Effect of closed v. intermittent-flow respirometry on hypoxia tolerance in the shiner perch Cymatogaster aggregata
Effect of closed v. intermittent-flow respirometry on hypoxia tolerance in the shiner perch Cymatogaster aggregata
This study compares the critical oxygen saturation (O2crit) levels of the shiner perch Cymatogaster aggregata obtained using two different methods wherein hypoxia is induced either by the fish's respiration (closed respirometry) or by degassing oxygen with nitrogen (intermittent-flow respirometry). Fish exhibited loss of equilibrium at a higher O2 saturation in the closed respirometry method when compared with the intermittent-flow method. Utilization of closed respirometry yielded O2crit measurements that were almost twice as high as those obtained with intermittent-flow respirometry. The lower hypoxia tolerance in closed respirometry is consistent with additional stress, caused by a build-up of ammonia and carbon dioxide and a faster rate in dissolved oxygen decline. The results indicate that these two methods of determining hypoxia tolerance in aquatic organisms are not comparable, and that much care should be given to method choice.
aquatic breathers, critical oxygen saturation level, hypoxic, physiology, respiration, stress
252-264
Snyder, S.
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Nadler, L. E.
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Bayley, J. S.
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Svendsen, M. B. S.
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Johansen, J. L.
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Domenici, P.
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Steffensen, J. F.
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14 January 2016
Snyder, S.
6d2d1bac-7859-4556-944c-33e14771fc9d
Nadler, L. E.
1d1f8e6a-e951-41f5-888c-cfcb4b4b19dc
Bayley, J. S.
a090d2c0-571d-4ebd-9afd-61bdd433528f
Svendsen, M. B. S.
fdc22637-8149-46c8-a462-32ce997d64b3
Johansen, J. L.
48aa2c7d-5ed0-4f10-af6f-39032ca1f70d
Domenici, P.
1a8cf671-af80-46f3-a2e3-4fa963a9f297
Steffensen, J. F.
98bf86bf-a1d3-46ff-b3dd-bd8924b455f5
Snyder, S., Nadler, L. E., Bayley, J. S., Svendsen, M. B. S., Johansen, J. L., Domenici, P. and Steffensen, J. F.
(2016)
Effect of closed v. intermittent-flow respirometry on hypoxia tolerance in the shiner perch Cymatogaster aggregata.
Journal of Fish Biology, 88 (1), .
(doi:10.1111/jfb.12837).
Abstract
This study compares the critical oxygen saturation (O2crit) levels of the shiner perch Cymatogaster aggregata obtained using two different methods wherein hypoxia is induced either by the fish's respiration (closed respirometry) or by degassing oxygen with nitrogen (intermittent-flow respirometry). Fish exhibited loss of equilibrium at a higher O2 saturation in the closed respirometry method when compared with the intermittent-flow method. Utilization of closed respirometry yielded O2crit measurements that were almost twice as high as those obtained with intermittent-flow respirometry. The lower hypoxia tolerance in closed respirometry is consistent with additional stress, caused by a build-up of ammonia and carbon dioxide and a faster rate in dissolved oxygen decline. The results indicate that these two methods of determining hypoxia tolerance in aquatic organisms are not comparable, and that much care should be given to method choice.
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Published date: 14 January 2016
Keywords:
aquatic breathers, critical oxygen saturation level, hypoxic, physiology, respiration, stress
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Local EPrints ID: 472572
URI: http://eprints.soton.ac.uk/id/eprint/472572
ISSN: 0022-1112
PURE UUID: 3fa30ef8-6fe1-424e-8d6a-3074a4c7a138
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Date deposited: 08 Dec 2022 17:40
Last modified: 17 Mar 2024 04:16
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Contributors
Author:
S. Snyder
Author:
L. E. Nadler
Author:
J. S. Bayley
Author:
M. B. S. Svendsen
Author:
J. L. Johansen
Author:
P. Domenici
Author:
J. F. Steffensen
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