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Development of dependence on aerial respiration in Polypterus senegalus (Cuvier) (1984)

Babiker, M. M.

Springer

Hydrobiologia 110 (1984), S. 351-363

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ISSN: 1573-5117

Keywords: Sudan ; Polypterus ; aerial ; branchial ; respiration ; hypoxia ; hypercarbia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The respiratory behaviour and partitioning of O2 uptake between air and water were investigated in Polypterus genegalus using continuous-flow and two-phase respirometers and lung gas replacement techniques P. senegalus rarely resorts to aerial respiration under normal conditions. Partitioning of O2 consumption depends on the activity and age of fish and the availability of aquatic oxygen. Immature fish (12–22 g) cannot utilize aerial O2 but older fish exhibit age-dependent reliance on aerial respiration in hypoxic and hypercarbic waters. Pulmonary respiration accounts for 50% of the total requirement at aquatic O2 concentrations of about 3.5 mg · l−1 (or CO2 of about 5%) and fish rely exclusively on aerial respiration at O2 concentrations of less than 2.5 mg · l−1. Branchial respiration is initially stimulated by hypercarbia (CO2: 0.5–0.8%) but increased hypercarbia (CO2 − 1%) greatly depresses (by over 90%) brancial respiration and initiates (CO2: 0.5%) and sustains pulmonary respiration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00025808

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Role of organophosphates in adaptations of an obligate water-breathing teleost (Tilapia nilotica L.) to hypoxia (1985)

Babiker, M. M.

Springer

Hydrobiologia 121 (1985), S. 59-64

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ISSN: 1573-5117

Keywords: organ ophosphates ; hypoxia ; respiration ; Tilapia ; oxygen affinity

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The red cell concentrations of ATP and GTP were investigated in Tilapia nilotica in normal and hypoxic waters. Reduction of water oxygen content diminished the cellular concentrations of both organophosphates. The concentration of ATP fell by about 70% of its normoxic values (2.4 ± 2.6 µ mol Pi 100 ml) at an O2 concentration of 4.5 mg l−1 in the water; further reductions of aquatic oxygen levels were not associated with significant changes in cellular ATP. Normal cellular levels of GTP (25.8 ± 2.7 µ mol Pi: 100 ml RBC) decreased progressively with advanced hypoxia especially at critical aquatic O2 concentrations. The ratio of the concentrations of ATP:GTP (2.4:1) in normoxic water decreased with hypoxia till it approached the equivalence in water of less than 5.5 mg l−1 O2. It is suggested that ATP is more important in modulation of blood oxygen affinity during mild or transient hypoxia and that GTP exerts its regulatory action over a wider range of aquatic O2 concentrations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00035230

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Respiratory behaviour, oxygen consumption and relative dependence on aerial respiration in the African lungfish (Protopterus annectens, owen) and an air-breathing teleost (Clarias lazera, C.). (1979)

Babiker, M. M.

Springer

Hydrobiologia 65 (1979), S. 177-187

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ISSN: 1573-5117

Keywords: Lungfish ; Protopterus ; Clarias lazera ; aquatic ; branchial ; aerial ; oxygen ; respiration

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The relative dependence on branchial and pulmonary organs was studied in the African lungfish P. annectens and in the catfish Clarias lazera. The frequency of pulmonary ventilation varied, in the normal state, with the activity and age of the fish and followed a circadian rhythm. Small specimens of both species exhibited a higher branchial ventilatory rate than older specimens and depended largely on aquatic O2 uptake (over 85% and 90% in Clarias and Protopterus respectively). The dependence on aerial respiration appeared to develop gradually with age in Clarias but occurred over a limited age-range (200–300 g) in Protopterus. In mature fish (over 400 g), pulmonary respiration constituted 50–60% of the total in Clarias and 80–85% in Protopterus. Partitioning of O2 uptake between air and water depended on the O2 content of the water and that of O2 and CO2 in the pulmonary organs. Protopterus and Clarias surfaced for air when the O2 content of the respiratory organs was reduced to 90% and 85% (of that immediately following an air-breath) respectively. An increase in the pulmonary O2 content lengthened the apnoeic period and reduced pulmonary respiration more markedly in Protopterus than in Clarias whereas an increase of that of CO2 produced the reverse effects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00017423

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