Gill dimensions in near-term embryos of Amazonian freshwater stingrays (Elasmobranchii: Potamotrygonidae) and their relationship to the lifestyle and habitat of neonatal pups

Duncan, Wallice Paxiúba; Silva, Maria Isabel da; Fernandes, Marisa Narciso

doi:10.1590/1982-0224-20140132

Cited by 6 publications

(3 citation statements)

References 31 publications

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“…The integration of all sensory systems in freshwater stingrays is indeed an important characteristic for the success of this group in a diversity of freshwater habitats, such as lakes, streams, shallow and deep waters such as beaches and river channels (Duncan et al 2015;Shibuya 2022). The synchronized performance of different sensory modalities plays an essential role in feeding behavior, with each sensory element having a primary function in different phases of foraging (search, location, and the phase prior to prey apprehension).…”

Section: Discussionmentioning

confidence: 99%

Sniffing at the river bottom: Influence of olfactory organ morphology on the life habits of freshwater stingrays (Potamotrygoninae)

Shibuya,

Machado,

Duncan

2024

Preprint

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The olfaction in batoids have an important role for initial detection of the chemical stimulus produced by prey during the foraging activities. Herein, the morphological and histological description of primary lamellae and secondary folds of olfactory rosettes is given to four species from Rio Negro basin. A simpler structure of olfactory organs in Paratrygon sp. does not indicate a primary sensory role during the initial phase of its feeding behavior. In Potamotrygon wallacei, the largest surface area of primary lamellae suggests enhanced olfactory sensitivity related to its generalist feeding habits and complex substrate exploration. Histological analysis revealed differences in epithelial cell composition among species, with variations in the secondary folds shape and the distribution of mucous cells. The simplicity of secondary folds in both Paratrygon sp. and Potamotrygon orbignyi probably is related to their specialized feeding habits, requiring fewer adaptations to detect different types of chemical stimuli. A central muscular layer in primary lamellae was observed only to P. motoro and P. wallacei and indicates a capacity to expand the olfactory epithelium area. These findings provide insights into the functional morphology of olfactory organs in potamotrygonin stingrays and their ecological implications, evidencing the intricate sensory adaptations crucial for foraging success in diverse freshwater habitats. Additionally, it becomes necessary to take into account the contribution of all sensory systems to understand their foraging behavior. Nonetheless, the generalization of the morphological characteristics of olfactory organ in a potamotrygonin species requires caution, since morphological variations can be found, especially to widespread species.

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Section: Discussionmentioning

confidence: 99%

Sniffing at the river bottom: Influence of olfactory organ morphology on the life habits of freshwater stingrays (Potamotrygoninae)

Shibuya,

Machado,

Duncan

2024

Preprint

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“…The ventral bronchial skeleton consists of an enlarged central medial plate, which resulted from the fusion of the basibronchial copula and the basibronchial components (De Carvalho et al, 2004), a short and transversely directed basihyal, a pair of short and anteriorly directed hypobronchials, and five pairs of ceratobronchials. Duncan et al (2015) indicated to the gills are a multifunctional organ involved in gas exchange, acid-base, and ion regulation; where the structure and dimensions of gills of the potamotrygonid are important to assess their function. Gill measurements include gill filament's length and abundance, number of respiratory lamellae on the filaments, surface area of lamellar bilateral, total gill surface area, mass-specific gill area, and the water-blood diffusion barrier, are species-specific as reported from Hughes et al (1986).…”

Section: The Bronchial Skeletonmentioning

confidence: 99%

X-Ray Radiological Study for Skeleton of Rounded Fantail Stingray Taeniura grabata from Susah, Libya

Buzaid

2022

JMSET

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A sample of Round Fantail Stingray Taeniura grabata was brought, from Susah harbor in east Libya, to establish radiographically, it was situated Dorsal-ventrally, to diagnose skeleton and tooth plate, using Siemens X-ray System (Multix Fusion). In the Multi-graded radiograph, the specimen skeleton was so pale white in most of the axial skeleton and parts of the cranium, and poorly calcified. 88 pectoral radials: 41 propterygials, 15 mesopterygial, and 32 metapterygial radials, with 22 pelvic radials counted. Fin radials were attached to the scapulocoracoid by three enlarged basal radials. The superficial muscles were darker in coloration. About 80 Pre-sting vertebrae, 50 Post-sting with 62 pre-caudal vertebrae, were collected into 192 vertebrae in the tail. There were 32 upper teeth rows, and 36 lower teeth rows, they were small, blunt, and arranged into flattened surfaces. The neurocranium is slightly elongated, longer than 1.5 times in width. Nasal capsules process about 30% of neuro-cranial desk length. Meckel’s cartilages were broadly triangular. The bronchial skeleton comprises five arches. Also, a single small bridge projects ventrally from the medial plate. Jaws are very robust and small.

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“…Charvet-Almeida em 2001, em trabalho sobre ocorrência, biologia e uso de raias de água doce na Baia de Marajó (Pará, Brasil), com ênfase na biologia de Plesiotrygon iwamae, constatou que todas as raias capturadas abortavam os embriões. O mesmo padrão de parto induzido por diferentes artes de pesca (espinhéis, arrasto e tarrafas) foi verificado por Duncan et al, (2015)…”

Section: Impactos Antrópicos E Ocorrência De Parto Induzido Por Pescaunclassified

Fisiologia do parto induzido por captura em Potamotrygon amandae (Elasmobranchii: Myliobatiformes: Potamotrygonidae)

Soares

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The stingrays of the order Myliobatiformes are considered viviparous, aplacental histotrophic. In this condition, they are considered more susceptible to capture-induced parturition. Although this phenomenon is a common consequence of fishing interactions with the group, it remains poorly studied. The aim of this study was to characterize the stress physiology in the freshwater stingray Potamotrygon amandae during induced parturition events by capture. Pregnant and non-pregnant females were collected from the Paraná River (UHE Engenheiro Souza Dias) using fish nets. Immediately after specimen capture, blood collection was performed, and the animals were placed in plastic boxes. In the case of pregnant females, the second blood collection was done at the time of induced parturition, and for non-pregnant females, it was done within a 60-minute interval. The specimens were transported alive to the Laboratório de Estudos em Fisiologia Animal (LEFISA) at UNESP for euthanasia and subsequent measurement of biometric data. Hematological (hematocrit), energetic (glucose and ketone bodies), respiratory (lactate), and endocrine (corticosterone) variables were measured and analyzed. The average time for fetal abortion was 57.5 ± 27.5 minutes. Body mass showed a significant difference when comparing pregnant and non-pregnant females, with higher values for pregnant females. Red blood cells are not responsive to capture stress, with an average amplitude of 15 to 38% of erythrocytes. Plasma lactate increases after a capture stress event, with an increased magnitude for pregnant females, making it a biomarker of the acute stress event in the species. Corticosterone shows high intra-specific variation and does not seem to increase after capture, and it does not differ between pregnant and non-pregnant females. Glucose was not responsive to capture, indicating that this substrate is not preferred during acute stress. Ketone bodies are the preferred energy source for acute stress events in the species, and their utilization occurs more slowly in pregnant females, with a lower decay rate in this group compared to non-pregnant females.

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Gill dimensions in near-term embryos of Amazonian freshwater stingrays (Elasmobranchii: Potamotrygonidae) and their relationship to the lifestyle and habitat of neonatal pups

Cited by 6 publications

References 31 publications

Sniffing at the river bottom: Influence of olfactory organ morphology on the life habits of freshwater stingrays (Potamotrygoninae)

Sniffing at the river bottom: Influence of olfactory organ morphology on the life habits of freshwater stingrays (Potamotrygoninae)

X-Ray Radiological Study for Skeleton of Rounded Fantail Stingray Taeniura grabata from Susah, Libya

Fisiologia do parto induzido por captura em Potamotrygon amandae (Elasmobranchii: Myliobatiformes: Potamotrygonidae)

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