Review of the status of the genus Phelene stat. resurr. (Orthoptera: Tetrigidae: Lophotettiginae) and description of a new species.

The status of the genus Phelene stat. resurr., previously synonymized under Chiriquia is revalidated. The genus is redescribed and Phelene turgida stat. rev. a lectotype and paralectotypes are designated for this species. Tetrix laticeps is proposed as nomen dubium and its described a new additional species Phelene maroon n. sp. The diagnosis of the subfamily is adjusted with the characters of the new taxa included and an updated key of genera and species is provided.

Batrachideinae (Orthoptera: Caelifera: Tetrigidae): an overview of the most diverse tetrigids of the Neotropical region.

The Batrachideinae subfamily is a well-defined and taxonomically stable taxon, with a pantropical distribution and an important representation in the Neotropical region. In this study, the characters and distributions of the genera and species are discussed based on a morphological analysis and a key to genera of the American Batrachideinae is also provided. New synonymies are established: Tettigidea Scudder, 1862 = Eotetrix Gorochov, 2012 syn. nov.; Batrachidea mucronata (Saint-Fargeau Serville, 1825) = Tettigidea granulosa Bruner, 1913 syn. nov.; Batrachidea planus (Hancock, 1907) = Batrachidea brevis (Hancock, 1909) syn. nov.; Tettigidea lateralis (Say, 1824) = Tettigidea nicaraguae Bruner, 1895 syn. nov.; Tettigidea lateralis (Say, 1824) = Tettigidea annulipes Bruner, 1910 syn. nov.; Tettigidea cuspidata Scudder, 1875 = Tettigidea corrugata Bruner, 1910 syn. nov.; Tettigidea cuspidata Scudder, 1875 = Tettigidea multicostata Bolívar, 1887 syn. nov.; Tettigidea chapadensis Bruner, 1910 = Tettigidea costalis Bruner, 1910 syn. nov.; Tettigidea chapadensis Bruner, 1910 = Tettigidea hancocki Bruner, 1910 syn. nov.; Tettigidea intermedia Bruner, 1910 = Tettigidea subatera Bruner, 1910 syn. nov.; Tettigidea scudderi Bolívar, 1887 = Tettigidea steinbachi Bruner, 1920 syn. nov. Three species are transferred from the genus Tettigidea to the genus Paxilla Bolívar, 1887: Paxilla mexicana (Hancock, 1915) comb. nov., Paxilla tecta (Morse, 1900) comb. nov., Paxilla nigra (Morse, 1900) comb. nov.; Tettigidea unicornis (Gorochov, 2012) comb. nov. is transferred from the genus Eotetrix Gorochov, 2012 to Tettigidea, and Batrachidea planus (Hancock, 1907) comb. nov. from Tettigidea to Batrachidea Serville, 1838. Five new species groups (lateralis, armata, cuspidata, paratecta and scudderi) are recognized in the genus Tettigidea. Neotype of Tettigidea lateralis lateralis is designated. Keys to the Batrachideinae genera and species of the most diverse American genera (Tettigidea and Paxilla) are also provided.

Systematics and biogeography of the genus Scaria Bolívar, 1887 (Orthoptera: Tetrigidae: Batrachideinae).

The Amazon rainforest is the world's most extensive tropical rainforest, holding a considerable ecological and taxonomic diversity. Speciation in this region arises from multiple factors, such as topography, climate fluctuations, oceanic transgression, vegetation and the delimitation of zones circumscribed by sub-basins within the greater Amazon basin. Different scenarios have been proposed to better understand the diversification of Amazonian taxa, whether by Pleistocene refugia or by areas of endemism.                The genus Scaria is distributed mostly in Amazonia, with a single species that ranges from the Tumbes-Chocó-Magdalena ecoregion well into Central America all the way to southern Nicaragua. Eight species are currently recognized, with three additional described here as new: Scaria rafaeli sp. nov., S. jonasi sp. nov. and S. granti sp. nov., and the status of S. laeta stat. resurr. is revalidated. Two new combinations are established: S. verutum comb. nov. (formerly placed in Rehnidium Grant, 1956) and Batrachidea brevis comb. nov. (formerly placed in Scaria). New synonym is proposed: Batrachidea brevis (Hancock, 1909) = Batrachidea inermis Hebard, 1923 syn. nov. Lectotypes and paralectotypes were selected for S. laeta, S. maculata and S. lineata, as well as the neotypes for S. hamata and S. boliviana. An updated key to species of Scaria is also provided.                A cladistic analysis for 15 species was performed (12 in the inner group and 3 in the outer group) with 40 morphological characters, confirming the monophyly of Scaria. A biogeographical analysis of dispersion-vicariance indicates that the origin of the genus was probably in the Inambari endemism center as the only reconstruction of the resulting ancestral distribution, five dispersions and three vicariance events being postulated. These suggest that both types of events are equally important in the current configuration of the distribution in Scaria. Vicariance events arise mostly by isolation of the species because of the uplift of the Andes and the dispersion events comprise four waves originating from the ancestral range into central and east Amazonia.

Review of Lophotettix, the sole member of the subfamily Lophotettiginae Hancock, 1909 (Insecta: Orthoptera: Caelifera: Tetrigidae).

Lophotettiginae is a small, peculiar taxon of the Neotropical region, characterized mainly by median carina compresso-cristated or leaf-like crest, antennae flattened laterally and expanding from the base to the apex (incrassate shape). This subfamily has only one genus known as Lophotettix Hancock, 1909 that comprises five species. Here, we reviewed the types of the five known species, highlighting morphological aspects that distinguish the species from each other and from other tetrigids. Additionally, we also provide a pictorial identification key to Lophotettix species. Our results indicated that Lophotettiginae is a well-defined taxon and there are no synonyms among its species.

Male reproductive tract and spermatozoa ultrastructure in the grasshopper Orphulella punctata (De Geer, 1773) (Insecta, Orthoptera, Caelifera).

Identification Orphulellini grasshoppers (Acrididae: Gomphocerinae) species has been difficult due to high polymorphism rate. Orphulella Giglio-Tos, 1894 is a genus with widespread geographical distribution and poor descriptions. Orphulella punctata (De Geer, 1773) has an extensive record of occurrence and available information about the phallic complex, however, there is poor data describing other parts of the male reproductive tract. The objective of this study was characterizes the internal organs of the male reproductive system and spermatozoa of O. punctata. Orphulella punctata testes are of Fountain type, each having only four follicles. Spermatozoa into the seminal vesicle are arranged in bundles with c.a. 2320 µm length, with a nucleus 110 µm long. The spermatozoa are covered by a glycocalyx, the nucleus is cylindrical with condensed chromatin and connected to the flagellum by a dense and lamellar centriole adjunct. The axoneme have 9 + 9 + 2 pattern and present two symmetrical mitochondrial derivatives. A fibrous net and two flat membranous cisternae fill the space between the axoneme and mitochondrial derivatives. This is the first description of the reproductive system of a Gomphocerinae representative.

Comments on the recent changes in taxonomy of pygmy unicorns, with description of a new species of Metopomystrum from Brazil (Insecta, Tetrigidae, Cleostratini, Miriatrini).

The tribe Cleostratini Bolívar, 1887 sensu Storozhenko, 2016 does not represent a monophyletic taxon because it gathers various Tetrigidae genera with various types of horn and prolongation of frons or vertex. Prolongation of these structures is present in morphologically and biogeographically distant groups. We do not regard Miriatrini Cadena-Castañeda & Cardona, 2015 synonymous with Cleostratini because the genus Miriatra Bolívar, 1906 belongs to a group of genera distant from Cleostratus Stål, 1877. There is no adequate diagnosis for proposed groups of genera forming tribes Cleostratini or Miriatrini. Miriatrini stat. resurr. are monotypic and include only Miriatra, Cleostratini are monotypic as well. Apteromystrum Storozhenko, 2016 syn. n. is regarded synonymous with Metopomystrum, M. apterumcomb. resurr., M. amazoniensiscomb. resurr. and Miriatra brevifastigiata (Cadena-Castañeda & Cardona, 2015), comb. n. are not Metopomystrum member. Herein a new species of pygmy unicorn, Metopomystrum muriciense Silva & Skejo, sp. n., is described from Atlantic Forest remnants in northeast of Brazil, collected on the Estação Serra do Ouro (municipality of Murici, Alagoas state). Distribution data, morphological characterization, and an identification key to Metopomystrum species are also presented.

New species of tree cricket Oecanthus Serville, 1831 (Orthoptera: Gryllidae: Oecanthinae) from Reserva Natural Vale, Espírito Santo, Brazil, with chromosome complement.

A new species of the genus Oecanthus Serville, 1831 from Reserva Natural Vale, state of Espírito Santo, Brazil is described. The new species differs from other of this genus in characteristics of the pseudepiphallus main lobe, endophallic sclerites, posterior median lobe of the metanotal gland and black spots on the femora and tibiae. The chromosome number is 2n=16+XY♂=18 and 2n=16+XX♀=18, and this complement present one pair of autosomes less than the other five cytological studied species.

New species of Zygoclistron Rehn, 1905 (Insecta: Orthoptera: Acrididae: Copiocerinae) in the central corridor of the Atlantic Forest biome.

Herein we describe a new species of Copiocerinae, Zygoclistron ruschii Silva n. sp., from Atlantic Forest remnants in southeastern Brazil, collected from the Reserva Biológica Augusto Ruschi in the Santa Teresa municipality, Espírito Santo state, Brazil. The diagnosis of this new species is based on phallic complex and terminalia characters.

Análise comparativa entre dois ângulos cervicais com a oclusão em crianças com e sem DTM / Comparative analysis between two cervical angles with occlusion in children with and without TMD

OBJETIVO: comparar dois ângulos cervicais com as classificações oclusais em crianças de 6 a 10 anos com e sem Disfunção Temporomandibular (DTM),identificar se há prevalência de DTM quanto ao gênero, e se há influencia da oclusão sobre os ângulos estudados. MÉTODO: realizou-se um estudo observacional transversal com 91 crianças de ambos os gêneros de uma Instituição de Ensino privado, dispostas em Grupo A (sem DTM) e Grupo B (com DTM). Todas as crianças foram avaliadas seguindo uma ficha cadastral constituída de dados referentes a sexo, idade, peso, altura e exame clínico intra-oral para classificação oclusal de Angle. O diagnóstico e a severidade da DTM, foram verificados pelo questionário proposto por Fonseca. Para avaliação dos ângulos cervicais (A1 e A2) foi utilizada a fotogrametria e o Software Alcimagem®. RESULTADOS: entre as crianças avaliadas, 52 (57,14%) apresentaram maloclusão, sendo 29 com DTM e 23 sem DTM, 39 (42,85%) apresentaram normoclusão, sendo 18 sem DTM e 21 com DTM. Quando comparados os ângulos (A1 e A2) a classe oclusal, foi encontrada diferença significante entre as crianças normoclusivas e maloclusivas com o ângulo A1 (p=0,04). CONCLUSÃO: esse estudo demonstrou que o ângulo A1 (C7, ATM e Ápice do Mento) foi estatisticamente significante quando associado com a condição oclusal. Não foi encontrado associação, na população estudada, entre ângulo cervical e DTM. Além disso, também foi possível observar que, a prevalência de crianças do gênero feminino com DTM é significantemente maior que a do gênero masculino. Esse estudo demonstrou que a maloclusão pode alterar somente o ângulo A1 e que a DTM não interfere nos ângulos cervicais estudados.

PURPOSE: to compare two cervical angles with occlusal classifications in children between 6 and 10 years old with and without Temporomandibular Disorders (TMD), to identify if there is a prevalence of TMD according to gender, and if there is influence of occlusion on the studied angles. METHOD: it was conducted a cross sectional observational study with 91 children of both gender in Group A (without TMD) and Group B (TMD). All children were evaluated following a registration form consisted of sex, age, weight, height data and intra-oral clinical examination for occlusal classification of Angle. The diagnosis and severity of TMD were scanned by the questionnaire proposed by Fonseca. For the cervical angles evaluation (A1 and A2) it was used the photogrammetry and the Alcimagem® software. RESULTS: among the evaluated children, 52 (57.14%) presented malocclusion, 29 with TMD and 23 without TMD. 39 (42,85%) presented normal occlusion, 18 without TMD and 21 with TMD. When the angles were compared, it was found a difference between normal occlusion and malocclusion children with the angle A1 (p=0.04). CONCLUSION: this study demonstrated that the angle A1 (C7, TMJ and Mentum Vertex) was statistically significant when associated to the occlusal condition. No association was found in the evaluated population, between TMD and cervical angle. Besides, it was also observed that the prevalence of female children with TMD is significantly larger than the male. This study demonstrated that malocclusion can change only the angle A1 and the TMD does not interfere with the studied cervical angles.