SciELO - Scientific Electronic Library Online

 
vol.5 número3Avifauna da Estação Ecológica do Rio Acre, estado do Acre, na fronteira Brasil/Peru: composição, distribuição ecológica e registros relevantesDistribuição vertical e ecologia de epífitas vasculares em uma floresta tropical do Brasil índice de autoresíndice de assuntospesquisa de artigos
Home Pagelista alfabética de periódicos  

Serviços Personalizados

Journal

Artigo

Indicadores

  • Não possue artigos citadosCitado por SciELO

Links relacionados

  • Não possue artigos similaresSimilares em SciELO

Compartilhar


Boletim do Museu Paraense Emílio Goeldi Ciências Naturais

versão impressa ISSN 1981-8114

Bol. Mus. Para. Emilio Goeldi Cienc. Nat. v.5 n.3 Belém dez. 2010

 

The birds of Reserva Extrativista Chico Mendes, South Acre, Brazil

 

Aves da Reserva Extrativista Chico Mendes, Sul do Acre, Brasil

 

 

Luiz Augusto Macedo MestreI; Gregory ThomII; Mark Alan CochraneIII; Jos BarlowIV

ISouth Dakota State University. Geographic Information Science Center of Excellence. Brookings, South Dakota, U.S.A. (luiz.mestre@gmail.com)
IIMuseu Faraense Emílio Goeldi. Programa de Pós Graduação em Zoologia. Belém, Pará, Brasil (biogrego@yahoo.com.br)
IIISouth Dakota State University. Geographic Information Science Center of Excellence. Brookings, South Dakota, U.S.A. (mark.cochrane@sdstate.edu)
IVLancaster University. Lancaster Environment Centre. Lancaster, Lancashire, Inglaterra (josbarlow@gmail.com)

Correspondence

 

 


ABSTRACT

This paper describes the avifauna sampled at Reserva Extrativista Chico Mendes, Acre, Brazil, during October and November, 2008. We recorded 344 bird species of 17 orders and 57 families through point counts, mist-nets and general observations. The most prevalent families were Tyrannidae, Thamnophilidae and Thraupidae with 53, 36 and 22 species, respectively. We recorded some range restricted, little know, and habitat specialists birds exemplified by Crypturellus atrocapillus, C. strigulosus, Primolius couloni, Aulacorhynchus prasinus, Drymophila devillei, Simoxenops ucayalae, Cnipodectes superrufus, Hemitriccus flammulatus, Percnostola lophotes, Xiphorhynchus chunchotambo, and Conioptilon mcilhennyi. Although we surveyed only during the dry season, the rarefaction curves indicate a satisfactory sampling effort. The data show that the Chico Mendes reserve holds a unique Amazonian bird community, which is influenced by the presence of bamboo and second growth vegetation. The results of this paper reinforce the biological importance of the RESEX and highlight the need for more inventories and bird studies at this isolated and little known region of the Brazilian Amazon.

Keywords: Aves. Brazil. Southeast Acre. Southwest Amazon. Reserva Extrativista Chico Mendes.


RESUMO

Este estudo descreve a avifauna amostrada na Reserva Extrativista Chico Mendes, Acre, Brasil. Foram registradas por contagem por pontos, redes neblina e observações gerais 344 espécies de aves incluídas em 17 ordens e 57 famílias. As famílias mais representadas foram Tyrannidae, Thamnophilidae e Thraupidae com 53, 36 e 22 espécies, respectivamente. Registramos algumas espécies de distribuição restrita, pouco conhecidas ou especialistas, exemplificadas por Crypturellus atrocapillus, C. strigulosus, Primolius couloni, Aulacorhynchusprasinus, Drymophila devillei, Simoxenops ucayalae, Cnipodectes superrufus, Hemitriccus flammulatus, Xiphorhynchus chunchotambo, Percnostola lophotes e Conioptilon mcilhennyi. Apesar de termos amostrado apenas a estação seca, as curvas cumulativas de espécies indicaram um bom esforço amostral. Os resultados deste estudo mostraram que nesta reserva ocorre uma comunidade de aves característica, influenciada por bambus e florestas secundárias. Nossos resultados reforçam a importância biológica da RESEX e enfatizam a necessidade de mais inventários e estudos ornitológicos nesta isolada e ainda pouco conhecida região da Amazônia brasileira.

Palavras-chave: Aves. Brasil. Sudeste do Acre. Sudoeste da Amazônia. Reserva Extrativista Chico Mendes.


 

 

INTRODUCTION

The western Amazonian bird community is very poorly known, and the Acre avifauna is still being discovered and described. Despite the recent history of ornithological surveys of the State of Acre (less than 60 years of studies), up to 655 bird species have been recorded, and around 75 new species are likely to be included in the State list in the near future (Guilherme, 2009). Given the fast rate of change in our knowledge, all possible information describing the avifauna of this State are significant for the future management and conservation of this important and remote part of the Amazon.

Since the 1950's some researchers have collected and surveyed birds in the State of Acre. One of the first bird collections in this State was led by P E. Vanzolini in 1951 (Vanzolini, 1952), who confirmed the first 140 bird species for Acre State, and four new species for Brazil (Pinto & Camargo, 1954). A few other bird surveys took place in Acre in late 1950's and 1960's (Novaes, 1957, 1958), but ornithologists only published the first bird checklists about the avifauna of this region in the 1980's and 1990's (for a detailed description see Guilherme, 2009). Most of the published bird surveys were carried out in the Jurua river Basin in northern Acre (i.e. Novaes, 1957, 1958; Whittaker & Oren, 1999; Whittaker et al., 2002). Other papers include inventories from the Acre river basin (i.e. Pinto & Camargo, 1954; Guilherme, 2001). This study describes and highlights the important observations of the avifauna sampled at Reserva Extrativista Chico Mendes (RESEX Chico Mendes), a federal extractive reserve located further south in the Acre river basin, almost at the Brazilian-Peruvian-Bolivian border.

 

METHODS

This study was conducted in RESEX Chico Mendes (10o to 11o S, 68o to 70o W), in Acre State, Southwest Amazon, Brazil (Figure 1). This reserve has approximately 1-milion hectares of 'terra firme', non-flooded, opened-canopy forests, with understory dominated by lianas, small palms and/or bamboos (Costa, 2000). The Chico Mendes Reserve is located in a region with annual average temperature around 24 oC, and a mean precipitation of 2,000 mm (Costa, 2000). The rainy period is from December to March and it is drier from June to August (Costa, 2000). After an extended drought in the region, combined with slash-and-burn techniques used by most of the reserve inhabitants, about 300,000 ha of forest in the reserve were accidentally burned during August and October 2005 (Brown et al., 2006; INPE, 2010). For this reason, the study site is a mosaic of burned and unburned primary Amazonian 'terra firme' forests with patches dominated by bamboos. Most of the burned areas were forested and had been regenerating for three years at the time of the study in 2008. We conducted samples in the end of the dry season, during October 5th and November 10th 2008, in the center of the reserve and approximately 100 km from Bolivian-Peruvian border, in Xapuri municipality (Figure 1). By unburned forests, we refer to sites that had not burned in the 2005 drought -but the presence of bamboo in the region may indicate a relatively recent history of fire (Nelson & Irmão, 1998).

 

 

We sampled twelve 550 m trails that were all located at least 1 km apart from one another. We used mist-nets, point counts and random observations (between the coordinates 10o 13' S, 68o 44' W and 10o 32' S, 68o 42' W) (Figure 1). We performed the random observations at other sites, not just along the trails, including main roads and plantations. For each avifaunal sampling trail, 28 mist-nets (12 x 2.5 m; mesh size 36 mm) were erected in four groups of seven nets along 550 m transects. Each group created a netline of 7 x 12 m extending for 90 - 100 m. Groups were separated by an open space of 50 m. We opened the 28 nets for two days, from sunset (6:30 h) to about 13:30 h, accruing 2,050 mist-net hours in total (a capture effort of 11,720 hm2). We checked the nets hourly and closed it during periods of heavy rain. All birds captured were identified to species level, weighed, and measured (standard measurements included wing, tail, bill, and total length) and, whenever possible, were aged, sexed and photographed. The captured birds were banded with a numbered metal ring obtained from Centro Nacional de Pesquisa para Conservação de Aves Silvestres (CEMAVE) - Instituto Chico Mendes de Conservação e Biodiversidade (ICMBio) ((The Brazilian Bird Banding Laboratory in the Brazilian National Institute of Environment). All recaptures from the same sampling period and from the same net line were excluded from the analysis to avoid double counting.

In addition to the mist-netting, Luiz Mestre carried out 96 point counts along the trails. The point counts were accomplished two times at the same point on two different days, but not the same days as the mist-netting. First sampling was conducted between 6:30 h and 7:30 h, and the second between 7:30 h and 9:00 h. Each point count consisted of ten minutes of bird observations and recording, spaced 150 m each other (50 m, 200 m, 350 m and 500 m along each transect). All bird registrations were recorded using a digital recorder and a directional microphone during point counts and confirmed (if possible) visually by binoculars. Unknown vocalizations were subsequently checked against known calls and, if necessary, confirmed by consulting with other experienced ornithologists (i.e. A. Aleixo, S. Dantas, E. Guilherme). The distance from the observer and the height at first detection were also noted. We excluded from the richness and abundance analysis all the birds flying or registered outside the range of 50 m radius of each point count. We also did not include birds that came from directions of other sampling points (primarily wide-ranging canopy species such as Pscitacidae, Embereziidae and Thraupidae), to avoid double counting. Individuals of most species are unlikely to have been registered on consecutive days, because sampling was always carried out at different times of the day. However, we may have inflated numbers of individuals for some territorial species. For this reason, we compared the cumulative curves in three different ways. First, we plotted the curves using only first day sampling separately (Figure 2, PC1). Second, we plotted both days together including all registrations (Figure 2, PC2). Third, we only included the first detection event of a species at a point, using day two only to accumulate species we did not observe on day one. If a species was recorded on the first day and then again on day two, we excluded the day two observation (Figure 2, PC3).

 

 

We analyzed the three methods used separately (mist-nets, point counts, general observations) based on number of individuals and percentages. We used percentages of individuals classified separately in the levels of order, family and species. For this reason, the sum of percentages of different categories (taxonomical level) does not reflect the total of upper taxonomical level. We used point counts and mist-net data to calculate rarefaction species curves based upon number of individuals. We calculated these curves with incidence data from point counts and mist-nets separately. We analyzed the patterns of species richness between different methods comparing individual-based rarefaction curves constructed using the analytical formulae from EstimateS v.7 (Colwell, 2004). The comparisons were standardized by of the number of individuals, as we were interested in patterns of species richness and not species density (Gotelli & Colwell, 2001). An estimate of the 'true' species richness in each quantitative method (mist-nets and point counts) were calculated using the software EstimateS v.7, using the mean of the four commonly employed abundance-based estimators (ACE, CHAO1, JACK1 [Jackknife], and BOOTSTRAPPING). We followed the CBRO (2009) list for nomenclature and taxon ordinance.

 

RESULTS AND DISCUSSION

We registered a total of 344 bird species at RESEX Chico Mendes. These bird species were included in 17 orders and 57 families. The most representative families were Tyrannidae, Thamnophilidae and Thraupidae, with 53, 36 and 22 species respectively. Mist-nets captured 868 individuals comprising 137 species from 33 families, and point counts recorded 2,380 individuals from 186 species in 38 families. Mist-nets added 55 species, and general observations added 105 species to the total number of species.

At the order level, we captured 77.3 % of Passeriformes in mist-nets. Considering only families, we captured mainly Thamnophilidae (33.5%), Dendrocolaptidae (12.3%), Throchilidae (11.2%) and Tyrannidae (6.6%). The guilds of captured individuals were represented mainly by arboreal sallying insectivores (20.4%), arboreal gleaning insectivores (18.8%), nectarivores (11.2%), and terrestrial gleaning insectivores (10.5%). The most captured species were Myrmoborus myotherinus (3.6%), Arremon taciturnus (3.3%), Pipra fasciicauda (3.3%), Phaethornis hispidus (3.2%), and Myrmoborus leucophrys (3%). Based on Stotz et al. (1996), roughly 47.4% of captured birds were medium sensitive species while 44.5% were highly sensitive to human disturbances. Most of captured individuals (47.8%) use only one type of habitat. Approximately 42% of all birds captured by mist-nets use mainly the midstory and understory strata, and 41.6% use only the understory. In point counts we detected mostly birds from families Psittacidae (20.8%), Thamnophilidae (20.7%), Thraupidae (8.8%), and Tyrannidae (6.8%). We registered 20.7% of arboreal granivorous birds, 17.9% of arboreal gleaning 14.3% of arboreal omnivores. The most abundant species were Pyrrhura picta (7.1% of the registrations), Amazona farinosa (4.2%), Aratinga weddellii (3.3%), Tangara chilensis (3.1%), Myrmeciza hemimelaena (2.9%), and Thamnophilus schistaceus (2.9%). Forty three percent of these species were classified by Stotz et al. (1996) as highly sensitive species, and 42.1% as a medium sensitivity bird species. Most of individuals detected by point counts (36.5%) use only one type of habitat, and 29.9% use two habitats. About 51.4% of individuals registered by this method were canopy species.

The rarefaction curves from mist-nets, point-counts or both methods together did not reach an asymptote. However, point counts and both methods summed, showed a possible beginning of stabilization (Figure 2). The point count estimate of the mean 'true' richness was 213.1 (± 13.6) species, using the four predicted abundance-based estimators' means (see methods). Mist-net estimated richness was 169.5 (± 9.3) species using the mean of the four estimators. It is possible to observe a better-estimated richness on associating both sampling methods, resulting in 288.3 (± 13.8) species (Table 1). However, it is important to consider that these numbers were from limited samplings based only on point counts and mist-nets and for only one specific season during one year. This result shows the importance of supplementing standardized methods with general observations when a complete species list is the desired outcome. The random observation method added 106 bird species to this checklist, permitting us to estimate for this period about 400 species in the area if combining this method, point count estimate, and mist-net estimate (106 + 288.32 = 394.32).

 

 

We highlight important observations of restricted range and little known southeast Amazon birds (Table 2). Relevant examples include the following species. Crypturellus atrocapillus, a species limited to the western Amazon (Inambari endemism range). In Brazil, it was only recorded in Acre State; in Parque Nacional da Serra do Divisor (Guilherme, 2009) and Reserva Extrativista do Alto Juruá (Whittaker & Oren, 1999). We recorded C. atrocapillus mostly in second growth and post-burned sites. Crypturellus strigulosus is a species with a restricted Amazonian range, apparently using mostly Campinas and Campinaranas habitats (Guilherme, 2009). We recorded this rare species in three sampling sites both in pristine and post-burned areas. Jabiru mycteria is included in a secondary list and has few records for Acre State (Guilherme, 2009); we saw a dead juvenile hunted by a local resident. We have no evidence of this registration (picture or skin) but the easy identification of this distinctive species means we were able to include this species in the list. Primolius couloni is a species that is globally vulnerable due to habitat degradation and illegal trade (Birdlife International, 2010; IUCN, 2000); and the limited range in east Peru, north Bolivia and southwest Brazil, also contributes to its vulnerability (Tobias & Brightsmith, 2007). In Brazil, P couloni was mainly observed in Acre State (Whittaker & Oren, 1999; Guilherme, 2009). In the study sites, we observed the species flying and perched in pairs, mostly in pristine forests, and on few occasions, we registered larger groups with about eight individuals. Aulacorhynchus prasinus, despite occurring from Central America to much of western South America, has only been registered a few times in Brazil, and only in Acre State (Sick, 1997; Whittaker & Oren, 1999). We captured and recorded few individuals of this species in pristine and second growth areas. Percnostola lophotes is a species limited to the western Amazon (Hoyo et al., 2003). In Brazil, it was only recorded in Acre State (Whittaker & Oren, 1999; Guilherme, 2009). We captured two individuals of P lophotes in pristine and post-burned sites. Hypocnemis peruviana and H. subflava are in their range limit and were recorded and photographed in the sites. Their ranges were also confirmed in Guilherme (2009) and Isler et al. (2007). Xiphorhynchus chunchotambo occurs in northwest South America, and in Brazil, this species has only been registered in Acre State (Guilherme, 2009). We registered about ten individuals of this species both in pristine and second growth sites. Conioptilon mcilhennyi occurs in east Peru, north Bolivia and southwest Brazilian Amazonia. This species has only been recorded in Acre State within Brazil, but despite being historically rare, has been associated with second growth and post-burned forests (Guilherme, 2009; Mestre et al., 2009).

 

 

Additionally, we underline the importance of this region for the conservation of some North American migratory birds. During this study, we recorded Pandion haliaetus, which uses most of the large Amazonian rivers and breeds in northeastern USA and southern Canada (Hoyo et. al, 1994; Mestre & Bierregaard, 2009). Tringa solitaria which breeds in north of North America (Alaska, Canada, USA) and migrates to the southern United States, Central and South America (Hoyo et al., 1996). Contopus cooperi that occurs from Alaska (USA) to Southeast Brazil (Hoyo et al., 2004). Contopus virens, which breeds in eastern North America, migrating to north South America (Sick, 1997; Hoyo et al., 2004). Tyrannus tyrannus occurs from Canada to northern Argentina (Hoyo et al., 2004). Progne subis breeds in North America and north Central America migrating to South America during the Neartic winter (Hoyo et al., 2004). Catharus ustulatus breeds in North America and migrate to South America (Hoyo et al., 2005). Finally, Coccyzus americanus which, despite having Acre within its proposed range (Erize et al., 2006, Restall et al. , 2007, Infonatura, 2007), had not previously been registered in the State (Table 2). We clearly observed this species in a forested site, near post-burned forests, perched in the midstory. Although we do not have a documented register of this species, our observation can be considered a first important clue regarding its occurrence in these sites.

The RESEX Chico Mendes forests are also clearly important for avian bamboo specialists, once we recorded 17 species within bamboo formations. Based on Kratter (1997) classification, we found two species that are considered to be obligate bamboo specialists (Drymophila devillei and Hemitriccus flammulatus), seven species of near obligate specialists (Celeus spectabilis, Simoxenops ucayalae, Automolus melanopezus, Percnostola lophotes, Myrmeciza goeldii, Ramphotrigon megacephalum and Ramphotrigon fuscicauda), and three facultative bamboo specialists (Campylorhamphus trochilirostris, Epinecrophylla ornata, and Microrhopias quixensis). We found D. devillei, H. flammulatus and P. lophotes only in sites with abundant bamboo formations, including some second growth and post-burned areas. For this reason, our data also confirm the restriction of these species to bamboo forests as described by Stotz et al. (1996) and Hoyo et al. (2003). The species S. ucayalae is considered near threatened by IUCN (2000), and in some cases can be considered as restricted to bamboo forests as well (Guilherme, 2009). We captured this species mostly in sites dominated by bamboos, including second growth and post-burn sites. Despite its near threatened status, S. ucayalae populations may be using these human-influenced environments. It is also relevant to describe the registration of Cnipodectes superrufus, an uncommon bamboo specialist from southwest Amazonia, which may be least abundant and perhaps the most threatened of all bamboo specialists in the Amazonian forests (Lane et al., 2007; Tobias et al., 2008). We captured only one individual in a bamboo/second growth forest in a post-burned area (10o 20' S, 68o 40' W). Finally, it is important to cite five other species registered in our study (Crypturellus atrocapillus, Nonnula ruficapilla, Monasa flavirostris, Lophotriccus eulophotes and Neopelma sulphureiventer) which apparently have a preference of bamboo habitats as well (Kratter, 1997), however, the few registrations in literature and in our field samplings do not permit generalizations (Table 2). The results of this paper showed that the RESEX Chico Mendes holds a unique Amazonian bird community, influenced by bamboo and second growth vegetation. Although the avifauna described here is far from a complete census of the RESEX, and needs to be resampled in other seasons, the rarefaction curves and estimators indicate a good sampling effort. These data, regarding the local avifauna, reinforce the biological importance of the RESEX and highlight the need for more inventories and bird studies at this isolated and little known region of the Amazon.

 

ACKNOWLEDGEMENTS

We thank to local people from Reserva Extrativista Chico Mendes who welcomed and worked with us. We also thank Sidnei Dantas, Alexandre Aleixo and Edson Guilherme who gently helped us to identify the bird songs, pictures and specimens. We also thank to two anonymous referees who significantly helped to improve this manuscript. The data presented here are part of the project "Biodiversity implications of forest disturbance and related landscape dynamics in the Brazilian Amazon" (NNX07AF16G) a collaborative research among South Dakota State University, National Aeronautics and Space Administration, Lancaster University, and Museu Paraense Emílio Goeldi. The Birders Exchange and Idea Wild donated important materials for this research.

 

REFERENCES

BIRDLIFE INTERNATIONAL, 2010. IUCN Red List for birds. Species factsheet: Primolius couloni. Available in: <http://www.birdlife.org>. Accessed on: 13 December 2010.

BROWN, I. F, W. SCHROEDER, A. SETZER, M. MALDONADO, M. DE LOS RIOS, N. PANTOJA, A. DUARTE & J. MARENGO, 2006. Monitoring fires in southwestern Amazonia rain forests. Eos 87(26): 253-264.

CBRO, Comitê Brasileiro de Registros Ornitológicos, 2009. Listas das aves do Brasil. Available in: <http://www.cbro.org.br/CBRO/index.htm>. Accessed on: 2 December 2009.

COLWELL, R. K., 2004. Estimates, Version 7: Statistical estimation of species richness and shared species from samples (Software and User's guide). Freeware. Available in:<http://viceroy.eeb.uconn.edu/EstimateSPages/EstSUsersGuide/EstimateSUsersGuide.htm>. Accessed on: 13 December 2010.

COSTA, S. S. M., 2000. Caracterização ambiental da Reserva Extrativista Chico Mendes (Acre-Brasil): subsídios ao plano de manejo: 1-151. Tese (Doutorado em Ecologia) - Universidade Federal de São Carlos, São Paulo. Available in: <http://www.ufmt.br/gpea/ pub/tese-doutorado-suely-de-sousa-melo-da-costa.pdf>. Accessed on: 3 December 2010.

ERIZE, F, J. R. R. MATA & M. RUMBOLL, 2006. Birds of South America, Non passerines: Rheas to Woodpeckers. Princeton University Press, Princeton.

GOTELLI, N. & R. K. COLWELL, 2001. Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters 4(4): 379-391.

GUILHERME, E., 2001. Comunidade de aves do campus e Parque Zoobotânico da Universidade Federal do Acre, Brasil. Tangara 1(2): 57-73.

GUILHERME, E., 2009. Avifauna do estado do Acre: composição, distribuição geográfica e conservação. Tese (Doutorado em Zoologia) - Universidade Federal do Acre/Museu Paraense Emilio Goeldi, Belém, Pará. Available in: <http://www.dominiopublico.gov.br/ download/texto/cp093574.pdf>. Accessed on: 21 November 2010.

HOYO, J. del, A. ELLIOT & J. SARGATAL, 1994. Handbook of the birds of the world: New world vultures to Guineafowl. Vol. 2. Lynx Edicions, Barcelona.

HOYO, J. del, A. ELLIOT & J. SARGATAL, 1996. Handbook of the birds of the world: Hoatzin to Auks. Vol. 3. Lynx Edicions, Barcelona.

HOYO, J. del, A. ELLIOT & J. SARGATAL, 2003. Handbook of the birds of the world: Broadbills and Tapaculos. Vol. 8. Lynx Edicions, Barcelona.

HOYO, J. del, A. ELLIOT & J. SARGATAL, 2004. Handbook of the birds of the world: Cotingas to Pipits and Wagtails. Vol. 9. Lynx Edicions, Barcelona.

HOYO, J. del, A. ELLIOT & J. SARGATAL, 2005. Handbook of the birds of the world: Cuckoos - Shrikes to Thrushes. Vol. 10. Lynx Edicions, Barcelona.

INPE, Instituto Nacional de Pesquisas Espaciais, 2010. Monitoramento da floresta amazônica brasileira por satélite. São José dos Campos, SP Available in: <http://sigma.cptec.inpe.br/queimadas/>. Accessed on: 21 November 2010.

ISLER, M. L., P. R. ISLER & B. M. WHITNEY, 2007. Species limits in antbirds (Thamnophilidae): the warbling antbird (Hypocnemis cantator) complex. The Auk 124(1): 11-28.

INFONATURA, 2007. Animals and ecosystems of Latin America. Version 5.0. Arlington, Virginia (USA): NatureServe. Available in: <http://www.natureserve.org/infonatura>. Accessed on: 3 November 2010.

IUCN, International Union for Conservation of Nature and Natural Resources, 2000. Protected areas. Benefits beyond boundaries - WCPA in Action: 1-17. Available in: <http://cmsdata.iucn.org/downloads/wcpainaction.pdf>. Accessed on: 13 December 2010.

KRATTER, A. W., 1997. Bamboo specialization by Amazonian birds. Biotropica 29(1): 100-110.

LANE, D. F., G. P. SERVAT, T. VALQUI & F. R. LAMBERT, 2007. A distinctive new species of tyrant flycatcher (Passeriformes: Tyrannidae: Cnipodectes) from southeastern Peru. The Auk 124: 762-772.

MESTRE, L. A. M., J. BARLOW, G. THOM & M. A. COCHRANE, 2009. Burned forests as a novel habitat for the black-faced cotinga (Conioptilon mcilhennyi) in the western Brazilian Amazon. Ornithologia Neotropical 20: 467-470.

MESTRE, L. A. M. & R. O. B. BIERREGAARD, 2009. The role of Amazonian rivers for wintering ospreys (Pandionhaliaetus): clues from North American band recoveries in Brazil between 1937 and 2006. Studies on Neotropical Fauna and Environment 44(3): 141-147.

NELSON, B. W. & M. N. IRMÃO, 1998. Fire penetration in standing Amazon forests. Proceedings Brazilian Remote Sensing Congress 9: 3-18.

NOVAES, F C., 1957. Contribuição à ornitologia do noroeste do Acre. Boletim do Museu Paraense Emílio Goeldi, Nova Série Zoologia 9: 1-29.

NOVAES, F C., 1958. As aves e as comunidades bióticas no alto rio Juruá, território do Acre. Boletim do Museu Paraense Emílio Goeldi, Nova Série Zoologia 14: 1-13.

PINTO, O. M. O. & E. A. CAMARGO, 1954. Resultados ornitológicos de uma expedição ao território do Acre pelo Departamento de Zoologia. Papéis Avulsos do Departamento de Zoologia 11(23): 371-418.

RESTALL, R., C. RODNER & M. LENTINO, 2007. Birds of Northern South America. Yale University Press, Yale.

SICK, H., 1997. Ornitologia brasileira. Nova Fronteira, Rio de Janeiro.

STOTZ, D. F., J. W. FITZPATRICK, T. A. PARKER & D. K. MOSKOVITS, 1996. Neotropical birds: ecology and conservation. University of Chicago Press, Chicago.

TOBIAS, J. A. & D. J. BRIGHTSMITH, 2007. Distribution, ecology and conservation status of the blue-headed macaw Primolius couloni. Biological Conservation 139(1-2): 126-138.

TOBIAS, J. A., D. J. LEBBIN, A. ALEIXO, M. J. ANDERSEN, E. GUILHERME, P. A. HOSNER & N. SEDDON, 2008. Distribution, behavior, and conservation status ofthe rufous twistwing (Cnipodectes superrufus). The Wilson Journal of Ornithology 120(1): 38-49.

VANZOLINI, P. E., 1952. Relatório de uma expedição científica ao Território Nacional do Acre no ano de 1951. Papéis Avulsos do Departamento de Zoologia 11(1): 1-20.

WHITTAKER, A. & D. C. OREN, 1999. Important ornithological records from the Rio Juruá, western Amazonia, including twelve additions to the Brazilian avifauna. Bulletin of the British Ornithologists' Club 119(4): 235-260.

WHITTAKER, A., D. C. OREN, J. F PACHECO, R. PARRINI & J. C. MINNS, 2002. Aves registradas na Reserva Extrativista do Alto Juruá. In: M. CARNEIRO DA CUNHA & M. B. ALMEIDA (Eds.): Enciclopédia da floresta: O Alto Juruá: Práticas e Conhecimentos das Populações: 81-99. Companhia das Letras, São Paulo.

 

 

Mailing address:
Museu Paraense Emílio Goeldi
Editor do Boletim do Museu Paraense Emílio Goeldi. Ciências Naturais
Av. Magalhães Barata, 376
São Braz – CEP 66040-170
Belém - PA - Brazil
Caixa Postal 399
Phone: 55-91-3182-3246
Fax: 55- 91-3249-6373
E-mail: boletim.naturais@museu-goeldi.br

Recebido: 28/02/2010
Aprovado: 20/12/2010
Responsabilidade editorial: Alexandre Aleixo