Passeriformes: nest predators and prey in a Neotropical Savannah in Central Brazil

França, Leonardo F.; Sousa, Nadinni O. M.; Santos, Luane R. dos; Duca, Charles; Gressler, Daniel T.; Borges, Fábio J. A.; Lopes, Leonardo E.; Manica, Lilian T.; Paiva, Luciana V.; Medeiros, Rita C. S. de; Marini, Miguel Â.

doi:10.1590/S1984-46702009000400028

Abstract

The identification of predators of birds' nests, crucial to a better understanding of predator-prey interactions, remains poorly known. Here we provide evidence that birds, and especially passerines, may depredate birds' nests in the Cerrado (Neotropical Savannah) of Central Brazil. Data was collected primarily in a Conservation Unit (Estação Ecológica de Águas Emendadas) during the breeding season, between 2003 and 2007. We report and discuss details on 14 events of nest predation, 12 of which by passerines, mostly by curl-crested jays - Cyanocorax cristatellus (Temminck, 1823). The results of our study suggest that the role of birds as nest predators in the Cerrado has been underestimated and needs to be further investigated.

Cerrado; bird; passerine

SHORT COMMUNICATION

Passeriformes: nest predators and prey in a Neotropical Savannah in Central Brazil

Leonardo F. França^I,¹ 1 Corresponding author. E-mail: franca_lf@yahoo.com ; Nadinni O. M. Sousa^I; Luane R. dos Santos^I; Charles Duca^I; Daniel T. Gressler^I; Fábio J. A. Borges^I; Leonardo E. Lopes^II; Lilian T. Manica^I; Luciana V. Paiva^I; Rita C. S. de Medeiros^III; Miguel Â. Marini^I

^IDepartamento de Zoologia, Universidade de Brasília. Campus Universitário Darcy Ribeiro, Asa Norte, 70910-900 Brasília, Distrito Federal, Brasil

^IIDepartamento de Zoologia, Universidade Federal de Minas Gerais. Avenida Antônio Carlos, 6627, Pampulha, 31270-901 Belo Horizonte, Minas Gerais, Brasil

^IIIInstituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis. SCEN Trecho 2, Ed. Sede IBAMA, 70818-900 Brasília, Distrito Federal, Brasil

ABSTRACT

The identification of predators of birds' nests, crucial to a better understanding of predator-prey interactions, remains poorly known. Here we provide evidence that birds, and especially passerines, may depredate birds' nests in the Cerrado (Neotropical Savannah) of Central Brazil. Data was collected primarily in a Conservation Unit (Estação Ecológica de Águas Emendadas) during the breeding season, between 2003 and 2007. We report and discuss details on 14 events of nest predation, 12 of which by passerines, mostly by curl-crested jays - Cyanocorax cristatellus (Temminck, 1823). The results of our study suggest that the role of birds as nest predators in the Cerrado has been underestimated and needs to be further investigated.

Key words: Cerrado; bird; passerine.

Predation is the main cause of nest failure in tropical birds (ONIKI 1979, MARTIN 1996) with predation rates around 80-90% (reviewed in STUTCHBURY & MORTON 2001). The identification of nest predators is helpful in understanding avian life history strategies and can be an aid to devising management and conservation plans. This information is important because nest predation negatively affects avian population sizes (NEWTON 2003), particularly in fragmented landscapes (ROBINSON et al. 1995, HESKE et al. 2001).

It has been suggested that mammals, snakes and birds are the most important nest predators in tropical and temperate zones (ROBINSON & ROBINSON 2001, STAKE et al. 2004, ROBINSON et al. 2005). However, most studies that aimed to identify and quantify nest predators and their impact were conducted in the temperate zone, and usually in forests (WEATHERHEAD & BLOUIN-DEMERS 2004). Because of the difficulty in recording nest predation events, such studies are usually based on small sample sizes (WEATHERHEAD & BLOUIN-DEMERS 2004), are restricted to one or a few prey species (e.g. RENFREW & RIBIC 2003), frequently do not include temporal or spatial comparisons (BROWN et al. 1998), or use indirect inferences (LIBSCH et al. 2008).

Therefore, more information is still needed to determine who the nest predators are and what their relative importance in the tropics is. Herein we describe nest predation events and provide evidence that passerines may be nest predators in an area of the Brazilian Neotropical Savannah (Cerrado). The Cerrado, a threatened biome (KLINK & MACHADO 2005), is a biodiversity hotspot (MITTERMEIER et al. 2004) that includes more than 830 bird species (SILVA 1995, STOTZ et al. 1996) many of which endemic or threatened (review in MARINI & GARCIA 2005).

This study was carried out at the "Estação Ecológica de Águas Emendadas" (ESECAE), a 10,500 ha reserve in Central Brazil with typical Cerrado vegetation and immersed in a semi-urban landscape. The Brazilian Cerrado biome is composed of woodlands, savannas, grasslands as well as gallery and dry forests (SILVA & FELFILI 1996). Most of our nest searching was conducted at least 1 km from the edges of the reserve in a 100 ha plot with open low scrub (cerrado ralo) to dense savannah (cerrado típico; classification after RIBEIRO & WALTER 1998), but also in a fragmented semi-urban landscape adjacent to ESECAE. This semi-urban landscape was composed by fragmented Cerrado, houses, farms and orchards.

Nest predation was recorded directly during an ongoing, long-term nest monitoring program at ESECAE from August through December during the years of 2003-2007. We made records of nest predation events by chance mostly in the 100 ha plot (N = 14 nests) and once in the semi-urban landscape. Direct observations were conducted from 06:00 a.m. to 6:00 p.m., and were combined with video-monitoring of passerine nests, monitoring of nest contents, observations on parental behavior at nests, following bird groups, or randomly walking in the area. In this study, we report only direct records of nest predation events. Nomenclature follows CBRO (2008).

According to our observations, passerines seem to act as nest predators in our study area. We identified both predators and preys in 13 of the 14 events recorded. The curl-crested jay, Cyanocorax cristatellus (Temminck, 1823), was a predator in seven of the 14 events (Tab. I). Three other species of passerines and a Bucconidae - white-eared puffbird, Nystalus chacuru (Vieillot, 1816) - were also recorded as predators and seven species of passerines were prey (Tab. I). In one case the interaction was intra-specific - lesser elaenia, Elaenia chiriquensis Lawrence, 1865 - as prey and predator. In nine occasions predators were in monospecific groups of at least two individuals (Tab. I). However, only once - white-rumped tanager Cypsnagra hirundinacea (Lesson, 1831) as predator (Tab. I) - we observed more than one individual consuming the contents of a nest. There was one instance of a mammal (feral dog) predating on a nest at a height of 56 cm. In the latter case, a single egg was eaten and the nest was only slightly disturbed.

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Predation occurred in eight nests during incubation stage and in six during nestling stage. Nestlings were depredated five times by curl-crested jay and once by white-eared puffbird. There were more than one egg or nestling in six depredated nests and only once we observed all nest contents being removed. This provides evidence of partial nest predation in the study area. When eggs where depredated, we found no egg remains three times, egg shells twice and blood remains once (Tab. I). Predation occurred 13 times early in the morning, before 9:00 a.m., and only once in the afternoon (6:00 p.m.) (Tab. I).

This study is apparently the first carried out in a naturally open Neotropical landscape, limiting comparisons. Among 14 previous studies on the nest predators evaluated, only two were conducted in wet forests from the tropical zone (ROBINSON & ROBINSON 2001, ROBINSON et al. 2005), while 12 were carried out in temperate regions - 10 in the United States, one in Germany and one in New Zealand (BROWN et al. 1998, THOMPSON et al. 1999, FARNSWORTH & SIMONS 2000, PIETZ & GRANFORS 2000, MORRISON & BOLGER 2002, LIEBEZEIT & GEORGE 2003, RENFREW & RIBIC 2003, SAWIN et al. 2003, STAKE & CIMPRICH 2003, THOMPSON & BURHANS 2003, SCHAEFER 2004, STAKE et al. 2004). Five of them took place in open landscapes, but only one in a preserved area.

We recorded mostly passerines predating nests (12 of 14 records), especially the curl-crested jay. In other habitats, the importance of birds in nest predation events is either small or is shared among other taxa. For instance, in a lowland forest, birds, snakes and mammals were recorded as nest predators during nest monitoring (ROBINSON & ROBINSON 2001). In the Amazon and the Atlantic forests, both toucans and monkeys were observed predating nests (FEEKES 1981, ROBINSON et al. 2005, DUCA & MARINI 2004). Additionally, in some studies, snakes have been pointed out as the most important predators (WEATHERHEAD & BLOUIN-DEMERS 2004, ROBINSON et al. 2005). A study conducted at the edge of ESECAE revealed that birds (beak marks) were the most common predators (> 90% of the marks) of artificial nests baited with plasticine eggs (FRANÇA & MARINI 2009). However, in our study the relative importance of birds and other predators in nest predation events at ESECAE can not be evaluated due to the opportunistic non-systematic way that data was collected. Despite this limitation, our observations allow us to suggest that birds, and especially passerines, may be part of the predator community at ESECAE.

From the 14 studies cited above, 72% reported passerines as nest predators (e.g. THOMPSON & BURHANS 2003, STAKE et al. 2004). However, in most cases only crows and/or blackbirds (88%) were identified as nest predators (e.g. FARNSWORTH & SIMONS 2000, STAKE & CIMPRICH 2003). Blackbirds as predators were represented only by the brown-headed cowbird, Molothrus ater (Boddaert, 1783). Some tyrant flycatchers were also mentioned as nest predators (reviewed in LOPES et al. 2005), as well as wrens, whose egg destruction behavior seems to be common (FLEISCHER & TARR 1995, RODRIGUES 2005). Our study is the first to report nest predation by tanagers and is one of a few reporting several species and families of passerines (Tyrannidae, Thraupidae and Corvidae) as nest predators.

Intraspecific predation (reported here for E. chiriquensis) does not seem to be a common behavior among birds (BROWN et al. 1998, FARNSWORTH & SIMONS 2000, ROBINSON & ROBINSON 2001). Also, it does not happen even in manipulated conditions, when nests are relocated next to other conspecifics (SAWIN et al. 2003). However, the migratory marsh wren, Cistothorus palustris (Wilson, 1810), destroys and eats the contents of nests of conspecifics in order to reduce competition for food around its territory (POOLE & GILL 1997). This hypothesis could be tested with E. chiriquensis, which is also a migratory species and occurs in our study area in high densities during its breeding season.

Remains of nest predation were not appropriate to allow the identification of nest predators in this study. The strategy of identifying predators using the evidences left in the nest had already been considered inefficient by MARINI & MELO (1998). Also, studies using nest video monitoring to compare the predator recorded with the evidences left in the nest confirmed the inefficiency of the method to identify predators (PIETZ & GRANFORS 2000, THOMPSON & BURHANS 2003). Studies with thermistors (temperature sensors) placed in nests allow the record of the time of nest predation events but not the identification of nest predators (LIBSCH et al. 2008).

We suggest that the importance of birds as nest predators in the Cerrado region be further investigated because they may be more frequent predators than previously thought. Further studies aiming this subject may improve our knowledge about the evolution of local bird life histories, and enable the elaboration of more efficient management strategies for tropical birds.

ACKNOWLEDGEMENTS

We would like to thank the administrators of ESECAE (GDF-DF) for allowing this study to take place in the reserve. This study was partially funded by research grants from CNPq, FAPDF, FUNPE, FINATEC, and graduate programs of Ecology and of Animal Biology (UnB), Fundação O Boticário de Proteção à Natureza, Neotropical Grassland Conservancy and Animal Behavior Society. Several authors held scholarships from CAPES or CNPq and MÂM held a researcher fellowship from CNPq.

LITERATURE CITED

Submitted: 22.XII.2008; Accepted: 08.XII.2009.

Editorial responsibility: Fernando de Camargo Passos

BROWN, K.P.; H. MOLLER; J. INNES & P. JANSEN. 1998. Identifying predators at nests of small birds in a New Zealand forest. Ibis 140 (2): 274-279.
CBRO. Lista das Aves do Brasil. Comitê Brasileiro de Registros Ornitológicos. Available online at: http://www.cbro.org.br [Accessed: 08/IV/2008]
DUCA, C. & M.Â. MARINI. 2004. Aspectos da nidificação de Cacicus haemorrhous (Passeriformes, Icterinae) no sudeste do Brasil. Revista Brasileira de Ornitologia 12 (1): 25-32.
FARNSWORTH, G.L. & T.R. SIMONS. 2000. Observations of wood thrush nest predators in a large contiguous forest. Wilson Bulletin 112 (1): 82-87.
FEEKES, F. 1981. Biology and organization of two sympatric Caciques, Cacicus c. cela and Cacicus h. haemorrhous (Icteridae, Aves) in Suriname. Ardea 69 (1): 83-107.
FLEISCHER, R.C. & C.L. TARR. 1995. Plain Wren destroys egg of Dusky Antbird. Journal of Field Ornithology 66 (3): 404-405.
FRANÇA, L.C. & M.Â. MARINI. 2009. Teste do efeito de borda na predação de ninhos naturais e artificiais no Cerrado. Zoologia 26 (2): 241-250.
HESKE, E.J., S.K. ROBINSON & J.D. BRAWN. 2001. Nest predation and Neotropical migrant songbirds: piecing together the fragments. Wildlife Society Bulletin 29 (1): 52-61.
KLINK, C.A. & R.B. MACHADO. 2005. Conservation of the Brazilian Cerrado. Conservation Biology 19 (3): 707-713.
LIBSCH, M.M.; C. BATISTA, D. BUEHLER; I. OCHOA; J. BRAWN & R.E. RICKLEFS. 2008. Nest predation in a neotropical forest occurs during daytime. Condor 110 (1): 166-170.
LIEBEZEIT, J.R. & T.L. GEORGE. 2003. Comparison of mechanically egg-triggered cameras and time-lapse video cameras in identifying predators at Dusky Flycatcher nests. Journal of Field Ornithology 74 (3): 261-269.
LOPES, L.E.; A.M. FERNANDES & M.Â. MARINI. 2005. Predation on vertebrates by Neotropical passerine birds. Lundiana 6 (1): 57-66.
MARINI, M.Â. & F.I. GARCIA. 2005. Bird conservation in Brazil. Conservation Biology 19 (3): 665-671.
MARINI, M.Â. & C. MELO. 1998. Predators of quail egg and the evidences of the remains: implications for nest predation studies. Condor 100 (2): 395-399.
MARTIN, T. E. 1996. Life history evolution in tropical and south temperate birds: what do we really know? Journal of Avian Biology 27 (1): 1-10.
MITTERMEIER, R.A.; P.R. GIL; M. HOFFMAN; J. PILGRIM; T. BROOKS; C.G. MITTERMEIER; J. LAMOREUX & G.A.B. FONSECA. 2004. Hotspots revisited: earth's biologically richest and most endangered terrestrial. Mexico, CEMEX S.A., XI+392p
MORRISON, S.A. & D.T. BOLGER. 2002. Lack of an urban edge effect on reproduction in a fragmentation-sensitive Sparrow. Ecological Applications 12 (2): 398-411.
NEWTON, I. 2003. Population limitation in birds. London, Academic Press, 2^nd ed., 597p.
ONIKI, Y. 1979. Is nesting success of birds low in the tropics? Biotropica 11 (1): 60-69.
PIETZ, P.J. & D.A. GRANFORS. 2000. Identifying predators and fates of grassland passerine nests using miniature video cameras. Journal of Wildlife Management 64 (1): 71-87.
POOLE, A. & F. GILL. 1997. The Birds of North America. Washington, Academy of Natural Sciences, Philadelphia, and American Ornithologists' Union, # 308.
RENFREW, R.B. & C.A. RIBIC. 2003. Grassland passerine nest predators near pasture edges identified on videotape. Auk 120 (2): 371-383.
RIBEIRO, J.F. & B.M.T. WALTER. 1998. Fitofisionomias do bioma Cerrado, p. 89-166. In: S.M. SANO & S.P. ALMEIDA (Eds). Cerrado: ambiente e flora. Planaltina, Embrapa, XII+556p.
ROBINSON, W.D. & T.R. ROBINSON. 2001. Observations of predation events at bird nests in Central Panama. Journal of Field Ornithology 72 (1): 43-48.
ROBINSON, S.K.; F.R. THOMPSON; T.M. DONOVAN; D.R. WHITEHEAD & J. FAABORG. 1995. Regional forest fragmentation and the nesting success of migratory birds. Science 267 (5206): 1987-1990.
ROBINSON, W.D.; G. ROMPRE & T.R. ROBINSON. 2005. Videography of Panama bird nests shows snakes are principal predators. Ornitologia Neotropical 16 (2): 187-195.
RODRIGUES, M. 2005. Corruíra, Troglodytes musculus (Troglodytidae) preda ninho de sabiá barranco, Turdus leucomelas (Turdidae). Revista Brasileira de Ornitologia 13 (2): 187-189.
SAWIN, R.S.; M.W. LUTMAN; G.M. LINZ & W.J. BLEIER. 2003. Predators on Red-winged blackbird nests in eastern North Dakota. Journal of Field Ornithology 74 (3): 288-292.
SCHAEFER, T. 2004. Video monitoring of shrub-nests reveals nest predators. Bird Study 51 (2): 170-177.
SILVA, J.M.C. 1995. Birds of the cerrado region, South America. Steenstrupia 21 (1): 69-92.
SILVA, J.M.C. & J.M. FELFILI. 1996. A vegetação da Estação Ecológica de Águas Emendadas. Brasília, SEMATEC, IEMA, X+43p.
STAKE, M.M. & D.A. CIMPRICH. 2003. Using video to monitor predation at Black-capped Vireo nests. Condor 105 (2): 348-357.
STAKE, M.M.; J. FAABORG & F.R. THOMPSON. 2004. Video identification of predators at Golden-cheeked Warbler nests. Journal of Field Ornithology 75 (4): 337-344.
STOTZ, D.F.; J.W. FITZPATRICK; T.A. PARKER III & D.K. MOSKOVITS. 1996. Neotropical birds: ecology and conservation. Chicago, University of Chicago Press, XIX+502p.
STUTCHBURY, B.J.M. & S.E. MORTON. 2001. Behavioral Ecology of Tropical Birds. San Diego, Academic Press, IX+165p.
THOMPSON, F.R. & D.E. BURHANS. 2003. Predation of songbird nests differs by predator and between field and forest habitats. Journal of Wildlife Management 67 (2): 408-416.
THOMPSON, F.R.; W. DIJAK & D.E. BURHAN. 1999. Video identification of predators at songbird nests in old fields. Auk 116 (1): 259-264.
WEATHERHEAD, P.J. & G. BLOUIN-DEMERS. 2004. Understanding avian nest predation: why ornithologists should study snakes. Journal of Avian Biology 35 (3): 185-190.

1

Corresponding author. E-mail:

franca_lf@yahoo.com

Publication Dates

Publication in this collection
15 Jan 2010
Date of issue
Dec 2009

History

Accepted
08 Dec 2009
Received
22 Dec 2008

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] BROWN, K.P.; H. MOLLER; J. INNES & P. JANSEN. 1998. Identifying predators at nests of small birds in a New Zealand forest. Ibis 140 (2): 274-279.

[2] CBRO. Lista das Aves do Brasil. Comitê Brasileiro de Registros Ornitológicos. Available online at: http://www.cbro.org.br [Accessed: 08/IV/2008]

[3] DUCA, C. & M.Â. MARINI. 2004. Aspectos da nidificação de Cacicus haemorrhous (Passeriformes, Icterinae) no sudeste do Brasil. Revista Brasileira de Ornitologia 12 (1): 25-32.

[4] FARNSWORTH, G.L. & T.R. SIMONS. 2000. Observations of wood thrush nest predators in a large contiguous forest. Wilson Bulletin 112 (1): 82-87.

[5] FEEKES, F. 1981. Biology and organization of two sympatric Caciques, Cacicus c. cela and Cacicus h. haemorrhous (Icteridae, Aves) in Suriname. Ardea 69 (1): 83-107.

[6] FLEISCHER, R.C. & C.L. TARR. 1995. Plain Wren destroys egg of Dusky Antbird. Journal of Field Ornithology 66 (3): 404-405.

[7] FRANÇA, L.C. & M.Â. MARINI. 2009. Teste do efeito de borda na predação de ninhos naturais e artificiais no Cerrado. Zoologia 26 (2): 241-250.

[8] HESKE, E.J., S.K. ROBINSON & J.D. BRAWN. 2001. Nest predation and Neotropical migrant songbirds: piecing together the fragments. Wildlife Society Bulletin 29 (1): 52-61.

[9] KLINK, C.A. & R.B. MACHADO. 2005. Conservation of the Brazilian Cerrado. Conservation Biology 19 (3): 707-713.

[10] LIBSCH, M.M.; C. BATISTA, D. BUEHLER; I. OCHOA; J. BRAWN & R.E. RICKLEFS. 2008. Nest predation in a neotropical forest occurs during daytime. Condor 110 (1): 166-170.

[11] LIEBEZEIT, J.R. & T.L. GEORGE. 2003. Comparison of mechanically egg-triggered cameras and time-lapse video cameras in identifying predators at Dusky Flycatcher nests. Journal of Field Ornithology 74 (3): 261-269.

[12] LOPES, L.E.; A.M. FERNANDES & M.Â. MARINI. 2005. Predation on vertebrates by Neotropical passerine birds. Lundiana 6 (1): 57-66.

[13] MARINI, M.Â. & F.I. GARCIA. 2005. Bird conservation in Brazil. Conservation Biology 19 (3): 665-671.

[14] MARINI, M.Â. & C. MELO. 1998. Predators of quail egg and the evidences of the remains: implications for nest predation studies. Condor 100 (2): 395-399.

[15] MARTIN, T. E. 1996. Life history evolution in tropical and south temperate birds: what do we really know? Journal of Avian Biology 27 (1): 1-10.

[16] MITTERMEIER, R.A.; P.R. GIL; M. HOFFMAN; J. PILGRIM; T. BROOKS; C.G. MITTERMEIER; J. LAMOREUX & G.A.B. FONSECA. 2004. Hotspots revisited: earth's biologically richest and most endangered terrestrial. Mexico, CEMEX S.A., XI+392p

[17] MORRISON, S.A. & D.T. BOLGER. 2002. Lack of an urban edge effect on reproduction in a fragmentation-sensitive Sparrow. Ecological Applications 12 (2): 398-411.

[18] NEWTON, I. 2003. Population limitation in birds. London, Academic Press, 2^nd ed., 597p.

[19] ONIKI, Y. 1979. Is nesting success of birds low in the tropics? Biotropica 11 (1): 60-69.

[20] PIETZ, P.J. & D.A. GRANFORS. 2000. Identifying predators and fates of grassland passerine nests using miniature video cameras. Journal of Wildlife Management 64 (1): 71-87.

[21] POOLE, A. & F. GILL. 1997. The Birds of North America. Washington, Academy of Natural Sciences, Philadelphia, and American Ornithologists' Union, # 308.

[22] RENFREW, R.B. & C.A. RIBIC. 2003. Grassland passerine nest predators near pasture edges identified on videotape. Auk 120 (2): 371-383.

[23] RIBEIRO, J.F. & B.M.T. WALTER. 1998. Fitofisionomias do bioma Cerrado, p. 89-166. In: S.M. SANO & S.P. ALMEIDA (Eds). Cerrado: ambiente e flora. Planaltina, Embrapa, XII+556p.

[24] ROBINSON, W.D. & T.R. ROBINSON. 2001. Observations of predation events at bird nests in Central Panama. Journal of Field Ornithology 72 (1): 43-48.

[25] ROBINSON, S.K.; F.R. THOMPSON; T.M. DONOVAN; D.R. WHITEHEAD & J. FAABORG. 1995. Regional forest fragmentation and the nesting success of migratory birds. Science 267 (5206): 1987-1990.

[26] ROBINSON, W.D.; G. ROMPRE & T.R. ROBINSON. 2005. Videography of Panama bird nests shows snakes are principal predators. Ornitologia Neotropical 16 (2): 187-195.

[27] RODRIGUES, M. 2005. Corruíra, Troglodytes musculus (Troglodytidae) preda ninho de sabiá barranco, Turdus leucomelas (Turdidae). Revista Brasileira de Ornitologia 13 (2): 187-189.

[28] SAWIN, R.S.; M.W. LUTMAN; G.M. LINZ & W.J. BLEIER. 2003. Predators on Red-winged blackbird nests in eastern North Dakota. Journal of Field Ornithology 74 (3): 288-292.

[29] SCHAEFER, T. 2004. Video monitoring of shrub-nests reveals nest predators. Bird Study 51 (2): 170-177.

[30] SILVA, J.M.C. 1995. Birds of the cerrado region, South America. Steenstrupia 21 (1): 69-92.

[31] SILVA, J.M.C. & J.M. FELFILI. 1996. A vegetação da Estação Ecológica de Águas Emendadas. Brasília, SEMATEC, IEMA, X+43p.

[32] STAKE, M.M. & D.A. CIMPRICH. 2003. Using video to monitor predation at Black-capped Vireo nests. Condor 105 (2): 348-357.

[33] STAKE, M.M.; J. FAABORG & F.R. THOMPSON. 2004. Video identification of predators at Golden-cheeked Warbler nests. Journal of Field Ornithology 75 (4): 337-344.

[34] STOTZ, D.F.; J.W. FITZPATRICK; T.A. PARKER III & D.K. MOSKOVITS. 1996. Neotropical birds: ecology and conservation. Chicago, University of Chicago Press, XIX+502p.

[35] STUTCHBURY, B.J.M. & S.E. MORTON. 2001. Behavioral Ecology of Tropical Birds. San Diego, Academic Press, IX+165p.

[36] THOMPSON, F.R. & D.E. BURHANS. 2003. Predation of songbird nests differs by predator and between field and forest habitats. Journal of Wildlife Management 67 (2): 408-416.

[37] THOMPSON, F.R.; W. DIJAK & D.E. BURHAN. 1999. Video identification of predators at songbird nests in old fields. Auk 116 (1): 259-264.

[38] WEATHERHEAD, P.J. & G. BLOUIN-DEMERS. 2004. Understanding avian nest predation: why ornithologists should study snakes. Journal of Avian Biology 35 (3): 185-190.