ABSTRACT

Bioacoustics is an effective way of recording detailed data during population surveys and monitoring. In the present study, we used an automated digital recorder (ADR) to describe the temporal variation in the calling activity of Scinax fuscomarginatus (Lutz, 1925) in central Brazil. We also evaluated the role of climatic variables (air temperature and precipitation) on calling activity by using a Generalized Additive Model (GAM). We conducted the recordings at five ponds in the Cerrado savanna of Rio Verde Municipality, in Goiás state between November 2013 and October 2014. The analysis of the 43.2 hours of acoustic recording showed that S. fuscomarginatus has a prolonged breeding pattern. The ADR provides a fine-scale description of the nocturnal calling pattern, as well as the oscillations between the rainy and dry seasons. The results of the analytical model also indicate that calling patterns were related to minimum (but not maximum) air temperatures and precipitation, which may be related to their reproductive and thermoregulatory requirements. Based on these findings, we conclude that the ADR method has potentially valuable applications for the collection of data on the natural history of anuran species, as well as supplying important insights for conservation initiatives.

KEY WORDS:
Acoustic survey; anurans; automated recording; breeding period; phenology; seasonal variability; vocalization behavior

INTRODUCTION

Acoustic communication is an important component of the reproductive behavior and social interactions of frogs. The acoustic signals emitted by these amphibians are often a prominent part of the attraction of potential mates, territorial defense, and the recognition of conspecifics (Gerhardt and Huber 2002Gerhardt HC, Huber F (2002) Acoustic communication in insects and anurans. University of Chicago Press, Chicago, 542 pp.). These characteristics favor the use of acoustic signals in surveys of anuran populations. Different techniques are used to survey and monitor anurans in the field. The most common methods are drift fences, pitfall traps, visual encounter and manual calling surveys, audio strip transects, and automated recordings (Heyer et al. 1994Heyer WR, Donnelly MA, McDiarmid RW, Hayek LAC, Foster MS (1994) Measuring and monitoring biological diversity. Standard methods for amphibians. Smithsonian Institution, Washington, DC, 384 pp.). The automated recording of acoustic signals (or Automated Digital Recording, ADR) has become increasingly popular in recent years for the surveying of anurans (Dorcas et al. 2009Dorcas ME, Price SJ, Walls SC, Barichivich WJ (2009) Auditory monitoring of anuran populations. In: Dodd-Jr CK (Eds) Amphibian Ecology and Conservation: a handbook of techniques. Oxford University Press, New York, 281-298., Sugai et al. 2018Sugai LSM, Silva TSF, Ribeiro-Jr JW, Llusia D (2018) Terrestrial passive acoustic monitoring: review and perspectives. BioScience 69: 15-25. https://doi.org/10.1093/biosci/biy147
https://doi.org/10.1093/biosci/biy147... ). Although this technique does not allow the researcher to detect some important aspects of anuran reproduction (e.g., the presence of non-calling females and egg masses), it can provide valuable information on the presence of a particular species and detect interspecific variability in occurrence patterns (Bridges and Dorcas 2000Bridges AS, Dorcas ME (2000) Temporal variation in anuran calling behavior: Implications for surveys and monitoring programs. Copeia 2: 587-592. https://doi.org/10.1643/0045-8511(2000)000[0587:TVIACB]2.0.CO;2
https://doi.org/10.1643/0045-8511(2000)0... , Schalk and Saenz 2016Schalk CM, Saenz D (2016) Environmental drivers of anuran calling phenology in a seasonal Neotropical ecosystem. Austral Ecology 41: 16-27. https://doi.org/10.1111/aec.12281
https://doi.org/10.1111/aec.12281... ), as well as reducing considerably sampling effort in the field (Hsu et al. 2005Hsu MY, Kam YC, Fellers GM (2005) Effectiveness of amphibian monitoring techniques in a Taiwanese subtropical forest. Herpetological Journal 15: 73-79., Madalozzo et al. 2017Madalozzo B, Santos TG, Santos MB, Both C, Cechin S (2017) Biodiversity assessment: selecting sampling techniques to access anuran diversity in grassland ecosystems. Wildlife Research 44: 78-91. https://doi.org/10.1071/WR16086
https://doi.org/10.1071/WR16086... ). The principal advantage of this technique is that it permits the collection of data continuously over prolonged periods, that is, a number of consecutive days, as well as the possibility of implementing automatic species identification procedures (Acevedo and Villanueva-Rivera 2006Acevedo MA, Villanueva-Rivera LJ (2006) Using automated digital recording systems as effective tools for the monitoring of birds and amphibians. Wildlife Society Bulletin 34: 211-214. https://doi.org/10.2193/0091-7648(2006)34[211:UADRSA]2.0.CO;2
https://doi.org/10.2193/0091-7648(2006)3... ). In general, an ADR also increases the probability of detecting acoustic signals in the field.

The acoustic behavior of many Neotropical anurans varies seasonally, in particular in species that occur in highly seasonal environments (e.g., Prado et al. 2005Prado CPA, Uetanabaro M, Haddad CFB (2005) Breeding activity patterns, reproductive modes, and habitat use by anurans (Amphibia) in a seasonal environment in the Pantanal, Brazil. Amphibia-Reptilia 26: 211-221. https://doi.org/10.1163/1568538054253375
https://doi.org/10.1163/1568538054253375... , Kopp et al. 2010Kopp K, Signorelli L, Bastos RP (2010) Temporal distribution and diversity of reproductive modes in anuran amphibians in the Emas National Park and surrounding area, state of Goiás, Brazil. Iheringia, Série Zoologia 100: 192-200. https://doi.org/10.1590/S0073-47212010000300002
https://doi.org/10.1590/S0073-4721201000... , Andrade et al. 2019Andrade EB, Leite JRSA, Weber LN (2019) Composition, phenology, and habitat use of anurans in a Cerrado remnant in Northeastern Brazil. Herpetological Conservation and Biology 14: 546-559., Ulloa et al. 2019Ulloa JS, Aubin T, Llusia D, Courtois EA, Fouquet A, Gaucher P, Pavoine S, Sueur J (2019) Explosive breeding in tropical anurans: environmental triggers, community composition and acoustic structure. BMC Ecology 19. https://doi.org/10.1186/s12898-019-0243-y
https://doi.org/10.1186/s12898-019-0243-... ). This behavioral flexibility provides important cues for the identification of the breeding season, and the link between environmental conditions, such as air temperature and precipitation, and activity patterns (Wells 2007Wells KD (2007) The ecology and behaviour of amphibian. The University of Chicago Press, Chicago, 1148 pp.). This is especially the case for the anurans of the Brazilian Cerrado (Colli et al. 2002Colli GR, Bastos RP, Araújo AFB (2002) The character and dynamics of the Cerrado Herpetofauna. In: Oliveira PS, Marquis RJ (Eds) The Cerrados of Brazil: Ecology and Natural History of a Neotropical Savanna. Columbia University Press, New York, 223-241.). The anurans of this savanna biome are either explosive breeders, reproducing during a few days or weeks, or prolonged breeders (sensu Wells 1977), breeding more or less continuously over five or more months during the rainy season (Kopp et al. 2010Kopp K, Signorelli L, Bastos RP (2010) Temporal distribution and diversity of reproductive modes in anuran amphibians in the Emas National Park and surrounding area, state of Goiás, Brazil. Iheringia, Série Zoologia 100: 192-200. https://doi.org/10.1590/S0073-47212010000300002
https://doi.org/10.1590/S0073-4721201000... ). However, few studies of Cerrado anurans have used automated recording for long-term monitoring (see Guerra et al. 2020Guerra V, Costa NQ, Llusia D, Márquez R, Bastos RP (2020) Nightly patterns of calling activity in anuran assemblages of the Cerrado, Brazil. Community Ecology 21: 33-42. https://doi.org/10.1007/s42974-020-00013-8
https://doi.org/10.1007/s42974-020-00013... , Ramalho et al. 2020Ramalho WP, Guerra V, Ferraz D, Machado IF, Prado VHM (2020) Filling gaps on the endangered Cerrado Rocket Frog Allobates goianus (Bokermann, 1975) (Anura: Aromobatidae): new distributional record and comments on its daily activity. Cuadernos de Herpetología 34: 93-97.), despite its potential for the collection of high-resolution temporal data on anuran calling activity, which can be analyzed systematically in the context of climatic variables (e.g., air temperature and precipitation) to evaluate the influence of environmental conditions on vocalisation patterns.

Here, we describe the temporal calling patterns (daily and seasonal) of Scinax fuscomarginatus (Lutz, 1925) from data collected using an ADR. We also evaluate whether the annual pattern is related to air temperature and precipitation. Scinax fuscomarginatus has an ample distribution in Brazil (Brusquetti et al. 2014Brusquetti F, Jansen M, Barrio-Amorós C, Segalla M, Haddad CFB (2014) Taxonomic review of Scinax fuscomarginatus (Lutz, 1925) and related species (Anura; Hylidae). Zoologi cal Journal of the Linnean Society 171: 783-821. https://doi.org/10.1111/zoj.12148
https://doi.org/10.1111/zoj.12148... ), occurring in open formations typical of the Cerrado and Pantanal biomes (Brasileiro et al. 2005Brasileiro CA, Sawaya RJ, Kiefer MC, Martins M (2005) Amphibians of an open Cerrado fragment in Southeastern Brazil. Biota Neotropica 5(2): 1-17. https://doi.org/10.1590/S1676-06032005000300006
https://doi.org/10.1590/S1676-0603200500... , Toledo and Haddad 2005aToledo LF, Haddad CFB (2005a) Acoustic repertoire and calling behavior of Scinax fuscomarginatus (Anura, Hylidae). Journal of Herpetology 39: 455-464. https://doi.org/10.1670/139-04A.1
https://doi.org/10.1670/139-04A.1... , 2005bToledo LF, Haddad CFB (2005b) Reproductive biology of Scinax fuscomarginatus (Anura, Hylidae) in south-eastern Brazil. Journal of Natural History 39: 3029-3037. https://doi.org/10.1080/00222930500221403
https://doi.org/10.1080/0022293050022140... ). Previous descriptions of the calling behavior of this species were based on visual encounters and manual recordings (Pombal-Jr 1997Pombal-Jr JP (1997) Distribuição espacial e temporal de anuros (Amphibia) em uma poça permanente na Serra de Paranapiacaba, sudeste do Brasil. Revista Brasileira de Biologia 57: 583-594., Bernarde and Kokubum 1999Bernarde PS, Kokubum MNC (1999) Anurofauna do município de Guararapes, Estado de São Paulo, Brasil (Amphibia: Anura). Acta Biologica Leopoldensia 21: 89-97., Toledo and Haddad 2005aToledo LF, Haddad CFB (2005a) Acoustic repertoire and calling behavior of Scinax fuscomarginatus (Anura, Hylidae). Journal of Herpetology 39: 455-464. https://doi.org/10.1670/139-04A.1
https://doi.org/10.1670/139-04A.1... ). These studies defined the reproductive pattern as prolonged (sensu Wells 1977Wells KD (1977) The social behaviour of anuran amphibians. Animal Behaviour 25: 666-693. https://doi.org/10.1016/0003-3472(77)90118-X
https://doi.org/10.1016/0003-3472(77)901... ) with calling being recorded between sunset and midnight. However, these descriptions did not focus on the full annual cycle, which may have affected the resolution of the analysis of the anuran calling patterns (e.g., Bridges and Dorcas 2000Bridges AS, Dorcas ME (2000) Temporal variation in anuran calling behavior: Implications for surveys and monitoring programs. Copeia 2: 587-592. https://doi.org/10.1643/0045-8511(2000)000[0587:TVIACB]2.0.CO;2
https://doi.org/10.1643/0045-8511(2000)0... ).

MATERIAL AND METHODS

We conducted fieldwork at five permanent ponds in the municipality of Rio Verde (17°47’52”S; 50°55’40”W), southwestern Goiás, central Brazil. The principal types of vegetation at the sampling site were shrubby grassland (campo sujo) and shrubby grassland with trees (campo cerrado), which are typical of the Cerrado biome. The surrounding area presents a diversity of land uses, such as pasture and soybean plantations. The local climate is Aw (tropical wet savanna) in Köppen’s classification system, with annual precipitation of 1600-1900 mm and mean annual air temperatures of 22-24 °C (Alvares et al. 2014Alvares CA, Stape JL, Sentelhas PC, Gonçalves JLM, Sparovek G (2014) Koppen’s climate classification map for Brazil. Meteorologische Zeitschrift 22: 711-728.). The rainy season occurs typically between October and March. Minimum and maximum air temperatures (°C), and precipitation (mm) were obtained from a weather station ١٥ km from the study site.

We recorded the calling activity of S. fuscomarginatus males between November 2013 and October 2014, by collecting acoustic data automatically on three consecutive days per month. We installed an automated digital recorder (ADR), as described by Madalozzo et al. (2017Madalozzo B, Santos TG, Santos MB, Both C, Cechin S (2017) Biodiversity assessment: selecting sampling techniques to access anuran diversity in grassland ecosystems. Wildlife Research 44: 78-91. https://doi.org/10.1071/WR16086
https://doi.org/10.1071/WR16086... ), at each pond. The recorders were Sony ICD-PX312 (48 kbps and MP3 format).

We estimated the maximum detection distance (Llusia et al. 2011Llusia D, Márquez R, Bowker R (2011) Terrestrial sound monitoring systems, a methodology for quantitative calibration. Bioacoustics 20: 277-286.) to be approximately 50 m. At each pond, we installed a recorder that remained active for 72 hours, that is, during three consecutive days and nights. At the end of this period, we removed the recorder and downloaded the data, and only installed the apparatus again the following month. With three days per month at each pond, total sampling effort was 864 hours (51,840 minutes). The recorders were installed in trees or shrubs at the margin of each pond, at approximately 50 cm above the ground, and protected by a plastic casing (Figs 1, 2). We used Audacity (Audacity Team 2019Audacity Team (2019) Audacity(R): free audio editor and recorder. Version 2.3.3. Available online at Available online at https://audacityteam.org [Accessed: 20/1/2020]
https://audacityteam.org... ) to extract the nocturnal portion of the recordings (sensu Madalozzo et al. 2017Madalozzo B, Santos TG, Santos MB, Both C, Cechin S (2017) Biodiversity assessment: selecting sampling techniques to access anuran diversity in grassland ecosystems. Wildlife Research 44: 78-91. https://doi.org/10.1071/WR16086
https://doi.org/10.1071/WR16086... ). We then estimated the number of advertisement calls (calling activity) by listening to six-minute samples selected randomly from each hour of recording, obtained between 6:00 pm to 6:00 am, and counting the number of calls emitted during each sample. The calls of syntopic anuran species could be distinguished easily from the advertisement calls of S. fuscomarginatus in the recordings. This sampling procedure resulted in a total of 43.2 hours (2,592 minutes) of analyzed recordings. The call terminology followed Toledo and Haddad (2005aToledo LF, Haddad CFB (2005a) Acoustic repertoire and calling behavior of Scinax fuscomarginatus (Anura, Hylidae). Journal of Herpetology 39: 455-464. https://doi.org/10.1670/139-04A.1
https://doi.org/10.1670/139-04A.1... ). The raw data were deposited at the Sound Files of Neotropical Anurans Collection (CASAN: Coleção de Arquivos Sonoros de Anuros Neotropicais) of the Federal Institute of Goiás in Rio Verde.

Figures 1-2
(1) Study site in Rio Verde, Goiás, Brazil; (2) setup of the ADR, Sony model ICD-PX312.

We calculated the mean calling rate per day based on the total 72-minute sample collected per day of monitoring. The statistical analyses described below used these values calculated for all the 36 days (n = 36) of acoustic monitoring. We used Generalized Additive Models, or GAMs (Hastie and Tibshirani 1990Hastie TJ, Tibshirani RJ (1990) Generalized Additive Models. Chapman & Hall, London, 352 pp., Wood 2017Wood SN (2017) Generalized Additive Models. An introduction with R. Chapman and Hall/CRC, London, 476 pp.) to examine whether air temperature (minimum or maximum) and precipitation affected calling rates (the response variable - the mean number of advertisement calls per minute per day). The principal advantage of this approach is the use of the basis spline functions (adaptive smoothers), which enables the depiction of both linear and nonlinear relationships. This approach can incorporate putative nonlinear relationships between climatic variables and calling rates due to the seasonal variation in the climatic data. We tested the different GAMs in a forward stepwise manner by inserting climatic variables as predictors and including days as a random effect (Wood 2017). We used the Akaike Information Criterion (AIC) to select the best-fit model, considering a 5% significance level. The analyses were run in the MGCV package (Wood 2011Wood SN (2011) Fast stable restricted maximum likelihood and marginal likelihood estimation of semiparametric generalized linear models. Journal of the Royal Statistical Society 73: 3-36. https://doi.org/10.1111/j.1467-9868.2010.00749.x
https://doi.org/10.1111/j.1467-9868.2010... , 2017Wood SN (2017) Generalized Additive Models. An introduction with R. Chapman and Hall/CRC, London, 476 pp.) of the R platform (R Core Team 2019R Core Team (2019) R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/
https://www.R-project.org/... ).

RESULTS

The calling activity of S. fuscomarginatus peaked during two periods, that is, between November 2013 and March 2014, and August-October 2014 (Figs 3, 4). The males called at the end of the dry season (August-September 2014) and at the onset of the rainy season (October 2014). The highest calling rates were recorded during the early night (6:00-8:00 pm) and decreased gradually until 6:00 am (Fig. 5). Males emitted advertisement calls antiphonally, i.e., avoiding acoustic overlap by synchronizing their calls with those of the other males in the same area. As the chorus noise decreased over the course of the night, the number of males calling antiphonally decreased.

Figures 3-4
(3) Monthly precipitation (gray bars), minimum air temperature (dashed line), and maximum air temperature (solid line) recorded between November 2013 and October 2014 in the municipality of Rio Verde, Goiás state, Brazil. (4) The mean number of advertisement calls (calling activity) recorded per minute (white bars) per day at all the study ponds.

Figure 5
Nocturnal variation in the calling activity (number of advertisement calls per minute) of the Scinax fuscomarginatus population in the municipality of Rio Verde, Goiás state, Brazil. The mean and standard error (SE) were estimated based on the recordings from all the study ponds (2013-2014).

The best-fitting model retained all the predictor variables, albeit with different trends (Table 1, Figs 6-8). The minimum air temperature had an increasing linear effect on the phenology of the calling activity, although the maximum air temperature did not explain the variability in the model significantly. By contrast, precipitation had a significant nonlinear effect on calling rates.

Figures 6-8
Results of the Generalized Additive Model for the relationship between calling activity and (6) minimum and (7) maximum air temperatures and (8) precipitation. The inner tick marks on the x axes represent the raw values of the climatic variables. The shaded area indicates the 95% confidence interval. (Tmin) Minimum air temperature, (Tmax) maximum air temperature, (Prec) precipitation.

DISCUSSION

We used ADR to describe calling activity in S. fuscomarginatus in full detail. This species presented a prolonged breeding pattern (Wells 1977Wells KD (1977) The social behaviour of anuran amphibians. Animal Behaviour 25: 666-693. https://doi.org/10.1016/0003-3472(77)90118-X
https://doi.org/10.1016/0003-3472(77)901... ) with calling activity being recorded throughout the night, and during two breeding seasons per year. The peak in calling recorded during the early night in the present study is consistent with the findings of previous studies of this species in the Cerrado and Pantanal biomes (Bernarde and Kokubum 1999Bernarde PS, Kokubum MNC (1999) Anurofauna do município de Guararapes, Estado de São Paulo, Brasil (Amphibia: Anura). Acta Biologica Leopoldensia 21: 89-97., Prado et al. 2005Prado CPA, Uetanabaro M, Haddad CFB (2005) Breeding activity patterns, reproductive modes, and habitat use by anurans (Amphibia) in a seasonal environment in the Pantanal, Brazil. Amphibia-Reptilia 26: 211-221. https://doi.org/10.1163/1568538054253375
https://doi.org/10.1163/1568538054253375... , Toledo and Haddad 2005aToledo LF, Haddad CFB (2005a) Acoustic repertoire and calling behavior of Scinax fuscomarginatus (Anura, Hylidae). Journal of Herpetology 39: 455-464. https://doi.org/10.1670/139-04A.1
https://doi.org/10.1670/139-04A.1... , Kopp et al. 2010Kopp K, Signorelli L, Bastos RP (2010) Temporal distribution and diversity of reproductive modes in anuran amphibians in the Emas National Park and surrounding area, state of Goiás, Brazil. Iheringia, Série Zoologia 100: 192-200. https://doi.org/10.1590/S0073-47212010000300002
https://doi.org/10.1590/S0073-4721201000... ), although it does expand the known range of night-time calling behavior in S. fuscomarginatus. The phenology of the calling behavior of S. fuscomarginatus was also shown to be influenced by climatic variables (minimum air temperature and rainfall).

The ADR system can remain operational in the field for an extended period of time, increasing the probability of detecting calls. This technique can thus provide a more detailed description of calling patterns than other procedures that do not provide a continuous or permanent sample (Bridges and Dorcas 2000Bridges AS, Dorcas ME (2000) Temporal variation in anuran calling behavior: Implications for surveys and monitoring programs. Copeia 2: 587-592. https://doi.org/10.1643/0045-8511(2000)000[0587:TVIACB]2.0.CO;2
https://doi.org/10.1643/0045-8511(2000)0... , Dorcas et al. 2009Dorcas ME, Price SJ, Walls SC, Barichivich WJ (2009) Auditory monitoring of anuran populations. In: Dodd-Jr CK (Eds) Amphibian Ecology and Conservation: a handbook of techniques. Oxford University Press, New York, 281-298.). Given this, ADR can be used to complement other, less permanent anuran survey procedures (Madalozzo et al. 2017Madalozzo B, Santos TG, Santos MB, Both C, Cechin S (2017) Biodiversity assessment: selecting sampling techniques to access anuran diversity in grassland ecosystems. Wildlife Research 44: 78-91. https://doi.org/10.1071/WR16086
https://doi.org/10.1071/WR16086... ) or estimate the probability that a species will vocalize during a given day or year (Saenz et al. 2006Saenz D, Fitzgerald LA, Baum KA, Conner RN (2006) Abiotic correlates of anuran calling phenology: the importance of rain, temperature, and season. Herpetological Monographs 20: 64-82. https://doi.org/10.1655/0733-1347(2007)20[64:ACOACP]2.0.CO;2
https://doi.org/10.1655/0733-1347(2007)2... ). The attributes of the ADR can improve the quality of the data at finer temporal scales for the more reliable sampling and analysis of the calling patterns of widely-distributed anuran species, such as S. fuscomarginatus.

The more refined data obtained using the ADR may also permit the prediction of the occurrence of S. fuscomarginatus under specific certain environmental conditions, i.e., temperature and rainfall. This species occurs at temporary ponds, and chorusing behavior usually occurs during the rainy season (Toledo and Haddad 2005aToledo LF, Haddad CFB (2005a) Acoustic repertoire and calling behavior of Scinax fuscomarginatus (Anura, Hylidae). Journal of Herpetology 39: 455-464. https://doi.org/10.1670/139-04A.1
https://doi.org/10.1670/139-04A.1... , Kopp et al. 2010Kopp K, Signorelli L, Bastos RP (2010) Temporal distribution and diversity of reproductive modes in anuran amphibians in the Emas National Park and surrounding area, state of Goiás, Brazil. Iheringia, Série Zoologia 100: 192-200. https://doi.org/10.1590/S0073-47212010000300002
https://doi.org/10.1590/S0073-4721201000... ). The non-linear trend found here in relation to precipitation indicates that the calling phenology of S. fuscomarginatus is related to the seasonal variation in rainfall. A similar pattern is found in many other anuran species (Prado et al. 2005Prado CPA, Uetanabaro M, Haddad CFB (2005) Breeding activity patterns, reproductive modes, and habitat use by anurans (Amphibia) in a seasonal environment in the Pantanal, Brazil. Amphibia-Reptilia 26: 211-221. https://doi.org/10.1163/1568538054253375
https://doi.org/10.1163/1568538054253375... , Kopp et al. 2010). Our findings indicate that S. fuscomarginatus becomes more active with increasing minimum air temperature, which may be related to the regulation of body temperature (Wells 2007Wells KD (2007) The ecology and behaviour of amphibian. The University of Chicago Press, Chicago, 1148 pp.). When the air temperature becomes too high, on the other hand, anurans tend to avoid evaporative water loss (Wells 2007Wells KD (1977) The social behaviour of anuran amphibians. Animal Behaviour 25: 666-693. https://doi.org/10.1016/0003-3472(77)90118-X
https://doi.org/10.1016/0003-3472(77)901... ). This relationship is important for the prediction of the presence of amphibians over the course of the year (e.g., Steelman and Dorcas 2010Steelman CK, Dorcas ME (2010) Anuran calling survey optimization: developing and testing predictive models of anuran calling activity. Journal of Herpetology 44: 61-68. https://doi.org/10.1670/08-329.1
https://doi.org/10.1670/08-329.1... ). It is important to note, however, that other environmental variables not measured in this study (e.g., relative humidity, barometric pressure, and wind speed) may also influence calling patterns in this species (e.g., Pombal-Jr 1997Pombal-Jr JP (1997) Distribuição espacial e temporal de anuros (Amphibia) em uma poça permanente na Serra de Paranapiacaba, sudeste do Brasil. Revista Brasileira de Biologia 57: 583-594.).

Overall, the findings of the present study have provided important insights into the phenology of calling patterns in S. fuscomarginatus. The procedures adopted here also appear to have good potential for the collection of data on the natural history of other frog species, providing maximum sampling coverage in the field at a relatively low cost.

ACKNOWLEDGEMENTS

RPB is grateful to the Conselho Nacional de Desenvolvimento Científico e Tecnológico for a scholarship, and ARM acknowledges the Federal Institute of Goiás, Rio Verde campus, for a scholarship. The Fundação de Amparo à Pesquisa do Estado de Goiás (project 201610267000545) and Fundação Grupo Boticário provided financial support for the present research. SRO is also grateful to Coordenação de Aperfeiçoamento de Pessoal de Nível Superior for financial support. We thank Stefano Ferrari for reviewing the English language.

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