The use of pelvic fins for benthic locomotion during foraging behavior in Potamotrygon motoro (Chondrichthyes: Potamotrygonidae)

Shibuya, Akemi; Carvalho, Marcelo R. de; Zuanon, Jansen; Tanaka, Shô

doi:10.1590/s1984-46702015000300001

Cited by 4 publications

(3 citation statements)

References 11 publications

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“…The limited opening of the 昀椀fth-gill slits could follow from the adjacent 昀椀n malformation. The 昀椀n lobes may have independent movement because of the apparent fusion of the pectoral radials near the edges of the 昀椀ns called "crurae" (Figure 2c), which move independently of the striped pelvic and pectoral 昀椀ns (Shibuya et al, 2015). Of the three anomalies, the second one (PESY-010201) -lack of fusion between head and 昀椀nsis the most frequent (Table 3).…”

Section: Discussionmentioning

confidence: 99%

Morphological abnormalities in the Chilean Eagle ray Myliobatis chilensis (Myliobatiformes: Myliobatidae) off the Peruvian coast, Southeast Pacific

Valderrama-Herrera

Kanagusuku²,

Ramírez‐Amaro³

2022

Universitas Scientiarum

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Records about morphological abnormalities in rays of the genus Myliobatis are scarce worldwide. In the present study, three specimens exhibiting different malformations were identified during the monitoring of the reproductive biology of the Chilean eagle ray Myliobatis chilensis, conducted from 2017 to 2018 in the fishing port of Salaverry (northern Peru). The identified specimens included: (i) a female with split pectoral fins, (ii) a male with an unfused-to-the-head pectoral fin, and (iii) a female with a short and thick tail. Here we report and discuss the implications and likely causes of these first three cases of morphological abnormalities in M. chilensis from the western Pacific.

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Section: Discussionmentioning

confidence: 99%

Morphological abnormalities in the Chilean Eagle ray Myliobatis chilensis (Myliobatiformes: Myliobatidae) off the Peruvian coast, Southeast Pacific

Valderrama-Herrera

Kanagusuku²,

Ramírez‐Amaro³

2022

Universitas Scientiarum

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“…The hydrodynamic contribution of the pelvic fin should also be considered, as it plays an important mechanical function (Raff 2012). Briefly, the pelvic fins compensate for the rippling of the pectoral fins by propelling the body against the substrate, performing synchronized ambipedal maneuvers and prey capture movements (Shibuya et al 2015). Thus, it is possible that the increase in pelvic fin width in females may occur due to the need to optimize swimming movements as a way to compensate for the larger dimensions of its disc (Macesic et al 2013).…”

Section: Discussionmentioning

confidence: 99%

Notes on the occurrence and gender-based morphological aspects of Potamotrygon motoro (Elasmobranchii: Potamotrygonidae) in the complex of the Viana lake system- Maranhão, Brazil

Rincon

Pereira

Santos

et al. 2020

Rev. Nordestina Biol.

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The Brazilian Amazonian coast, extending from Amapá to Maranhão states, is drained by a series of small to medium sized rivers of the Amazon basin. The Pindaré-Mearim is an isolated basin formed by the junction of the Pindaré and Mearim rivers at its lower portion. Along the Pindaré and Mearim rivers there is a single reported species of freshwater stingray identified as Potamotrygon motoro. Although specimens have been deposited in research institutions, most of these specimens have been captured on the Amazon basin and its direct tributaries or along the Panará-Paraguay river basin. Hence, there is a severe lack of information on the P. motoro of the Pindaré- Mearim river basin. Here we present new data regarding P. motoro general morphology, emphasizing the color variation, sexual dimorphism and notes on its biological aspects.

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“…In the last three decades morphological phylogenetic studies addressing the elasmobranchs mostly lack detailed descriptions and proposition of characters focusing on the skeletal structures of the paired fins (Nishida, 1990; Shirai, 1992a, b; Carvalho, 1996; Lovejoy, 1996; McEachran et al., 1996; Goto, 2001; McEachran and Aschliman, 2004; Aschliman et al., 2012a; Claeson, 2014; Stone and Shimada, 2019). The pelvic girdle is clearly an underexplored morphological complex in a phylogenetic context, especially the pelvic articular region and the arrangement and number of foramina present, even though multiple studies involving its morphological and functional aspects (Daniel, 1934; Gilbert and Heath, 1972; Compagno, 1988, 1999; Shirai and Okamura, 1992; Goto et al., 1999; Lucifora and Vassalo, 2002; Macesic and Kajiura, 2010; Macesic and Summers, 2012; Maia et al., 2012; Macesic et al., 2013; Ekstrom and Kajiura, 2014; Shibuya et al., 2015; Trinajstic et al., 2015; Silva and Casas, 2020; Silva and Vaz, 2021) or its origin (Thatcher, 1877; Gegenbaur, 1878; Mivart, 1879; Balfour, 1881; Freitas et al., 2006; Cole and Currie, 2007; Dahn et al., 2007; Johanson, 2010; Nakamura et al., 2015; Onimaru et al., 2015; Gillis and Hall, 2016; Tulenko et al., 2016, 2017; Sleight and Gillis, 2020) are available across literature. Detailed descriptions of the pelvic girdle, when present, are often in conjunction with taxonomic works that do not propose morphological characters in a broader phylogenetic context (McEachran and Compagno, 1979; Dingerkus and Defino, 1983; Stehmann and Séret, 1983; Miyake, 1988; Séret, 1989; Compagno and Heemstra, 2007; Silva and Carvalho, 2011<...…”

Section: Introductionmentioning

confidence: 99%

Morphology and phylogenetic significance of the pelvic articular region in elasmobranchs (Chondrichthyes)

Silva

Vaz

2023

Cladistics

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The morphology of paired fins is commonly overlooked in morphological studies, particularly the pelvic girdle and fins. Consequently, previous phylogenetic studies incorporating morphological data used few skeletal characters from this complex. In this paper, the phylogenetic significance of pelvic articular characters for elasmobranchs is discussed in light of the morphological variation observed in 130 species, the most comprehensive study exploring the morphology of the pelvic girdle done so far. The 10 morphological characters proposed herein for the pelvic articulation were incorporated into a molecular matrix of NADH2 sequences and submitted to an analysis of maximum parsimony employing extended implied weighting. The most stable tree was selected based on the distortion coefficients, SPR distances (subtree pruning and regrafting) and fit values. Some of the striking synapomorphies recovered within elasmobranchs include the presence of an articular surface for the first enlarged pelvic radial supporting Elasmobranchii and the pelvic articular region for the basipterygium extending from the posterolatral margin of the pelvic girdle over its lateral surface in Echinorhinus + Hexanchiformes. Additionally, the proposed characters and their distributions are discussed considering the relationships recovered and also compared with previous morphological and molecular phylogenetic hypotheses.

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The use of pelvic fins for benthic locomotion during foraging behavior in Potamotrygon motoro (Chondrichthyes: Potamotrygonidae)

Cited by 4 publications

References 11 publications

Morphological abnormalities in the Chilean Eagle ray Myliobatis chilensis (Myliobatiformes: Myliobatidae) off the Peruvian coast, Southeast Pacific

Morphological abnormalities in the Chilean Eagle ray Myliobatis chilensis (Myliobatiformes: Myliobatidae) off the Peruvian coast, Southeast Pacific

Notes on the occurrence and gender-based morphological aspects of Potamotrygon motoro (Elasmobranchii: Potamotrygonidae) in the complex of the Viana lake system- Maranhão, Brazil

Morphology and phylogenetic significance of the pelvic articular region in elasmobranchs (Chondrichthyes)

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