Composition and diversity of anurans in the largest conservation unit in Pampa biome, Brazil

Bolzan, Ana Maria Rigon; Saccol, Suélen Alves; Santos, Tiago Gomes dos

doi:10.1590/1676-0611-BN-2015-0113

Abstracts

Grassy biomes occupy about 20% of the earth's surface, and are characteristic of northern Australia, Africa and South America, being biodiversity in these environments poorly understood. The Área de Proteção Ambiental (APA) do Ibirapuitã includes areas with the best-preserved grassland areas in the Pampa biome in Rio Grande do Sul state, Brazil. This study aimed to determine anuran species richness, abundance, constancy of occurrence, and reproductive modes, and to compare the taxonomic composition in the APA with other localities within the grassland areas of the southernmost of South America. We collected frogs from September to November 2012 and in November 2013 by sampling of reproductive sites. We also examined specimens deposited in herpetological collections. In total, 32 frog species were identified from the combination of larval and adult sampling and analysis of specimens deposited in scientific collections. The registered anurofauna is typical of grassland areas, with at least 10% restricted to the subtropical region of South America and at least two species considered endangered in state and global scales. The most abundant species was Pseudopaludicola falcipes and Hypsiboas pulchellus was the species most frequently found among sites. Five reproductive modes were recorded, and the most common mode consists of development of exotrophic tadpole and deposition in to lentic bodies of water (57.5%). Cluster analysis of 16 communities representing grassland locations presented five groups with more than 50% similarity, whose structure was influenced by geographic distance but can be partially interpreted by regional peculiarities (e.g. height and phytophysiognomies). Our results consist of initial knowledge base on the anurofauna of APA do Ibirapuitã, supporting recommendations for future conservation actions to APA and also for the grassland biomes, which are increasingly threatened by human activities.

anuran communities; native grasslands; tadpoles; reproductive modes; similarity

Biomas campestres ocupam cerca de 20% de toda a superfície terrestre, e são característicos do norte da Austrália, África e América do Sul, sendo a biodiversidade nesses ambientes pobremente conhecida. A Área de Proteção Ambiental (APA) do Ibirapuitã possui as áreas de campo mais bem preservadas do bioma Pampa no Rio Grande do Sul, Brasil. Este estudo objetivou determinar a riqueza de espécies de anuros, abundância, constância de ocorrência, modos reprodutivos e comparar a composição taxonômica da APA com outras localidades inseridas em áreas campestres do extremo sul da América do Sul. Nós coletamos os anuros de setembro a novembro de 2012 e novembro de 2013, utilizando o método de busca em sítios de reprodução. Nós também examinamos espécimes em coleções herpetológicas. No total, registramos 32 espécies de anuros pela combinação da amostragem de larvas, adultos e análise de espécimes depositados em coleções científicas. A anurofauna registrada é típica de áreas campestres, com pelo menos 10% das espécies restritas è região subtropical da América do Sul e pelo menos duas espécies consideradas ameaçadas em escala estadual e global. Pseudopaludicola falcipes foi a espécie mais abundante e Hypasiboas pulchellus a mais frequentemente encontrada nos sítios amostrados. Cinco modos reprodutivos foram registrados, sendo o modo mais comum a deposição e desenvolvimento de larvas exotróficas em corpos d’água lênticos (57,5%). A análise de similaridade entre as 16 comunidades representando localidades campestres, apresentou cinco grupos com mais de 50% de similaridade, cuja estrutura foi influnciada pela distância geográfica, mas pode ser parcialmente interpretada por peculiaridades regionais (e.g. altitude e fitofisionomias). Nossos resultados representam uma base inicial de dados sobre a anurofauna da APA do Ibirapuitã, bem como incluem recomendações para futuras ações de conservação dos biomas campestres, que são cada vez mais ameaçados pelas atividades humanas.

comunidades de anuros; campos nativos; girinos; modos reprodutivos; similaridade

Introduction

Grassy biomes are ancient on earth, and have persisted in some landscapes for tens of thousands of years (Bond & Parr 2010BOND, W.J. & PARR, C.L. 2010. Beyond the forest edge: Ecology, diversity and conservation of the grassy biomes. Biological Conservation 143: 2395-2404, http://dx.doi.org/10.1016/j.biocon.2009.12.012.
http://dx.doi.org/10.1016/j.biocon.2009.... ). Biota associated with these biomes has been unevenly studied, and include, for example, the unique flora and fauna of the Cerrado, one of the world’s biodiversity hotspots (MMA 2007MMA. 2007. Áreas Prioritárias para Conservação, Uso Sustentável e Repartição de Benefícios da Biodiversidade. Ministério do Meio Ambiente, Secretaria de Biodiversidade e Florestas. MMA, Brasília/DF. 300p.). Technically, grassy biomes are described as having open vegetation that is subject to periodic droughts, with ground cover dominated by grasses and other similar species, typically occurring in areas with at least 10-15 trees per hectare (Risser 1997RISSER, P. 1997. Diversidade em e entre prados, p. 224-229. In: Biodiversidade (Wilson, E.O., ed.). Rio de Janeiro, Nova Fronteira. 657p.). Grassy biomes occupy around 20% of the earth's surface, and are more prominent in northern Australia, South America and Africa, and in most parts of the world the associated biodiversity is still poorly known (see Bond & Parr 2010BOND, W.J. & PARR, C.L. 2010. Beyond the forest edge: Ecology, diversity and conservation of the grassy biomes. Biological Conservation 143: 2395-2404, http://dx.doi.org/10.1016/j.biocon.2009.12.012.
http://dx.doi.org/10.1016/j.biocon.2009.... ). Despite a paucity of attention given to these biomes, they are known to harbor diverse and distinct fauna (Bond & Parr 2010BOND, W.J. & PARR, C.L. 2010. Beyond the forest edge: Ecology, diversity and conservation of the grassy biomes. Biological Conservation 143: 2395-2404, http://dx.doi.org/10.1016/j.biocon.2009.12.012.
http://dx.doi.org/10.1016/j.biocon.2009.... ). For example, the Brazilian Cerrado has high diversity and endemism of a number of animal groups, including birds, small mammals, herpetofauna and insects (Vitt & Caldwell 1993VITT, L.J. & CALDWELL, J.P. 1993. Ecological observations on Cerrado lizards in Rondonia, Brazil. Journal of Herpetology 27: 46-52, http://dx.doi.org/10.2307/1564904.
http://dx.doi.org/10.2307/1564904... , Da Silva 1997DA SILVA, J.M.C. 1997. Endemic bird species and conservation in the Cerrado Region, South America. Biodiversity and Conservation1 6: 435-450, http://dx.doi.org/10.1023/A:1018368809116.
http://dx.doi.org/10.1023/A:101836880911... , Lacher & Alho 2001LACHER, T.E. & ALHO, C.J.R. 2001. Terrestrial small mammal richness and habitat associations in an Amazon Forest-Cerrado Contact Zone. Biotropica 33(1): 171-181, http://dx.doi.org/10.1111/j.1744-7429.2001.tb00166.x.
http://dx.doi.org/10.1111/j.1744-7429.20... , Da Mata et al. 2008DA MATA, R.A., MC GEOCH, M. & TIDON, R. 2008. Drosophilid assemblages as a bioindicator system of human disturbance in the Brazilian Savanna. Biodiversity and Conservation 17: 2899-2916, http://dx.doi.org/10.1007/s10531-008-9403-7.
http://dx.doi.org/10.1007/s10531-008-940... , Vasconcelos et al. 2008VASCONCELOS, H.L., ARAÚJO, B.B. & MAYHÉ-NUNES, A.J. 2008. Patterns of diversity and abundance of fungus-growing ants (Formicidae: Attini) in areas of the Brazilian Cerrado. Revista Brasileira de Zoologia 25(3): 445-450, http://dx.doi.org/10.1590/S0101-81752008000300009.
http://dx.doi.org/10.1590/S0101-81752008... , Morais et al. 2012MORAIS, A.R., BASTOS, R.P., VIEIRA, R. & SIGNORELLI, L. 2012. Herpetofauna da Floresta Nacional de Silvânia, um remanescente de Cerrado no Brasil Central. Neotropical Biology and Conservation 7(2): 114-121, http://dx.doi.org/10.4013/nbc.2012.72.05.
http://dx.doi.org/10.4013/nbc.2012.72.05... ).

In the most southern parts of Brazil, grassland physiognomies are referred to as Southern Grasslands, and are present in two Brazilian biomes: the Atlantic Forest biome (which includes areas of grasslands in the south Brazilian plateau, forming mosaics with forests in the northern half of Rio Grande do Sul and neighboring states); and the Pampa biome (approximately corresponding to the southern half of Rio Grande do Sul state) (IBGE 2004IBGE. 2004. Instituto Brasileiro de Geografia e Estatística. Mapa de Biomas do Brasil. Available online at: http://www.ibge.gov.br/home/presidencia/noticias/21052004biomas.shtm (último acesso em janeiro de 2014).
http://www.ibge.gov.br/home/presidencia/... , Overbeck et al. 2007OVERBECK, G.E., MÜLLER, S.C., FIDELIS, A., PFADENHAUER, J., PILLAR, V.D., BLANCO, C.C., BOLDRINI, I.I., BOTH, R. & FORNECK, E.D. 2007. Brazil's neglected biome: The South Brazilian Campos. Perspectives in Plant Ecology, Evolution and Systematics 9: 101-116, http://dx.doi.org/10.1016/j.ppees.2007.07.005.
http://dx.doi.org/10.1016/j.ppees.2007.0... ). In Brazil, the Pampa biome exists only in Rio Grande do Sul, where it occupies about 60% of the state territory and 2% of the Brazilian territory (Suertegaray & Silva 2009SUERTEGARAY, D.M.A. & SILVA, L.A.P. 2009. Tchê Pampa: histórias da natureza gaúcha, p. 42-59. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P., Müller, S.C, Castilhos, Z.M.S., Jacques, A.V.A, eds.). MMA, Brasília/DF. MMA, Brasília/DF. 403p.). Brazilian, Argentinian and Uruguayan Pampa combined have a total biome area of approximately 700,000 km² (Suertegaray & Silva 2009SUERTEGARAY, D.M.A. & SILVA, L.A.P. 2009. Tchê Pampa: histórias da natureza gaúcha, p. 42-59. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P., Müller, S.C, Castilhos, Z.M.S., Jacques, A.V.A, eds.). MMA, Brasília/DF. MMA, Brasília/DF. 403p.).

The Pampa biome has its own unique fauna and flora, and contains great diversity (Pillar et al. 2009PILLAR, V.P., MÜLLER, S.C., CASTILHOS, Z.M.S. & JACQUES, A.V.A. 2009. Campos Sulinos: conservação e uso sustentável da biodiversidade. MMA, Brasília/DF, 403p.). In terms of fauna, it is a rich ecosystem with numerous endemic species, including some frogs of the genus Melanophryniscus, whose center of diversity is understood to be open formations in the subtropical/temperate zone of South America (Pramuk et al. 2008PRAMUK, J.B., ROBERTSON, T., SITES JR., J.W., NOONAN, B.P. 2008. Around the world in 10 million years: biogeography of the nearly cosmopolitan true toads (Anura: Bufonidae). Global Ecology and Biogeography 17: 72-83, http://dx.doi.org/10.1111/j.1466-8238.2007.00348.x.
http://dx.doi.org/10.1111/j.1466-8238.20... ). However, there is a lack of data available for accurate estimates of the richness of most vertebrate groups, including amphibians, in grassy ecosystems (Bencke 2009BENCKE, G.A. 2009. Diversidade e conservação da fauna dos campos do Sul do Brasil, p. 101-121. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P., Müller, S.C, Castilhos, Z.M.S., Jacques, A.V.A, eds.). MMA, Brasília/DF. 403p.). Basic research on amphibians in the Pampa biome, including studies to construct species lists, acquisition of natural history information, and community studies are still scarce and recent (Santos et al. 2008SANTOS, T.G., KOPP, K., SPIES, M.R., TREVISAN, R. & CECHIN, S.Z. 2008. Distribuição temporal e espacial de anuros em área de Pampa, Santa Maria, RS. Iheringia, Série Zoologia 98(2): 244-253, http://dx.doi.org/10.1590/S0073-47212008000200013.
http://dx.doi.org/10.1590/S0073-47212008... , Both et al. 2011BOTH, C., MELO, A.S., CECHIN, S.Z. & HARTZ, S.M. 2011. Tadpole co-occurrence in ponds: When do guilds and time matter? Acta Oecologica 37: 140-145, http://dx.doi.org/10.1016/j.actao.2011.01.008.
http://dx.doi.org/10.1016/j.actao.2011.0... , Maragno et al. 2013MARAGNO, F.P., SANTOS, T.G. & CECHIN, S.Z. 2013. The role of phytophysiognomies and seasonality on the structure of ground-dwelling anuran (Amphibia) in the Pampa biome, southern Brazil. Anais da Academia Brasileira de Ciências. Available online at: www.scielo.br/aabc.
www.scielo.br/aabc... ). These approaches can provide valuable information on patterns of local diversity (richness, abundance and evenness), as well as on the spatial and temporal distribution of species (Duellman & Trueb 1994DUELLMAN, W.E. & TRUEB, L. 1994. Biology of Amphibians. Baltimore and London: McGraw-Hill. 670p.).

The southern Brazilian grasslands are in general of private domain, are typically used for pasture, and are under constant threat of conversion for other land uses (Pillar & Vélez 2010PILLAR, V.P. & VÉLEZ, E. 2010. Extinção dos Campos Sulinos em Unidades de Conservação: um fenômeno natural ou um problema ético? Natureza & Conservação 8(1): 84-86, http://dx.doi.org/10.4322/natcon.00801014.
http://dx.doi.org/10.4322/natcon.0080101... ). Thus, the Pampa has suffered great loss of habitat and biodiversity due to the accelerated expansion of agriculture (especially soybeans), exacerbated by the conversion of large grassland areas into monoculture plantations (MMA 2007MMA. 2007. Áreas Prioritárias para Conservação, Uso Sustentável e Repartição de Benefícios da Biodiversidade. Ministério do Meio Ambiente, Secretaria de Biodiversidade e Florestas. MMA, Brasília/DF. 300p., Gautreau & Vélez 2011GAUTREAU, P. & VÉLEZ, E. 2011. Strategies of environmental knowledge production facing land use changes: Insights from the Silvicultural Zoning Plan conflict in the Brazilian state of Rio Grande do Sul. Cybergeo: European Journal of Geography 577. Available online athttp://cybergeo.revues.org/24881 (último acesso em março de 2015).
http://cybergeo.revues.org/24881... ), and by introduction of invasive species often spread by irresponsible agricultural practices (Ferreira et al. 2012FERREIRA, J., PARDINI, R., METZGER, J.P., FONSECA, C.R., POMPEU, P.S., SPAROVEK, G. & LOUZADA, J. 2012. Towards environmentally sustainable agriculture in Brazil: challenges and opportunities for applied ecological research. Journal of Applied Ecology 49: 535-541, http://dx.doi.org/10.1111/j.1365-2664.2012.02145.x.
http://dx.doi.org/10.1111/j.1365-2664.20... ). Further, conservation of grassy ecosystems is of fundamental importance for biodiversity, because these areas maintain assemblages of characteristic biota and protect various floral and faunal organisms within them (known or unknown), and preserve ecosystem processes (Pillar et al. 2006PILLAR, V.D., BOLDRINI, I.I., HASENACK, H., JACQUES, A.V.A., BOTH, R., MÜLLER, S.C., EGGERS, L., FIDELIS, A.T., SANTOS, M.M.G., OLIVEIRA, J.M., CERVEIRA, J., BLANCO, C.C., JONER, F., CORDEIRO, J.L. & PINILLOS GALINDO, M. 2006. Workshop“Estado atual e desafiospara a conservação dos campos”. Universidade Federal do Rio Grande do Sul, Porto Alegre/RS, 24p.).

Only about 3% of the Pampa biome is legally protected into 15 Conservation Units (CUs) in Brazil and most of them still was not truly implemented (Vélez et al. 2009VÉLEZ, E., L. CHOMENKO, SCHAFFER, W. & MADEIRA, M. 2009. Um panorama sobre as iniciativas de conservação dos Campos Sulinos, p. 356-379. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P., Müller, S.C, Castilhos, Z.M.S., Jacques, A.V.A, eds.).MMA, Brasília/DF. 403p.). Compared to other Brazilian terrestrial biomes, the Pampa has a high percentage of agricultural land use with one of the lowest percentages of legally protected area (Ferreira et al. 2012FERREIRA, J., PARDINI, R., METZGER, J.P., FONSECA, C.R., POMPEU, P.S., SPAROVEK, G. & LOUZADA, J. 2012. Towards environmentally sustainable agriculture in Brazil: challenges and opportunities for applied ecological research. Journal of Applied Ecology 49: 535-541, http://dx.doi.org/10.1111/j.1365-2664.2012.02145.x.
http://dx.doi.org/10.1111/j.1365-2664.20... ). Moreover, forests are more represented in CUs than are grasslands, and is lacking adequate technical of management to ensure the conservation of grassland’s biodiversity against forest invasion (Pillar & Vélez 2010PILLAR, V.P. & VÉLEZ, E. 2010. Extinção dos Campos Sulinos em Unidades de Conservação: um fenômeno natural ou um problema ético? Natureza & Conservação 8(1): 84-86, http://dx.doi.org/10.4322/natcon.00801014.
http://dx.doi.org/10.4322/natcon.0080101... ).

Another worrying aspect for Pampa biome conservation is the lack of basic knowledge of biodiversity in the established protected areas. Determination of how many species are present in a given habitat, as well as species abundance and how they interact are important issues for ecology and conservation (Dood Jr. 2010DOOD JR., C.K. 2010. Diversity and similarity, p. 321-337. In: Amphibiam Ecology and Conservation: A Handbook of Techiniques (Dood Jr., C.K. ed.). Oxford University Press. New York, 505p.). Thus, considering the historical and cultural problems in conservation of the Pampa biome, the objectives of this study were to characterize the frog assemblage in a conservation unit in Brazilian Pampa, located in the Planalto da Campanha, Rio Grande do Sul state, regarding species richness and reproductive modes, taxonomic composition, abundance and constancy of occurrence, as well as to compare the anuran assemblage of this CU with other frog assemblages in grasslands of the southernmost of South America.

Material and Methods

The present work was developed in the Área de Proteção Ambiental (APA) do Ibirapuitã (30° 51′ 57.41″ S; 55° 38′ 59.63″ W north extreme and 29° 57′ 20.52″ S; 55° 40′ 16.80″ W south extreme, Figure 1). The APA has approximately 318,000 ha of extension in to Pampa biome and consists almost exclusively of rural private property (Vélez et al. 2009VÉLEZ, E., L. CHOMENKO, SCHAFFER, W. & MADEIRA, M. 2009. Um panorama sobre as iniciativas de conservação dos Campos Sulinos, p. 356-379. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P., Müller, S.C, Castilhos, Z.M.S., Jacques, A.V.A, eds.).MMA, Brasília/DF. 403p.) distributed in the municipalities of Alegrete, Quaraí, Rosário do Sul and Santana do Livramento, all in the state of Rio Grande do Sul (RS). This type of conservation unit fits the IUCN Category VI (protected with sustainable use of natural resources area), and aims to conserve ecosystems and habitats in a manner harmonious with associated cultural values and traditional systems of natural resource management (Dudley 2008DUDLEY, N. 2008. Guidelines for Applying Protected Area Management Categories. Gland, Switzerland: IUCN, 86p.). Thus, the main objective of this type of protection area is non-industrial use of natural resources that are compatible with nature conservation.

Figure 1
Location of the Área de Proteção Ambiental do Ibirapuitã (APAI) in Rio Grande do Sul, Brazil, and 15 locations as compared to the composition of frog species in the similarity analysis (Abbreviations: ). Map: Carolina Pietczak.

The APA do Ibirapuitã houses part of the Ibirapuitã River basin, and is located on the western border of the state. The southern boundary of the APA coincides with the Brazil-Uruguay international boundary, with no geographic or other physical barrier to separate the Uruguayan territory (Brasil 1992Brasil. 1992. Decreto n° 529 de 20 de maio de 1992. Declara como Área de Proteção Ambiental do Ibirapuitã, no Estado do Rio Grande do Sul, a região que delimita e dá outras providências. Presidência da Replública do Brasil, Casa Civil, Subchefia para Assuntos Jurídicos. CANAVERO, A. & ARIM, M. 2009. Clues supporting photoperiod as the main determinant of seasonal variation in amphibian activity. Journal of Natural History 43(47-48): 2975-2984, http://dx.doi.org/10.1080/00222930903377539.
http://dx.doi.org/10.1080/00222930903377... ). The APA is situated between mosaics of the central depression of the state (including butte hills and soft grassy hills of the plain) and the Planalto da Campanha (grassy hill surface plateau) (Zaions 1989ZAIONS, M. 1989. Mapa Morfológico do Estado do Rio Grande do Sul. Rio de Janeiro, RJ, Aerofoto Cruzeiro.), with altitude varying from 30 to 400 meters (Hasenack et al. 2010HASENACK, H., WEBER, E.J., BOLDRINI, I.I. & TREVISAN, R. 2010. Mapa de sistemas ecológicos da ecorregião das savanas uruguaias em escala 1:500.000 ou superior e relatório técnico descrevendo insumos utilizados e metodologia de elaboração do mapa de sistemas ecológicos. Porto Alegre, UFRGS, Centro de Ecologia. 18p.).

The climate is classified as TEUM (temperate sub-humid) and STEUM (sub-humid temperate) (Maluf 2000MALUF, J.R.T. 2000. Nova classificação climática do Estado do Rio Grande do Sul. Revista Brasileira de Agrpmeteorologia 8(1): 141-150.), with annual rainfall of about 1,500 mm, with the lowest rainfall in August and the highest in October (MMA/IBAMA 1999MMA/IBAMA. 1999. Plano de Gestão da Área de Proteção Ambiental do Ibirapuitã/RS. Ministério do Meio Ambiente, dos Recursos Hídricos e da Amazônia Legal. MMA/IBAMA. 41p.). The average annual temperature is 18.6°C, with a minimum recorded temperature of -4.1°C and maximum of 40.4°C (MMA/IBAMA 1999MMA/IBAMA. 1999. Plano de Gestão da Área de Proteção Ambiental do Ibirapuitã/RS. Ministério do Meio Ambiente, dos Recursos Hídricos e da Amazônia Legal. MMA/IBAMA. 41p.). The predominant vegetation type is characterized as ‘grasslands on shallow soil’ sensu Hasenack et al. (2010)HASENACK, H., WEBER, E.J., BOLDRINI, I.I. & TREVISAN, R. 2010. Mapa de sistemas ecológicos da ecorregião das savanas uruguaias em escala 1:500.000 ou superior e relatório técnico descrevendo insumos utilizados e metodologia de elaboração do mapa de sistemas ecológicos. Porto Alegre, UFRGS, Centro de Ecologia. 18p. and constitute the best preserved grasslands of Rio Grande do Sul, developing on rocky soils (derived from basalt and sandstone), with low moisture retention and water deficit in summer. Additional forest inclusions occur along the banks of rivers and streams (Boldrini 2009BOLDRINI, I.I. 2009. A flora dos campos do Rio Grande do Sul, p.63-77. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P, Müller, S.C, Castilhos, Z.M.S, Jacques, A.V.A, eds.). MMA, Brasília/DF. 403p., Boldrini & Longhi-Wagner 2011BOLDRINI, I.I. & LONGHI-WAGNER, H.M. 2011. Poaceae no Rio Grande do Sul: Diversidade, importância na fitofisionomia e conservação. Ciência & Ambiente 42:71-92.).

Samples were collected in September, October and November 2012 and November 2013, period that comprises the seasons most favorable to amphibian activity in austral region due to longer photoperiod (Both et al. 2008BOTH, C., KAEFER, I.L., SANTOS, T.G.S. & CECHIN, S.T.Z. 2008. An austral assemblage in the Neotropics: seasonal occurrence correlated with photoperiod. Journal of Natural History 42(3-4): 205-222, http://dx.doi.org/10.1080/00222930701847923.
http://dx.doi.org/10.1080/00222930701847... ). Additionally, complementary sporadic collections were performed in July 2013. 40 ponds and 24 streams were all sampled once, totaling 64 water bodies distributed within the APA and surrounding region. The number of sites sampled in studies of frog communities varied according to the distribution and natural history of frog species studied, and with respect to the research questions of interest and other factors (Dorcas et al. 2010DORCAS, M.E., PRICE, S.J., WALLS, S.C. & BARICHIVICH, W.J. 2010. Auditory monitoring of anuran populations, p. 281-298. In: Amphibiam Ecology and Conservation: A Handbook of Techiniques (Dood Jr., C.K.ed.). Oxford University Press. New York, 505p.). The sampling of a large number of water bodies (over 50, as recommended by Dorcas et al. 2010DORCAS, M.E., PRICE, S.J., WALLS, S.C. & BARICHIVICH, W.J. 2010. Auditory monitoring of anuran populations, p. 281-298. In: Amphibiam Ecology and Conservation: A Handbook of Techiniques (Dood Jr., C.K.ed.). Oxford University Press. New York, 505p.) in a short period of time was opted in order to cover the greatest diversity of habitats possible and to minimize the effect of drought, which typically drastically limits water body availability from late spring to early summer (pers. obs.).

Sampling of adult frogs was performed by sampling sites of reproduction (Scott Jr. & Woodward 1994SCOTT JR., N.J. & WOODWARD, B.D. 1994. Surveys at breeding sites, p. 84-92. In: Measuring and Monitoring Biological Diversity - Standard Methods for Amphibians (Heyer, W.R., Donnelly, M.A., McDiarmid, R.W., HayekA, L.A.C., Foster, M.S., eds.). Smithsonian Institution Press, Washington & London.). During frog breeding season, lentic (natural ponds and weirs to cattle) and lotic waterbodies (streamlets) were sampled. Pond areas varied from 43.26 to 15740.32 m² (554.83 ± 2,933.54) and stream lengths were sections of 100 m. Pond depths varied from 7.1 to 96.67 cm (21.67 ± 20.9), and stream depths varied from 9.67 to 50.71cm (24 ± 10.13). Distance among waterbodies varied from 0.02 to 124.37 km (39.5 ± 25.7) for ponds and from 2.98 to 105.11 km (35.4 ± 22) for streamlets. The search for frogs was conducted during twilight and at night, along the banks of water bodies. Sampling effort was proportional to environmental size and complexity (Scott Jr. &Woodward 1994SCOTT JR., N.J. & WOODWARD, B.D. 1994. Surveys at breeding sites, p. 84-92. In: Measuring and Monitoring Biological Diversity - Standard Methods for Amphibians (Heyer, W.R., Donnelly, M.A., McDiarmid, R.W., HayekA, L.A.C., Foster, M.S., eds.). Smithsonian Institution Press, Washington & London.). During sampling all visualized individuals were registered, and estimations were made for the abundance of calling males for each species (e.g., Goottsberger & Gruber 2004GOOTTSBERGER, B. & GRUBER, E. 2004. Temporal partitioning of reproductive activity in a Neotropical anuran Community. Journal Tropical of Ecology 20: 271-280, http://dx.doi.org/10.1017/S0266467403001172.
http://dx.doi.org/10.1017/S0266467403001... , Vasconcelos & Rossa-Feres 2005VASCONCELOS, T.S. & ROSSA-FERES, D.C. 2005. Diversidade, distribuição espacial e temporal de anfíbios anuros (Amphibia, Anura) na região noroeste do estado de São Paulo, Brasil. Biota Neotropica 5(2): 1-14. Available online at: http://www.biotaneotropica.org.br/v5n2/pt/abstract?article+BN01705022005, doi: http://dx.doi.org/10.1590/S1676-06032005000300010.
http://www.biotaneotropica.org.br/v5n2/p... , Santos et al. 2007SANTOS, T.G., CASATTI, L. & ROSSA-FERES, D.C. 2007. Diversidade e distribuição espaço-temporal de anuros em região com pronunciada estação seca no sudeste do Brasil. Iheringia, Série Zoologia 97(1): 37-49.).

Additionally, tadpoles were collected during the day using a long-handled dip net and 3 mm² metal mesh. Sampling consisted of performing a full scan of the water body one time only, along the edge of the pools. Thus, the sampling effort for different bodies of water was roughly proportional to their size (Heyer 1976HEYER, W.R. 1976. Studies on larval amphibian habitat partitioning. Smithsonian Contributions to Zoology 242: 1-27., Santos et al. 2007SANTOS, T.G., CASATTI, L. & ROSSA-FERES, D.C. 2007. Diversidade e distribuição espaço-temporal de anuros em região com pronunciada estação seca no sudeste do Brasil. Iheringia, Série Zoologia 97(1): 37-49., Both et al. 2009BOTH, C., SOLÉ, M., SANTOS,T.G. & CECHIN, S.Z. 2009. The role of spatial and temporal descriptors for neotropical tadpole communities in southern Brazil. Hydrobiologia 624: 125-138, http://dx.doi.org/10.1007/s10750-008-9685-5.
http://dx.doi.org/10.1007/s10750-008-968... ).

To complement the species list, we consulted four main scientific collections of the Rio Grande do Sul state in search of amphibian records for the municipalities that make up the APA do Ibirapuitã: the Scientific Collection of the Department of Zoology, Department of Biology, Federal University of Santa Maria (ZUFSM); the Amphibian Collection of the Museum of Science and Technology, Catholic University of Rio Grande do Sul (MCP); the Amphibian Collection of the Department of Herpetology, Department of Zoology, Federal University of Rio Grande do Sul (UFRGS); and the Collection of Amphibians at the Museum of Natural Sciences of the Zoobotanical Foundation of Rio Grande do Sul (MCN). Voucher specimens were deposited in the Scientific Collection of the Zoology section in the Department of Biology, Federal University of Santa Maria (ZUFSM) (license SISBIO/ICMBio # 33975).

Sampling sufficiency was assessed by constructing a species accumulation curve from 500 randomizations, and by using five qualitative richness estimators (Bootstrap, Chao II, ICE, Jackknife I and II) (Gotelli & Colwel 2001GOTELLI, N.J. & COLWEL, R.K. 2001. Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters 4: 379-391, http://dx.doi.org/10.1046/j.1461-0248.2001.00230.x.
http://dx.doi.org/10.1046/j.1461-0248.20... ). The curve was constructed based on records of collected tadpoles and on audio/visual recordings of adults in the study area. To analyze the relative abundance of adults, we built a Whittaker plot in which the relative abundance of each species is presented as percentage of the number of males with vocalization activity of males in the total of water bodies (sensu Krebs 1999KREBS, C.J. 1999. Ecological Methodology. Addison Wesley Educational Publishers, Menlo Park., Magurran 2013MAGURRAN, A.E. 2013. Medindo a Diversidade Biológica. Editora da UFPR, Curitiba, 261p.). Reproduction modes were classified according to Haddad & Prado (2005)HADDAD, C.F.B. & PRADO, C.P.A. 2005. Reproductive Modes in Frogs and Their Unexpected Diversity in the Atlantic Forest of Brazil. Bioscience 55(3): 207-217, http://dx.doi.org/10.1641/0006-3568(2005)055[0207:RMIFAT]2.0.CO;2.
http://dx.doi.org/10.1641/0006-3568(2005... . The frequency of species occurrence in water bodies (expressed as a percentage) was determined by the presence of adults and/or tadpoles, and was analyzed by the constancy of occurrence index (c) (Dajoz 1983DAJOZ, R. 1983. Ecologia Geral. Petrópolis, Vozes. 472p.) for ponds and streams separately, such as to all water bodies together (i.e. pooled).

The composition of the APA do Ibirapuitã anurofauna was compared with the composition recorded in other areas characterized as native grassland vegetation in the southernmost of South America (see Figure 1 and Table 2). The comparison between anuran communities from different areas can be affected by unequal sampling effort, size of the sampling area, characteristics and conservation status of the localities, and differences in taxonomic concepts used by researchers (Santos et al. 2009SANTOS, T.G., VASCONCELOS, T.S., ROSSA-FERES, D.C. & HADDAD, C.F.B. 2009. Anurans of a seasonally dry tropical forest: Morro do Diabo State Park, São Paulo state, Brazil. Journal of Natural History 43: 973-993, http://dx.doi.org/10.1080/00222930802702498.
http://dx.doi.org/10.1080/00222930802702... , Iop et al. 2011IOP, S., CALDART, V.M., SANTOS, T.G. & CECHIN, S.Z. 2011. Anurans of Turvo State Park: testing the validity of Seasonal Forest as a new biome in Brazil. Journal of Natural History45(39-40): 2443-2461, http://dx.doi.org/10.1080/00222933.2011.596951.
http://dx.doi.org/10.1080/00222933.2011.... ). Therefore, some precautions were taken to minimize potential limitations in the comparison: work was included in the analyses that had sampling effort for at least a year or reproductive season (temporal and/or spatial), species listed as sp, gr. (group of species), cf. (confer) or aff. (affinis) were excluded, and the exotic species Lithobates catesbeianus was not considered in the analysis.

The similarity between the communities of species was calculated using the ‘coefficient of graphical resemblance’ (CGR) (Duellman 1990DUELLMAN, W.E. 1990. Herpetofaunas in neotropical rainforests: comparative composition, history, and resource use. In: Four Neotropical Rainforests (Gentry, A.H., ed.). New Haven, Yale University Press.), where GSC = 2NS/ NA + NB (NS = number of species in both areas, NA = number of species in area A, NB = number of species in area B). This index ranges from 0 (maximum dissimilarity) to 1 (maximum similarity). The similarity matrix is represented by cluster analysis (UPGMA) and the statistical significance of all possible groups was determined by the similarity profile test (SIMPROF) (Clarke & Gorley 2006CLARKE, K.R. & GORLEY, R.N. 2006. Software PRIMER v.6. PRIMER-E, Plymouth UK.). The SIMPROF is based on a series of permutation tests as null hypothesis and the lack of structuring of the samples. Thus, the test calculates an expected profile similarity permuted 1,000 times from input variables in the subset of samples, which produces a null average profile (i.e., unstructured group) that is statistically compared (999 times) with the real profile similarity by absolute distances (Phi) (Clarke & Gorley 2006CLARKE, K.R. & GORLEY, R.N. 2006. Software PRIMER v.6. PRIMER-E, Plymouth UK.).

To check the influence of geographic distance (measured in km) on the similarity matrix for frog species composition among the locations studied, a Mantel test was conducted (Manly 2000MANLY, B.F.G. 2000. Multivariate statistical methods-a primer. Boca Raton (FL), Chapman and Hall/CRC.). This test correlates matrices using the Z statistic, where Z depends on the number and size of the matrix elements to be compared. Therefore, normalization was carried out in order to transform the Z coefficient (r) to a value ranging from +1 to -1, and statistical significance was determined using 5,000 Monte Carlo permutations (Smouse et al. 1986SMOUSE, P.E., LONG, J.C. & SOKAL, R.R. 1986. Multiple regression and correlation extensions of the Mantel test of matrix correspondence. Systematic Zoology 35(4): 627-632, http://dx.doi.org/10.2307/2413122.
http://dx.doi.org/10.2307/2413122... ).

Results

The study resulted in 32 anuran species being recorded, belonging to six families: Alsodidade (1 species), Bufonidae (6 species), Hylidae (11 species), Leptodactylidae (12 species), Microhylidae (1 species) and Odontophrynidae (1 species) (Table 1). A total of 26 species were recorded during field activities (Figures 2 and 3) and six other species (Dendropsophus nanus, Hypsiboas albopunctatus, Leptodactylus fuscus, Melanophryniscus sanmartini, Rhinella dorbignyi and R. fernadezae), were recorded during the review of scientific collections. The species accumulation curve is still on the rise and the estimators showed a richness of 27.38 (± 0; Bootstrap), 32.38 (± 8.06; Chao II), 32.35 (± 0.01; ICE), 30.91 (± 2.31; Jackknife I) and 35.77 (± 0; Jackknife II) (Figure 4a).

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Table 1
Species of amphibians recorded in the Área de Proteção Ambiental do Ibirapuitã and surrounding areas, Rio Grande do Sul, Brazil. RM = reproductive mode, FR = form of registration (a = adult, t = tadpole, sc = scientific collection, * = recorded in complementary sampling), CO = constancy of occurrence (%), P = pond, S= stream, T = Total (ponds and streams).

Figure 2
Amphibians species found in the Área de Proteção Ambiental do Ibirapuitã, Rio Grande do Sul, Brazil. a = Limnomedusa macroglossa, b = Melanophryniscus atroluteus, c = M. devincenzii, d = Rhinella schneideri, e = Dendropsophus minutus, f = D. sanborni, g = Hypsiboas pulchellus, h = Phyllomedusa iheringii, i = Pseudis minuta, j = Scinax fuscovarius, k = S. granulatus, l = S. squalirostris. Photos: Ana Maria R. Bolzan (a, e, f, h, i, j, ), Suélen S. Alves (l), Tiago G. dos Santos (b, c), Vitor F. Oliveira (d, g, k).

Figure 3
Amphibians species found in the Área de Proteção Ambiental do Ibirapuitã, Rio Grande do Sul, Brazi. a = Scinax uruguayus, b = Leptodactylus chaquensis, c = L. gracilis, d = L. latinasus, e = L. latrans, f = L. mystacinus, g = Physalaemus biligonigerus, h = P. henselii, i = Pseudopaludicola falcipes, j = Elachistocleis bicolor, k = Odontophrynus americanus. Photos: Ana Maria R. Bolzan (a, b, c, f, g, h, i, j), Suélen S. Alves (k), Tiago G. dos Santos (d), Vitor F. Oliveira (e).

Five reproductive modes were recorded among the 32 species of frogs in the APA and surroundings. Mode 1, with eggs and exotrophic tadpoles in lentic bodies of water, was the most common (n = 18, 57.5%). The second most recorded was mode 11, with eggs in a nest of floating foam in lentic bodies of water (n = 7, 21.2%). The third most used reproductive mode was 30, which consists of a foam nest with eggs and early larval stages in nests built underground (n = 4, 12.1%), followed by mode 2 which consists of eggs and exotrophic tadpoles in lotic water bodies (n = 2; 6.1%). Finally, the least common observation was mode 24, which consists of arboreal eggs that hatch exotrophic tadpoles that fall into lentic bodies of water (n = 1, 3.1%, Table I).

In total the most abundant species for APA and surroundings was Pseudopaludicola falcipes (29.3%, n = 130), followed by Physalaemus biligonigerus (12.6%, n = 56) and Hypsiboas pulchellus (9.53%, n = 42) (Figure 4b). H. pulchellus was the species most frequently registered in ponds (68%) and streams (75%) as well as in total water bodies (70%). Odontophrynus americanus was the second most commonly occurring species among the total number of sampled water bodies (47%). In streams, Limnomedusa macroglossa was the second most frequent species (63%) and occurred only in those environments, followed by O. americanus (58%). In ponds, the second most common species was P. biligonigerus (58%), followed by P. falcipes (50%) (Table 1).

Figure 4
Frog species accumulation curve (a). The line represents the average curve generated from 500 randomizations and the vertical bars represent 95% confidence intervals. Whittaker plot (b), bars represents the relative abundance (%) and top numbers the total abundance of species in calling activity registered in the Área de Proteção Ambiental do Ibirapuitã, Rio Grande do Sul, Brazil. Dsan = Dendropsophus sanborni, Ebic = Elachistocleis bicolor, Hpul = Hypsiboas pulchellus, Llati = Leptodactylus latinasus, Llatr = L. latrans, Lmys = L. mystacinus, Lmac = Limnomedusa macroglossa, Matr = Melanophryniscus atroluteus, Pihe = Phyllomedusa iheringii, Pbil = Physalaemus biligonigerus, Pcuv = P. cuvieri, Pmin = Pseudis minuta, Pfal = Pseudopaludicola falcipes, Rsch = Rhinella schneideri, Sgra = Scinax granulatus, Suru = S. uruguayus.

Cluster analysis between grassland localities showed the formation of five groups with more than 50% similarity in frog species composition: Group 1 comprised localities of flat terrain and low elevation (30 m) (Hasenack et al. 2010HASENACK, H., WEBER, E.J., BOLDRINI, I.I. & TREVISAN, R. 2010. Mapa de sistemas ecológicos da ecorregião das savanas uruguaias em escala 1:500.000 ou superior e relatório técnico descrevendo insumos utilizados e metodologia de elaboração do mapa de sistemas ecológicos. Porto Alegre, UFRGS, Centro de Ecologia. 18p.); Group 2 consisted of localities from relatively mild to strongly ridged (mountainous areas) with altitudes between 30-500 m (Evia & Gudynas 2000EVIA, G. & GUDYNAS, E. 2000. Ecología del Paisaje en Uruguay. DINAMA (Dirección Nacional de Medio Ambiente), Junta de Andalucía. Sevilla, EGONDI Artes Gráficas, 173p., Hasenack et al. 2010HASENACK, H., WEBER, E.J., BOLDRINI, I.I. & TREVISAN, R. 2010. Mapa de sistemas ecológicos da ecorregião das savanas uruguaias em escala 1:500.000 ou superior e relatório técnico descrevendo insumos utilizados e metodologia de elaboração do mapa de sistemas ecológicos. Porto Alegre, UFRGS, Centro de Ecologia. 18p.); Group 3 consists of localities in the Coastal Plain of Rio Grande do Sul (Zaions 1989ZAIONS, M. 1989. Mapa Morfológico do Estado do Rio Grande do Sul. Rio de Janeiro, RJ, Aerofoto Cruzeiro.); Group 4 consists just one locality in a coastal plain of Uruguay; Group 5 consists of localities lowlands of de chaquean region in Argentina (Morrone 2010MORRONE, J.J. 2010. América do Sul e geografoa da vida: Comparação de algumas propostas de regionalização, p. 14-40. In:Biogeografia da América do Sul: Padrões e processos (Carvalho, C.J.B. & Almeida, E.A.B., eds.). Roca Limitada, São Paulo.) (Figure 5). The Mantel test showed that anuran communities geographically closest are also more similar in composition (r = 0.64, p < 0.01).

Figure 5
Similarity between anuran communities in grassland areas of the southernmost of South America, using the Coefficient of Geographical Resemblance (CGR). Groups: 1 = locations composed of flat terrain up to 30m above sea level; 2 = composed of localities with ridged and/or smooth ground in Brazil and Uruguay; 3 = consists of localities belonging to the coastal region of Rio Grande do Sul; 4 = consists of Maldonado, Uruguay localities; 5 = consists of Argentinian localities with Chaquenha influence (Abbreviations: see ). The black lines represent statistically significant groups (p <0.05), while the red lines indicate statistical absence (p > 0.05) in the subgroup structure.

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Table 2
Communities of amphibians in native open grasslands compared with the records obtained in the Área de Proteção Ambiental do Ibirapuitã, Rio Grande do Sul, Brazil.

Discussion

Species richness for the APA do Ibirapuitã and surroundings is high, representing about 40% of amphibians known to exist in Brazilian Southern Grasslands (Santos et al. 2014SANTOS, T.G., IOP, S. & ALVES, S.S. 2014. Anfíbios dos Campos Sulinos: diversidade, lacunas de conhecimento, desafios para a conservação e perspectivas. Herpetologia Brasileira 3(2): 51-59.) and approximately 55% of the total known species for the Uruguayan Savanna ecoregion (Garcia et al. 2007GARCIA, P.C.A., LAVILLA, E., LANGONE, J. & SEGALLA, M.V. 2007. Anfíbios da região subtropical da América do Sul, Padrões de distribuição. Ciência & Ambiente 35: 65-100.). Despite the species accumulation curve not showing a trend towards stabilization, the richness estimators showed a maximum value very close to the total obtained after incorporate records in scientific collections. At least four other species of frogs (Leptodactylus furnarius, Melanophryniscus langonei, Rhinella achavali and Scinax nasicus), have confirmed occurrence in relatively nearby locations near the study area (e.g., Maneyro & Carreira 2012MANEYRO, R. & CARREIRA, S. 2012. Guía de Anfibios del Uruguay. Colección Ciencia Amiga, Ediciones de la fuga, 207p.), which, if present in future studies would indicate a total richness of 36 frog species in the APA do Ibirapuitã.

The characteristics of the APA do Ibirapuitã landscape are reflected by the low diversity of reproductive modes, and by the predominance of generalized modes and/or those that favor resistance to desiccation (modes 1 and 11, 78.7%). Reproductive mode diversity tends to be higher in forested habitats (most representative of terrestrial reproductive modes), mainly due to high temperatures, high rainfall and high atmospheric humidity, which in combination prevent egg desiccation (Prado et al. 2005PRADO, C.P.A., UETANABARO, M. & HADDAD, C.F.B. 2005. Breeding activity patterns, reproductive modes, and habitat use by anurans (Amphibia) in a seasonal environment in the Pantanal, Brasil. Amphibia-Reptilia 26: 211-221, http://dx.doi.org/10.1163/1568538054253375.
http://dx.doi.org/10.1163/15685380542533... ). Indeed, the hypothesis that sites with high humidity levels support higher diversity of reproductive modes than drier sites has been reforced in studies in geographic scale of Brazilian biomes and inside the Atlantic Forest biome (Vasconcelos et al. 2010VASCONCELOS, T.S., SANTOS, T.G., HADDAD, C.F.B. & ROSSA-FERES, D.C. 2010. Climatic variables and altitude as predictors of anuran species richness and number of reproductive modes in Brazil. Journal of Tropical Ecology 31:423-432, http://dx.doi.org/10.1017/S0266467410000167.
http://dx.doi.org/10.1017/S0266467410000... , Da Silva et al. 2012DA SILVA, F.R., M. ALMEIDA-NETO, DO PRADO, V.H.M., HADDAD, C.F.B., ROSSA-FERES, D.C. 2012. Humidity levels drive reproductive modes and phylogenetic diversity of amphibians in the Brazilian Atlantic forest. Journal of Biogeography 39:1720-1732, http://dx.doi.org/10.1111/j.1365-2699.2012.02726.x.
http://dx.doi.org/10.1111/j.1365-2699.20... , respectively). Due to both summer drought associated with grassy biome and the physical homogeneity of open habitats, more general reproductive modes were expected to predominate in our study area (Duellman & Trueb 1994DUELLMAN, W.E. & TRUEB, L. 1994. Biology of Amphibians. Baltimore and London: McGraw-Hill. 670p., Prado et al. 2005PRADO, C.P.A., UETANABARO, M. & HADDAD, C.F.B. 2005. Breeding activity patterns, reproductive modes, and habitat use by anurans (Amphibia) in a seasonal environment in the Pantanal, Brasil. Amphibia-Reptilia 26: 211-221, http://dx.doi.org/10.1163/1568538054253375.
http://dx.doi.org/10.1163/15685380542533... , Santos et al. 2008SANTOS, T.G., KOPP, K., SPIES, M.R., TREVISAN, R. & CECHIN, S.Z. 2008. Distribuição temporal e espacial de anuros em área de Pampa, Santa Maria, RS. Iheringia, Série Zoologia 98(2): 244-253, http://dx.doi.org/10.1590/S0073-47212008000200013.
http://dx.doi.org/10.1590/S0073-47212008... ). Likewise, many intermediate modes, such as foam nests, are found in dry areas or seasonal environments with high temperatures and flutuating water levels (Crump 2015CRUMP, M. 2015. Anuran Reproductive Modes: Evolving Perspectives. Journal of Herpetology 49(1): 1-16, http://dx.doi.org/10.1670/14-097.
http://dx.doi.org/10.1670/14-097... ). These environmental features also are present in the study area, what can explain the high contribution of species with foam nests (modes 11 and 30). In this context, we highlight that future studies are needed to better understand and access patterns of reproductive modes inside the geographical scale of southern grassland ecosystems.

The composition of anurofauna recorded in this study is similar to other frog communities sampled in Pampa (e.g., Di-Bernardo et al. 2004DI-BERNARDO, M., OLIVEIRA, R.B., PONTES, G.M.F., MELCHIORS, J., SOLÉ M. & KWET, A. 2004. Anfíbios anuros da região de extração e processamento de carvão de Candiota, RS, Brasil, p.163-175. In Estudos ambientais em Candiota - carvão e seus impactos (Teixeira, E.C. ed.). FINEP/PDACT/CIAMB/FAPERGS/FEPAM. Porto Alegre, v. 4, 497p., Santos et al. 2008SANTOS, T.G., KOPP, K., SPIES, M.R., TREVISAN, R. & CECHIN, S.Z. 2008. Distribuição temporal e espacial de anuros em área de Pampa, Santa Maria, RS. Iheringia, Série Zoologia 98(2): 244-253, http://dx.doi.org/10.1590/S0073-47212008000200013.
http://dx.doi.org/10.1590/S0073-47212008... , Both et al. 2011BOTH, C., MELO, A.S., CECHIN, S.Z. & HARTZ, S.M. 2011. Tadpole co-occurrence in ponds: When do guilds and time matter? Acta Oecologica 37: 140-145, http://dx.doi.org/10.1016/j.actao.2011.01.008.
http://dx.doi.org/10.1016/j.actao.2011.0... , Prigioni et al. 2011PRIGIONI, C., BORTEIRO, C. & KOLENC, F. 2011. Amphibia and Reptilia, Quebrada de los Cuervos, Departamento de Treinta e Tres, Uruguay. Check List 7(6): 763-767, http://dx.doi.org/10.15560/11021.
http://dx.doi.org/10.15560/11021... ), with greatest representation from the families Hylidae and Leptodactylidae. A similar pattern has been reported in other Brazilian biomes, including Cerrado (Kopp et al. 2010KOPP, K., SIGNORELLI, L. & BASTOS, R.P. 2010. Distribuição temporal e diversidade de modos reprodutivos de anfíbios anuros no Parque Nacional das Emas e entorno, estado de Goiás, Brasil. Iheringia, Série Zoologia 100(3): 192-200.), Atlantic Forest (Bastiani & Lucas 2013BASTIANI, V.I.M. & LUCAS, E.M. 2013. Anuran diversity (Amphibia, Anura) in a Seasonal Forest fragment in southern Brazil. Biota Neotropica 13(1): 255-264. Available online at: http://www.biotaneotropica.org.br/v13n1/en/abstract?inventory+bn02413012013, doi: http://dx.doi.org/10.1590/S1676-06032013000100025.
http://www.biotaneotropica.org.br/v13n1/... , Garey et al. 2014GAREY, M.V., PROVETE, D.B., MARTINS, I.A., HADDAD, C.F.B. & ROSSA-FERES, D.C. 2014. Anurans from the Serra da Bocaina National Park and surrounding buffer area, southeastern Brazil. Check List 10(2): 308-316, http://dx.doi.org/10.15560/10.2.308.
http://dx.doi.org/10.15560/10.2.308... ), Amazon (Bernarde 2007BERNARDE, P.S. 2007. Ambientes e temporada de vocalização da anurofauna no Município de Espigão do Oeste, Rondônia, Sudoeste da Amazônia - Brasil (Amphibia: Anura). Biota Neotropica 7(2): 88-92. Available online at: http://www.biotaneotropica.org.br/v7n2/pt/abstract?article+bn01507022007.
http://www.biotaneotropica.org.br/v7n2/p... ), Pantanal (Prado et al. 2005PRADO, C.P.A., UETANABARO, M. & HADDAD, C.F.B. 2005. Breeding activity patterns, reproductive modes, and habitat use by anurans (Amphibia) in a seasonal environment in the Pantanal, Brasil. Amphibia-Reptilia 26: 211-221, http://dx.doi.org/10.1163/1568538054253375.
http://dx.doi.org/10.1163/15685380542533... ) and Caatinga (Vieira et al. 2007VIEIRA, W.L.S., ARZABE, C.& SANTANA, G.G. 2007. Composição e distribuição espaço-temporal de anuros no Cariri Paraibano, Nordeste do Brasil. Oecologia Brasiliensis 11(3): 383-396, http://dx.doi.org/10.4257/oeco.2007.1103.08.
http://dx.doi.org/10.4257/oeco.2007.1103... ), locally reflecting historical patterns of global diversification of Hylidae, and Neotropical diversification of Leptodactylidae, respectively (Frost 2014FROST, D.R. 2014. Amphibian Species of the World: an Online Reference. Version 6.0. American Museum of Natural History, New York, USA. Available online at: http://research.amnh.org/herpetology/amphibia/index.html (último acesso em março de 2015).
http://research.amnh.org/herpetology/amp... ).

Most species that make up the frog community in the APA do Ibirapuitã are characteristic of open areas (natural and/or anthropic) of Brazil, and those of neighboring countries (sensu Santos et al. 2014SANTOS, T.G., IOP, S. & ALVES, S.S. 2014. Anfíbios dos Campos Sulinos: diversidade, lacunas de conhecimento, desafios para a conservação e perspectivas. Herpetologia Brasileira 3(2): 51-59.). Among the species recorded, Melanophryniscus devincenzii and M. sanmartini are threatened with global extinction, and are currently in the endangered category (EN) (IUCN 2014IUCN. 2014. The IUCN Red List of Threatened Species. Version 2014.3. Available online at: http://www.iucnredlist.org (último acesso em março de 2015).
http://www.iucnredlist.org... ) due to restricted geographic distribution and habitat fragmentation. M. sanmartini is still considered threatened at the state level, the category Near Threatened (NT) (Rio Grande do Sul 2014Rio Grande do Sul. 2014. Decreto n° 51797, de 08 de setembro de 2014. Declara as Espécies da Fauna Silvestre Ameaçadas de Extinção no Estado do Rio Grande do Sul. Governo do Estado do Rio Grande do Sul, Palácio Piratini, Porto Alegre.).

The pattern of distribution of species abundance in the study area can be interpreted as indicative of strong species dominance, as the most abundant species in the Whittaker diagram represented more than twice of the relative abundance of the second species. This heterogeneity in the distribution of abundance in the study area may be a consequense of environmental characteristics at regional level (Tews et al. 2004TEWS, J., BROSE, U., GRIMM, V., TIELBORGER, K., WICHMANN, M.C., SCHWAGER, M. & JELTSCH, F. 2004. Animal species diversity driven by habitat heterogeneity/diversity: the importance of keystone structures. Journal of Biogeography 31: 79-92, http://dx.doi.org/10.1046/j.0305-0270.2003.00994.x.
http://dx.doi.org/10.1046/j.0305-0270.20... , Werner et al. 2009WERNER, E.E., RELYEA, R.A., YUREWICZ, K.L., SKELLY, D.K. & DAVIS, C.J. 2009. Comparative landscape dynamics of two anuran species: climate-driven interaction of local and regional processes. Ecological Monographs 79: 503-521, http://dx.doi.org/10.1890/08-1047.1.
http://dx.doi.org/10.1890/08-1047.1... , Magurran 2013MAGURRAN, A.E. 2013. Medindo a Diversidade Biológica. Editora da UFPR, Curitiba, 261p.), including shallow and stony soils with low moisture retention and drought in summer; these and other factors have lead researchers to indicate the site as a stressful environment (Boldrini 2009BOLDRINI, I.I. 2009. A flora dos campos do Rio Grande do Sul, p.63-77. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P, Müller, S.C, Castilhos, Z.M.S, Jacques, A.V.A, eds.). MMA, Brasília/DF. 403p., Boldrini & Longhi-Wagner 2011BOLDRINI, I.I. & LONGHI-WAGNER, H.M. 2011. Poaceae no Rio Grande do Sul: Diversidade, importância na fitofisionomia e conservação. Ciência & Ambiente 42:71-92.). Indeed, these environmental conditions cause desiccation of most ponds and streams in the hottest period of the year, restricting the supply of breeding sites, and a pattern of strong species dominance is expected under such environmental stress (Odum 1988ODUM, E.P. 1988. Ecologia. Rio de Janeiro, Guanabara, 434p.). This pattern of distribution of species abundance related to the environmental characteristics also occurs in other groups like mammals (Gheler-Costa et al. 2012GHELER-COSTA, C., VETTORAZZI, C.A., PARDINI, R. & VERDADE, L.M. 2012. The distribution and abundance os small mammals in agroecosystems of southeastern Brazil. Mammalia 76(2012): 185-191, http://dx.doi.org/10.1515/maMMAlia-2011-0109.
http://dx.doi.org/10.1515/maMMAlia-2011-... ), birds (Enríquez-Lenis et al. 2006ENRĺQUEZ-LENIS, M.L., SÁENZ, J.C. & IBRAHIM, M. 2006. Riqueza, abundancia y diversidad de aves y su relación con la cobertura arbórea en un agropaisaje dominado por la ganadería en el trópico subhúmedo de Costa Rica. Agroforesteía en las Américas 45: 49-57.) and reptiles (Cruz-Elizalde & Ramírez-Bautista 2012CRUZ-ELIZALDE, R. & RAMĺREZ-BAUTISTA, A. 2012. Diversidad de reptiles en tres tipos de vegetación del estado de Hidalgo, México. Revista Mexicana de Biodiversidad 83: 458-467.).

Most of the species recorded in the study area are considered generalists with respect to habitat use (62.5% occurred both in ponds and in streams). But at least two species, including Limnomedusa macroglossa and Melanophryniscus devincenzii, are typical of streams. L. macroglossa exhibits high habitat affinity, found exclusively in rocky areas associated with rivers and streams with clear water (Di-Bernardo et al. 2004DI-BERNARDO, M., OLIVEIRA, R.B., PONTES, G.M.F., MELCHIORS, J., SOLÉ M. & KWET, A. 2004. Anfíbios anuros da região de extração e processamento de carvão de Candiota, RS, Brasil, p.163-175. In Estudos ambientais em Candiota - carvão e seus impactos (Teixeira, E.C. ed.). FINEP/PDACT/CIAMB/FAPERGS/FEPAM. Porto Alegre, v. 4, 497p., Kwet et al. 2010KWET, A., LINGNAU, R. & DI-BERNARDO, M. 2010. Pró-Mata: Anfíbios da Serra Gaúcha, sul do Brasil - Amphibien der Serra Gaúcha, Südbrasilien - Amphibians of the Serra Gaúcha, South of Brasil. Brasilien-Zentrum, University of Tübingen, Germany, 148p., Maneyro & Carreira 2012MANEYRO, R. & CARREIRA, S. 2012. Guía de Anfibios del Uruguay. Colección Ciencia Amiga, Ediciones de la fuga, 207p.). The three most abundant species (Pseudopaludicola falcipes, Physalaemus biligonigerus and Hypsiboas pulchellus) were also occurred more frequently among the total sampled bodies of water, and are very common species in Uruguayan Savannah ecoregion grasslands (Santos et al. 2008SANTOS, T.G., KOPP, K., SPIES, M.R., TREVISAN, R. & CECHIN, S.Z. 2008. Distribuição temporal e espacial de anuros em área de Pampa, Santa Maria, RS. Iheringia, Série Zoologia 98(2): 244-253, http://dx.doi.org/10.1590/S0073-47212008000200013.
http://dx.doi.org/10.1590/S0073-47212008... , Machado & Maltchik 2010MACHADO, I.F. & MALTICK, L. 2010. Can management practices in rice fields contribute to amphibian conservation in southern Brazilian wetlands? Aquatic Conservation: Marine and Freshwater Ecosystems 20: 39-46, http://dx.doi.org/10.1002/aqc.1070.
http://dx.doi.org/10.1002/aqc.1070... , Maragno et al. 2013MARAGNO, F.P., SANTOS, T.G. & CECHIN, S.Z. 2013. The role of phytophysiognomies and seasonality on the structure of ground-dwelling anuran (Amphibia) in the Pampa biome, southern Brazil. Anais da Academia Brasileira de Ciências. Available online at: www.scielo.br/aabc.
www.scielo.br/aabc... ).

The results of the similarity analysis were heavily influenced by geographical proximity between locations, since the geographically closest locations (such as most locations in flat terrain of Rio Grande do Sul in Group 1, and those in center-southern Rio Grande do Sul and center Uruguay in Group 2) were also more similar in anurofauna. On the other hand, locations geographically apart (such as those in lowlands of de chaquean region of Argentina in Group 5, and the cost plain of Uruguay in Group 4) presented low similarity in anurofauna with other locations. Similar effects of geographical proximity were previously reported on analyses of taxonomic composition in anuran assemblages (see Bertoluci et al. 2007BERTOLUCI, J., BRASSALOTI, R.A., JÚNIOR, J.W.R., VILELA, V.M.F.N. & SAWAKUCHI, H.O. 2007. Species composition and similarities among anuran assemblages of forests in south-eastern Brazil. Scientia Agricola 64(4): 364-374, http://dx.doi.org/10.1590/S0103-90162007000400007.
http://dx.doi.org/10.1590/S0103-90162007... ; Santos et al. 2009SANTOS, T.G., VASCONCELOS, T.S., ROSSA-FERES, D.C. & HADDAD, C.F.B. 2009. Anurans of a seasonally dry tropical forest: Morro do Diabo State Park, São Paulo state, Brazil. Journal of Natural History 43: 973-993, http://dx.doi.org/10.1080/00222930802702498.
http://dx.doi.org/10.1080/00222930802702... ; Iop et al. 2011IOP, S., CALDART, V.M., SANTOS, T.G. & CECHIN, S.Z. 2011. Anurans of Turvo State Park: testing the validity of Seasonal Forest as a new biome in Brazil. Journal of Natural History45(39-40): 2443-2461, http://dx.doi.org/10.1080/00222933.2011.596951.
http://dx.doi.org/10.1080/00222933.2011.... ) and these spatial structures can be related to neutral process of dispersion (Leibold et al. 2004LEIBOLD, M.A., HOLYOAK, M. & MOUQUET, N. 2004. The metacommunity concept: a framework for multiscale community ecology. Ecology Letters 7: 601-6013, http://dx.doi.org/10.1111/j.1461-0248.2004.00608.x.
http://dx.doi.org/10.1111/j.1461-0248.20... ), as wells as to spatially-structured environment (Legendre & Legendre 2012LEGENDRE, P. & LEGENDRE, L. 2012. Numerical Ecology (Developments in Environmental). Modelling, Elsevier.). Our study was not specifically delineated to assess the origins of these spatial structures, nor can exclude other possible effects like anthropogenic pressure, but is expected that neutral processes are dominant in open areas (Prado & Rossa-Feres 2014PRADO, V.H.M. & ROSSA-FERES, D.D.C. 2014. The influence of niche and neutral processes on a neotropical anuran metacommunity. Austral Ecology 39(5): 540-547, http://dx.doi.org/10.1111/aec.12114.
http://dx.doi.org/10.1111/aec.12114... ).

Anurofauna of Group 1 is primarily under Atlantic and/or lagoon influences, including species such as Hypsiboas faber and Trachycephalus mesophaeus present in some locations, and two exclusive species (Argenteohyla siemersi and Melanophryniscus montevidensis) in one location of north coastal Uruguay. The former two species utilize forest areas (primary or secondary) and forest edges for reproduction (Armstrog & Conte 2010ARMSTRONG, C.G. & CONTE, C.E. Taxocenose de anuros (Amphibia: Anura) em uma área de Floresta Ombrófila Densa no Sul do Brasil. Biota Neotropica 10(1): 41-46. Available online at: http://www.biotaneotropica.org.br/v10n1/en/abstract?article+bn00610012010.
http://www.biotaneotropica.org.br/v10n1/... , Kwet et al. 2010KWET, A., LINGNAU, R. & DI-BERNARDO, M. 2010. Pró-Mata: Anfíbios da Serra Gaúcha, sul do Brasil - Amphibien der Serra Gaúcha, Südbrasilien - Amphibians of the Serra Gaúcha, South of Brasil. Brasilien-Zentrum, University of Tübingen, Germany, 148p., Maffei et al. 2011MAFFEI, F., UBAID, F.K. & J. JIM. 2011. Anfíbios da Fazenda Rio Claro, Lençóis Paulista, SP. Bauru, SP, Canal 6, 128p.), while the second couple reproduces in coastal environments (Maneyro & Carreira 2012MANEYRO, R. & CARREIRA, S. 2012. Guía de Anfibios del Uruguay. Colección Ciencia Amiga, Ediciones de la fuga, 207p.).

The Group 2 is associated to a landscape in mosaic composed by grasslands in hills with patches of forests on the slopes of hills and rocky outcrops, and generally narrow valleys with streams with riparian vegetation (Evia & Gudynas 2000EVIA, G. & GUDYNAS, E. 2000. Ecología del Paisaje en Uruguay. DINAMA (Dirección Nacional de Medio Ambiente), Junta de Andalucía. Sevilla, EGONDI Artes Gráficas, 173p.). At least three species give consistency to this group: Limnomedusa macroglossa, Phyllomedusa iheringii and Scinax uruguayus. L. macroglossa shows high habitat affinity and its distribution is always associated with rocky (Gudynas & Gehrau 1981GUDYNAS, E. & GEHRAU, A. 1981. Notas sobre la distribuicion y ecologia de Limnomedusa macroglossa (Dumeril e Bibron, 1841) en Uruguay (Anura, Leptodactylidae). Iheringia, Série Zoologica 60: 81-99., Achaval & Olmos 2007ACHAVAL, F. & OLMOS, A. 2007. Anfibios y Reptiles del Uruguay. 3aed. Zonalibro Industria Gráfica, Montevideo, Uruguay, 160p., Maneyro & Carreira 2012MANEYRO, R. & CARREIRA, S. 2012. Guía de Anfibios del Uruguay. Colección Ciencia Amiga, Ediciones de la fuga, 207p.). P. iheringii is associated with riparian forest and shrub vegetation, and has a preference for lotic water bodies (Maneyro & Carreira 2012MANEYRO, R. & CARREIRA, S. 2012. Guía de Anfibios del Uruguay. Colección Ciencia Amiga, Ediciones de la fuga, 207p.). S. uruguayus is a typical hill species, and uses environments with grass and shrub vegetation (Maneyro & Langone 2001MANEYRO, R. & LANGONE, J.A. 2001. Categorización de los anfibios del Uruguay. Cuadernos de Herpetología 15:107-118., Di-Bernardo et al. 2004DI-BERNARDO, M., OLIVEIRA, R.B., PONTES, G.M.F., MELCHIORS, J., SOLÉ M. & KWET, A. 2004. Anfíbios anuros da região de extração e processamento de carvão de Candiota, RS, Brasil, p.163-175. In Estudos ambientais em Candiota - carvão e seus impactos (Teixeira, E.C. ed.). FINEP/PDACT/CIAMB/FAPERGS/FEPAM. Porto Alegre, v. 4, 497p., Prigioni et al. 2011PRIGIONI, C., BORTEIRO, C. & KOLENC, F. 2011. Amphibia and Reptilia, Quebrada de los Cuervos, Departamento de Treinta e Tres, Uruguay. Check List 7(6): 763-767, http://dx.doi.org/10.15560/11021.
http://dx.doi.org/10.15560/11021... ).

Group 3 is related to assemblages with low species richness in two coastal plain locations of Rio Grande do Sul state that feature flat terrain and low altitude (0 to 30m) (Hasenack et al. 2010HASENACK, H., WEBER, E.J., BOLDRINI, I.I. & TREVISAN, R. 2010. Mapa de sistemas ecológicos da ecorregião das savanas uruguaias em escala 1:500.000 ou superior e relatório técnico descrevendo insumos utilizados e metodologia de elaboração do mapa de sistemas ecológicos. Porto Alegre, UFRGS, Centro de Ecologia. 18p.). These locations resemble by most wide distributed anuran species and just one species (Odontophrynus maisuma) considered an integral part of the coastal faunal association (Maneyro & Carreira 2012MANEYRO, R. & CARREIRA, S. 2012. Guía de Anfibios del Uruguay. Colección Ciencia Amiga, Ediciones de la fuga, 207p.).

Group 4 represent a location in south cost plain of Uruguay (Maldonado) characterized by a low richness of anurans (Canavero et al. 2008CANAVERO, A., ARIM, M., NAYA, D.E., CAMARGO, A., ROSA, I. & MANEYRO, R. 2008. Calling activity patterns in an anuran assemblage: the role of seasonal trends and weather determinants. North-Western journal of Zoology 4(1): 29-41.). All species recorded in this location are generalists and occurred in the other groups. Finally, most species in Group 5 are related to the eastern portion of the Brazilian states of Mato Grosso, Mato Grosso do Sul, Paraná, Santa Catarina, Rio Grande do Sul, and in neighboring countries (Maneyro & Carreira 2012MANEYRO, R. & CARREIRA, S. 2012. Guía de Anfibios del Uruguay. Colección Ciencia Amiga, Ediciones de la fuga, 207p., Frost 2014FROST, D.R. 2014. Amphibian Species of the World: an Online Reference. Version 6.0. American Museum of Natural History, New York, USA. Available online at: http://research.amnh.org/herpetology/amphibia/index.html (último acesso em março de 2015).
http://research.amnh.org/herpetology/amp... , IUCN 2014IUCN. 2014. The IUCN Red List of Threatened Species. Version 2014.3. Available online at: http://www.iucnredlist.org (último acesso em março de 2015).
http://www.iucnredlist.org... ). Seven species give consistency to this group: Hypsiboas raniceps, Leptodactylus podicipinus, Lysapsus limellum, Phyllomedusa azurea, P. hypocondrialis, Physalaemus albonotatus and Pseudis platensis (Peltzer & Lajmanovich 2004PELTZER, P.M. & LAJMANOVICH, R.C. 2004. Anuran tadpole assemblages in riparian areas of the Middle Paraná River, Argentina. Biodiversity Conservation 13: 1833-1842, http://dx.doi.org/10.1023/B:BIOC.0000035870.36495.fc.
http://dx.doi.org/10.1023/B:BIOC.0000035... , Ingaramo et al. 2012INGARAMO, M.R., ETCHEPARE, E.G., ÁLVAREZ, B.B. & PORCEL, E. 2012. Riqueza y composición de la fauna de anuros em la región oriental de la Reserva Natural Provincial Esteros del Iberá, Corrientes, Argentina. Revista de Biología Tropical 60(2): 759-769.).

Our work shows that native grasslands of Pampa biome are important for maintenance of anuran diversity, since the anurofauna in the APA do Ibirapuitã shows high species richness, typical of natural open areas, and includes species endemic to subtropical grasslands of South America. The APA lies within a region with the best-preserved grasslands of the Pampa biome in Brazil (Boldrini 2009BOLDRINI, I.I. 2009. A flora dos campos do Rio Grande do Sul, p.63-77. In: Campos Sulinos, conservação e uso sustentável da biodiversidade (Pillar, V.P, Müller, S.C, Castilhos, Z.M.S, Jacques, A.V.A, eds.). MMA, Brasília/DF. 403p., Boldrini & Longhi-Wagner 2011BOLDRINI, I.I. & LONGHI-WAGNER, H.M. 2011. Poaceae no Rio Grande do Sul: Diversidade, importância na fitofisionomia e conservação. Ciência & Ambiente 42:71-92.), with high priority for amphibian conservation (MMA 2007MMA. 2007. Áreas Prioritárias para Conservação, Uso Sustentável e Repartição de Benefícios da Biodiversidade. Ministério do Meio Ambiente, Secretaria de Biodiversidade e Florestas. MMA, Brasília/DF. 300p.). This includes the presence of globally endangered species (e.g., Melanophryniscus devincenzii, M. sanmartini) and species with high habitat affinity (e.g., Limnomedusa macroglossa).

The results of our work are the first knowledge base for anurofauna in the APA do Ibirapuitã, paving a path for future conservation actions for CUs, and stimulating future studies in this area. We highlighted that the lack of effective legislative restrictions on land use in this type of environmental protection area (Brazilian Federal Law n°. 9985/2000, art. 14 and 15) is a serious problem for the conservation of regional biodiversity, since this stimulate the increase of monoculture practices and power production responsible by fragmentation and habitat loss. While traditional extensive livestock is considered a sustainable activity promoting conservation of freshwater environments used as breeding sites by anurans at the grassland ecosystems (Moreira et al. 2015MOREIRA, L.F.B., MOURA, R.G., MALTCHIK, L. 2015. Stop and ask for directions: fators affeting anuran detection and occupancy in Pampa farmland ponds. Ecological Research. doi: http://dx.doi.org/10.1007/s11284-015-1316-9.
http://dx.doi.org/10.1007/s11284-015-131... ), like the APA do Ibirapuitã, fast changes in the productive matrix (mainly soybean cultivation and expansion of wind energy parks) represents a challenge for biodiversity conservation in this region that needs urgent attention.

Acknowledgements

We are grateful to Raul C.T.P. Coelho and ICMBio Santana do Livramento/RS, for their support and assistance in field logistics. We thank the residents, owners and staff who assisted us and allowed access to their farms. We are grateful to Diego M. Saraiva, Igor R. Morrudo, Luiz Mário Bolzan and Vitor F. Oliveira for help in the field activities, and Marcia R. Spies for authorizing the use of Primer-E software. A.M.R.B. and S.A.S. are grateful to CAPES and SisBiota Project "Biodiversity of grasslands and grassyland-forest ecotones in southern Brazil: ecological basis for conservation and sustainable use" (CNPq/FAPERGS n°. 563271/2010-8) for the MSc fellowships. T.G.S. thanks CNPq for the research fellowship (proc. 307352/2013-7). We are also grateful to T.S. Vasconcelos, S.Z. Cechin, and anonymous reviewers for the comments and suggestions on the manuscript.

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Publication Dates

Publication in this collection
June 2016

History

Received
4 Oct 2015
Reviewed
15 Feb 2016
Accepted
13 Apr 2016

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Localities	References	Abbreviation
Área de Proteção Ambiental do Ibirapuitã	Present study	APAI
Butiazais de Tapes, Rio Grande do Sul, Brazil	Borges-Martins et al. 2007BORGES-MARTINS, M., COLOMBO, P., ZANK, C., BECKER, F.G. & MELO, M.T.Q. 2007. Anfíbios. p.276-291. In: Biodiversidade: Regiões da Lagoa do Casamento e dos Butiazais de Tapes, Planície Costeira do Rio Grande do Sul (Becker, F.G., Ramos, R.A. & Moura, L.A., eds.). MMA, Brasília/DF, 387p.	BT
Caçapava do Sul, Rio Grande do Sul, Brazil	Both et al. 2011BOTH, C., MELO, A.S., CECHIN, S.Z. & HARTZ, S.M. 2011. Tadpole co-occurrence in ponds: When do guilds and time matter? Acta Oecologica 37: 140-145, http://dx.doi.org/10.1016/j.actao.2011.01.008. http://dx.doi.org/10.1016/j.actao.2011.0...	CS
Campo del Abasto, Rivera, Uruguay	Maneyro 2008MANEYRO, R. 2008. Check list of anurans (Amphibia, Anura) from "Campo del Abasto" and surroundings, Rivera Department, Uruguay. Boletín de la Sociedad Zoológica del Uruguay 17:34-41.	CA
Candiota, Rio Grande do Sul, Brazil	Di-Bernardo et al. 2004DI-BERNARDO, M., OLIVEIRA, R.B., PONTES, G.M.F., MELCHIORS, J., SOLÉ M. & KWET, A. 2004. Anfíbios anuros da região de extração e processamento de carvão de Candiota, RS, Brasil, p.163-175. In Estudos ambientais em Candiota - carvão e seus impactos (Teixeira, E.C. ed.). FINEP/PDACT/CIAMB/FAPERGS/FEPAM. Porto Alegre, v. 4, 497p.	CD
Cerro Verde, Rocha, Uruguay	Bardier & Maneyro 2015BARDIER, C. & MANEYRO, R. 2015. Invetory and conservation priorities for amphibian species from Cerro Verde (Rocha, Uruguay) and surroundings. Check List 11(2):1-8, http://dx.doi.org/10.15560/11.2.1581. http://dx.doi.org/10.15560/11.2.1581...	CV
Lagoa do Casamento, Rio Grande do Sul, Brazil	Borges-Martins et al. 2007BORGES-MARTINS, M., COLOMBO, P., ZANK, C., BECKER, F.G. & MELO, M.T.Q. 2007. Anfíbios. p.276-291. In: Biodiversidade: Regiões da Lagoa do Casamento e dos Butiazais de Tapes, Planície Costeira do Rio Grande do Sul (Becker, F.G., Ramos, R.A. & Moura, L.A., eds.). MMA, Brasília/DF, 387p.	LC
Maldonado, Uruguay	Canavero et al. 2008CANAVERO, A., ARIM, M., NAYA, D.E., CAMARGO, A., ROSA, I. & MANEYRO, R. 2008. Calling activity patterns in an anuran assemblage: the role of seasonal trends and weather determinants. North-Western journal of Zoology 4(1): 29-41.	MD
Mostardas, Rio Grande do Sul, Brazil	Machado & Maltchik 2010MACHADO, I.F. & MALTICK, L. 2010. Can management practices in rice fields contribute to amphibian conservation in southern Brazilian wetlands? Aquatic Conservation: Marine and Freshwater Ecosystems 20: 39-46, http://dx.doi.org/10.1002/aqc.1070. http://dx.doi.org/10.1002/aqc.1070...	MO
Parque Nacional da Lagoa do Peixe, Rio Grande do Sul, Brazil	Machado et al. 2012MACHADO, I.F., MOREIRA, L.F.B. & MALTCHIK L. 2012. Effects of pine invasion on anurans assemblage in southern Brazil coastal ponds. Amphibia-Reptilia 33: 227-237, http://dx.doi.org/10.1163/156853812X638518. http://dx.doi.org/10.1163/156853812X6385... , Moreira et al. 2010MOREIRA, L.F.B., MACHADO, I.F., GARCIA, T.V. & MALTCHIK, L. 2010. Factors influencing anuran distribution in coastal dune wetlands in southern Brazil. Journal of Natural History 44(23-24): 1493-1507, http://dx.doi.org/10.1080/00222931003632690. http://dx.doi.org/10.1080/00222931003632...	PNLP
Parque Nacional El Palmar, Entre Ríos, Argentina	Gangenova et al. 2012GANGENOVA, E., GUZMÁN, A. & MARANGONI, F. 2012. Diversidad de anfibios anuros del Parque Nacional El Palmar (Provincia de Entre Ríos, Argentina). Cuadernos de Herpetología 26(1): 13-20.	PNEP
Quebrada de los Cuervos, Departamento de 33, Uruguay	Prigioni et al. 2011PRIGIONI, C., BORTEIRO, C. & KOLENC, F. 2011. Amphibia and Reptilia, Quebrada de los Cuervos, Departamento de Treinta e Tres, Uruguay. Check List 7(6): 763-767, http://dx.doi.org/10.15560/11021. http://dx.doi.org/10.15560/11021...	QC
Reserva Natural Provincial Esteros del Iberá, Corrientes, Argentina	Ingaramo et al. 2011	RNPEI
Rio dos Sinos, Rio Grande do Sul, Brazil	Moreira et al. 2008MOREIRA, L.F.B., MACHADO, I.F., LACE, A.R.G.M. & MALTICHIK, L. 2008. Anuran amphibians in an intermittent pond in southern Brazil. Acta Limnologica Brasiliensis 20(3): 205-212.	RS
Rio Paraná, Entre Ríos, Argentina	Peltzer & Lajmanovich 2004PELTZER, P.M. & LAJMANOVICH, R.C. 2004. Anuran tadpole assemblages in riparian areas of the Middle Paraná River, Argentina. Biodiversity Conservation 13: 1833-1842, http://dx.doi.org/10.1023/B:BIOC.0000035870.36495.fc. http://dx.doi.org/10.1023/B:BIOC.0000035...	RP
Santa Maria, Rio Grande do Sul, Brazil	Santos et al. 2008SANTOS, T.G., KOPP, K., SPIES, M.R., TREVISAN, R. & CECHIN, S.Z. 2008. Distribuição temporal e espacial de anuros em área de Pampa, Santa Maria, RS. Iheringia, Série Zoologia 98(2): 244-253, http://dx.doi.org/10.1590/S0073-47212008000200013. http://dx.doi.org/10.1590/S0073-47212008...	SM

Família/Espécie	RM	FR	CO
Família/Espécie	RM	FR	P	S	T
Alsodidae
Limnomedusa macroglossa (Duméril & Bibron, 1841)	2	a, t	0	63	24
Bufonidae
Melanophryniscus atroluteus (Miranda-Ribeiro, 1920)	1	a, t	3	8	5
Melanophryniscus devincenzii Klappenbach, 1968	2	a, t	0	4	2
Melanophryniscus sanmartini Klappenbach, 1968	1	sc	-	-	-
Rhinella dorbignyi (Duméril & Bibron, 1841)	1	sc	-	-	-
Rhinella fernadezae (Gallardo, 1957)	1	sc	-	-	-
Rhinella schneideri (Werner, 1894)	1	a, t	10	0	6
Hylidae
Dendropsophus minutus (Peters, 1872)	1	a, t	3	0	2
Dendropsophus nanus (Boulenger, 1889)	1	sc	-	-	-
Dendropsophus sanborni (Schmidt, 1944)	1	a, t	5	0	3
Hypsiboas albopunctatus (Spix, 1824)	1	sc	-	-	-
Hypsiboas pulchellus (Duméril & Bibron, 1841)	1	a, t	68	75	70
Phyllomedusa iheringii Boulenger, 1885	24	a	0	4	2
Pseudis minuta Günther, 1858	1	a, t	43	4	28
Scinax fuscovarius (Lutz, 1925)	1	a	10	4	8
Scinax granulatus (Peters, 1871)	1	a, t	35	8	25
Scinax squalirostris (Lutz, 1925)	1	a, t	25	13	20
Scinax uruguayus (Schmidt, 1944)	1	a, t	13	4	9
Leptodactylidae
Leptodactylus chaquensis Cei, 1950	11	a	-	-	-
Leptodactylus fuscus (Schneider, 1799)	30	sc	-	-	-
Leptodactylus gracilis (Duméril & Bibron, 1840)	30	a, t	23	28	25
Leptodactylus latinasus Jiménez de la Espada, 1875	30	a, t	40	17	31
Leptodactylus latrans (Steffen, 1815)	11	a, t	18	0	11
Leptodactylus mystacinus (Burmeister, 1861)	30	a, t	18	42	27
Physalaemus biligonigerus (Cope, 1861)	11	a, t	58	4	38
Physalaemus cuvieri Fitzinger, 1826	11	a	3	0	2
Physalaemus gracilis (Boulenger, 1883)	11	t	3	0	2
Physalaemus henselii (Peters, 1872)	11	a,t, *	-	-	-
Physalaemus riograndensis Milstead, 1960	11	t	20	13	17
Pseudopaludicola falcipes (Hensel, 1867)	1	a, t	50	33	44
Microhilidae
Elachistocleis bicolor (Guérin-Méneville, 1838)	1	a, t	43	13	31
Odontophrynidae
Odontophrynus americanus (Duméril & Bibron, 1841)	1	a, t	40	58	47

Brasil