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The importance of cutaneous gas exchange during aerial and aquatic respiration in galaxiids
Author(s) -
Urbina M. A.,
Meredith A. S.,
Glover C. N.,
Forster M. E.
Publication year - 2014
Publication title -
journal of fish biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.672
H-Index - 115
eISSN - 1095-8649
pISSN - 0022-1112
DOI - 10.1111/jfb.12303
Subject(s) - biology , respiration , gill , metabolic rate , metabolic activity , carbon dioxide , oxygen , respiratory system , fish <actinopterygii> , excretion , ecology , zoology , botany , physiology , anatomy , fishery , biochemistry , endocrinology , chemistry , organic chemistry
The Canterbury mudfish Neochanna burrowsius was found to be a pseudo‐aestivating galaxiid with a low metabolic rate and significant cutaneous oxygen uptake ( c . 43%) in both air and water. Another galaxiid, inanga Galaxias maculatus , had a higher metabolic rate in both media but the proportion of oxygen uptake met by cutaneous respiration rose significantly from 38 to 63% when the fish were exposed to air. Besides its important role in oxygen uptake, the skin of both species also contributed significantly to excretion of carbon dioxide in air, indicating the critical role of the integument as a respiratory tissue. In air, G. maculatus may increase cutaneous gas exchange to meet metabolic demands owing to the reduced utility of the gills, but as emersed G. maculatus were only able to maintain metabolic rates at c . 67% of that measured in water, this strategy probably only permits short‐term survival. By contrast, the low and unchanging metabolic rate in water and air in N. burrowsius is a feature that may facilitate tolerance of long periods of emersion in the desiccating environments they inhabit.

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