The leaf or monkey frogs of the hylid subfamily Phyllomedusinae are a unique group of charismatic anurans. We present a molecular phylogenetic analysis that includes 45 of the 60 species of phyllomedusines using up to 12 genes and intervening tRNAs. The aims were to gain a better understanding of the phylogenetic position of Phrynomedusa, test the monophyly and explore the relationships among several putative lineages (Hylomantis, the H. buckleyi Group, Phasmahyla, the four species groups of Phyllomedusa, and the species of Phyllomedusa that remain unassigned to any group), and to examine the implications of our phylogeny for the evolution of several characters in phyllomedusines. The analyses resulted in a well-supported phylogenetic hypothesis that provides a historical framework for a discussion of the evolution of characters associated with reproductive biology, gliding behaviour, the physiology of waterproofing, and bioactive peptides. Implications include an earlier origin for eggless capsules than for leaf-folding behaviour during amplexus, two independent origins of gliding, and an earlier origin of reduction in evaporative water loss than uricotelism, which is a result that originally was predicted on the basis of physiology alone. Furthermore, our results support the prediction that bioactive peptides from different peptide families are to be expected in all species of Phyllomedusinae. Hylomantis (as recently redefined) is shown to be paraphyletic and the synonymy of Agalychnis is revised to remedy this problem by including both Hylomantis and Pachymedusa.
Amphibian skin secretions are known as a rich source of biologically active molecules, most of which are alkaloids, biogenic amines, and peptides. Dermaseptins are a class of antimicrobial peptides present in tree frogs of the Phyllomedusa genus. They are cationic molecules of 28 -34 residues that permeabilize the membrane of Gram-positive and Gram-negative bacteria, yeasts, and filamentous fungi, showing little or no hemolytic activity. This work reports the isolation, molecular mass analysis, primary structure determination, biological activities, and potential therapeutic applications of an antimicrobial peptide found in the skin secretion of Phyllomedusa oreades, which is a newly described amphibian species endemic of the Brazilian savanna. DS 01 is a 29-residue-long peptide with a molecular mass of 2793.39 Da showing antibacterial properties against Gram-positive and Gram-negative bacteria in the range of 3-25 M. Anti-protozoan activity was investigated using T. cruzi in its trypomatigote and epimastigote forms cultivated in both cell culture and blood media. Within 2 h after incubation with DS 01 at a final concentration of ϳ6 M, no protozoan cells were detected. Two synthetic dermaseptins, described previously by our group and named dermadistinctins K and L (DD K and DD L), also had their anti-Trypanosoma cruzi activity investigated and demonstrated similar properties. Toxicity of DS 01 to mouse erythrocytes and white blood cells was evaluated by means of atomic force microscopy and flow cytometry. No morphological alterations were observed at a lytic concentration of DS 01, suggesting its therapeutic value especially as an anti-T. cruzi agent to prevent infections during blood transfusion.
Uetanabaro, M, Souza, F.L., Landgref Filho, P., Beda, A. The State of Mato Grosso do Sul, central Brazil, is located in the center of the broad South American opendry diagonal areas. This region harbors a great diversity of amphibians and reptiles, with some endemic species. Despite such biogeographical scenario, biodiversity of this region is poorly known at local scales. Dry forests are important physiognomies in Mato Grosso do Sul and represent an important landscape element at Serra da Bodoquena, resulting in local characteristics that require biodiversity surveys. There are few and punctual information on the herpetofauna from the Serra da Bodoquena National Park and they suggest a similarity with the Cerrado herpetofauna. The present study represents the first record of the herpetofauna from the Serra da Bodoquena National Park and adjacent areas. Samples were conducted in pristine and disturbed areas in two distinct climatic periods, covering both rainy and dry seasons, by means of active search limited by time as well as opportunistic records. Data on the herpetofauna of the Caatinga, Cerrado, and Chaco biomes were compiled and compared with the species sampled in the present study. We registered 63 species, including 38 amphibians and 25 reptiles. Several species were associated to particular habitats, such as gallery forests or rocky outcrops. The herpetofauna from the Serra da Bodoquena National Park showed a greater similarity with that of the Cerrado, probably because the area is inserted in this biome. Considering the habitat diversity found at Serra da Bodoquena, the number of species must increase with other surveys in the area. Natural history and ecological studies on amphibian and reptiles of the Serra da Bodoquena must be encouraged in order to contribute for the National Park management.Keywords: Amphibia, Reptile, faunal survey, Serra da Bodoquena National Park. ResumoUetanabaro, M, Souza, F.L., Landgref Filho, P., Beda, A.F. & Brandão, R.A. Anfíbios e répteis do Parque Nacional da Serra da Bodoquena, Mato Grosso do Sul, Brasil. Biota Neotrop. Sep/Dez 2007 vol. 7, no. 3 http://www.biotaneotropica.org.br/v7n3/pt/abstract?inventory+bn01207032007. ISSN 1676-0603.O Estado de Mato Grosso do Sul situa-se na porção mediana da grande diagonal de formações abertas da América do Sul, uma região que abriga uma grande diversidade de anfíbios e répteis, sendo algumas endêmicas. Apesar de sua importância biogeográfica, essa diagonal tem sido pouco considerada em estudos com abrangência regional. Dentre os componentes fitofisionômicos que compõem essa região e cuja representatividade se faz presente no Estado, as matas estacionais deciduais são elementos marcantes na região da Serra da Bodoquena. Devido a peculiaridade desse ambiente, muitas áreas ainda necessitam de uma maior avaliação quanto à sua biodiversidade. Informações sobre a herpetofauna do Parque Nacional da Serra da Bodoquena são escassas e pontuais e sugerem uma semelhança com a fauna de cerrado. Este trabalho apresenta registros da...
The Cerrado is a biodiversity hotspot in central Brazil that represents the largest expanse of savanna in the Neotropics. Here, we aim to identify and delimit biogeographic districts within the Cerrado, to provide a geographic framework for conservation planning and scientific research prioritisation. We used data from 588 sites with tree species inventories distributed across the entire Cerrado. To identify districts, we clustered sites based on their similarity in tree species composition. To investigate why districts differ in composition, we 1) determined the proportion of tree species in different districts that derive from other biomes, to assess the influence of neighbouring biomes upon geographically marginal districts and 2) assayed key climatic differences between districts, to test the effect of environmental factors upon compositional differences. We found seven biogeographic districts within the Cerrado.
River damming causes ecosystem losses and habitat fragmentation. In the Cerrado, the flood affects mainly forested habitats in valleys. In 1996, the Tocantins River (Brazil) was dammed to create the Serra da Mesa hydroelectric plant, and 14 sites were monitored during flooding. Eight hills that formed islands were monitored with pitfall traps. Only one frog species was found on islands 3 yr after complete reservoir formation. Cerrado amphibians showed rapid decline during and after flooding.
Rapid adaptive changes can result from the drastic alterations humans impose on ecosystems. For example, flooding large areas for hydroelectric dams converts mountaintops into islands and leaves surviving populations in a new environment. We report differences in morphology and diet of the termite-eating gecko Gymnodactylus amarali between five such newly created islands and five nearby mainland sites located in the Brazilian Cerrado, a biodiversity hotspot. Mean prey size and dietary prey-size breadth were larger on islands than mainlands, expected because four larger lizard species that also consume termites, but presumably prefer larger prey, went extinct on the islands. In addition, island populations had larger heads relative to their body length than mainland populations; larger heads are more suited to the larger prey taken, and disproportionately larger heads allow that functional advantage without an increase in energetic requirements resulting from larger body size. Parallel morphological evolution is strongly suggested, because there are indications that, before flooding, relative head size did not differ between future island and future mainland sites. Females and males showed the same trend of relatively larger heads on islands, so the difference between island and mainland sites is unlikely to be due to greater male-male competition for mates on islands. We thus discovered a very fast (at most 15 y) case of independent parallel adaptive change in response to catastrophic human disturbance.rapid character change | islands | dietary shift | Brazilian Cerrado | lizards
We present a list of squamate reptiles from Parque Nacional da Emas (PNE), ten neighbor private properties and Parque Estadual Nascentes do Rio Taquari, states of Goiás, Mato Grosso, and Mato Grosso do Sul. The study area encompasses the headwaters of Araguaia and Taquari river basins and part of Paranaíba River Basin, resulting in significant habitat heterogeneity. Inside PNE, we recorded 74 squamate species: 47 snakes, 21 lizards and six amphisbaenians. If we consider also the neighboring areas, richness value raises to 87 species: 54 snakes, 27 lizards and six amphisbaenians. From these, 52 % of the lizards, 19 % of the snakes and 33 % of the amphisbaenians are Cerrado endemics. Forest-specialist species are more common outside than inside PNE. Additional species are expected to occur in the PNE region, in view of their known geographical ranges.
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