Navegando por Assunto "Leptodactylidae"

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Acesso aberto (Open Access)
Efeito do metilmercúrio em girinos e recém-metamorfoseados de Physalaemos ephippifer (Steindachner, 1864) (Anura, Leptodactylidae)
(Universidade Federal do Pará, 2016-11-23) CASTELO BRANCO, Ailin; BAHIA, Verônica Regina Lobato de Oliveira; http://lattes.cnpq.br/1218901740124657; BAHIA, Marcelo de Oliveira; http://lattes.cnpq.br/3219037174956649
The metal contamination in amphibians has been taken into account as one of the factors contributing to the population decline of these animals. The mercury (Hg) is an environmental contaminant showing high levels of toxicity. Its organic form, methylmercury (MeHg), may bioaccumulative reaching high levels in the trophic chain. For amphibian populations, bioaccumulation of metals is important once that such animals may be MeHg diffusers from the aquatic environment to the terrestrial environment because of their double life cycle. MeHg concentrations in high doses can cause obvious lethargic effects and larvae mortality of amphibious, however little is known about subchronic effects of MeHg doses. Therefore, the present research aims to explore the effects of subchronic exposure to MeHg in one experimental model, the species Physalaemus ephippifer, describing, identifying and characterizing the possible changes in physical performance of larvae and newly metamorphosed, in addition to teratogenic and morphological changes in the sensory and nervous system. After the toxicological test, with MeHg concentrations of 0.007 μg/ml, 0.004 μg/ml 0.0007 μg/ml and 0.0004 μg / ml and negative control, the animals were assessed by behavioral analysis simulating breakout predatory, morphometric and analysis in light microscopy and scanning electron microscopy. Our results revealed that MeHg concentrations did not induce locomotor weaknesses in tadpoles and nor apparent anatomical morphological damage, however, it induces the appearance of a massive cell count of pyknotic nuclei in the areas of the cerebellum and optic tectum. Such alteration, which remains in the animal even after metamorphosis, induces a locomotor weakness in concentration of 0,007μg/ml which is also the concentration where one increased teratogenic damage effect (corneal malformation) is observed. Therefore, we conclude that MeHg is a neurotoxic and teratogenic agent for P. ephippifer and that such features lead to one decrease in locomotor performance. The present work may contribute to the knowledge on effect of MeHg in amphibian populations that live in environments where this contaminant is present as member of the ecosystem.
Acesso aberto (Open Access)
Estudos cromossômicos em anuros das famílias Hylidae rafinesque, 1815 e Leptodactylidae werner, 1896 (Amphibia: Anura)
(Universidade Federal do Pará, 2010) SUAREZ, Pablo; PIECZARKA, Julio Cesar; http://lattes.cnpq.br/6644368250823351
Although there exists a large variety of chromosomal complements in Leptodactylidae (2n = 18 to 2n = 26) and Hylidae (2n = 20 to 2n = 32), the high fragmentation of data limits the access to the information about the origins and underlying mechanisms of its diversity. This, probably, had influence on the use of cytogenetic data on the characterization of species status more than been widely included in phylogenetic analyses. This work approaches, through cytogenetic data, some evolutionary aspects of three maior groups of anurans widely distributed in the Neotropical region. The genus Leptodactylus is clustered with Hydrolaetare, Paratelmatobius and Scythrophrys in the family Leptodactylidae. The chromosomal background in the genus indicates variation of the diploid numbers from 2n = 18 to 2n = 26, as well as, variation on the fundamental numbers (number of autosomic arms, FN) and on the position of Nucleolus Organizer Regions (NOR). Results of the analysis of 26 species of Leptodactylus, using several techniques, probably represents the most inclusive cytogenetic analyses on the genus Leptodactylus until now and its results provides appropriate bases to establish consistent relationships of chromosomal evolution on the genus Leptodactylus. Actually the Lophyiohylini tribe cluster 81 species distributed in 10 genera. The cytogenetic information is scarce and restrict to only 12 species. In the present study, are presented, comparatively, cytogenetic data of species from Argenteohyla, Itapotihyla, Phyllodytes, Trachycephalus and Osteocephalus genera. With exception of O. buckleyi (2n = 26; NF = 50) and P. edelmoi (2n = 22; NF = 44), the results indicate that all the others analyzed species coincide with cytogenetic data available, that indicates 2n = 24 (NF = 48) on the majority of karyotyped species, with NOR and secondary constrictions (SC) located on the 11 pair. However, in Phyllodytes edelmoi and Argentohyla siemersi pederseni, these regions are located on pairs 2 and 5, respectively. Heterochromatic blocks were associated to additional SC (fragile sites) in Osteocephalus, but not in Trachycephalus. Cytogenetic data on the Nyctimantis and Tepuihyla genera, techniques with techniques with higher resolution and more inclusive studies are necessary to better comprehend the chromosomal evolution of the tribe. The Dendropsophini tribe actually clusters the Scinax, Pseudis, Scarthyla, Sphaenorhynchus, Xenohyla and Dendropsophus genera. The registered cytogenetic data of all the genera revealed high karyotype diversity with great variation on the diploid numbers (2n = 22 in Scarthyla; 2n = 24 in Scinax and Xenohyla; 2n = 24, 24 +1- 2B e 26 in Sphaenorhynchus; 2n = 24 and 28 in Pseudis; and, 2n = 30 in Dendropsophus). The 2n=24 observed in X. truncata indicates that 2n=30 constitute a synapomorphy of the Dendropsophus genus. The NOR localization on the pair 7 is a characteristic shared by species of Scarthyla, Xenohyla, Pseudis and Sphenorhynchus, with some exceptions in the last two genera (P. caraya and S. carneus). However, the Dendropsophus genus displays an interesting diversity related to the number and its localization. On the other hand, the heterochromatin distribution presented standard variables, particularly on genus Pseudis. Although there is an exceptional chromosome variation in this group, fragmentary information in some genera made difficult to formulate consistent hypotheses about the role of chromosomes in the evolution of the group.