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The Transition to Air Breathing in Fishes
- Source :
- Journal of Experimental Biology. 96:53-67
- Publication Year :
- 1982
- Publisher :
- The Company of Biologists, 1982.
-
Abstract
- In response to progressive aquatic hypoxia, the armoured loricariid cat-fishes Ancistrus chagresi and Hypostomus plecostomus become facultative air-breathers and utilize their stomachs as accessory air-breathing organs. Hypostomus initiates air breathing at a higher aquatic O2 tension than does Ancistrus (60 v. 33 mmHg). Once begun, the air-breathing frequencies of both species increase with decreasing ; the frequency of Ancistrus, however, is greater than and increases more with hypoxia than does that of Hypostomus, which appears to be a more efficient air breather. Hypoxia acclimation reduces the air-breathing rate of both species. A larger rate reduction occurs in Ancistrus, which, however, continues to require more frequent breaths than Hypostomus. Hypoxia acclimation does not affect the air-breathing threshold of either species, suggesting that external O2 receptors initiate facultative air breathing. In progressive aquatic hypercapnia Ancistrus has a lower air-breathing CO2 threshold (8·7 mmHg) than Hypostomus (12·8 mmHg). However, in some tests, individual fish of both species did not initiate air breathing even at . as high as 21 mmHg. Also, air breathing evoked by hypercapnia was short-lived; both species quickly compensated for this gas and resumed exclusively aquatic respiration within a few hours of exposure. Thus, CO2 is not an important regulator of air breathing in these species. Between 25 and 35 °C, the air breathing threshold of Ancistrus is temperature-independent, but air-breathing frequency increases with temperature. Ancistrus and Hypostomus do not breathe air in normoxic (air-saturated) water; their air-breathing responses are evoked by environmental hypoxia. This is fundamentally different from other fish species that breathe air in normoxia in order to meet heightened metabolic demands. Also, the facultative air-breathing adaptations of Ancistrus and Hypostomus differ in scope and magnitude from those utilized by species that breathe air in normoxia and adapt to hypoxia by increasing air-breathing rate.
- Subjects :
- Aquatic respiration
Facultative
biology
Physiology
Ecology
Loricariidae
digestive, oral, and skin physiology
Zoology
Hypoxia (environmental)
Ancistrus
Aquatic Science
biology.organism_classification
Acclimatization
Insect Science
medicine
Animal Science and Zoology
medicine.symptom
Molecular Biology
Hypostomus
Hypercapnia
Ecology, Evolution, Behavior and Systematics
Subjects
Details
- ISSN :
- 14779145 and 00220949
- Volume :
- 96
- Database :
- OpenAIRE
- Journal :
- Journal of Experimental Biology
- Accession number :
- edsair.doi...........73e6ffb4280a56f04218a40a3f3a17de
- Full Text :
- https://doi.org/10.1242/jeb.96.1.53