ISSN:
1432-1254
Keywords:
Rabbits
;
Temperature
;
Humidity
;
Heat tolerance
;
Thermoregulation
Source:
Springer Online Journal Archives 1860-2000
Topics:
Geography
,
Physics
Notes:
Abstract In 2 replicated factorial experiments, 7-h climate chamber exposures were used to study the responses of adult NZW rabbits to a range of elevated temperatures and humidities. At 18 mm Hg water vapour pressure, 23.8° C was well tolerated, rectal temperature (RT) and respiration rate (RR) averaging 38.6±0.3° C and 82.9±15.5 breaths/min, respectively. Both parameters were elevated (P〈0.001) at 32.2°, 37.8° and 43.3° C. RT and RR reached plateau levels of 39.5–40.1° C and 410–460/min at 32.2° C, which was tolerated for the full 7-h test period. Test temperatures of 37.8° and 43.3° C, on the other hand, could be tolerated for only 80 and 40 min respectively, before RT reached the safe upper limit of 41.7° C. Final RR values at 37.8° and 43.3° C were 701.6±42.7 and 812±55.1/min, respectively. In a 34.5° C atmosphere a humidity of 21 mm Hg water vapour pressure was classified as “dry”, and was tolerated for 323±123 min. RT and RR increased by 0.6° C and 316/min during the first 20 min of exposure (P〈0.05). Thereafter both parameters increased progressively, but with no significant differences between successive recording periods, until RR reached 550.3±88.8/min at 41.7° C RT. Humidities of 25, 29 and 33 mm Hg water vapour pressure were, on the other hand, classified as “wet” and were tolerated for only 92±22, 81±16 and 119±50 min, respectively. RR at the times that RT reached 41.7° C at these 3 humidities was 732±26, 789±30 and 764±23/min, respectively. The results point to the likelihood that thermal stress will adversely affect the productivity and welfare of NZW rabbits in the tropics unless adequate housing environments are provided. Significant between-individual phenotypic differences in heat tolerance suggest the need for genetic studies of the possibility of selecting for improved heat tolerance.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01048713
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