ISSN:
1432-1254
Source:
Springer Online Journal Archives 1860-2000
Topics:
Geography
,
Physics
Notes:
Abstract Eight 1/2-year old calves were exposed in a climatized altitude chamber to the following four conditions: 400 and 4,000 m at constant Ta (17°C), 400 and 4,000 m at alternating Ta (−5° to 25°C). Each exposure lasted for 24 h and for the rhythmic conditions included a cold night and warm midday hours, supplemented by infrared heaters. During exposure, hourly measurements were made of heart rate, respiratory rate, rectal and three skin temperatures. Every 3-h blood samples were collected for the determination of 10 blood variables. The following main results were obtained: (a) Altitude alone caused increases in respiratory rate, heart rate, erythrocyte number, haemoglobin, specific gravity of blood and plasma, LDH and all four body temperatures. (b) In the rhythmic exposures, high correlation coefficients were found between ambient temperature on the one hand and skin temperatures (0.88 to 0.94), rectal temperature (−0.43) and respiratory rate (0.49) on the other hand. A change in ambient temperature by 1°C lead, on average, to a change in ear temperature by 1.2°C. (c) in response to falling ambient temperature during the night, rectal temperature and heart rate increased. This was interpreted as indicating a compensatory elevation in meta bolic heat production. At the same time, there was haemoconcentration as shown by elevations in erythrocyte number, haematocrit and haemoglobin. This haemoconcentration might have reflected splenic discharge, possibly supplemented by some loss of water from the plasma. (d) The warm environmental conditions around midday produced mild heat responses in terms of elevated values for respiratory rate, heart rate and body temperatures. (e) It is concluded that the rhythmic temperature with alternating stress of cold and mild heat, especially in combination with high altitude, was a strain on the animals and that they were forced to expend extra energy for combatting altitude- and temperature stress, energy which no longer would be available for productive processes.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01553102
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