Contributions to the knowledge of amphibians and reptiles from Volta Grande do Xingu, northern Brazil

Vaz-Silva, W.; Oliveira, RM.; Gonzaga, AFN.; Pinto, KC.; Poli, FC.; Bilce, TM.; Penhacek, M.; Wronski, L.; Martins, JX.; Junqueira, TG.; Cesca, LCC.; Guimarães, VY.; Pinheiro, RD.

doi:10.1590/1519-6984.00814BM

Abstract

The region of Volta Grande do Xingu River, in the state of Pará, presents several kinds of land use ranging from extensive cattle farming to agroforestry, and deforestation. Currently, the Belo Monte Hydroelectric Power Plant affects the region. We present a checklist of amphibians and reptiles of the region and discuss information regarding the spatial distribution of the assemblies based on results of Environmental Programmes conducted in the area. We listed 109 amphibian (Anura, Caudata, and Gymnophiona) and 150 reptile (Squamata, Testudines, and Crocodylia) species. The regional species richness is still considered underestimated, considering the taxonomic uncertainty, complexity and cryptic diversity of various species, as observed in other regions of the Amazon biome. Efforts for scientific collection and studies related to integrative taxonomy are needed to elucidate uncertainties and increase levels of knowledge of the local diversity.

Keywords:
herpetofauna; monitoring; Amazonia; Belo Monte

Resumo

A região da Volta Grande no Rio Xingu, localizada no estado do Pará, apresenta várias frentes de exploração que vão desde a criação animal até área de cultivo, resultando no desmatamento de fragmentos florestais. Atualmente a região está sendo impactada pela implantação da Usina Hidrelétrica de Belo Monte. A partir de dados obtidos através dos Programas de Monitoramento Ambiental realizados na área de influência da UHE Belo Monte, apresentamos uma listagem das espécies de anfíbios e répteis, com comentários sobre a distribuição espacial das assembleias. Foram catalogados 109 espécies de anfíbios (Anura, Caudata e Gymnophiona) e 150 de répteis (Squamata, Testudines e Crocodylia). Considerando as incertezas taxonômicas, a complexidade e a diversidade críptica de várias espécies, a riqueza regional ainda continua subestimada, assim como observado em outras regiões da Amazônia. Esforços direcionados ao aproveitamento científico e estudos que contemplem a taxonomia integrativa são necessários para elucidar as incertezas e aumentar o nível de conhecimento sobre a diversidade da região.

Palavras-chave:
herpetofauna; monitoramento; Amazônia; Belo Monte

1 Introduction

Amazonia is the largest tropical rainforest in the world and provides important ecosystem services as well high biodiversity and climate regulation (Coe et al., 2013Coe, MT., Marthews, TR., Costa, MH., Galbraith, DR., Greenglass, NL., Imbuzeiro, HMA., Levine, NM., Malhi, Y., Moorcroft, PR., Muza, MN., Powell, TL., Saleska, SR., Solorzano, LA. and Wang, J., 2013. Deforestation and climate feedbacks threaten the ecological integrity of south-southeastern Amazonia. Philosophical transactions of the Royal Society of London. Series B, Biological Sciences, vol. 368, no. 1619, p. 20120155. http://dx.doi.org/10.1098/rstb.2012.0155. PMid:23610166.
http://dx.doi.org/10.1098/rstb.2012.0155... ). Azevedo-Ramos and Galatti (2002)Azevedo-Ramos, C. and Galatti, U., 2002. Patterns of amphibian diversity in Brazilian Amazonia: conservation implications. Biological Conservation, vol. 103, no. 1, p. 103-111. http://dx.doi.org/10.1016/S0006-3207(01)00129-X.
http://dx.doi.org/10.1016/S0006-3207(01)... presented a survey of information on amphibian richness in the Brazilian Amazon, estimating a minimum of 163 species. Ávila-Pires et al. (2007)ÁVILA-PIRES, TCS., HOOGMOED, MS. and VITT, LJ., 2007. Herpetofauna da Amazônia. In NASCIMENTO, LB. and OLIVEIRA, ME. (Eds.). Herpetologia no Brasil II. Belo Horizonte: Sociedade Brasileira de Herpetologia. p. 13-43. report the occurrence of 232 species of amphibians and 273 species of reptiles. This richness is underestimated considering the taxonomic problems (Funk et al., 2011FUNK, WC., CAMINER, M. and RON, SR., 2011. High level of cryptic species diversity uncovered in Amazonian frogs. Proceedings of the Royal Society B., p. 1-9.), the recent descriptions of species (e.g. Sturaro and Peloso, 2014STURARO, MJ. and PELOSO, PLV., 2014. A new species of . Scinax Wagner, 1830 (Anura: Hylidae) from the middle Amazon River basin, BrazilPapéis Avulsos de Zoologia, vol. 54, no. 2, p. 9-23. http://dx.doi.org/10.1590/0031-1049.2014.54.02.
http://dx.doi.org/10.1590/0031-1049.2014... ) and taxonomic revisions (e.g. Maciel and Hoogmoed, 2011MACIEL, AO. and HOOGMOED, MS., 2011. Taxonomy and distribution of caecilian amphibians (Gymnophiona) of Brazilian Amazonia, with a key to their identification. Zootaxa, vol. 2984, p. 1-53.; Brcko et al., 2013BRCKO, IS., HOOGMOED, MS. and NECKEL-OLIVEIRA, S., 2013. Taxonomy and distribution of the salamander genus Duméril, Bibron & Duméril, 1854 (Amphibia, Caudata, Plethodontidae) in Brazilian Amazonia. BolitoglossaZootaxa, vol. 3686, no. 4, p. 401-431. http://dx.doi.org/10.11646/zootaxa.3686.4.1.
http://dx.doi.org/10.11646/zootaxa.3686.... ).

There is a lack of information of the current status of the Brazilian Amazonian Herpetofauna due to dispersed and unpublished data (Azevedo-Ramos and Galatti, 2002Azevedo-Ramos, C. and Galatti, U., 2002. Patterns of amphibian diversity in Brazilian Amazonia: conservation implications. Biological Conservation, vol. 103, no. 1, p. 103-111. http://dx.doi.org/10.1016/S0006-3207(01)00129-X.
http://dx.doi.org/10.1016/S0006-3207(01)... ; Ávila-Pires et al., 2007ÁVILA-PIRES, TCS., HOOGMOED, MS. and VITT, LJ., 2007. Herpetofauna da Amazônia. In NASCIMENTO, LB. and OLIVEIRA, ME. (Eds.). Herpetologia no Brasil II. Belo Horizonte: Sociedade Brasileira de Herpetologia. p. 13-43.). Knowledge has increased in the last 10 years based on studies conducted in the Manaus region (e.g. Lima et al., 2006LIMA, AP., MAGNUSSON, WE., MENIN, M., ERDTMANN, LK., RODRIGUES, DJ., KELLER, C., and HÖDL, W., 2006. Guia de sapos da Reserva Adolpho Ducke - Amazônia Central. Manaus: Editora Attema/ INPA. 168 p., Menin et al., 2007Menin, M., LIMA, AP., MAGNUSSON, WE. and WALDEZ, F., 2007. Topographic and edaphic effects on the distribution of terrestrially reproducing anurans in Central Amazonia: mesoscale spatial patterns. Journal of Tropical Ecology, vol. 23, no. 5, p. 539-547. http://dx.doi.org/10.1017/S0266467407004269.
http://dx.doi.org/10.1017/S0266467407004... , Vitt et al., 2008Vitt, LJ., MAGNUSSON, WE., AVILA-PIRES, TC. and LIMA, AP., 2008. Guia de lagartos da Reserva Adolpho Ducke: Amazônia Central. Manaus: Editora Attema/ INPA. 176 p.), State of Pará (e.g. Frota, 2004FROTA, JG., 2004. As serpentes da região de Itaituba, médio Rio Tapajós, Pará, Brasil (Squamata). Comunicações do Museu de Ciências e Tecnologia da PUCRS, vol. 17, no. 1, p. 9-19.; Caldwell and Araújo, 2005CALDWELL, JP. and ARAUJO, MC., 2005. Amphibian faunas of two eastern Amazonian rainforest sites in Pará, Brazil. Occasional Papers Sam Noble Oklahoma Museum of Natural History, vol. 16, p. 1-41.; Frota et al., 2005FROTA, JG., SANTOS-JUNIOR AP., CHALKIDIS, HM, and GUEDES, AG., 2005. As serpentes do baixo Rio Amazonas, Oeste do estado do Pará, Brasil (Squamata). Biociencias, vol. 13, p. 211-220.; Prudente and Santos-Costa, 2005PRUDENTE, ALC. and SANTOS-COSTA, MC., 2005. Checklist of snakes in the Eastern Amazon, Pará State, Brazil: Floresta Nacional de Caxiuanã. Boletim do Museu Paraense Emílio Goeldi, vol. 3, no. 1, p. 243-251.; Ávila-Pires et al., 2009; Maschio et al., 2009MASCHIO, GF., SANTOS-COSTA, MC. and PRUDENTE, AL., 2009. Comunidades de Serpentes da região de Caxiuanã com avaliação da eficiência dos métodos de captura. In LISBOA, PLB. (Org.). Caxiuanã: desafios para a conservação de uma floresta nacional na Amazônia. Belém: Museu Paraense Emílio Goeldi. p. 589-603.; Mendes-Pinto and Tello, 2010MENDES-PINTO, TJ. and TELLO, JCR., 2010. Répteis Squamata de uma área de transição Floresta-Savana na região Oeste do Estado do Pará, Brasil. Revista de Ciências Ambientais, vol. 4, p. 19-35.; Bitar et al., 2011BITAR, YOC., PINHEIRO, LPC., STURARO, MJ., FROTA, JG., COSTA, MCS and PRUDENTE, AL., 2011. Anuros do médio Rio Tapajós, oeste do Pará, Brasil: novos registros para a região. In Anais do IX Congresso Latino Americano de Herpetologia e V Congresso Brasileiro de Herpetologia, 2011. Curitiba. Curitiba: Sociedade Brasileira de Herpetologia.; Frota et al., 2011FROTA, JG., PRUDENTE, ALC., D’ANGIOLELLA, AB., SANTOS-COSTA, MC and FERREIRA, A., 2011. Serpentes do Parque Nacional (PARNA) da Amazônia, Itaituba, Pará, Brasil (Squamata). In Anais do IX Congresso Latino Americano de Herpetologia e V Congresso Brasileiro de Herpetologia. 2011. Curitiba. Curitiba: Sociedade Brasileira de Herpetologia.; Mendes-Pinto and Souza, 2011MENDES-PINTO, TJ. and SOUZA, SM., 2011. Preliminary assessment of amphibians and reptiles from Floresta Nacional do Trairão, with a new snake record for the Pará state, Brazilian Amazon. Salamandra, vol. 47, no. 4, p. 199-206.), State of Rondônia (e.g. Bernarde and Abe, 2006BERNARDE, PS. and ABE, AS., 2006. A snake community at Espigão do Oeste, Rondônia, Southwestern Amazon, Brazil. South American Journal of Herpetology, vol. 1, no. 2, p. 102-113. http://dx.doi.org/10.2994/1808-9798(2006)1[102:ASCAED]2.0.CO;2.
http://dx.doi.org/10.2994/1808-9798(2006... ; Bernarde, 2007BERNARDE, PS., 2007. Ambientes e temporada de vocalização da anurofauna no Município de Espigão do Oeste, Rondônia, Sudoeste da Amazônia - Brasil (Amphibia: Anura). Biota Neotropica, vol. 7, no. 2, p. 87-92. http://dx.doi.org/10.1590/S1676-06032007000200010.
http://dx.doi.org/10.1590/S1676-06032007... ; Bernarde and Macedo, 2008BERNARDE, PS. and MACEDO, LC., 2008. Impacto do desmatamento e formação de pastagens sobre a anurofauna de serapilheira em Rondônia. Iheringia. Zoologia, vol. 98, no. 4, p. 454-459. http://dx.doi.org/10.1590/S0073-47212008000400006.
http://dx.doi.org/10.1590/S0073-47212008... ; Macedo et al., 2008MACEDO, LC., BERNARDE, PS. and ABE, AS., 2008. Lagartos (Squamata: Lacertilia) em áreas de floresta e de pastagem em Espigão do Oeste, Rondônia, sudoeste da Amazônia, Brasil. Biota Neotropica, vol. 8, no. 1, p. 133-139. http://dx.doi.org/10.1590/S1676-06032008000100016.
http://dx.doi.org/10.1590/S1676-06032008... ; Avila-Pires et al., 2009AVILA-PIRES, TCS., VITT, LJ., SARTORIUS, SS., and ZANI, PA., 2009. Squamata (Reptilia) from four sites in southern Amazonia, with a biogeographic analysis of Amazonian lizards. Boletim do Museu Paraense Emílio Goeldi. Ciências Naturais, vol. 4, no. 2, p. 99-118.) and in the State of Acre (e.g. Souza et al., 2003SOUZA, MB., SILVEIRA, M., LOPES, MRM., VIEIRA, LJS., GUILHERME, E., CALOURO, AM. and MORATO, EF., 2003. Biodiversidade no Estado do Acre: conhecimento atual, conservação e perspectiva. Revista T&C Amazônia, vol. 1, p. 45-56.; Souza et al., 2008SOUZA, VM., SOUZA, MB. and MORATO, EF., 2008. Efeitos da sucessão florestal sobre a anurofauna (Amphibia: Anura) da Reserva Catuaba e seu entorno, Acre, Amazônia sul-ocidental. Revista Brasileira de Zoologia, vol. 25, no. 1, p. 49-57. http://dx.doi.org/10.1590/S0101-81752008000100008.
http://dx.doi.org/10.1590/S0101-81752008... ; Bernarde et al., 2011BERNARDE, PS., MACHADO, RA. and TURCI, LCB., 2011. Herpetofauna da área do Igarapé Esperança da Reserva Extrativista Riozinho da Liberdade, Acre, Brasil. Biota Neotropica, vol. 11, no. 3, p. 117-144. http://dx.doi.org/10.1590/S1676-06032011000300010.
http://dx.doi.org/10.1590/S1676-06032011... ).

Faunal inventories are important tools for Amazonian conservation, since biological surveys stimulate the discovery of new species, revealing endemic areas and the current levels of biodiversity (França and Venâncio, 2010FRANÇA, FGR. and VENÂNCIO, NM., 2010. Reptiles and amphibians of a poorly known region in southwest Amazonia. Biotemas, vol. 23, no. 3, p. 71-84.). The production of scientific knowledge resulting from activities related to environmental projects when carried out by specialist teams is one of the most important ways to mitigate the impacts generated by impactful project implementation (Vaz-Silva, 2009Vaz-Silva, W., 2009. Herpetofauna im Zentralbrasilianischen Cerrado. Terraria, vol. 17, p. 75-78.). The knowledge generated is essential for making decisions and the establishment of conservation policies.

The aim of this paper is to present the current status of knowledge of the amphibians and reptiles from Volta Grande do Xingu, in the state of Pará, based on information obtained after three years of the Faunal Rescue Programme and two years of the Environmental Monitoring Programme in the region of influence of the Belo Monte Hydroelectric Power Plant (UHE Belo Monte). Also discussed will be information concerning the spatial distribution of the assemblies in the monitored sites.

2 Material and Methods

The UHE Belo Monte is located in Volta Grande do Xingu, on the right bank tributary of the Amazon River, state of Pará, northern Brazil (Figure 1). The Hydroelectric project consists of the dam, reservoir, water intake and power house, occupying part of Altamira, Vitória do Xingu, Anapu, and Brasil Novo municipalities. The basin of Rio Xingu, with a total area of 509,000 km², has not suffered greatly from deforestation. The area of the UHE Belo Monte, due to its proximity to the regional centre of Altamira city and highway BR-230 (Transamazônica), has many uses ranging from extensive cattle farming to agroforestry, and natural forest remains (Souza Junior et al., 2006SOUZA JUNIOR, WC., REID, J. and LEITÃO, NCS., 2006. Custos e benefícios do complexo hidrelétrico Belo Monte: uma abordagem econômico-ambiental. 4th ed. Lagoa Santa: CSF. 90 p. Série Técnica.). The vegetation types in the region are the Floresta Ombrófila Densa (Dense Rain Forest), Floresta Ombrófila Densa Aluvial (Alluvial Rain Forest), Open Rain Forest with Palm Trees and Vines (Floresta Ombrófila Aberta com Cipós e Palmeiras) (Salomão et al., 2007SALOMÃO, RP., VIEIRA, ICG., SUEMITSU, C., ROSA, NA., ALMEIDA, SS., AMARAL, DD. and MENEZES, MPM., 2007. As florestas de Belo Monte na grande curva do rio Xingu, Amazônia Oriental. Boletim do Museu Paraense Emílio Goeldi, vol. 2, no. 3, p. 57-153.).

Figure 1
Hypsometric map showing the location of the study site and the altitude variation (height), Volta Grande do Xingu River. M1 – M8 = modules RAPELD 1 to 8.

We present the results of the Environmental Impact Study (EIA-RIMA) (Leme Engenharia, 2009Leme Engenharia, 2009. Aproveitamento hidrelétrico Belo Monte: estudo de impacto ambiental. [s.l.]: Leme Engenharia.) and preliminary data of the Environmental Monitoring Programmes conducted during the installation of the Belo Monte Hydroelectric Power Plant (Faunal Rescue Programme and Environmental Monitoring Programme of Herpetofauna). We compare the presented results with the regional knowledge based on published papers (Caldwell and Araújo, 2005CALDWELL, JP. and ARAUJO, MC., 2005. Amphibian faunas of two eastern Amazonian rainforest sites in Pará, Brazil. Occasional Papers Sam Noble Oklahoma Museum of Natural History, vol. 16, p. 1-41.; Oliveira et al., 2013OLIVEIRA, EA., RUZ, EJ. and BARROS, FB., 2013. Herpetofauna de las proximidades de la Caverna Planaltina, Brasil Novo, Pará (Amazonia Brasileña). Herpetotropicos, vol. 9, no. 1-2, p. 55-68.) to produce the checklist of the species.

The EIA-RIMA considered three field expeditions between 2000-2001 and 2007-2008 (Leme Engenharia, 2009Leme Engenharia, 2009. Aproveitamento hidrelétrico Belo Monte: estudo de impacto ambiental. [s.l.]: Leme Engenharia.). The Faunal Rescue Programme contemplated management actions implemented during the suppression of vegetation in the area of direct influence of the UHE Belo Monte from June 2011 to April 2014. We considered only standardised data from the Environmental Monitoring Programme of Herpetofauna for analyses. The analyses grouped results from five expeditions (2011 to 2014), with samples obtained from eight sampling sites (modules M1 to M8), considered as the RAPELD methodology (Magnusson et al., 2005MAGNUSSON, WE., LIMA, AP., LUIZAO, R., LUIZAO, F., COSTA, FRC., CASTILHO, VC. and KINUPP, VF., 2005. RAPELD: A modification of the gentry method for biodiversity surveys in long-term ecological research sites. Biota Neotropica, vol. 5, no. 2, p. 19-24., 2013Magnusson, W., Braga-Neto, R., Pezzini, F., Baccaro, F., Bergallo, H., Penha, J., Rodrigues, D.,VERDADE, LM., LIMA, A., ALBERNAZ, AL., HERO, J., LAWSON, B., CASTILHO, C., DRUCKER, D., FRANKLIN, E., MENDONÇA, F., COSTA, F., GALDINO, G., CASTLEY, G., ZUANON, J. VALE, J. SANTOS, JLC., LUIZÃO, R. CINTRA, R., BARBOSA, RI., LISBOA, A., KOBLITZ, RV., CUNHA, CN. and PONTES, ARM., 2013. Biodiversidade e monitoramento ambiental integrado [livro eletrônico] = Biodiversity and integrated environmental monitoring. Santo André: Áttema Editorial. 356 p.). Voucher specimens are housed at the Museu Paraense Emílio Goeldi (Belém), Museu Nacional (Rio de Janeiro), Museu de Zoologia da Universidade de São Paulo (São Paulo), and at the Coleção Herpetológica da Universidade Federal de Goiás (Goiânia).

We calculated the dissimilarity matrix for the modules (M1 to M8) considering the abundance of species, using the coefficient Bray Curtis. Cluster analysis was performed using the method of unweighted average linkage (UPGMA) from the Bray-Curtis dissimilarity matrix using Past software (Hammer et al., 2001Hammer, O., HARPER, DAT. and RYAN, PD., 2001. PAST: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica, vol. 4, no. 1, p. 1-9.). Diversity between sampling sites was compared by Hill’s series (Hill, 1973HILL, MO., 1973. Diversity and evenness: a unifying notation and its consequences. Ecology, vol. 54, no. 2, p. 427-432. http://dx.doi.org/10.2307/1934352.
http://dx.doi.org/10.2307/1934352... ): $N_{a} = {(p_{1}^{a} + p_{2}^{a} + ... + p_{n}^{a})}^{1 / (1 - a)}$ . Where: N_a is the diversity index value by parameter a; n is the number of species; and, p_i proportional abundance of the species i. Hill’s series was calculated by R software 3.0.1 (R Development Core Team, 2013R Development Core Team2013R: A language and environment for statistical computingViennaR Foundation for Statistical ComputingVersion 2.13), vegan package (Oksanen et al., 2013Oksanen, J., BLANCHET, FG., KINDT, R., LEGENDRE, P., MINCHIN, PR., O’HARA, RB., SIMPSON, GL., SOLYMOS, P., STEVENS, MHH. and WAGNER, H., 2013. vegan: Community Ecology Package. The R Project for Statistical Computing. Available from: <http://CRAN.R-project.org/package=vegan>. Access in: 21 May 14.
http://CRAN.R-project.org/package=vegan... ). The taxonomic arrangement used in the checklist followed Pyron et al. (2013)Pyron, RA., Burbrink, FT. and Wiens, JJ., 2013. A phylogeny and revised classification of Squamata, including 4161 species of lizards and snakes. BMC Evolutionary Biology, vol. 13, no. 1, p. 93. http://dx.doi.org/10.1186/1471-2148-13-93. PMid:23627680.
http://dx.doi.org/10.1186/1471-2148-13-9... and Frost (2014)FROST, DR., 2014. Amphibian species of the world: an online reference. American Museum of Natural History. Version 6.0. Available from: <http://research.amnh.org/herpetology/amphibia/index.html>. Access in: 20 May 2014.
http://research.amnh.org/herpetology/amp... .

3 Results and Discussion

The cumulative data of the Environmental Programmes from earlier times before the operation of the UHE Belo Monte resulted in a checklist of 109 amphibian and 150 reptile species (Table 1). Volta Grande do Xingu corresponds to a region with few Herpetofaunal inventories. Some ecological, population and natural history studies of the chelonians, amphibians and lizards have been conducted in the region (Caldwell and Lopez, 1989CALDWELL, JP. and LOPEZ, PT., 1989. Foam generating behavior in tadpoles of Leptodactylus mystaceus. Copeia, vol. 1989, no. 2, p. 498-502. http://dx.doi.org/10.2307/1445453.
http://dx.doi.org/10.2307/1445453... ; Howland et al., 1990HOWLAND, JM., VITT, L. and LOPEZ, PT., 1990. Life on the edge: the ecology and life history of the tropidurine iguanid lizard Uranoscodon superciliosum.Canadian Journal of Zoology, vol. 68, no. 7, p. 1366-1373. http://dx.doi.org/10.1139/z90-204.
http://dx.doi.org/10.1139/z90-204... ; Vitt and Blackburn, 1991Vitt, LJ. and BLACKBURN, DG., 1991. Ecology and life history of the viviparous lizard . Mabuya bistriata (Scincidae) in the Brazilian AmazonCopeia, vol. 1991, no. 4, p. 916-927. http://dx.doi.org/10.2307/1446087.
http://dx.doi.org/10.2307/1446087... ; Vitt and Breitenbach, 1993Vitt, LJ and BREITENBACH, GL., 1993. Life histories and reproduction tactics among lizards in the genus Cnemidophorus (Sauria: Teiidae). In WRITHT, JW. and VITT, LJ. (Eds.). Biology of whiptail lizards (genus Cnemidophorus). Norman: Museum of Natural History. p. 211-243.; Vitt et al., 1997Vitt, LJ., ZANI, PA. and ÁVILA-PIRES, TC., 1997. Ecology of the arboreal tropidurid lizard (= ) . TropidurusPlicaumbra in the Amazon regionCanadian Journal of Zoology, vol. 75, no. 11, p. 1876-1882. http://dx.doi.org/10.1139/z97-817.
http://dx.doi.org/10.1139/z97-817... ; Vitt and Zani 1998Vitt, LJ. and ZANI, PA., 1998. Ecological retalionships among sympatric lizards in a transitional forest in the northern Amazon of Brazil. Journal of Tropical Ecology, vol. 14, no. 1, p. 63-70. http://dx.doi.org/10.1017/S0266467498000066.
http://dx.doi.org/10.1017/S0266467498000... ; Pearse et al., 2006Pearse, DE., Arndt, AD., Valenzuela, N., Miller, BA., Cantarelli, V. and Sites JUNIOR, JW., 2006. Estimating population structure under nonequilibrium conditions in a conservation context: continent-wide population genetics of the giant Amazon river turtle, Podocnemis expansa (Chelonia; Podocnemididae). Molecular Ecology, vol. 15, no. 4, p. 985-1006. http://dx.doi.org/10.1111/j.1365-294X.2006.02869.x. PMid:16599962.
http://dx.doi.org/10.1111/j.1365-294X.20... ). Caldwell and Araújo (2005)CALDWELL, JP. and ARAUJO, MC., 2005. Amphibian faunas of two eastern Amazonian rainforest sites in Pará, Brazil. Occasional Papers Sam Noble Oklahoma Museum of Natural History, vol. 16, p. 1-41. reported the occurrence of 40 species of amphibians from Cachoeira Juruá. Oliveira et al. (2013)OLIVEIRA, EA., RUZ, EJ. and BARROS, FB., 2013. Herpetofauna de las proximidades de la Caverna Planaltina, Brasil Novo, Pará (Amazonia Brasileña). Herpetotropicos, vol. 9, no. 1-2, p. 55-68. reported the occurrence of 30 species of amphibians, 13 snakes and 7 lizard species from the municipality of Brasil Novo municipality. Knispel and Barros (2009)KNISPEL, SR. and BARROS, FB., 2009. Anfíbios anuros da região urbana de Altamira (Amazônia Oriental), Pará, Brasil. Biotemas, vol. 22, no. 2, p. 191-194. reported the occurrence of 15 species of amphibians for the urban area of Altamira. Maciel et al. (2013)MACIEL, AO., COSTA, HC., DRUMMOND, LO., GOMES, JO. and D’ANGIOLELLA, A., 2013. Rediscovery of Siphonops annullatus (Mikan, 1820) (Amphibia: Gymnophiona: Siphonopidae) in the State of Pará, Brazil, with an updated geographic distribution map, and notes on size and variation. Check List, vol. 9, no. 1, p. 106-110. http://dx.doi.org/10.15560/9.1.106.
http://dx.doi.org/10.15560/9.1.106... reported the occurrence of Siphonops anullatus in the municipality of Senador Jose Porfírio, showing the incipient knowledge of the local herpetofauna.

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Table 1
Checklist of amphibians and reptiles from Volta Grande do Xingu, state of Pará, Brazil. EIA-RIMA = Environmental Impact Study; FRF = Faunal Rescue Programme; MEP = Monitoring Environmental Programme.

According to the EIA-RIMA, 60 amphibian and 87 reptile species are found in the region of the UHE Belo Monte, and this richness can reach 68 amphibians and 118 reptiles considering the regional knowledge. The increased sampling effort provided by Environmental Monitoring Programmes from the UHE Belo Monte resulted in the increase of 111 species (48 amphibians and 63 reptiles, including those with open nomenclature) to the Herpetofauna checklist (Table 1). The cumulative data show a high diversity compared to other sites of the Amazonian biome (17 amphibian and 40 reptilian at Cacoal – Turci and Bernarde, 2008TURCI, LCB. and BERNARDE, PS., 2008. Levantamento herpetofaunístico em uma localidade no município de Cacoal, Rondônia, Brasil. Bioikos, vol. 22, no. 2, p. 101-108.; 56 amphibian and 53 reptilian species at Boca do Acre, state of Amazonas – França and Venâncio, 2010FRANÇA, FGR. and VENÂNCIO, NM., 2010. Reptiles and amphibians of a poorly known region in southwest Amazonia. Biotemas, vol. 23, no. 3, p. 71-84.; 83 amphibian and 79 reptilian at Reserva Extrativista Riozinho da Liberdade – Bernarde et al., 2011BERNARDE, PS., MACHADO, RA. and TURCI, LCB., 2011. Herpetofauna da área do Igarapé Esperança da Reserva Extrativista Riozinho da Liberdade, Acre, Brasil. Biota Neotropica, vol. 11, no. 3, p. 117-144. http://dx.doi.org/10.1590/S1676-06032011000300010.
http://dx.doi.org/10.1590/S1676-06032011... ; 35 amphibian and 59 reptilian species at Floresta Nacional do Trairão – Mendes-Pinto and Souza, 2011MENDES-PINTO, TJ. and SOUZA, SM., 2011. Preliminary assessment of amphibians and reptiles from Floresta Nacional do Trairão, with a new snake record for the Pará state, Brazilian Amazon. Salamandra, vol. 47, no. 4, p. 199-206.; 59 reptilian species at Barcarena – Silva et al., 2011SILVA, FM., MENKS, AC., PRUDENTE, ALC., COSTA, JCL., TRAVASSOS, AEM. and GALATTI, U., 2011. Squamata reptilies from municipality of Barcarena and surroundings, state of Pará, north of Brazil. Check List, vol. 7, no. 3, p. 220-226.; 38 reptilian species at Alto Alegre dos Parecis – Ferrão et al., 2012Ferrão, M., RODRIGUES-FILHO, JAS. and SILVA, M., 2012. O. Checklist of reptiles (Testudines, Squamata) from Alto Alegre dos Parecis, southweastern Amazonia, Brazil. Herpetology Notes, vol. 5, p. 473-480.; 71 amphibian species at Carajás region – Pinheiro et al., 2012PINHEIRO, LC., BITAR, YOC., GALATTI, U., NECKEL-OLIVEIRA, S. and SANTOS-COSTA, MC., 2012. Amphibians from southeastern state of Pará: Carajás region, northern Brazil. Check List, vol. 8, no. 4, p. 693-702.; and 46 amphibian and 38 reptilian species at Reserva Extrativista do rio Gregório – Pantoja and Fraga, 2012PANTOJA, DL. and FRAGA, R., 2012. Herpetofauna of the Reserva Extrativista do rio Gregório, Amazonas, southwest Brazil. Check List, vol. 8, no. 3, p. 360-374.).

New records in the state (e.g. Frota and Vaz-Silva, 2013FROTA, JG. and VAZ-SILVA, W., 2013. . Dendropsophus sarayacuensis (Shreve, 1935) (Amphibia, Anura): filling gap on the geographic distributionCheck List, vol. 9, no. 1, p. 129-130. http://dx.doi.org/10.15560/9.1.129.
http://dx.doi.org/10.15560/9.1.129... ; Camera and Krinski, 2014CAMERA, BF. and KRINSKI, D., 2014. Distribution extension and geographic distribution map of the Brazil-nut poison dark frog (Caldwell & Myers, 1990) (Anura: Dendrobatidae): new record for southwestern Pará State, Brazil. Adelphobates castaneoticusChecklist, vol. 10, no. 1, p. 244-245.) evidence the incipience of knowledge in the regional context due to the lack of sampling. The checklist presented represents an increase in regional knowledge. The records of sympatric Centrolenidae species (this study) are important considering the ecological aspects of the species. Centrolenids are considered specialists in the use of the environment, occurring on the banks of streams and waterfalls in woody vegetation where they lay their egg masses (Cisneros-Heredia and Mcdiarmid, 2007CISNEROS-HEREDIA, DF. and MCDIARMID, RW., 2007. Revision of the characters of Centrolenidae (Amphibia: Anura: Athespha- tanura), with comments on its taxonomy and the description of new taxa of glassfrogs. Zootaxa, vol. 1572, p. 1-82.). Considering the impact resulting from the implementation of the UHE Belo Monte, which will result in the suppression of habitats associated with the occupation of Centrolenids, monitoring of these populations is an important factor in the continuity of the Monitoring Programme.

Recent studies evidence that species of this family are distributed throughout the Amazon basin, as reported for Cochranella adenocheira by Toledo et al. (2009)TOLEDO, LF., ARAUJO, OGS., AVILA, RW., KAWASHITA-RIBEIRO, RA., MORAIS, DH. and CISNEROS-HEREDIA, DF., 2009. Amphibia, Anura, Centrolenidae, . Cochranella adenocheira: distribution and range extension, BrazilCheck List, vol. 5, no. 3, p. 380-382. and Oliveira et al. (2012)OLIVEIRA, USC., MENEGHELLI, D. and MESSIAS, MR., 2012. Amphibia, Anura, Centrolenidae, Harvey and Noonan, 2005: distribution and geographic extension in the state of Rondônia, Brazil. Cochranella adenocheiraCheck List, vol. 8, no. 1, p. 145-146., Hyalinobatrachium iaspidiensis by Yanez-Muñoz et al. (2009)Yanez-MunõZ, M., Perez-Peña, P. and CISNEROS-HEREDIA, DF., 2009. New country records of (Amphibia, Anura, Centrolenidae) from the Amazonian lowlands of Ecuador and Peru. Hyalinobatrachium iaspidienseHerpetology Notes, vol. 2, p. 49-52., Hyalinobatrachium cappellei by Simões et al. (2012)SIMÕES, PI., KAEFER, IL., GOMES, FBR. and LIMA, AP., 2012. Distribution extension of (van Lidth de Jeude, 1904) (Anura: Centrolenidae) across Central Amazonia. Hyalinobatrachium cappelleiCheck List, vol. 8, no. 4, p. 636-637., Hyalinobatrachium caslesvilai by Cisneros-Heredia et al. (2010)CISNEROS-HEREDIA, DF., STRUSSMANN, C., AVILA, RW., KAWASHITA-RIBEIRO, RA., 2010. Amphibia, Anura, Centrolenidae, Hyalinobatrachium carlesvilai Castroviejo-Fisher, Padial, Chaparro, Aguayo and de la Riva, 2009: first country record, Brazil. Check List, vol. 6, no. 2, p. 225-226.. Endemics restricted in the biome can be attributed to the lack of sampling. Other studies discuss aspects of reproductive behaviour and how sympatric species are ecologically segregated (Rojas-Morales and Escobar-Lasso, 2013ROJAS-MORALES, JA. and ESCOBAR-LASSO, S., 2013. Notes on the natural history of three glass frogs species (Anura: Centrolenidae) from the Andean Central Cordillera of Colombia. Boletín Científico Museo de Historia Natural, vol. 17, no. 2, p. 127-140.). The genus Pristimantis and Allobates show a high cryptic diversity and other genus reveal the presence of taxonomic complex (for example, Adenomera, Dendropsophus, Scinax, Osteocephalus, and Leposoma). Some semi-fossorial species represent undescribed species, for example, for Atractus (P. Passos, pers. com.) and Proceratophrys (W. Vaz-Silva, pers. obs.). The record of rare gymnophiona Atretochoana eiselti reveals the biogeographic importance in the regional context.

The diversity profiles of amphibian assemblages (Figure 2) show that M5 present the highest richness with 68 species (a= 0), while M1 and M2 the poorest, with 45 and 46 species respectively. Considering the diversity, the amphibian assemblages are very similar, and as pointed out by Tóthmérész (1995)TÓTHMÉRÉSZ, B., 1995. Comparison of different methods for diversity ordering. Journal of Vegetable Science, vol. 6, p. 283-290. and Melo (2008)MELO, AS., 2008. O que ganhamos ‘confundindo’ riqueza de espécies e equabilidade em um índice de diversidade? Biota Neotropica, vol. 8, no. 3, p. 21-27. http://dx.doi.org/10.1590/S1676-06032008000300001.
http://dx.doi.org/10.1590/S1676-06032008... , it is not possible to distinguish them using Hill’s Series Diversity Profile. The high values of a parameter obtained by Hill’s Profile give the evenness of the assemblages. Therefore, M2 and M8 present the less uniform species proportions, while the highest evenness was observed in M1 and M5.

Figure 2
Profiles of assemblage diversity (for amphibians) in RAPELD modules. The three lines represent the maximum, average and minimum diversity values considering all modules. Empty circles represent the value of the Hill number for the module. M1 - M8 = Modules 1 to 8.

Regarding reptile diversity, the assemblages are very similar. The highest richness is found in M6 with 50 species (Figure 3). On the other hand, M3 and M4 presented the least number of registered species, 33. The diversity profiles show that the less uniform assemblages are present in M3 and M4. The reptile assemblages are more susceptible to a low evenness index, giving the cryptic habitats of many species, which make them barely detectable, resulting in occasional registers.

Figure 3
Profiles of assemblage diversity (for reptiles) in RAPELD modules. The three lines represent the maximum, average and minimum values diversity considering all modules. Empty circles represent the value of the Hill number for the module. M1 - M8 = Modules 1 to 8.

According to Melo (2008)MELO, AS., 2008. O que ganhamos ‘confundindo’ riqueza de espécies e equabilidade em um índice de diversidade? Biota Neotropica, vol. 8, no. 3, p. 21-27. http://dx.doi.org/10.1590/S1676-06032008000300001.
http://dx.doi.org/10.1590/S1676-06032008... , understanding the diversity of species in an area is fundamental for optimising management in relation to the activity of exploitation of low impact, resource conservation or for the restoration of degraded ecosystems. Despite showing similar phytophysiognomies, the modules are under the influence of several factors (e.g. the edge effect), due to the size and disposition of remains in the landscape. Edge and area effects are the most important factors that cause changes in fragmented communities (Nascimento and Laurance, 2006NASCIMENTO, HEM. and LAURANCE, WF., 2006. Efeitos de área e de borda sobre a estrutura florestal em fragmentos de floresta de terra-firme após 13-17 anos de isolamento. Acta Amazonica, vol. 36, no. 2, p. 183-192. http://dx.doi.org/10.1590/S0044-59672006000200008.
http://dx.doi.org/10.1590/S0044-59672006... ). Results of the diversity in the modules may be related to habitat characteristics (humidity, temperature, incorporation of litter, litter depth and changes in vegetation structure edge or lower strata of the forest margin) with the consequent availability of resources, as well as reflecting patterns of spatial distribution of species.

The cluster analysis of the amphibian assemblages generated two groups (Figure 4). The module M1 showed a more differentiated assemblage. Modules M5, M6 and M7 are located on the left bank of the Xingu River, and presented high values of abundance and richness. The results can be attributed to the similar characteristics between the sites. The other grouping is the modules on the right bank of the Xingu River, in addition to M2.

Figure 4
Cluster analyses of the amphibian assemblages in RAPELD modules. Modules in bold (M3, M4, M8) are located on the right bank of the Xingu river, and the others (M1, M2, M5, M6, M7) are located on the left bank.

In relation to the reptile assemblage, the cluster analysis formed two clusters that are represented by modules present on opposite banks of the Xingu River (Figure 5). Reptile assemblages can be differentiated by the environmental attributes on each bank, or the river can be a barrier to the species. The similarity between the two banks is less between themselves than modules on the same bank. According to biogeographic hypothesis, rivers may play a major role in creating and maintaining high levels of species diversity in the tropics increasing the possibility of allopatric speciation (Gascon et al., 1998Gascon, C., LOUGHEED, SC. and BOGART, JP., 1998. Patterns of genetic population differentiation in four species of Amazonian frogs: a test of the riverine barrier hypothesis. Biotropica, vol. 30, no. 1, p. 104-119. http://dx.doi.org/10.1111/j.1744-7429.1998.tb00373.x.
http://dx.doi.org/10.1111/j.1744-7429.19... ).

Figure 5
Cluster analyses of the reptiles assemblages in RAPELD modules. Modules in bold (M3, M4, M8) is located in the right bank of the Xingu river, and others (M1, M2, M5, M6, M7) is located in the left bank.

The regional species richness can still be considered underestimated, considering the taxonomic uncertainty, complexity and cryptic diversity of various species, as observed in other regions of the Amazon biome (see Padial and De La Riva, 2009PADIAL, JM. and DE LA RIVA, I., 2009. Integrative taxonomy reveals cryptic Amazonian species of . Pristimantis (Anura: Strabomantidae)Zoological Journal of the Linnean Society, vol. 155, no. 1, p. 97-122. http://dx.doi.org/10.1111/j.1096-3642.2008.00424.x.
http://dx.doi.org/10.1111/j.1096-3642.20... ; Funk et al., 2011FUNK, WC., CAMINER, M. and RON, SR., 2011. High level of cryptic species diversity uncovered in Amazonian frogs. Proceedings of the Royal Society B., p. 1-9.; Jansen et al., 2011Jansen, M., Bloch, R., Schulze, A. and Pfenninger, M., 2011. Integrative inventory of Bolivia’s lowland anurans reveals hidden diversity. Zoologica Scripta, vol. 40, no. 6, p. 567-583. http://dx.doi.org/10.1111/j.1463-6409.2011.00498.x.
http://dx.doi.org/10.1111/j.1463-6409.20... ). Considering other experiences observed within hydroelectric projects, the impacts of biodiversity are irreversible mainly due to forest loss, leading to the loss of natural ecosystems (Fearnside, 2001Fearnside, PM., 2001. Environmental impacts of Brazil’s Tucuruí Dam: unlearned lessons for hydroelectric development in Amazonia. Environmental Management, vol. 27, no. 3, p. 377-396. http://dx.doi.org/10.1007/s002670010156. PMid:11148764.
http://dx.doi.org/10.1007/s002670010156... ). Our results represent the actual regional knowledge before the implementation of the UHE Belo Monte, and they are important for permitting future comparison after the operation of the power plant. Considering the high diversity of the region and the predicted impacts, we suggest that scientific collection should be prioritised for the production of scientific knowledge. Studies related to integrative taxonomy are needed to elucidate the uncertainties and increase levels of local diversity.

Acknowledgements

We thank the Biota Projetos e Consultoria Ambiental, Leme Engenharia and Norte Energia for logistical and financial support. Rafael C. Teixeira, Julimar A. Oliveira, and Samuel F. dos Anjos for assistance in the fieldwork. Ronaldo Carneiro, Carla Alves, Pablo V. C. Mathias, Cláudio V. Mendonça, and Joyce Costa for institutional support and assistance in the execution of Environmental Programmes. Sean Michael Quail for contributions to the manuscript. The programmes are conducted under IBAMA license numbers 251/2013 and 108/2012.

(With 5 figures)

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Publication Dates

Publication in this collection
Aug 2015

History

Received
02 June 2014
Accepted
08 Oct 2014

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] (With 5 figures)

Taxon	EIA-RIMA	FRP	MEP
Class Amphibia
Family Bufonidae
Amazophrynella cf. bokermanni (Izecksohn, 1994 “1993”)	X		X
Rhaebo guttatus (Schneider, 1799)	X	X	X
Rhinella castaneotica (Caldwell, 1991)		X	X
Rhinella major (Muller and Helmich, 1936)	X	X	X
Rhinella margaritifera (Laurenti, 1768)	X		X
Rhinella marina (Linnaeus, 1758)	X	X
Family Ceratophryidae
Ceratophrys cornuta (Linnaeus, 1758)	X	X	X
Family Odontophrynidae
Proceratophrys sp.	X	X	X
Famíly Leptodactylidae
Adenomera cf. andreae (Müller, 1923)		X	X
Adenomera hylaedactyla (Cope, 1868)		X	X
Adenomera sp.	X		X
Leptodactylus knudseni Heyer, 1972		X	X
Leptodactylus leptodactyloides (Andersson, 1945)	X		X
Leptodactylus longirostris Boulenger, 1882		X	X
Leptodactylus macrosternum Miranda-Ribeiro, 1926	X		X
Leptodactylus mystaceus (Spix, 1824)	X	X	X
Leptodactylus paraensis Heyer, 2005	X	X	X
Leptodactylus pentadactylus (Laurenti, 1768)	X	X	X
Leptodactylus petersii (Steindachner, 1864)	X	X	X
Leptodactylus podicipinus (Cope, 1862)	X		X
Leptodactylus rhondomystax Boulenger, 1884	X	X	X
Leptodactylus stenodema Jiménez de la Espada, 1875		X
Lithodytes lineatus (Schneider, 1799)	X	X	X
Engystomops petersi Jiménez de la Espada, 1872	X	X	X
Physalaemus ephippifer (Steindachner, 1864)	X	X	X
Physalaemus sp.			X
Family Strabomantidae
Pristimantis aff. ockendeni (Boulenger, 1912)		X	X
Pristimantis fenestratus (Steindachner, 1864)	X	X	X
Pristimantis sp.		X	X
Pristimantis sp.1		X	X
Pristimantis sp.2		X	X
Family Hylidae
Dendropsophus brevifrons (Duellmann and Crump, 1974)	X	X	X
Dendropsophus leucophyllatus (Beireis, 1783)	X	X	X
Dendropsophus melanargyreus (Cope, 1887)	X	X	X
Dendropsophus microcephalus (Cope, 1886)		X	X
Dendropsophus minutus (Peters, 1872)		X	X
Dendropsophus nanus (Boulenger, 1889)			X
Dendropsophus sp.		X	X
Dendropsophus sp.1	X		X
Dendropsophus sp.2	X		X
Dryaderces inframaculatus (Boulenger, 1882)		X	X
Hypsiboas albopunctatus (Spix, 1824)		X
Hypsiboas boans (Linnaeus, 1758)	X	X	X
Hypsiboas calcaratus (Troschel, 1848)	X	X	X
Hypsiboas cf. lanciformis (Cope, 1871)		X	X
Hypsiboas cinerascens (Spix, 1824)	X	X	X
Hypsiboas fasciatus (Günther, 1858)	X		X
Hypsiboas geographicus (Spix, 1824)	X	X	X
Hypsiboas multifasciatus (Günther, 1859)	X	X	X
Hypsiboas raniceps Cope, 1862		X	X
Hypsiboas sp.		X	X
Osteocephalus leprieurii (Duméril and Bibron, 1841)	X	X	X
Osteocephalus oophagus Jungfer and Schiesari, 1995	X	X
Osteocephalus sp.	X
Osteocephalus taurinus Steindachner, 1862	X	X	X
Phyllomedusa bicolor (Boddaert, 1772)	X	X	X
Phyllomedusa hypochondrialis (Daudin, 1800)	X	X	X
Phyllomedusa tomopterna (Cope, 1868)		X	X
Phyllomedusa vaillantii Boulenger, 1882	X	X	X
Scinax aff. proboscideus (Brongersma, 1933)			X
Scinax aff. rostratus (Peters, 1863)			X
Scinax aff. x-signatus (Spix, 1824)	X
Scinax boesemani (Goin, 1966)	X	X	X
Scinax cf. cruentommus (Duellman, 1972)	X	X	X
Scinax fuscomarginatus (Lutz, 1925)	X	X	X
Scinax garbei (Miranda-Ribeiro, 1926)	X	X	X
Scinax nebulosus (Spix, 1824)	X	X	X
Scinax rostratus (Peters, 1863)			X
Scinax ruber (Laurenti, 1758)	X		X
Scinax sp. (S. ruber clade)			X
Scinax sp.1 (S. ruber clade)			X
Sphaenorhyncus lacteus (Daudin, 1800)			X
Trachycephalus resifinictrix (Goeldi, 1907)	X	X
Trachycephalus typhonius (Linnaeus, 1758)	X	X	X
Family Alophrynidae
Alophryne ruthveni Gaige, 1926	X	X	X
Family Centrolenidae
Cochranella adenocheira Harvey and Nooan, 2005			X
Cochranella sp.			X
Hyalinobatrachium cappellei van Lidth de Jeude, 1904			X
Hyalinobatrachium iaspidiensis (Ayarzaqüena, 1992)		X
Hyalinobatrachium sp.	X	X	X
Hyalinobatrachium sp.1			X
Vitreorana ritae (Lutz, 1952)			X
Family Aromobatidae
Allobates crombiei (Morales, 2002 “2000”)	X	X	X
Allobates femoralis (Boulenger, 1884 “1883”)	X	X	X
Allobates sp.		X	X
Allobates sp.1			X
Allobates sp.2			X
Family Pipidae
Pipa arrabali Izecksohn, 1976			X
Pipa pipa (Linnaeus, 1758)		X	X
Family Dendrobatidae
Adelphobates castaneoticus (Caldwell and Myers, 1990)	X	X	X
Adelphobates galactonotus (Steindachner, 1864)	X	X	X
Ameerega hahneli (Boulenger, 1884)	X		X
Ranitomeya amazonica (Schulte, 1999)			X
Family Microhylidae
Chiasmocleis hudsoni Parker, 1940	X	X
Chiasmocleis sp.	X
Ctenophryne geayi Mocguard, 1904	X	X	X
Elachistocleis cf. carvalhoi Caramaschi, 2010	X	X	X
Hamptophryne boliviana (Parker, 1927)	X
Order Urodela
Family Plethodontidae
Bolitoglossa paraensis (Unterstein, 1930)		X	X
Bolitoglossa tapajonica Brcko et al., 2013BRCKO, IS., HOOGMOED, MS. and NECKEL-OLIVEIRA, S., 2013. Taxonomy and distribution of the salamander genus Duméril, Bibron & Duméril, 1854 (Amphibia, Caudata, Plethodontidae) in Brazilian Amazonia. BolitoglossaZootaxa, vol. 3686, no. 4, p. 401-431. http://dx.doi.org/10.11646/zootaxa.3686.4.1. http://dx.doi.org/10.11646/zootaxa.3686....		X
Order Gymnophiona
Family Caecillidae
Caecilia gracilis Shaw, 1002		X	X
Caecilia tentaculata Linnaeus, 1758		X
Family Siphonopidae
Microcaecilia sp.	X
Micricaecilia taylori Nussbaum and Hoogmoed, 1979		X
Siphonops annulatus (Mikan, 1820)			X
Family Typhlonectidae
Atretochoana eiselti (Taylor, 1968)		X
Potomotyphlus kaupii (Berthold, 1859)		X
Typhlonectes compressicauda (Duméril and Bibron, 1841)		X
Class Reptilia
Order Squamata
Suborder Amphisbaenia
Family Amphisbaenidae
Amphisbaena alba Linnaeus, 1758		X
Amphisbaena amazonica Vanzolini, 1951		X
Amphisbaena brasiliana (Gray, 1865)		X
Amphisbaena mitchelli Procter, 1923		X	X
Suborder Sauria
Family Gekkonidae
Hemidactylus mabouia (Moreau de Jonnès, 1818)		X
Family Phyllodactylidae
Thecadactylus rapicauda (Houttuyn, 1782)	X	X	X
Family Sphaerodactylidae
Chatogeckko amazonicus (Andersson, 1918)	X	X	X
Gonatodes hasemani Griffin, 1917	X	X	X
Gonatodes humeralis (Guichenot, 1855)	X	X	X
Gonatodes nascimentoi Sturaro and Ávila-Pires, 2011			X
Gonatodes eladioi Nascimento, Ávila-Pires and Cunha, 1987		X
Lepidoblepharis heyerorum Vanzolini, 1978	X	X	X
Pseudogonatodes guianensis Parker, 1935	X	X	X
Family Gymnophthalmidae
Alopoglossus angulatus (Linnaeus, 1758)	X	X	X
Arthrosaura kockii (Lidth de Jeude, 1904)	X		X
Arthrosaura reticulata (O'Shaughnessy, 1881)	X	X	X
Colobosaura modesta (Reinhardt and Luetken, 1862)		X
Cercosaura argulus Peters, 1863	X	X
Cercosaura ocellata Wagler, 1830	X	X	X
Leposama osvaldoi Ávila-Pires, 1995		X	X
Leposoma percarinatum (Müller, 1923)	X	X	X
Leposoma sp.			X
Leposoma sp.1			X
Neusticurus rudis Boulenger, 1900			X
Potamipes ecpleopus (Cope, 1876)		X	X
Ptychoglossus brevifrontalis Boulenger, 1912	X	X
Tretioscincus agilis Ruthven, 1916	X		X
Family Iguanidae
Iguana iguana (Linnaeus, 1758)	X	X	X
Family Dactyloidae
Anolis fuscoauratus D'Orbigny, 1837	X	X	X
Anolis ortonii Cope, 1868	X	X	X
Anolis punctatus Daudin, 1802	X	X
Anolis sp.		X	X
Anolis trachyderma Cope, 1876	X	X	X
Fmily Leiosauridae
Enyalius leechi (Boulenger, 1885)		X	X
Family Polychrotidae
Polychrus marmoratus (Linnaeus, 1758)	X	X	X
Family Scincidae
Copeoglossum nigropunctatum (Spix, 1825)	X	X	X
Family Tropiduridae
Plica plica (Linnaeus, 1758)	X	X	X
Plica umbra (Linnaeus, 1758)	X	X	X
Uranocentron azureum (Linnaeus, 1758)		X
Uranoscondon superciliosus (Linnaeus, 1758)	X	X	X
Family Teiidae
Ameiva ameiva (Linnaeus, 1758)	X	X	X
Cnemidophorus cryptus Cole and Dessauer, 1993	X	X	X
Crocodilurus amazonicus Spix, 1825			X
Kentropys calcarata Spix, 1825	X	X	X
Kentropyx altamazonica (Cope, 1876)		X	X
Tupinambis teguixin (Linnaeus, 1758)	X	X	X
Subordem Serpentes
Family Aniliidae
Anilius scytale (Linnaeus, 1758)		X	X
Family Anomalepididae
Liotyphlops ternetzi (Boulenger, 1896)		X
Family Boidae
Boa constrictor (Linnaeus, 1758)	X	X	X
Corallus caninus (Linnaeus, 1758)	X	X
Corallus hortulanus (Linnaeus, 1758)	X	X	X
Epicrates cenchria (Linnaeus, 1758)	X	X	X
Eunectes murinus (Linnaeus, 1758)	X	X
Family Colubridae
Apostolepis nigrolineata (Peters, 1896)		X	X
Apostolepis pymi Boulenger, 1903		X
Atractus albuquerquei Cunha and Nascimento, 1983	X	X
Atractus elaps (Günther, 1858)		X
Atractus latifrons (Günther, 1868)		X
Atractus schach (Boie, 1827)	X	X
Atractus snethlageae Cunha and Nascimento, 1983	X	X	X
Atractus sp.		X
Chironius bicarinatus (Wied, 1820)		X
Chironius carinatus (Linnaeus, 1758)		X	X
Chironius exoletus (Linnaeus, 1758)		X	X
Chironius fuscus (Linnaeus, 1758)	X	X	X
Chironius multiventris Schmidt and Walker, 1943	X	X	X
Chironius scurrulus (Wagler, 1824)	X	X	X
Clelia cleia (Daudin, 1803)	X	X
Clelia plumbea (Wied, 1820)			X
Dendrophidion dendrophis (Schlegel, 1837)		X	X
Dipsas catesbyi (Sentzen, 1796)	X	X	X
Dipsas indica Laurenti, 1768		X	X
Dipsas pavonina Schlegel, 1837		X
Dipsas variegata (Duméril, Bibron and Duméril, 1854)		X
Drepanoides anomalus (Jan, 1863)	X	X	X
Drymarchon corais (Boie, 1827)		X
Drymoluber dichrous (Peters, 1863)		X	X
Erythrolamprus aesculapii (Linnaeus, 1766)		X
Erythrolamprus breviceps (Cope, 1860)		X
Erythrolamprus oligolepis (Boulenger, 1905)	X
Erythrolamprus poecilogyrus (Wied, 1825)		X
Erythrolamprus reginae (Linnaeus, 1758)	X		X
Erythrolamprus taeniogaster (Jan, 1863)		X
Erythrolamprus typhlus (Linnaeus, 1758)	X	X
Helicops angulatus (Linnaeus, 1758)	X	X	X
Helicops modestus Günther, 1861		X
Hydrodynastes bicinctus (Herrmann, 1804)	X	X
Hydrodynastes gigas (Duméril, Bibron and Duméril, 1854)		X
Hydrops martii (Wagler, 1824)	X	X
Hydrops triangularis (Wagler, 1824)		X
Imantodes cenchoa (Linnaeus, 1758)	X	X	X
Imantodes lentiferus (Cope, 1894)		X
Leptodeira annulata (Linnaeus, 1758)	X	X	X
Leptophis ahaetulla (Linnaeus, 1758)	X	X	X
Mastigodryas boddaerti (Sentzen, 1796)	X	X	X
Oxybelis aeneus (Wagler, 1824)	X	X	X
Oxybelis fulgidus (Daudin, 1803)		X	X
Oxyrhopus melanogenys (Tschudi, 1845)	X	X	X
Oxyrhopus petolarius Reuss, 1834		X	X
Oxyrhopus trigeminus Duméril, Bibron and Duméril, 1854	X	X	X
Philodryas argentea (Daudin, 1803)	X		X
Philodryas olfersii (Lichtenstein, 1823)		X
Philodryas viridissima (Linnaeus, 1758)	X	X
Pseudoboa coronata Schneider, 1801	X	X	X
Pseudoboa nigra (Duméril, Bibron and Duméril, 1854)		X
Pseudoeryx plicatilis (Linnaeus, 1758)		X
Pseustes sulphureus (Wagler, 1824)	X	X
Pseutes poecilonotus (Peters, 1867)		X
Rhinobotrium lentiginosum (Scopoli, 1785)		X	X
Sibon nebulatus (Linnaeus, 1758)	X	X	X
Siphlophis cervinus (Laurenti, 1768)	X	X	X
Siphlophis compressus (Daudin, 1803)	X	X	X
Siphlophis worontzowi (Prado, 1940)		X
Spilotes pullatus (Linnaeus, 1758)	X	X	X
Taeniophallus brevirostris (Peters, 1863)	X	X
Taeniophallus quadriocelatus Santos-Jr., Di-Bernardo and Lema, 2008		X	X
Tantilla melanocephala (Linnaeus, 1758)	X	X	X
Xenodon merremi (Wagler, 1824)		X
Xenodon rabdocephalus (Wied, 1824)	X	X
Xenodon severus (Linnaeus, 1758)	X	X	X
Xenopholis scalaris (Wucherer, 1861)	X	X	X
Family Elapidae
Micrurus filiformis (Günther, 1859)		X
Micrurus hemprichii (Jan, 1858)		X	X
Micrurus lemniscatus (Linnaeus, 1758)	X	X	X
Micrurus paraensis Cunha and Nascimento, 1973		X	X
Micrurus psyches (Daudin, 1803)		X
Micrurus spixii Wagler, 1824	X	X
Micrurus surinamensis (Cuvier, 1817)		X	X
Family Typhlopidae
Typhlops brongersmianus Vanzolini, 1976		X
Typhlops reticulatus (Linnaeus, 1758)	X	X	X
Family Leptotyphlopidae
Siagonodon septemstriatus (Schneider, 1801)		X
Trilepida macroleps (Peters, 1857)		X	X
Family Viperidae
Bothrops bilineata (Wied, 1825)		X
Bothrops taeniata (Wagner, 1824)		X
Bothrops atrox (Linnaeus, 1758)	X	X	X
Lachesis muta (Linnaeus, 1766)	X	X	X
Order Crocodylia
Family Alligatoridae
Caiman crocodilus (Linnaeus, 1758)	X	X	X
Melanosuchus niger (Spix, 1825)	X
Paleosuchus palpebrosus (Cuvier, 1807)	X		X
Paleosuchus trigonatus (Schneider, 1801)	X	X	X
Order Testudines
Family Chelidae
Mesoclemmys gibba (Schweigger, 1812)	X	X	X
Platemys platycephala (Schneider, 1792)	X	X	X
Family Geoemydidae
Rhinoclemmys punctularia (Daudin, 1801)	X	X	X
Family Knosternidae
Kinosternon scorpioidis (Linnaeus, 1766)	X	X
Family Podocnemididae
Peltocephalus dumerilianus (Schweigger, 1812)	X
Podocnemis expansa (Schweigger, 1812)	X	X
Podocnemis sextuberculata Cornalia, 1849	X
Podocnemis unifilis Troschel, 1848	X	X
Family Testudinidae
Chelonoidis carbonarius (Spix, 1824)	X		X
Chelonoidis denticulatus (Linnaeus, 1766)	X		X

Brasil