Seasonal changes in the preferred body temperature, cardiovascular, and respiratory responses to hypoxia in the toad, Bufo paracnemis

Estivation is accompanied by a reduction of oxygen consumption in amphibians during drought. We tested the hypothesis that, during the dry season, the toad Bufo paracnemis selects a lower preferred body temperature (Tb), and would be less sensitive to hypoxia, than during its active period. Therefor...

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Published in:The Journal of experimental zoology 2001-05, Vol.289 (6), p.359-365
Main Authors: Bícego-Nahas, Kênia Cardoso, Gargaglioni, Luciane Helena, Branco, Luiz Guilherme Siqueira
Format: Article
Language:English
Subjects:
Adaptation, Physiological
Animals
Blood Pressure
Body Temperature - physiology
Bufo paracnemis
Bufonidae - physiology
Female
Freshwater
Heart Rate
Hypoxia
Male
Oxygen Consumption - physiology
Respiration
Seasons
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Summary:Estivation is accompanied by a reduction of oxygen consumption in amphibians during drought. We tested the hypothesis that, during the dry season, the toad Bufo paracnemis selects a lower preferred body temperature (Tb), and would be less sensitive to hypoxia, than during its active period. Therefore, during winter (dry season in São Paulo state, Brazil) and summer, we measured the effects of hypoxia (7% inspired O2) on preferred Tb. Additionally, pulmonary ventilation, heart rate, blood pressure, and oxygen consumption were also measured in toads at 15 and 25°C. Blood gases were measured at 25°C. Oxygen consumption was significantly higher during summer in toads at 25°C. Under normoxia, preferred Tb was higher during summer than during winter, and hypoxia caused a drop in preferred Tb during both seasons. In both seasons, toads at 15°C showed reduced pulmonary ventilation, heart rate, and blood pressure, and hypoxia had no effect. At 25°C during summer only, hypoxia caused an increase in ventilation. Season had no effect on blood gases. We conclude that B. paracnemis displays an endogenous seasonal pattern of thermoregulation and control of ventilation. The decreased preferred Tb and the physiological responses to hypoxia may be beneficial to toads encountering drought and when food is not available. J. Exp. Zool. 289:359-365, 2001. © 2001 Wiley-Liss, Inc.
ISSN:0022-104X
1097-010X
DOI:10.1002/jez.1017