Ab. Webster et Dl. Fletcher, Reactions of laying hens and broilers to different gases used for stunningpoultry, POULTRY SCI, 80(9), 2001, pp. 1371-1377
Observations of the behavioral reactions of laying hens and broilers to dif
ferent gas stunning atmospheres were made. Sixty Hy-Line W-36 hens and 60 m
arket-weight commercial broilers were placed individually into a plexiglass
gas stunning unit and exposed to one of six gas atmospheres: air, concentr
ations of 30, 45, or 60% CO2 in air, a mixture of 70% argon and 30% CO2, an
d 100% argon. Video records were made during each test, which lasted until
the subject became unconscious or for 2 min in the air treatment. Behavior
in the 100% argon atmosphere resembled that in air, until birds became impa
ired by anoxia. All treatments involving CO2, including 70% argon/30% CO2,
caused deep breathing and head shaking. The concentration of CO2 in air in
the range tested did not affect the tendency to perform different actions,
except that birds in 60% CO2 were more likely to exhibit a convulsive flip
at the point of collapse. Chickens in 70% argon/30% CO2 tended to demonstra
te less sedation and performed more sudden efforts to regain balance during
tests than did chickens in CO2 mixtures in air and were more likely to per
form a convulsive flip. Deep breathing and head shaking have been suggested
as being indicative of respiratory distress and aversive reaction to CO2.
The data in this study are consistent with the possibility that head shakin
g is an alerting response functioning to promote arousal in the face of red
uced sensibility during exposure to CO2-enriched atmospheres. Nonetheless,
if the view is correct that deep breathing and head shaking indicate distre
ss, the 70% argon/30% CO2 gas mixture was at least as distressing as even 6
0% CO2 in air. The relative prevalence of sudden efforts to regain balance
in 70% argon/30% CO2 suggest that this gas mixture might cause even more di
stress than up to 60% CO2 in air.