The stunning of heavy cattle and water buffalo is an animal welfare problem, as conventional cartridge fired captive-bolt stunners are not suitable due to the thicker skull bones and the greater depth of penetration required to reach and damage the relevant brain regions for deep unconsciousness. This current animal welfare problem requires a suitable and feasible as well as commercially available and legally approved stunning device to ensure deep unconsciousness of these animals. In this study, the use of a newly developed bullet-shooting stunner, the , with two different types of hunting ammunition, namely .3 and .3 bullets, was evaluated on 22 heavy cattle (mean weight: 1062.27 kg, standard deviation: 124.09 kg). In ballistic experiments, the reached a mean energy density of 8.18 J/mm (mean error: 0.45 J/mm) for the .3 and 17.56 J/mm (mean error: 2.67 J/mm) for the .3 . In experiments, the use of the .3 resulted in overpenetration three times. The .3 bullets showed to be more advantageous, because on the one hand no overpenetration occurred and on the other hand the bullets fragmented into small parts after penetration into the skull. The fragments were scattered in the brain tissue, such as the thalamus and the brain stem, and thus there is a high probability to damage the brain regions relevant for deep unconsciousness. Based on the results of this study, the use of the in combination with the .3 bullet is found to be suitable for stunning heavy cattle.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9363664 | PMC |
| http://dx.doi.org/10.3389/fvets.2022.949198 | DOI Listing |
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