• Login
    • Login
    Advanced Search
    View Item 
    •   UoN Digital Repository Home
    • Journal Articles
    • Faculty of Agriculture & Veterinary Medicine (FAg / FVM)
    • View Item
    •   UoN Digital Repository Home
    • Journal Articles
    • Faculty of Agriculture & Veterinary Medicine (FAg / FVM)
    • View Item
    JavaScript is disabled for your browser. Some features of this site may not work without it.

    Aquatic and Aerial Respiration Rates, Muscle Capillary Supply and Mitochondrial Volume Density in the Airbreathing Catfish (Clarias Mossambigus) Acclimated to Either Aerated or Hypoxic Water

    Thumbnail
    View/Open
    full text .pdf (1.167Mb)
    Date
    1983
    Author
    Johnston, Ian A
    Bernard, Lynne M
    Maloiy, GMO
    Type
    Article
    Language
    en
    Metadata
    Show full item record

    Abstract
    Specimens of the African air-breathing catfish Clarias mossambicus were acclimated to either aerated (PwO2 15.3 KPa) or hypoxic (PwO2 2.4KPa) water for up to 27 days at 20 °C. Routine respiration rate for fish acclimated to aerated water was 85.7 mlO2 (kgbodyweight)−1 h−1. Gas exchange across the suprabranchial chambers accounted for 25% of the total. In aerated water the interval between air-breaths varied from 1.4 to 30.6 min. On acute exposure to hypoxia air-breathing frequency was unaltered (6.3 h−1) although aerial respiration rate increased by 70%. This suggests that ventilation of the suprabranchial chambers is variable and that air-breathing frequency is a poor measure of air-breathing effort. Total respiration decreased by 46% on acute exposure to hypoxia (PwO2 2.4 KPa), reflecting a reduction in routine activity. Following acclimation to hypoxia, airbreathing frequency (8.1 h−1) was higher and total routine respiration rate increased from 46.3 to 67.8 mlO2 kg−1h−1. The increased oxygen consumption with hypoxia acclimation was largely the result of an increase in aquatic respiration from 10.4 to 27.5 mlO2kg−1h−1 Measurements were made of mitochondrial volume densities [Vv(mt,f)] and capillary supply to fast and slow myotomal muscles. The fraction of fibre volume occupied by mitochondria was 15 percnt; for slow and 2.5% for fast muscles. Values for [Vv(mt,f)] obtained for fish slow fibres are much higher than for homologous muscles in birds and mammals and show a good correlation with capillary density [NA(c,f)]. Hypoxia acclimation did not result in changes in either muscle Vv(mt,f) or NA(c,f). It is suggested that increased ventilation of the suprabranchial chambers and greater oxygen extraction across the gills obviates the need for modifications in these parameters
    URI
    http://jeb.biologists.org/content/105/1/317.short
    http://erepository.uonbi.ac.ke:8080/xmlui/handle/123456789/49529
    Citation
    J Exp Biol 105, 317-338, July 1, 1983
    Publisher
    Department of Animal Physiology, University of Nairobi,
    Subject
    Skeletal muscle
    Capillaries
    Hypoxia
    Collections
    • Faculty of Agriculture & Veterinary Medicine (FAg / FVM) [5481]

    Copyright © 2022 
    University of Nairobi Library
    Contact Us | Send Feedback

     

     

    Useful Links
    UON HomeLibrary HomeKLISC

    Browse

    All of UoN Digital RepositoryCommunities & CollectionsBy Issue DateAuthorsTitlesSubjectsThis CollectionBy Issue DateAuthorsTitlesSubjects

    My Account

    LoginRegister

    Copyright © 2022 
    University of Nairobi Library
    Contact Us | Send Feedback