Fernanda de Oliveira Martins scite author profile

Fernanda de Oliveira Martins

4Publications

57Citation Statements Received

156Citation Statements Given

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Affiliations

Instituto Federal de Educação Ciência e Tecnologia do Paraná, Universidade Estadual Paulista (Unesp), Londrina State University

Publications

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Microlepidogaster dimorpha, a new species of Hypoptopomatinae (Siluriformes: Loricariidae) from the upper rio Paraná system

Martins

Langeani

2011

Neotrop. ichthyol.

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Microlepidogaster dimorpha, new species, is described from tributaries of rio Grande, upper rio Paraná system. Microlepidogaster dimorpha differs from M. perforatus and M. longicolla by having first dorsal-fin proximal radial attached to the neural spine of seventh vertebra, with posterior portion contacting also the eighth centrum (vs. first dorsal-fin proximal radial attached to the neural spine of eighth or ninth vertebra in M. perforatus, and to the neural spine of tenth or eleventh vertebra in M. longicolla); 29-30 vertebrae (vs. 31 in M. perforatus and 31-33 in M. longicolla); 18-21 mid-dorsal plates (vs. 9-13 in M. perforatus, and 13-17 in M. longicolla); deeper caudal peduncle (10.0-11.4% in SL vs. 7.7-8.5% in M. perforatus, and 5.4-7.3% in M. longicolla); greater distance between dorsal-fin origin and anal-fin insertion (19.4-23.8% in SL vs. 16.4-18.8% in M. perforatus, and 14.7-16.2% in M. longicolla); and nostril width markedly wider in males than in females (vs. approximately equivalent in size for both sexes, slightly wider in males than in females in M. perforatus, and equivalent in size for both sexes in M. longicolla). Microlepidogaster dimorpha also differs from M. perforatus by presence of the iris operculum (vs. absence); median plate series complete to caudal peduncle end (vs. median plate series truncated, with last two plates of dorsal and ventral series contacting in midline); greater head depth (43.4-53.1% vs. 40.7-42.3% in HL); greater orbital diameter (13.6-18.5% vs. 11.1-13.5% in HL); pelvic-fin first unbranched ray longer in males than in females (vs. equivalent in size in both sexes); and supraneural without paired anterior processes (vs. processes present). Additionally, M. dimorpha can be distinguished from M. longicolla by having anterior margin of snout with a paired rostral plate (vs. snout with small plates, naked in the anterior margin); by pectoral-fin axillary slit present, even in adult specimens (vs. pectoral-fin axillary slit present only in juvenile specimens); longer pectoral-fin unbranched ray (20.0-23.8% vs. 13.4-16.2% in SL in M. longicolla).
Microlepidogaster dimorpha, espécie nova, é descrita de tributários do rio Grande, drenagem do alto rio Paraná. Microlepidogaster dimorpha difere de M. perforatus e M. longicolla por apresentar o primeiro radial proximal da nadadeira dorsal contactando o espinho neural da sétima vértebra, com sua porção posterior contactando também o oitavo centro vertebral (vs. primeiro radial proximal contactando o espinho neural da oitava ou nona vértebra em M. perforatus e o espinho neural da décima ou décima primeira vértebra em M. longicolla); 29-30 vértebras (vs. 31 em M. perforatus; e 31-33 em M. longicolla); 18-21 placas médio-dorsais (vs. 9-13 em M. perforatus, e 13-17 em M. longicolla); pedúnculo caudal alto (10,011,4% no comprimento-padrão vs. 7,7-8,5% em M. perforatus e 5,4-7,3% em M. longicolla); distância entre a origem da nadadeira dorsal e a inserção da nadadeira anal 19,4-23,8% no comprimento-padrão (vs. 16,4-18,8% em M. perf...

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Rhinolekos, a new genus with three new species of Hypoptopomatinae (Siluriformes: Loricariidae) from upper rio Paraná

Martins

Langeani

2011

Neotrop. ichthyol.

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Rhinolekos, new genus, and three new species, R. britskii, R. garavelloi, and R. schaeferi, are described from rio Paranaíba, upper rio Paraná drainage, central Brazil. Rhinolekos can be diagnosed by the following combination of characters: anterior portion of the compound supraneural-first dorsal-fin proximal radial contacting the neural spine of the 9 th or 10 th vertebrae; presence of the lateronasal plate; absence of the median rostral plate; presence of the pectoral-fin axillary slit just in juvenile specimens; ventral surface of pectoral girdle exposed only laterally; arrector fossae partially enclosed, with opening relatively large, extending laterally halfway towards pectoral-fin base; paired anterior process of the compound supraneural-first dorsalfin proximal radial bone absent; median plate series continuous to the caudal-fin origin; iris operculum present; pteroticsupracleithrum quadrangular in shape and not extending posteriorly; supraoccipital not contributing to the dorsal portion of the swimbladder capsule; subopercular plate present; dorsal and ventral margins of snout bearing odontodes roughly equivalent in size and shape to those on remainder of the head; caudal peduncle roughly rounded in cross section; longitudinal crests in supraoccipital absent; fourth infraorbital expanded ventrally.Rhinolekos, gênero novo, e três espécies novas, R. britskii, R. garavelloi e R. schaeferi, são descritas do rio Paranaíba, drenagem do alto rio Paraná, região central do Brasil. Rhinolekos pode ser diagnosticado pela seguinte combinação de caracteres: porção anterior do composto supraneural-primeiro proximal radial da nadadeira dorsal contatando o espinho neural da nona ou décima vértebra; presença da placa látero-nasal; ausência da placa rostral mediana; presença da fenda peitoral axilar apenas nos juvenis; superfície ventral da cintura peitoral exposta apenas lateralmente; arrector fossae parcialmente fechado, abertura relativamente grande, estendendo-se em direção à base da nadadeira peitoral; processo anterior pareado do composto supraneural-primeiro proximal radial da nadadeira dorsal ausente; série mediana de placas contínua até a origem da nadadeira caudal; opérculo da íris presente; pterótico-supracleitro quadrangular, não se estendendo posteriormente; ausência de cristas no supraoccipital, este não contribuindo com a formação da porção dorsal da cápsula da bexiga natatória; placa subopercular presente; margens dorsal e ventral do focinho portando odontódes de tamanho e forma equivalentes aos demais da cabeça; pedúnculo caudal aproximadamente circular em corte transversal; quarto infraorbital expandido ventralmente.

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Miniaturization in Otothyris Myers, 1927 (Loricariidae: Hypoptopomatinae)

2014

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Many species of freshwater fishes are considered miniatures, nevertheless, their identification as miniatures is frequently based only on an arbitrary criterion of small body size. Although some species of Otothyris had been suggested to be miniature, informations about the process and consequences of miniaturization in the genus are lacking. Here, we detail developmental events of loss, fusion, and modifications in several bones, the laterosensory system, and even the brain, that in sum demonstrate miniaturization in all species of the genus. Our results may be useful in the recognition of other miniature species of loricariids.Muitas espécies de peixes de água doce são consideradas miniaturas, entretanto, sua identificação é frequentemente baseada apenas no critério arbitrário que é seu reduzido tamanho corporal. Apesar de algumas espécies de Otothyris terem sido propostas como miniaturas, informações acerca do processo de miniaturização no gênero e suas consequências são escassas. Aqui detalhamos eventos de perda, fusão, modificações em muitos ossos, sistema laterossensorial e no cérebro, que juntos evidenciam a miniaturização em todas as espécies do gênero. Nossos resultados podem ser úteis na identificação de outras espécies miniaturas dentro de Loricariidae.

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Gross brain morphology of Hypoptopomatinae and Neoplecostominae (Siluriformes: Loricariidae): Comparative anatomy and phylogenetic implications

Rosa

Martins

Langeani

2020

J. Zool. Syst. Evol. Res.

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Neoplecostominae sensu Pereira and Reis (2017) together include 250 valid species arranged in 33 genera (Fricke, Eschmeyer, & Van der Laan, 2020). The subfamilies comprise small to medium-sized loricariid catfishes, known commonly as cascudinhos, and which are widely distributed in small to moderate-sized streams and rivers in South America from Venezuela to Argentina (Ferraris, 2003; Schaefer, 2003).

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