Alam Muhammad Shahbubul, Song Dong-Heon, Lee Jeong-Ah, Hoa Van-Ba, Hwang Inho, Kim Hyoun-Wook, Kang Sun-Moon, Cho Soo-Hyun, Seol Kuk-Hwan
Animal Products Utilization Division, National Institute of Animal Science, Rural Development Administration, Wanju-gun 55365, Korea.
Department of Animal Science, Jeonbuk National University, Jeonju 561756, Korea.
Animals (Basel). 2022 Aug 31;12(17):2249. doi: 10.3390/ani12172249.
The objective of present study was to investigate the feasibility of utilizing only high concentration of nitrogen gas in the stunning of pigs and its effects on the quality traits of the meat and small intestine.To conduct this experiment, three treatment groups were compared: (i) electric stunning (T1), (ii) CO2 (80%) gas stunning (T2), and (iii) N2 (98%) gas stunning (T3). A total of 21 standard pigs (Landrace × Yorkshire × Duroc; LYD) were collected from a commercial pig farm, randomly selecting seven pigs for each group (body weight of 104.5 to 120.6 kg). For stunning, each individual pig was separately kept in a gas chamber, after which each specific gas was used to fulfill the desired level in the pit. To obtain the desired level of concentration for each gas (N2 at 98% and CO2 at 80%), approximately 80 min and 35 min were required, respectively. It was observed that after reaching the desired level of concentration, pigs were stunned within a very short time (for CO2, 90 s and for N2, 120 s). For electric stunning, standard quality electric devices were used. After slaughtering, the meat and small intestine of each animal was collected separately and kept in a cool room where temperature was −2 °C. In the meat and small intestine, L* (Lightness) and b* (Yellowness) were high (p < 0.05) in the T1 and T3 groups. The T2 group showed high a* (Redness) (p < 0.05) values in both the meat and small intestine. A proximate composition of meat showed no significant differences except moisture. The water holding capacity (WHC), cooking loss (CL), and Warner-Bratzler shear force (WBSF) of meat were lowest in the T2 group, but not at a notable difference compared to T3. In the small intestine, L* (Lightness), a* (Redness), b* (Yellowness), and thickness significantly differed (p < 0.05) in each group, but WBSF showed no significance between the T2 and T3 groups. It is concluded that a high concentration of N2 gas (98%) may be considered in the stunning of pigs, and its effect on meat and small intestine is favorable.
本研究的目的是探讨仅使用高浓度氮气对猪进行致昏的可行性及其对猪肉和小肠品质特性的影响。为进行本实验,比较了三个处理组:(i)电击致昏(T1),(ii)80%二氧化碳气体致昏(T2),以及(iii)98%氮气气体致昏(T3)。从一个商业养猪场收集了总共21头标准猪(长白猪×约克夏猪×杜洛克猪;LYD),每组随机挑选7头猪(体重104.5至120.6千克)。致昏时,每头猪单独置于气室中,然后使用每种特定气体使气室达到所需浓度水平。为使每种气体达到所需浓度水平(氮气98%和二氧化碳80%),分别需要约80分钟和35分钟。观察到达到所需浓度水平后,猪在很短时间内被致昏(二氧化碳为90秒,氮气为120秒)。对于电击致昏,使用标准质量的电气设备。屠宰后,分别收集每头动物的肉和小肠,并保存在温度为-2°C的冷藏室中。在肉和小肠中,T1组和T3组的L*(亮度)和b*(黄度)较高(p<0.05)。T2组在肉和小肠中的a*(红度)值均较高(p<0.05)。除水分外,肉的近似成分无显著差异。肉的持水能力(WHC)、烹饪损失(CL)和沃纳-布拉茨勒剪切力(WBSF)在T2组中最低,但与T3组相比差异不显著。在小肠中,每组的L*(亮度)、a*(红度)、b*(黄度)和厚度有显著差异(p<0.05),但T2组和T3组之间的WBSF无显著差异。结论是,在猪的致昏过程中可考虑使用高浓度的氮气(98%),其对肉和小肠的影响是有利的。