Peripheral oxygen transport in skeletal muscle of Antarctic and sub-Antarctic notothenioid fish.

Contains fulltext : 185443.pdf (Publisher’s version ) (Open Access) Transcellular oxygen flux was modelled mathematically in the aerobic skeletal muscles of perciform fish species living at widely different temperatures (Antarctica, sub-Antarctica and the Mediterranean Sea). Using structural data de...

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Bibliographic Details
Published in:Journal of Experimental Biology
Main Authors: Egginton, S., Skilbeck, C., Hoofd, L.J.C., Calvo, J., Johnston, I.A.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2002
Subjects:
Bloodpressure regulation
tissue oxygenation and exercise
Bloeddrukregulatie
weefseloxygenatie en inspanning
Antarctic
The Antarctic
Antarc*
Antarctica
Icefish
Online Access:http://hdl.handle.net/2066/185443
https://repository.ubn.ru.nl//bitstream/handle/2066/185443/185443.pdf
https://doi.org/10.1242/jeb.205.6.769
Description
Summary:Contains fulltext : 185443.pdf (Publisher’s version ) (Open Access) Transcellular oxygen flux was modelled mathematically in the aerobic skeletal muscles of perciform fish species living at widely different temperatures (Antarctica, sub-Antarctica and the Mediterranean Sea). Using structural data derived from stereological analysis of electron micrographs, mean fibre P(O(2)) was calculated on the basis of temperature-corrected rates of mitochondrial respiration and oxygen diffusion. The mean muscle fibre diameter (MFD) among Antarctic notothenioids was in the range 17-61 microm and mitochondrial volume density, Vv(mit,f), was 0.27-0.53, but capillary-to-fibre ratio varied only between 1.2 and 1.5. For a mean capillary P(O(2)) of 6 kPa, the model predicted a mean tissue P(O(2)) in the range 0.7-5.8 kPa at the estimated maximum aerobic capacity (M(O(2)max)). The lowest levels of tissue oxygenation were found in the pectoral muscle fibres of the icefish Chaenocephalus aceratus, which lacks the respiratory pigments haemoglobin and myoglobin. Red-blooded notothenioids found in the sub-Antarctic had a similar muscle fine structure to those caught south of the Antarctic Convergence, with an MFD of 20-41 microm and Vv(mit,f) of 0.27-0.33, resulting in an estimated mean P(O(2)) of 4-5 kPa at M(O(2)max). Mean tissue P(O(2)) in the sub-Antarctic icefish Champsocephalus esox, with greater MFD and Vv(mit,f), 56 microm and 0.51, respectively, was calculated to exceed 1 kPa at winter temperatures (4 degrees C), although oxidative metabolism was predicted to be impaired at the summer maximum of 10 degrees C. At the high end of the thermal range, related perciform species from the Mediterranean had a negligible drop in intracellular P(O(2)) across their small-diameter fibres, to a minimum of 5.4 kPa, comparable with that predicted for Trematomus newnesi from the Antarctic (5.6 kPa) with a similar MFD. These data suggest that, within a single phylogenetic group, integrative structural adaptations potentially enable a similar ...

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