{"title":"Cellular, Physiological, and Biochemical Basis of Adaptive Response to Variable Osmotic Environments by the River Shad, Tenualosa ilisha","authors":"Wasim Akram, Maliha Tabassum, Md. Lifat Rahi","doi":"10.1155/2023/4910938","DOIUrl":null,"url":null,"abstract":"The river shad, hilsa (Tenualosa ilisha), is an anadromous fish that migrates from marine to freshwater for spawning. This transition/migration poses severe osmotic stress that hilsa needs to successfully minimize. The present study was conducted to evaluate the cellular (ultrastructure of gill and kidney), physiological (hemocyte counts, blood, and water osmolality), and biochemical (free amino acids, free fatty acids, blood glucose, and cortisol levels) parameters of hilsa collected from four different environmental salinity levels (0‰, 10‰, 20‰, and 30‰ salinity levels; using 10 fish samples from each salinity). Results indicate that increased amount of fatty/mucus cells in the gill and lower number of glomerular capsules in kidney were observed at low (0‰ and 10‰) salinities compared to high (20‰ and 30‰) salinities. Water and blood osmolality (total ionic content) showed declining trends with lowering salinities. Total number of blood cells was also found to vary significantly <math xmlns=\"http://www.w3.org/1998/Math/MathML\" id=\"M1\"> <mfenced open=\"(\" close=\")\" separators=\"|\"> <mrow> <mi>P</mi> <mtext> </mtext> <mo><</mo> <mtext> </mtext> <mn>0.05</mn> </mrow> </mfenced> </math> among salinities. Salinity-specific blood cortisol and glucose levels of hilsa were observed as 0‰ > 10‰ > 30‰ > 20‰. Total essential and free amino acids of hilsa blood showed significantly declining trends <math xmlns=\"http://www.w3.org/1998/Math/MathML\" id=\"M2\"> <mfenced open=\"(\" close=\")\" separators=\"|\"> <mrow> <mi>P</mi> <mtext> </mtext> <mo><</mo> <mtext> </mtext> <mn>0.05</mn> </mrow> </mfenced> </math> with salinity reductions. No significant differences were observed between 10‰, 20‰, and 30‰ salinities for different types of fatty acids, while hilsa collected from 0‰ showed significantly higher <math xmlns=\"http://www.w3.org/1998/Math/MathML\" id=\"M3\"> <mfenced open=\"(\" close=\")\" separators=\"|\"> <mrow> <mi>P</mi> <mtext> </mtext> <mo><</mo> <mtext> </mtext> <mn>0.05</mn> </mrow> </mfenced> </math> levels of fatty acids compared to the remaining three salinities. Findings indicate that hilsa rapidly alters cellular, physiological, and biochemical traits for successful transition between different salinity habitats.","PeriodicalId":14894,"journal":{"name":"Journal of Applied Ichthyology","volume":" 43","pages":"0"},"PeriodicalIF":0.7000,"publicationDate":"2023-11-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Applied Ichthyology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1155/2023/4910938","RegionNum":4,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"FISHERIES","Score":null,"Total":0}
引用次数: 1
Abstract
The river shad, hilsa (Tenualosa ilisha), is an anadromous fish that migrates from marine to freshwater for spawning. This transition/migration poses severe osmotic stress that hilsa needs to successfully minimize. The present study was conducted to evaluate the cellular (ultrastructure of gill and kidney), physiological (hemocyte counts, blood, and water osmolality), and biochemical (free amino acids, free fatty acids, blood glucose, and cortisol levels) parameters of hilsa collected from four different environmental salinity levels (0‰, 10‰, 20‰, and 30‰ salinity levels; using 10 fish samples from each salinity). Results indicate that increased amount of fatty/mucus cells in the gill and lower number of glomerular capsules in kidney were observed at low (0‰ and 10‰) salinities compared to high (20‰ and 30‰) salinities. Water and blood osmolality (total ionic content) showed declining trends with lowering salinities. Total number of blood cells was also found to vary significantly among salinities. Salinity-specific blood cortisol and glucose levels of hilsa were observed as 0‰ > 10‰ > 30‰ > 20‰. Total essential and free amino acids of hilsa blood showed significantly declining trends with salinity reductions. No significant differences were observed between 10‰, 20‰, and 30‰ salinities for different types of fatty acids, while hilsa collected from 0‰ showed significantly higher levels of fatty acids compared to the remaining three salinities. Findings indicate that hilsa rapidly alters cellular, physiological, and biochemical traits for successful transition between different salinity habitats.
河鲥鱼是一种溯河鱼类,从海洋洄游到淡水产卵。这种转变/迁移造成了hilsa需要成功减少的严重渗透压力。本研究对4种不同盐度环境(0‰、10‰、20‰、30‰)下采集的hilsa细胞(鳃和肾的超微结构)、生理(血细胞计数、血液和水渗透压)和生化(游离氨基酸、游离脂肪酸、血糖和皮质醇水平)参数进行了评价;使用来自每种盐度的10个鱼样本)。结果表明,与高盐度(20‰和30‰)相比,低盐度(0‰和10‰)组小鼠鳃内脂肪/粘液细胞数量增加,肾内肾小球囊数量减少。水和血液渗透压(总离子含量)随盐度降低呈下降趋势。血细胞总数也有显著差异P <盐度之间为0.05。盐特异性血皮质醇和血糖水平均为0‰;10‰比;30‰比;20‰。hilsa血总必需氨基酸和游离氨基酸呈显著下降趋势P <盐度降低0.05。不同类型脂肪酸在10‰、20‰和30‰盐度间无显著差异,而在0‰盐度处采集的hilsa P <显著较高;0.05的脂肪酸水平与其他三种盐度相比。研究结果表明,为了在不同盐度环境之间成功过渡,hilsa迅速改变了细胞、生理和生化性状。
期刊介绍:
The Journal of Applied Ichthyology publishes articles of international repute on ichthyology, aquaculture, and marine fisheries; ichthyopathology and ichthyoimmunology; environmental toxicology using fishes as test organisms; basic research on fishery management; and aspects of integrated coastal zone management in relation to fisheries and aquaculture. Emphasis is placed on the application of scientific research findings, while special consideration is given to ichthyological problems occurring in developing countries. Article formats include original articles, review articles, short communications and technical reports.