Effects of High-Frequency Electrical Stunning Current Intensities on Pre-Slaughter Stunning Stress and Meat Lipid Oxidation in Geese

SIMPLE SUMMARY: China produces the largest number of meat-producing geese in the world. However, few studies have investigated the effects of electrical stunning parameters on stunning stress or meat lipid oxidation in geese. We aimed to evaluate the stunning stress and meat lipid oxidation in geese stunned at a high electrical frequency level with different electrical current intensities in a water bath. Stunning the geese at 40 mA resulted in the minimum stunning stress based on the gene expression and hormones released in the hypothalamus–pituitary–adrenal axis. Stunning geese with 40 mA resulted in low stunning stress and lipid oxidation in breast meat (d 2), with moderate antioxidant capacity in the meat of the breast (d 2) and thigh (d 0) as compared with 100 mA. A combination of 40 mA, 500 Hz, 10 s per bird is suitable for the electrical stunning of geese and for the alleviation of stunning stress and meat lipid oxidation. This study may help to alleviate stunning stress and improve meat quality in the geese production industry. ABSTRACT: Intensive slaughtering with electrical stunning (ES) is replacing traditional manual slaughtering of geese in China. This study aimed to assess stunning stress and meat lipid oxidation in geese stunned by high-frequency current intensities. Forty male Yangzhou geese, 92 days old, were randomly allocated into five treatments with eight replicates per treatment. The geese in the control group were not stunned, while the other birds were stunned by alternating current (AC) in a water bath. Each bird received a current intensity of 20 mA (E20mA), 40 mA (E40mA), 70 mA (E70mA), or 100 mA (E100mA) for 10 s at 500 Hz. The gene expression of c-jun N-terminal kinase 1 tended to decrease in the E40mA birds (p = 0.08). Stunning with 40 mA resulted in the maximum serum uric acid and urea among the ES groups and decreased serum adrenocorticotropin and creatine kinase (p < 0.01) compared with 70 mA and 100 mA. Increasing the current intensity reduced the diphenylpicrylhydrazyl free radical elimination ability and total-superoxide dismutase linearly in goose breast meat at d 2 and in thigh meat at d 0 (all p < 0.01). Stunning geese with 40 mA at 500 Hz for 10 s could alleviate stunning stress and meat lipid oxidation.