ISSN:
1432-136X
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Medicine
Notes:
Summary 1. Adult male and female freshwater crayfish, acclimated to 15°C, were observed to migrate from hypoxic water into air at a mean $$P_{O_2 } $$ of 42 mm Hg. 2. The rates of recovery after initial disturbance of heart rate (f card), ventilation rate (f resp), oxygen consumption $$\dot M_{O_2 } $$ and ventilation volumeV W were followed for 18 h. Settled values were established after 3–5 h of submersion in normoxic water at 15°C. 3. On exposure to air at 15°C (R.H. 70–80%) for 3 h,f card,f resp and $$\dot M_{O_2 } $$ were similar to settled submerged values. Ventilation volume in airV air was only 5% of normoxicV W. 4. In air the crayfish experienced internal hypoxia with postbranchial oxygen tension ( $$Pa_{O_2 } $$ ) reduced to 33% and oxygen content ( $$Ca_{O_2 } $$ ) to 45% of the submerged normoxic level. $$\dot M_{O_2 } $$ was maintained by drawing on a venous reserve of oxygen, reducing postbranchial oxygen content ( $$Cv_{O_2 } $$ ) in air to 15% of the submerged normoxic level. 5. After 3 h in air the crayfish experienced a marked acidosis of the haemolymph which was both respiratory, due to the accumulation of CO2 and metabolic, due to the accumulation of lactate. 6. On return to water after 3 h in air,f card,f resp, $$\dot M_{O_2 } $$ andV W quickly returned to their settled normoxic values. There was evidence of an initial period of hyperventilation, but no repayment of an oxygen debt. 7. The effectiveness of respiratory gas exchange in water and in air are compared with other aquatic and terrestrial species.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00688737
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