Descripción anatómica e histológica del tracto digestivo de Nicuro Pimelodus blochii (Valenciennes, 1840) An anatomical and histological description of the digestive tract of Bloch's catfish Pimelodus blochii (Valenciennes, 1840) Descrição Anatômica e histológica do trato digestório de Nicuro Pimelodus blochii (Valenciennes, 1840
Introducción: El pez escalar (Pterophyllum scalare) es una de las principales especies de peces ornamentales comercializados de Sur América. Objetivo: describir histológica y morfométricamente el tracto digestivo del pez tropical P. scalare. Métodos: se utilizaron 19 individuos adultos, y se calculó el coeficiente intestinal. Se realizó una descripción macroscópica e histológica del esófago, estómago e intestino (región anterior parte a, anterior parte b, media y posterior). Las muestras fueron procesadas en parafina, se obtuvieron cortes de 5 µm, que fueron teñidos con H&E y P.A.S. Se realizó conteo de células P.A.S +. Para la morfometría se digitalizaron los cortes y se midió el área y perímetro del lumen, y el área tisular para cada región. Resultados: P. scalare presenta un esófago corto, un estómago en forma de saco ciego poco muscular junto a un intestino con una longitud similar a su tamaño, coeficiente intestinal (1.66 +/- 0.52). Se identificaron cuatro capas constitutivas: mucosa, submucosa, muscular y en algunas regiones serosa. El esófago se destacó por ser la región con mayor número de células caliciformes P.A.S. + y mayor área tisular. En cuanto al área y perímetro luminar, la región anterior parte a del intestino fue la de mayor valor. Conclusiones: a partir del coeficiente intestinal (1.66 +/- 0.52), y las características histológicas y morfométricas de los órganos evaluados, se puede decir que P. scalare presenta un hábito alimenticio omnívoro con preferencia de presas blandas.
Se estudió la piel del pez dulceacuícola endémico de Colombia Eremophylus mutissi. Se tomaron muestras de piel (0.5x0.5 cm2) de 11 especímenes en seis partes del cuerpo (mandíbulas, cabeza dorsal, tronco dorsal, tronco caudal, tronco medial y abdominal). Se fijaron en formaldehído al 4%, con deshidratación en etanol al 95% e isopropanol al 99%, inclusión en parafina y cortes a 5 µm. La piel está constituida por dos capas cutáneas (epidermis y dermis) y una capa subcutánea (hipodermis): la epidermis tiene tres capas con células secretoras, células epiteliales y pocas células gustativas; la dermis está separada de la epidermis por una membrana basal. Observamos fibroblastos, dos capas de melanóforos y algunos vasos sanguíneos; la hipodermis tiene un tejido adiposo vascularizado. La dermis es más delgada que la epidermis; la piel tiene más células tipo clava que células mucosas. El tronco medio tiene muchas células clava y células mucosas. La piel de E. mutissi parece tener una función principalmente protectora.
<p><strong> Objective. </strong>To describe morphologically and morphometrically the encephalon of <em>Ariopsis seemanni</em><strong>. Materials and methods. </strong>We worked with 10 juvenile specimens which were processed according to the ethical standards for handling fish. Measurements of the total and standard length (cm) and weight (g) were taken for each individual. Specimens were fixed in 4% formaldehyde. The encephalon was removed, the different regions were identified and the measurement of the different lobes was done, indicating their location, morphology, length and area using lateral, dorsal and ventral digitalized images that were measured with the Scion Image program. We calculated means and standard deviations, and obtained the percentage equivalence of each structure in relation to the entire encephalon. These data were then related to the habits of the<strong> </strong>species. <strong>Results.</strong> We identified the olfactory bulbs, telencephalic hemispheres, optic lobes, cerebellum, among others. Of the cranial nerves, only the optic nerve was observed. The largest structure of the encephalon is the cerebellum (44 ± 1.2% and 0.23 ± 0.03 cm<sup>2</sup> area), followed by the telencephalic hemispheres (28 ± 0.57% and 0.13 ± 0.02 cm<sup>2</sup> area).<strong> Conclusions. </strong>The encephalon morphology of <em>A. seemanni</em> presented the general pattern of teleosts of the order Siluriformes, with the cerebellum as the largest structure of the encephalon. Based on the morphology and morphometry observed in the encephalon, we suggest that <em>A. seemanni</em> uses primarily vision and taste to explore the environment.</p> <p><strong>Key words: </strong>teleost, cerebral morphology, sensory sensitivity, neuroecolgy, <em>Ariopsis seemanni.</em></p><br />
In Colombia the use of glyphosate commercial formulations (Roundup™) for spraying have left deleterious effects on animals and humans. Much of this spraying takes place at the Orinoco basin, habitat of one of the most exported ornamental fish in Colombia, Cardinal neon. To evaluate the effect of Roundup Activo™ four experimental treatments were carried out with 0 mg/L (T1), 0.1 mg/L (T2), 1 mg/L (T3) and 5 mg/L (T4) during 30 days of exposure. The fishes were processed for high-resolution optical microscopy. The main finding of Roundup Activo™ exposure was an increase in mast cells number in brain blood vessels and some neuronal nuclei of the preoptic and posterior diencephalic areas, including hypothalamus. A correlation between concentrations and mast cells number was observed, with the largest mast cells number in T4 treatment. Mast cells presence is a stress benchmark, suggesting the beginning of allergic, inflammatory and apoptotic events. Presence of mast cells in these brain areas may lead to alterations on reproduction, visual and olfactory information integration among other processes. These alterations may result in diminished survival, affecting the conservation of this species in its natural habitat.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.