期刊论文详细信息
PHYSIOLOGY & BEHAVIOR 卷:163
Behavioural, brain and cardiac responses to hypobaric hypoxia in broiler chickens
Article
Martin, Jessica E.1,2,3,5  Christensen, Karen4  Vizzier-Thaxton, Yvonne4  Mitchell, Malcolm A.5  McKeegan, Dorothy E. F.3 
[1] Royal Dick Sch Vet Studies, Easter Bush Campus, Edinburgh EH25 9RG, Midlothian, Scotland
[2] Roslin Inst, Easter Bush Campus, Edinburgh EH25 9RG, Midlothian, Scotland
[3] Univ Glasgow, Coll Med Vet & Life Sci, Inst Biodivers Anim Hlth & Comparat Med, Glasgow G61 1QH, Lanark, Scotland
[4] Univ Arkansas, Ctr Excellence Poultry Sci, Fayetteville, AR 72701 USA
[5] SRUC, Anim & Vet Sci Res Grp, Anim Behav & Welf, Roslin Inst Bldg, Edinburgh EH25 9RG, Midlothian, Scotland
关键词: Hypobaric hypoxia;    Low atmosphere pressure stunning;    Behaviour;    Electroencephalogram;    Electrocardiogram;    Animal welfare;   
DOI  :  10.1016/j.physbeh.2016.04.038
来源: Elsevier
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【 摘 要 】

A novel approach to pre-slaughter stunning of chickens has been developed in which birds are rendered unconscious by progressive hypobaric hypoxia. Termed Low Atmospheric Pressure Stunning (LAPS), this approach involves application of gradual decompression lasting 280 s according to a prescribed curve. We examined responses to LAPS by recording behaviour, electroencephalogram (EEG) and electrocardiogram (ECG) in individual male chickens, and interpreted these with regard to the welfare impact of the process. We also examined the effect of two temperature adjusted pressure curves on these responses. Broiler chickens were exposed to LAPS in 30 triplets (16 and 14 triplets assigned to each pressure curve). In each triplet, one bird was instrumented for recording of EEG and ECG while the behaviour of all three birds was observed. Birds showed a consistent sequence of behaviours during LAPS (ataxia, loss of posture, clonic convulsions and motionless) which were observed in all birds. Leg paddling, tonic convulsions, slow wing flapping, mandibulation, head shaking, open bill breathing, deep inhalation, jumping and vocalisation were observed in a proportion of birds. Spectral analysis of EEG responses at 2 s intervals throughout LAPS revealed progressive decreases in median frequency at the same time as corresponding progressive increases in total power, followed later by decreases in total power as all birds exhibited isoelectric EEG and died. There was a very pronounced increase in total power at 50-60 s into the LAPS cycle, which corresponded to dominance of the signal by high amplitude slow waves, indicating loss of consciousness. Slow wave EEG was seen early in the LAPS process, before behavioural evidence of loss of consciousness such as ataxia and loss of posture, almost certainly due to the fact that it was completely dark in the LAPS chamber. ECG recordings showed a pronounced bradycardia (starting on average 49.6 s into LAPS), often associated with arrhythmia, until around 60 s into LAPS when heart rate levelled off. There was a good correlation between behavioural, EEG and cardiac measures in relation to loss of consciousness which collectively provide a loss of consciousness estimate of around 60 s. There were some effects of temperature adjusted pressure curves on behavioural latencies and ECG responses, but in general responses were consistent and very similar to those reported in previous research on controlled atmosphere stunning with inert gases. The results suggest that the process is humane (slaughter without avoidable fear, anxiety, pain, suffering and distress). In particular, the maintenance of slow wave EEG patterns in the early part of LAPS (while birds are still conscious) is strongly suggestive that LAPS is non-aversive, since we would expect this to be interrupted by pain or discomfort. (C) 2016 Elsevier Inc. All lights reserved.

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