously with short notes followed by long notes (composite call). When we visually stimulated a resident male (SVL = 36.38) by placing another male (SVL = 33.2 mm) on the same branch, they started moving around the branches, first quietly, then calling aggressively to each other, using the composite call. No physical interactions were observed at this time, but males emitted approximately three short notes followed by a long note, rather than six short notes followed by a long note (Table 1). Similar acoustic aggressive interactions were observed under natural conditions in which two males called vigorously to each other using both short and long notes.

Figure 4
Physical combat between two males of Phyllomedusa ayeaye, municipality of Sacramento, southeastern Brazil (photograph by Bruno Piato).

DISCUSSION

At the beginning of the calling activity or when individuals were isolated, simple advertisement calls (short notes only) were commonly emitted. During more intense chorus activity, with various active males at the breeding site, males emitted mostly composite advertisement calls (short and long notes). The short notes of both simple and composite calls were similar in the number of notes emitted in sequence and interval between notes, but differed in number of pulses per note, note duration, maximum, minimum, and dominant frequencies. We suggest that the composite advertisement call emitted by P. ayeaye is a mixed call, with one part possibly directed to females (short notes, advertisement) and the other directed to males (long notes, aggressiveness; see below). Male territoriality and reproductive success are often related in anurans (e.g., Wells 1977Wells KD (1977) Territoriality and mating success in the green frog (Rana clamitans). Ecology 58: 750-762., Ursprung et al. 2011Ursprung E, Ringler M, Jehle R, Hödl W (2011) Strong male/male competition allows for nonchoosy females: High levels of polygynandry in a territorial frog with paternal care. Molecular Ecology 20: 1759-1771.) although the emission of aggressive territorial signals might represent energy expenditure that could be used to attract females (Wells 1988Wells KD (1988) The effects of social interactions on anuran vocal behavior, p. 433-454. In: Fritzsch B, Ryan MJ, Wilczynski W, Hetherington TE, Walkowiak W (Eds.). The Evolution of the Amphibian Auditory System. New York, Wiley. , Lingnau et al. 2004Lingnau R, Guimarães LD, Bastos RP (2004) Vocalizações de Hyla werneri (Anura, Hylidae) no sul do Brasil. Phyllomedusa 3: 115-120.). Males of P. ayeaye tend to maintain territories along a stream (M.M. Borges, unpublished data); therefore, mixed calls could be an efficient strategy used by males to convey messages related to both attracting females and enforcing territoriality between males, mainly in situations of high density (Wells 1988Wells KD (1988) The effects of social interactions on anuran vocal behavior, p. 433-454. In: Fritzsch B, Ryan MJ, Wilczynski W, Hetherington TE, Walkowiak W (Eds.). The Evolution of the Amphibian Auditory System. New York, Wiley. , Nali & Prado 2014aNali RC, Prado CPA (2014a) Complex call with different messages in Bokermannohyla ibitiguara (Anura, Hylidae), a gladiator frog of the Brazilian Cerrado. Journal of Herpetology 48: 407-414.).

We observed one physical combat in progress between males of P. ayeaye, a behavior known in other species in this genus (Abrunhosa & Wogel 2004Abrunhosa PA, Wogel H (2004) Breeding behavior of the leaf-frog Phyllomedusa burmeisteri (Anura, Hylidae). Amphibia-Reptilia 25: 125-135, Wogel et al. 2004Wogel H, Abrunhosa P, Pombal-Jr JP (2004) Vocalizations and aggressive behavior of Phyllomedusa rohdei (Anura, Hylidae). Herpetological Review 35: 239-243., Costa et al. 2010Costa TB, Guimarães LDA, Bastos RP (2010) Territorial and mating behavior in Phyllomedusa azurea (Anura: Hylidae) at a temporary pond in west-central Brazil. Phyllomedusa 9: 99-108., Vilaça et al. 2011Vilaça TRA, Silva JRS, Solé M (2011) Vocalization and territorial behaviour of Phyllomedusa nordestina Caramaschi, 2006 (Anura: Hylidae) from southern Bahia, Brazil. Journal of Natural History 45: 1823-1834.). During physical combats, male frogs may emit fighting calls sporadically (Costa et al. 2010Costa TB, Guimarães LDA, Bastos RP (2010) Territorial and mating behavior in Phyllomedusa azurea (Anura: Hylidae) at a temporary pond in west-central Brazil. Phyllomedusa 9: 99-108., Nali & Prado 2014bNali RC, Prado CPA (2014b) The fight call of Bokermannohyla ibitiguara (Anura: Hylidae): first record for the genus. Salamandra 50: 181-184., Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13.); thus, we may have failed to observe this type of call for this species. In addition, acoustic aggressive interactions have been reported for other congeners. For example, Phyllomedusa nordestina Caramaschi, 2006 emits a territorial call intercalated with advertisement calls (Vilaça et al. 2011Vilaça TRA, Silva JRS, Solé M (2011) Vocalization and territorial behaviour of Phyllomedusa nordestina Caramaschi, 2006 (Anura: Hylidae) from southern Bahia, Brazil. Journal of Natural History 45: 1823-1834.), which is very similar to the long note of the composite call described in this study for P. ayeaye. A similar long note was also described for Phyllomedusa centralis Bokermann, 1965, emitted by males as a response to playbacks (Brandão et al. 2009Brandão RA, Álvares GFR, Crema A, Zerbini GJ (2009) Natural history of Phyllomedusa centralis Bokermann, 1965 (Anura: Hylidae: Phyllomedusinae): Tadpole and calls. South American Journal of Herpetology 4: 61-68.). Males of P. ayeaye did not emit long notes alone, but always after a sequence of short notes (Fig. 3); these composite calls were observed 1) without our interference, 2) when we acoustically stimulated a resident male, and 3) when we placed an intruder male next to a resident male, in which case they emitted less short notes and more long notes to each other. Thus, we suggest that in P. ayeaye (1) the long note of the composite advertisement call is probably aggressive and directed to males and (2) this type of note might be a part of a mixed advertisement call, and not an aggressive call itself. We encourage further systematic experiments using acoustic and visual stimulation on males to confirm social functions of notes, and to test whether their variables can change in escalated aggressive interactions (e.g., Martins & Haddad 1988Martins M, Haddad CFB (1988) Vocalizations and reproductive behaviour in the smith frog, Hyla faber Wied (Amphibia: Hylidae). Amphibia-Reptilia 9: 49-60., Nali & Prado 2014aNali RC, Prado CPA (2014a) Complex call with different messages in Bokermannohyla ibitiguara (Anura, Hylidae), a gladiator frog of the Brazilian Cerrado. Journal of Herpetology 48: 407-414.).

Release call descriptions are scarce compared to those of advertisement calls (Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13.). The release call of P. ayeaye was composed of short pulsed notes, which are similar to those of the advertisement calls. However, the average interval between notes was shorter than that of the advertisement calls, and spectral variables showed greater variation, with a wider spectrum of frequencies (Table 2). Short pulsed notes are also characteristic of the release call of Phyllomedusa rohdei Mertens, 1926, similar to its territorial call type 1, but with lower intensity (Wogel et al. 2004Wogel H, Abrunhosa P, Pombal-Jr JP (2004) Vocalizations and aggressive behavior of Phyllomedusa rohdei (Anura, Hylidae). Herpetological Review 35: 239-243.). Release calls composed of short pulsed notes may represent a shared phylogenetic trait because both species belong to the P. hypochondrialis group (Faivovich et al. 2010Faivovich J, Haddad CFB, Baêta D, Jungfer KH, Álvares GFR, Brandão RA, Sheil C, Barrientos LS, Barrio-Amoros CL, Cruz CAG, Wheeler WC (2010) The phylogenetic relationships of the charismatic poster frogs, Phyllomedusinae (Anura, Hylidae). Cladistics 26: 227-261.); however, a greater number of studies of this type of call are necessary. Besides phyllomedusines, the release call of the hylid Hypsiboas goianus (Lutz, 1968) showed harmonic structure similar to the advertisement call, although some acoustic variables differed on average from those of the advertisement and aggressive calls (Dias et al. 2014Dias TM, Bastos RP, Siqueira MN, Morais AR (2014) The release call of Hypsiboas goianus (B. Lutz, 1968) (Anura: Hylidae) from Central Brazil. Herpetology Notes 7: 215-217.). The release call of the toad Rhinella jimi (family Bufonidae) was composed of several randomly spaced and distributed notes, with variable amplitude and dominant frequency similar to its advertisement call (Garda et al. 2010Garda AA, Pedro VAS, Lion MB (2010) The advertisement and release calls of Rhinella jimi (Anura, Bufonidae). South American Journal of Herpetology 5: 151-156.). In addition to what we found for P. ayeaye, these examples highlight a number of similar traits between release and advertisement calls, which strengthens the idea that the advertisement calls of anurans may have originally evolved from simple release signals (Rand 1988Rand AS (1988) An overview of anuran acoustic communication, p. 415-431. In: Fritzsch B, Ryan MJ, Wilczynski W, Hetherington TE, Walkowiak W (Eds.). The evolution of the amphibian auditory system. New York, Wiley., Schmidt et al. 1990Schmidt RS, Kemnitz CP, Hudson WR (1990) Origin of anuran calling: description of toad releasing. Journal of Experimental Zoology 254: 338-342.).

Descriptive aspects of natural history are crucial to investigate the relationship among species and evolution of anuran reproductive behavior (Gerhardt 1994Gerhardt HC (1994) The evolution of vocalization in frogs and toads. Annual Review of Ecology, Evolution, and Systematics 25: 293-324., Faivovich et al. 2010Faivovich J, Haddad CFB, Baêta D, Jungfer KH, Álvares GFR, Brandão RA, Sheil C, Barrientos LS, Barrio-Amoros CL, Cruz CAG, Wheeler WC (2010) The phylogenetic relationships of the charismatic poster frogs, Phyllomedusinae (Anura, Hylidae). Cladistics 26: 227-261.). Herein, we described the calling repertoire of P. ayeaye, which will be useful to support its synonymization with P. itacolomi (Baêta et al. 2009Baêta D, Caramaschi U, Cruz CA, Pombal-Jr JP (2009) Phyllomedusa itacolomi Caramaschi, Cruz & Feio, 2006, a junior synonym of Phyllomedusa ayeaye (B. Lutz, 1966) (Hylidae, Phyllomedu sinae). Zootaxa 2226: 58-65.). We provided evidence of acoustic aggressive interactions and the first observation of male physical combat for this species, supporting the hypothesis that male aggressive behavior may be common in this genus (Vilaça et al. 2011Vilaça TRA, Silva JRS, Solé M (2011) Vocalization and territorial behaviour of Phyllomedusa nordestina Caramaschi, 2006 (Anura: Hylidae) from southern Bahia, Brazil. Journal of Natural History 45: 1823-1834.). Finally, the present study may represent a starting point for further behavioral studies on this species and other Phyllomedusa species that have had their calls described, but not rigorously classified (sensu Toledo et al. 2014Toledo LF, Martins IA, Bruschi DP, Passos MA, Alexande C, Haddad CFB (2014) The anuran calling repertoire in the light of social context. Acta Ethologica 2014: 1-13.).

ACKNOWLEDGEMENTS

We thank B.F. Fiorillo, I.A. Martins, the editors and two anonymous reviewers for the comments on this manuscript; B.F. Fiorillo, D. Baêta, B. Piato, D.B. Delgado, C.M. Mazzarelli and L. Cholak for help with fieldwork; Neotropical Grassland Conservancy for the field equipments. R.C. Nali received graduate fellowships from the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq proc. 130737/2010-0) and the São Paulo Research Foundation (FAPESP proc. 2010/03656-6 and proc. 2012/06228-0). M.M. Borges received a graduate fellowship from the CNPq (proc. 130278/2013-0). C.P.A. Prado is CNPq research fellow (proc. 301125/2013-9), and received grants from CNPq (proc. 471106/2010-0) and the São Paulo Research Foundation (FAPESP proc. 2009/12013-4). Capture of individuals was authorized by the Chico Mendes Institute for Biodiversity Conservation (ICMBio, permit 19269-1).

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Publication Dates

  • Publication in this collection
    Jul-Aug 2015

History

  • Received
    20 Feb 2015
  • Reviewed
    11 June 2015
  • Accepted
    19 June 2015
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